ETC NR885K

Warning
● The contents in this document are subject to changes, for improvement and other purposes,
without notice.
● Be sure to check the delivery specifications before using these products.
● The operation and circuit examples in this document are provided for reference purposes
only. Sanken assumes no liability for violation of industrial property, intellectual property, or
other rights of Sanken or third parties, that stem from these examples.
● The user must take responsibility for considering and determining which objects the
products in this document are used with.
● Although we will continue to improve the quality and reliability of our products,
semiconductor products, by their nature, have certain fault and failure rates. The user must
take responsibility for designing and checking to secure the device and system so that a part
failure may not lead to human injury, fire, damages, or other losses.
● The products in this document are intended for normal electronic devices (such as home
appliances, office equipment, communication terminals, or measurement devices).
If you are considering using our products for a device that requires high reliability (such as
transport machines and their control units, traffic light control systems, disaster prevention,
and security equipment or any kind of safety equipment), make sure that you consult our
sales representative.
Do not use these products for devices that require extremely high reliability (such as
aerospace instruments, nuclear power control units, or life support systems).
● The products in this document are not designed to be radiation-proof.
● The contents in this document must not be transcribed or copied without our written consent.
SANKEN
SEMICONDUCTORS
C O N T E N T S
1
ICs
1-1
1-2
1-3
Power Management ICs ..................................................................................................... 6
1-1-1
1-1-2
Power Factor Correction (PFC) ICs ................................................................... 6
AC/DC Converter ICs .......................................................................................... 6
1-1-3
1-1-4
DC/DC Converter ICs ........................................................................................ 10
Linear Regulator ICs .......................................................................................... 64
Motor Driver ICs ................................................................................................................ 86
1-2-1
2-Phase Stepper Motor Unipolar Driver ICs .................................................... 90
1-2-2
1-2-3
3-Phase Stepper Motor Driver ICs ................................................................ 112
5-Phase Stepper Motor Driver ICs ..................................................................... 114
1-2-4
1-2-5
Brush DC Motor Driver ICs ................................................................................ 116
Low Voltage 3-Phase Brushless Motor Driver ICs ............................................. 118
1-2-6
High Voltage 3-Phase Brushless Motor Driver ICs ............................................ 120
Lighting ICs ..................................................................................................................... 142
1-3-1
LED Lighting ICs ............................................................................................. 142
1-3-2
2
3
4
Household HID Lamp Driver ICs ................................................................... 146
Transistors
2-1
Transistors ...................................................................................................................... 153
2-2
2-3
MOS FETs ....................................................................................................................... 163
IGBT ................................................................................................................................. 167
2-4
Transistors and MOS FET Arrays ................................................................................ 170
Thyristors
3-1
Thyristors ........................................................................................................................ 190
3-2
Triacs ............................................................................................................................... 192
Diodes
4-1
Rectifier Diodes .............................................................................................................. 203
4-2
4-3
Fast Recovery Diodes ................................................................................................... 204
Ultrafast Recovery Diodes ............................................................................................ 206
4-4
4-5
Schottky Barrier Diodes ................................................................................................ 209
Power Zener Diodes ...................................................................................................... 212
4-6
Silicon Varistors ............................................................................................................. 213
Part Number Index ........................................................................
216
ICs
1
○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○
Ordering Information & Standard Packing Quantities ................ 4
1-1
Power Management ICs ........................................................... 6
1-1-1
Power Factor Correction (PFC) ICs ........................... 6
1-1-2
AC/DC Converter ICs .................................................. 6
1-1-3
DC/DC Converter ICs ................................................ 10
Selection Guide .......................................................... 10
Application Note ......................................................... 11
1-1-4
Linear Regulator ICs ................................................. 64
Selection Guide .......................................................... 64
Application Note ......................................................... 65
1-2
Motor Driver ICs ..................................................................... 86
Selection Guide ...................................................................... 86
Application Note ..................................................................... 89
1-3
1-2-1
2-Phase Stepper Motor Unipolar Driver ICs .......... 90
1-2-2
3-Phase Stepper Motor Driver ICs ......................... 112
1-2-3
5-Phase Stepper Motor Driver ICs ......................... 114
1-2-4
Brush DC Motor Driver ICs ..................................... 116
1-2-5
Low Voltage 3-Phase Brushless Motor Driver ICs .. 118
1-2-6
High Voltage 3-Phase Brushless Motor Driver ICs ... 120
Lighting ICs ........................................................................... 142
1-3-1
LED Lighting ICs ...................................................... 142
1-3-2
Household HID Lamp Driver ICs ............................ 146
○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○
1 ICs
Ordering Information
All products listed must be ordered in standard packing increments.
Series Name/
Product Name
Package
Standard Packing Quantities
Bulk
Taping
Series Name/
Product Name
LC5200D
DIP8
2500
–
SLA7022MU/
LC5500D
DIP8
2500
–
7029M
LC5500F
TO220F-7
1800
–
SLA7024M/
NR885K
HSOP8(Surface-mount)
–
1000
SAI
PS4(Surface-mount)
–
2000
SCM1100M/
SCM33Pin
SCM1200M
LF.No.2551/2552/
7026M/7027MU
SLA703xM
–
2554/2556:250
SLA705xM
Bulk
Taping
1080
–
1080
–
1080
–
1080
–
1080
–
1080
–
1080
–
1080
–
(SLA15Pin)
ZIP18 with Fin
(SLA18Pin)
ZIP18 with Fin
ZIP18 with Fin
(SLA18Pin)
TO263-5(Surface-mount)
–
800
SI-3000KF
TO220F-5
2000
–
SI-3000KM
TO252-5(Surface-mount)
–
3000
SI-3000KS
SOP8(Surface-mount)
–
1000
SI-3000KWM
TO252-5(Surface-mount)
–
3000
SI-3000LLSL
SOP8(Surface-mount)
–
1000
SI-3000LSA
SOP8(Surface-mount)
–
1000
SI-3000LU
SOT89-5(Surface-mount)
–
1000
SI-3000ZD
TO263-5(Surface-mount)
–
800
SI-3000ZF
TO220F-5
2000
–
SMA682xMP/
SI-7321M
HSOP44(Surface-mount)
–
2000
685xM/686xM
DIP30
680
–
SMA7022MU/
TO220F-5
2000
–
7029M
SI-8000FD
TO263-5(Surface-mount)
–
800
SMA7036M
SI-8000FFE
TO220F-5
2000
–
SI-8000GL
DIP8
2500
–
SI-8000HD
TO263-5(Surface-mount)
–
800
SI-8000HFE
TO220F-5
2000
SI-8000E
ZIP15 with Fin
Standard Packing Quantities
(SLA18Pin)
SI-3000KD
SI-7510
Package
SLA706xM
ZIP21 with Fin
(SLA21Pin)
SLA707xMR/MPR
ZIP23 with Fin
(SLA23Pin)
SLA708xMPR
ZIP23 with Fin
(SLA23Pin)
SLA7611M
ZIP18 with Fin
(SLA18Pin)
SMA24Pin
LF.No.2451/2457:1080
–
LF.No.2452/2453:1008
ZIP15
1440
–
ZIP15(SMA15Pin)
1440
–
SPI-6631M
HSOP16(Surface-mount)
–
1400
SPI-8000A
HSOP16(Surface-mount)
–
1400
SPI-8000TW
HSOP16(Surface-mount)
–
1400
–
SSC2000S
SOP8(Surface-mount)
–
1000
SSC2100S
SOP8(Surface-mount)
–
1000
DIP16
1250
–
(SMA15Pin)
SI-8000JD
TO263-5(Surface-mount)
–
800
SI-8000JF
TO220F-5
2000
–
SI-8000Q
HSOP8(Surface-mount)
–
1000
SSC9510S
SOP18(Surface-mount)
–
2000
SI-8000S
TO220F-5
2000
–
STA6940M
ZIP18(STA18Pin)
LF.No434:1785
–
STA801M
SSC9510
SI-8000SD
TO263-5(Surface-mount)
–
800
ZIP10(STA10Pin)
100
–
SI-8000TFE
TO220F-5
2000
–
STR-A6000
DIP8
2500
–
SI-8000TM
TO252-5(Surface-mount)
–
3000
STR-A6100
DIP8
2500
–
SI-8000W
SOP8(Surface-mount)
–
1000
STR-L400
SIP10(STA10Pin)
3300
–
SI-8000Y
TO220F-7
2000
–
STR-L6400
SIP10(STA10Pin)
3300
–
DIP8
2500
–
STR-V100
SIP8(STA8Pin)
4050
–
SI-8205NHD
HSOP8(Surface-mount)
–
1000
STR-W6000S
TO220F-6
1800
–
SI-8400L
Non-package type (EI-12.5 core)
864
–
STR-W6200D
TO220F-6
1800
–
SI-8500L
SI-8100QL
Non-package type (EI-19 core)
320
–
STR-W6700
TO220F-6
1800
–
SI-8511NVS
TSSOP24
–
2800
STR-X6700
TO3PF-7
500
–
SLA2600M
SLA24Pin
LF.No.2176/2179:648
–
STR-Y6400
TO220F-7
1800
–
STR-Y6700
TO220F-7
1800
–
SLA6805MP
SLA23Pin
SX68000M
SOP27(Surface-mount)
–
LF1890:3000
LF.No.2151/2152:648
–
LF.No.2153:540
SLA682xM/
686xM/6845M
4
ICs
SLA24Pin
LF.No.2171/2178:648
LF.No.2175:540
–
1 ICs
ICs
5
1-1 Power Management ICs
1-1-1 Power Factor Correction (PFC) ICs
Control ICs
●Continuous Conduction Mode (CCM) PFC Control IC
For high power and high efficiency applications, with brown-in and brown-out functions
Series Name
SSC2000
Part Number
Oscillation Frequency
Package
Fixed to 65kHz
SOP8
SSC2001S
●Interleaved Discontinuous Conduction Mode (DCM) PFC Control IC
8-pin package, minimum number of discrete components, low noise, and low ripple
Series Name
SSC2100
Part Number
Maximum on-time
Package
15µs
SOP8
SSC2101S
1-1-2 AC/DC Converter ICs
●PWM type
<STR-A6000 Series>
• For small power applications
• Low noise, low standby power
• Brown-in and brown-out functions
Oscillation Frequency
MOSFET VDSS
RDS(ON)
STR-A6051M
Part Number
67kHz
650V
3.95Ω
STR-A6052M
67kHz
650V
2.8Ω
STR-A6053M
67kHz
650V
1.9Ω
STR-A6059H
100kHz
650V
6.0Ω
STR-A6062H
100kHz
700V
2.8Ω
STR-A6069H
100kHz
700V
6.0Ω
STR-A6079M
67kHz
800V
19.2Ω
Package
DIP8
<STR-V600 Series>
• Low height, at least 4 mm of creepage isolation between high and low terminal tips
• Low noise, low standby power
• SIP8 package version of STR-A6000
Part Number
Oscillation Frequency
MOSFET VDSS
RDS(ON)
Package
67kHz
650V
1.9Ω
SIP8
Oscillation Frequency
MOSFET VDSS
RDS(ON)
Package
STR-W6051S
67kHz
650V
3.95Ω
STR-W6052S
67kHz
650V
2.8Ω
STR-W6053S
67kHz
650V
1.9Ω
Oscillation Frequency
MOSFET VDSS
RDS(ON)
STR-W6251D
67kHz
650V
3.95Ω
STR-W6252D
67kHz
650V
2.8Ω
STR-W6253D
67kHz
650V
1.9Ω
STR-V653
<STR-W6000S Series>
• Low noise, low standby power
• Brown-in and brown-out functions
Part Number
TO220F-6
<STR-W6200D Series>
• Low noise, low standby power
• External latch protection (ELP) function
Part Number
6
ICs
Package
TO220F-6
1-1-2 AC/DC Converter ICs
●Pulse ratio control (PRC) type with off-time period fixed (originated by Sanken Electric)
<STR-A6100 Series>
• For small power applications
• Low noise, low standby power
Part Number
Fixed off-time period
MOSFET VDSS
RDS(ON)
Auto burst standby function
STR-A6131
500V
3.95Ω
Yes
STR-A6132
500V
2.62Ω
Yes
8µs
STR-A6159
650V
6Ω
Yes
STR-A6151
650V
3.95Ω
Yes
STR-A6131M
500V
3.95Ω
No
650V
6Ω
No
650V
3.95Ω
No
STR-A6159M
11.5µs
STR-A6151M
STR-A6153E
STR-A6169
8µs
650V
1.9Ω
No
800V
19.2Ω
Yes
Package
DIP8
<STR-V100 Series>
• Low height, at least 4 mm of creepage isolation between high and low terminal tips
• Low noise, low standby power
• SIP8 package version of STR-A6100
Part Number
Fixed off-time period
MOSFET VDSS
RDS(ON)
STR-V152
8µs
650V
2.8Ω
STR-V153
11.5µs
650V
2Ω
Package
SIP8
●Quasi resonance type
<STR-Y6700 Series>
• High efficiency in full load range
• Low noise, low standby power
Part Number
MOSFET VDSS
RDS(ON)
STR-Y6735
500V
0.8Ω
STR-Y6753
650V
1.9Ω
STR-Y6754
650V
1.4Ω
STR-Y6763
800V
3.5Ω
STR-Y6765
800V
2.2Ω
STR-Y6766
800V
1.7Ω
Package
TO220F-7
<STR-Y6400 Series>
• High efficiency in full load range
• Low noise, low standby power
• Mode change delay time adjustable
Part Number
MOSFET VDSS
RDS(ON)
STR-Y6453
650V
1.8Ω
STR-Y6456
650V
0.73Ω
STR-Y6473
850V
3.6Ω
STR-Y6476
850V
1.3Ω
Package
TO220F-7
<STR-L6400 Series>
• Low height, at least 6.5 mm of creepage isolation between high and low terminal tips
• High efficiency in full load range, low noise, and low standby power
• SIP10 package version of STR-Y6400
Part Number
STR-L6472
MOSFET VDSS
RDS(ON)
850V
6.5Ω
Package
SIP10
ICs
7
1-1-2 AC/DC Converter ICs
<STR-L400 Series>
• Low height, at least 6.5 mm of creepage isolation between high and low terminal tips
• Low noise, high efficiency
Part Number
MOSFET VDSS
RDS(ON)
STR-L451
650V
3.95Ω
STR-L472
900V
7.7Ω
Package
SIP10
<STR-W6700 Series>
• High efficiency in full load range
• Low noise, undervoltage lockout (UVLO) standby function
Part Number
MOSFET VDSS
RDS(ON)
Auto burst
oscillation
Bottom-skip
QR operation
450V
1.4Ω
No
Yes
STR-W6723N
STR-W6734
500V
1.0Ω
Yes
Yes
STR-W6735
500V
0.57Ω
Yes
Yes
STR-W6735N
500V
0.57Ω
No
Yes
STR-W6753
650V
1.7Ω
Yes
Yes
STR-W6754
650V
0.96Ω
Yes
Yes
STR-W6750F
650V
0.73Ω
Yes
No
STR-W6756
650V
0.73Ω
Yes
Yes
STR-W6756N
650V
0.73Ω
No
Yes
STR-W6765
800V
1.8Ω
Yes
Yes
STR-W6765N
800V
1.8Ω
No
Yes
Auto burst
oscillation
Bottom-skip
QR operation
Yes
Package
TO220F-6
<STR-X6700 Series>
• High efficiency in full load range
• Low noise, undervoltage lockout (UVLO) standby function
Part Number
MOSFET VDSS
RDS(ON)
STR-X6729
450V
0.189Ω
No
STR-X6737
500V
0.36Ω
Yes
Yes
STR-X6737M
500V
0.36Ω
No
Yes
STR-X6756
650V
0.73Ω
Yes
Yes
STR-X6757
650V
0.62Ω
Yes
Yes
STR-X6757N
650V
0.62Ω
No
Yes
STR-X6750B
650V
0.62Ω
No
No
STR-X6750F
650V
0.62Ω
Yes
No
STR-X6759N
650V
0.385Ω
No
Yes
STR-X6759F
650V
0.385Ω
Yes
No
STR-X6759B
650V
0.385Ω
No
No
STR-X6768N
800V
1.0Ω
No
Yes
STR-X6769
800V
0.66Ω
Yes
Yes
STR-X6769B
800V
0.66Ω
No
No
●Current resonance type
<SSC9510 Series>
• Half-bridge resonance
• High efficiency, low noise
• Brown-in and brown-out functions
Part Number
Package
SSC9512
DIP16
SSC9512S
SOP18
8
ICs
Package
TO3PF-7
ICs
9
1-1-3 DC/DC Converter ICs
Selection Guide
<Single Output>
Surface-Mount Type
Output Current
Output Voltage
(V)
Series Name
(A)
3.3
5.0
0.5
◎
◎
SI-8000W
0.6
◎
◎
SI-8000JD
1.5
◎
◎
SI-8000TM
1.5
NR885K
3.0
SI-8205NHD
3.0
SI-8000SD
3.0
SPI-8000A
3.0
SI-8000Q
3.5
SI-8000FDE
3.5
SI-8000FDL
3.5
SI-8000HD
5.5
Variable (Reference Voltage)
(V)
9.0
12
0.8
Oscillation
Frequency
(V)
(kHz)
35
60
PS-4
12
35
60
SOP8
14
1.0
◎
0.4
SAI
0.5
Maximum
Input Voltage
◎
◎
Remarks
Page
43
125
TO263-5
16
◎
43
300
TO252-5
18
◎
20
350
HSOP8
Current mode control, soft start
52
46
200 to 1000
HSOP8
Current mode control, synchronous rectifier
50
43
60
TO263-5
53
250
HSOP16
30
500
HSOP8
◎
43
300
TO263-5
◎
43
300
TO263-5
◎
43
150
TO263-5
Maximum
Input Voltage
Oscillation
Frequency
Package
(V)
(kHz)
◎
◎
Package
◎
◎
◎
20
22
Current mode control
26
28
Active: low
28
30
Thru-Hole Type
Output Current
Output Voltage
(V)
Series Name
(A)
3.3
5.0
9.0
Variable (Reference Voltage)
(V)
12
15
0.5
0.8
1.0
1.5
SI-8400L
0.5
◎
35
60
SI-8000E
0.6
◎
43
60
SI-8500L
1.0
SI-8000JF
1.5
SI-8000TFE
1.5
SI-8000GL
1.5
◎
◎
◎
◎
◎
◎
◎
◎
◎
◎
SI-8000S
3.0
SI-8100QL
3.5
SI-8000FFE
3.5
SI-8000HFE
5.5
◎
SI-8000Y
8.0
◎
◎
◎
◎
◎
◎
◎
◎
Remarks
Non-package type With coil and built-in diode
TO220F-5
Page
54
32
35
60
43
125
Non-package type With coil and built-in diode
TO220F-5
54
34
43
300
TO220F-5
36
53
250
DIP8
38
43*1
60
TO220F-5
30
350
DIP8
43
300
TO220F-5
43
150
TO220F-5
45
130
TO220F-7
40
Current mode control
42
44
46
Current mode control
48
*1: 35V for SI-8033S
<Multi Output>
Output Current
Output Voltage
Maximum Input Voltage
Oscillation Frequency
(A)
(V)
(V)
(kHz)
43
Package
Remarks
Page
125
ZIP10
Built-in flywheel diode
56
21
250
HSOP16
58
40
250
HSOP16
58
40
200 to 400
HSOP16 Frequency variable
58
Part Number
STA801M
SPI-8001TW
SPI-8002TW
SPI-8003TW
ch1
0.5
5
ch2
0.5
Select from 9.0, 11.5, 12.1, and 15.5.
ch1
1.5
Variable (1.0 to 16 V)
ch2
1.5
Variable (1.0 to 16 V)
ch1
1.5
Variable (1.0 to 24 V)
ch2
1.5
Variable (1.0 to 24 V)
ch1
1.5
Variable (1.0 to 24 V)
ch2
1.5
Variable (1.0 to 24 V)
<Control ICs>
Variable (Reference Voltage)
Maximum Input Voltage
Oscillation Frequency
(V)
(V)
(kHz)
1.1
25
100 to 400
Series Name
SI-8511NVS
10
ICs
Package
TSSOP24
Remarks
Synchronous rectifier, PRC (fixed to ton)
Page
62
1-1-3 DC/DC Converter ICs
Application Note
■ Heat Dissipation and Reliability
■ Mounting Torque
The reliability of an IC is highly dependent on its operating temperature.
Please be sure to apply silicone grease to the IC and to mount it to the
heatsink with a proper mounting torque.
Heatsink design should pay particular attention to ensuring sufficient heat
dissipation capacity.
In addition, please take into account the air convection in operation.
The reliability of discrete components such as capacitors and coils is
closely related to temperature. A high operating temperature may reduce
the service life. Exceeding the allowable temperature may burn the coils or
damage capacitors. It is important to make sure that the temperature of
output smoothing coils and input/output capacitors do not exceed their
allowable levels during operation. With an adequate derating for the coils,
minimize heat emission as far as possible. (For discrete components, refer
to the individual user manuals.)
SI-8000E
SI-8000JF
SI-8000S
SI-8000TFE
SI-8000HFE
SI-8000FFE
SI-8000Y
■ Internal Power Dissipation
PD can be obtained from the following formula.
• For the device with built-in flywheel diode:
PD=VO•IO ( 100 –1)
ηχ
• For the device with external flywheel diode:
PD=VO•IO ( 100 –1)–VF•IO(1– VO )
ηχ
VIN
Efficiency ηχ depends on the input/output conditions. Please refer to
the efficiency characteristics of the devices. (Posted on the Web site.)
VO :
VIN:
IO :
ηχ :
VF :
Output voltage
Input voltage
Output current
Efficiency(%)
Diode forward voltage
■ Thermal Design
The maximum junction temperature Tj(max) given in the Absolute Maximum
Ratings is specific to each product type and must be strictly observed.
Thus, thermal design must consider the maximum power dissipation
PD(max), which varies by the conditions of use, and the maximum ambient
temperature Ta(max).
To simplify thermal design, Ta-PD characteristic graphs are provided herein.
Please observe the following steps for heatsink design:
1. Obtain the maximum ambient temperature Ta(max).
2. Obtain the maximum power dissipation PD(max).
3. Look for the intersection point on the Ta-PD characteristic graph and
determine the size of the heatsink.
Although the heatsink size is now obtained, in actual applications, 10-to20% derating factor is generally introduced. Moreover, the heat dissipation
capacity of a heatsink highly depends on how it is mounted. Thus, it is
recommended to measure the heatsink and case temperature in the actual
operating environment.
Please refer to the Ta-PD characteristic graphs for respective product
types.
0.588 to 0.686[N•m] (6.0 to 7.0[kgf•cm])
■ Recommended Silicone Grease
• Shin-Etsu Chemical Co., Ltd.: G746
• Momentive Performance Materials Inc.: YG-6260
• Dow Corning Toray Silicone Co., Ltd.: SC102
Please select proper silicone grease carefully since the oil in some grease
products may penetrate the device and result in an extremely short device
life.
■ Others
• Devices can not be operated in parallel connection aiming for a larger
current.
• Not applicable for the current boost or voltage step-up use.
■ Rectifier Diodes for Power Supplies
To rectify the AC input using rectifier diodes in power supplies, please use
SANKEN rectifier diodes shown in the following list. (Please use a centertap or bridge configuration in using stand-alone type diodes.)
Series Name
SAI Series
SI-8000W Series
SI-8000JD Series
SI-8000TM Series
SI-8000SD Series
SPI-8000A Series
SI-8005Q Series
SI-8001FDE Series
SI-8001FDL Series
SI-8008HD Series
SI-8000E Series
SI-8000JF Series
SI-8000TFE Series
SI-8000GL Series
SI-8000S Series
SI-8100QL Series
SI-8000FFE Series
SI-8000HFE Series
SI-8000Y Series
SI-8205NHD Series
STA801M Series
SI-8400L Series
SI-8500L Series
Diodes
SJPM-H4 (Surface-Mount Stand-Alone Type,
VRM=400V,Io=2.0A)
FMM-22S,R (Center-tap Type,VRM=200V,IO=10 A)
AM01Z (Axial Type,VRM=200V,Io=1.0A)
RM10Z (Axial Type,VRM=200V,Io=1.5A)
RM4Z (Axial Type,VRM=200V,Io=3.0A)
FMM-22S,R (Center-tap Type,VRM=200 V,IO=10 A)
RM10Z (Axial Type,VRM=200V,Io=1.5A)
AM01Z (Axial Type,VRM=200V,Io=1.0A)
AM01Z (Axial Type,VRM=200V,Io=1.0A)
ICs
11
1-1-3 DC/DC Converter ICs
SAI Series Surface-Mount, Separate Excitation Step-down Switching Mode
■Features
■Line up
• Surface-mount power package
Part Number
SAI01
SAI02
SAI03
VO(V)
5.0
3.3
12.0
• Output current: 0.4 to 0.5A
IO(A)
0.5
0.4
• High efficiency: 75 to 88%
• Requires only 4 discrete components
■Absolute Maximum Ratings
• Internally-adjusted phase correction and
output voltage
Parameter
• Built-in reference oscillator (60kHz)
• Built-in overcurrent and thermal protection
circuits
Symbol
Ratings
DC Input Voltage
VIN
35
Unit
V
Power Dissipation
PD
0.75
W
°C
Junction Temperature
Tj
+125
Storage Temperature
Tstg
–40 to +125
°C
Thermal Resistance(junction to case)
θ j-c
20
°C/W
■Applications
• Power supplies for telecommunication
equipment
• Onboard local power supplies
■Recommended Operating Conditions
Ratings
Parameter
Symbol
DC Input Voltage Range
VIN
Output Current Range
IO
Operating Junction Temperature Range
Unit
SAI01
SAI02
SAI03
7 to 33
5.3 to 28
15 to 33
0 to 0.5
Tjop
V
0 to 0.4
A
–30 to +125
°C
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Symbol
min.
Output Voltage
4.80
Conditions
Oscillation Frequency
Line Regulation
Load Regulation
Temperature Coefficient of Output Voltage
Ripple Rejection
Overcurrent Protection
Starting Current
ICs
f
Conditions
5.00
5.20
3.17
∆VO/∆Ta
RREJ
Conditions
min.
3.30
3.43
11.40
max.
12.00
12.60
75
88
VIN=24V, IO=0.3A
60
60
60
VIN=15V, IO=0.3A
60
20
100
30
70
VIN=15V, IO=0.1 to 0.4A
VIN=24V, IO=0.1 to 0.4A
±0.5
±0.5
±1.5
45
45
45
f=100 to 120HZ
f=100 to 120HZ
f=100 to 120HZ
0.55
VIN=10V
kHZ
130
mV
VIN=18 to 30V, IO=0.3A
VIN=20V, IO=0.1 to 0.4A
0.55
%
VIN=24V, IO=0.3A
80
VIN=8 to 28V, IO=0.3A
40
V
VIN=24V, IO=0.3A
VIN=15V, IO=0.3A
100
Unit
SAI03
typ.
80
30
Conditions
max.
VIN=15V, IO=0.3A
VIN=10 to 30V, IO=0.3A
∆VOLOAD
SAI02
typ.
VIN=20V, IO=0.3A
80
Conditions
Conditions
min.
VIN=20V, IO=0.3A
∆VOLINE
IS1
max.
VIN=20V, IO=0.3A
η
Efficiency
12
VO
Conditions
SAI01
typ.
95
mV
mV/°C
dB
0.45
VIN=8V
VIN=18V
A
SAI Series
■External Dimensions (PS4)
(unit : mm)
4.32
±0.25
max.
4.7
1VIN
A Case Temperature Measuring Point
±0.2
+0.15
0.75 –0.05
±0.15
2.54
4
.GND
0.89
±0.2
2 SW
3VOS
1.4
max.
±0.2
6.8
3.6
max.
4.0
±0.5
8.0
A
±0.2
0.25
0.3 –0.05
+0.15
6.3
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 0.22g
0 to 0.15
±0.2
3.0
±0.3
1.0
±0.3
9.8
■Typical Connection Diagram
■Block Diagram
VIN
Pin Assignment
q VIN
w SWOUT
e VOS
r GND
1
2 SWOUT
OCP
Reg.
VIN
OSC
1
SWOUT
VIN
TSD
Reset
SAI
Drive
Comp.
C1
100µF
3 VOS
Amp.
+
GND
4
VOS
L1
2
3.3V 5V : 200µH
12V : 300µH
VO
3
D1
SJPB-D4
(Sanken)
+
C2
330µF
GND
VREF
GND
4
GND
■Ta-PD Characteristics
PD=VO•IO
0.8
• Glass epoxy
board
(95×69×1.2)
• Natural air cooling
Power Dissipation PD (W)
0.7
0.6
0.5
0.4
–VF•IO 1–
VO
VIN
The efficiency depends on the input voltage and the output
current. Therefore, obtain the value from the efficiency graph
and substitute the percentage in the formula above.
VO : Output voltage
IO : Output current
ηχ : Efficiency (%)
VF : Diode D1 forward voltage
SJPB-D4-0.3V
0.3
0.2
0.1
0
–30
100
–1
ηχ
0
25
50
75
100
Ambient Temperature Ta (°C)
125
Thermal design for D1 must be considered separately.
ICs
13
1-1-3 DC/DC Converter ICs
SI-8000W Series
Surface-Mount, Separate Excitation Step-down Switching Mode
■Features
■Absolute Maximum Ratings
• Surface-mount package (SOP8)
Parameter
• Output current: 0.6A
• High efficiency: 75 to 80%
Symbol
Ratings
DC Input Voltage
VIN
35
Unit
V
Power Dissipation
PD
1
W
°C
Junction Temperature
Tj
–30 to +125
• Requires only 4 discrete components
Storage Temperature
Tstg
–40 to +125
°C
• Internally-adjusted phase correction and
output voltage adjustment performed internally
Thermal Resistance (Junction to 7-Pin Lead)
θ j-L
22
°C/W
Thermal Resistance (Junction to Ambient Air)*1
θ j-a
100
°C/W
*1: Glass-epoxy board of 40 × 40mm (copper laminate area 4.3%)
• Built-in reference oscillator (60kHz)
• Built-in overcurrent and thermal protection
circuits
■Applications
• Power supplies for telecommunication equipment
• Onboard local power supplies
■Recommended Operating Conditions
Ratings
Symbol
Parameter
SI-8033W
Unit
SI-8050W
DC Input Voltage Range
VIN
Output Current Range
IO
0 to 0.6
A
Tjop
–30 to +125
°C
Operating Junction Temperature Range
5.3 to 28
7 to 33
V
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Symbol
SI-8033W
min.
Output Voltage
3.17
Conditions
Oscillation Frequency
Line Regulation
Load Regulation
Temperature Coefficient of Output Voltage
Ripple Rejection
Overcurrent Protection Starting
Current
ICs
max.
min.
3.30
3.43
4.80
VIN=15V, IO=0.3A
η
Efficiency
14
VO
Conditions
SI-8050W
typ.
f
Conditions
Conditions
5.20
75
80
VIN=20V, IO=0.3A
60
60
VIN=15V, IO=0.3A
VIN=20V, IO=0.3A
20
Conditions
5.00
VIN=20V, IO=0.3A
80
80
VIN=8 to 28V, IO=0.3A
∆VOLOAD
max.
VIN=15V, IO=0.3A
60
∆VOLINE
30
30
VIN=20V, IO=0.1 to 0.4A
∆VO/∆Ta
±0.5
±0.5
RREJ
45
45
f=100 to 120HZ
f=100 to 120HZ
IS1
Conditions
0.61
0.61
VIN=15V
VIN=20V
V
%
kHZ
100
VIN=10 to 30V, IO=0.3A
VIN=15V, IO=0.1 to 0.4A
Conditions
Unit
typ.
40
mV
mV
mV/ °C
dB
A
SI-8000W Series
■External Dimensions (SOP8)
(Unit : mm)
5.1±0.4
1.27
6
5
1
2
3
4
6.2±0.3
7
4.4±0.2
8
0.15+0.1
–0.05
0.5±0.1
0.4±0.1
o1
0°
1.27
1.5±0.1
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 0.1g
0.05±0.05
0.10
0.12 M
1.55±0.15
0t
0.995max.
0.4±0.1
■Typical Connection Diagram
■Block Diagram
VIN
Pin Assignment
q VIN
w N.C
e SW
r VOS
t GND
y GND
u GND
i GND
1
3 SW
L1
OCP
200µH
Reg.
OSC
VIN
1
SI-8000W
TSD
Reset
SW
VIN
Drive
Comp.
C1
100µF
+
GND
5 to 8
4 VOS
Amp.
VOS
3
VO
4
D1
+
C2
330µF
SJPB-D4
(Sanken)
GND
GND
VREF
5 to 8
GND
■Reference Data
Copper Laminate Area vs. Power Dissipation
1.2
Tj=100°C Area of PC board : 40 × 40mm
Copper Laminate Area vs. Thermal Resistance θ j-a
140
Area of PC board : 40 × 40mm
Ta=25°C
Ta=50°C
120
Ta=80°C
Thermal Resistance θ j-a (°C/W)
Power Dissipation PD (W)
1
0.8
100
0.6
0.4
0.2
0
10
100
Copper Laminate Area (mm2)
(GND Terminal)
1000
80
60
40
10
100
1000
Copper Laminate Area (mm2)
(GND Terminal)
ICs
15
1-1-3 DC/DC Converter ICs
SI-8000JD Series
Surface-Mount, Separate Excitation Step-down Switching Mode
■Features
■Lineup
• Surface-mount package (TO263-5)
Part Number
SI-8033JD
SI-8050JD
SI-8090JD
SI-8120JD
VO(V)
3.3
5.0
9.0
12.0
• Output current: 1.5A
IO(A)
• High efficiency: 77 to 88%
• Requires only 4 discrete components
1.5
■Absolute Maximum Ratings
• Internally-adjusted phase correction and
output voltage
Parameter
• Capable of downsizing a choke-coil due to IC's
high switching frequency (125 kHz). (Compared with conventional Sanken devices)
Symbol
Ratings
Unit
DC Input Voltage
VIN
43
V
Output Current
IO
1.5
A
PD
3
W
°C
Power
• Built-in foldback-overcurrent and thermal
protection circuits
• Output ON/OFF available (Circuit current at
output OFF: 200µA max)
Dissipation*
Junction Temperature
Tj
+125
Storage Temperature
Tstg
–40 to +125
°C
Thermal Resistance (Junction to Case)
θ j-c
3
°C/W
Thermal Resistance (Junction to
Ambient Air)
θ j-a
33.3
°C/W
Conditions
When mounted on glass-epoxy board 40 × 40 mm (copper
area 100%)
When mounted on glass-epoxy board 40 × 40 mm (copper
area 100%)
*: Limited by thermal protection circuit
• Soft start available by ON/OFF pin Conditions
■Applications
• Power supplies for telecommunication equipment
• Onboard local power supplies, etc.
■Recommended Operating Conditions
Ratings
Parameter
Symbol
DC Input Voltage Range
SI-8033JD
SI-8050JD
SI-8090JD
SI-8120JD
VIN1
5.3 to 40
7 to 40
11 to 40
14 to 40
VIN2
6.3 to 40
8 to 40
12 to 40
15 to 40
DC Output Current Range*
Unit
Conditions
IO=0 to 1A
V
IO=0 to 1.5A
IO
0 to 1.5
A
Operating Junction Temperature Range
Tjop
–30 to +125
°C
VIN≥VO+3V
Operating Temperature Range*
Top
–30 to +125
°C
*: Limited by Ta–PD characteristics
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Symbol
VO
Output Voltage
SI-8033JD
typ.
max.
min.
3.234
3.30
3.366
4.90
Conditions
η
Efficiency
Conditions
f
Oscillation Frequency
Conditions
Load Regulation
Temperature Coefficient of Output Voltage
Overcurrent Protection
Starting Current
ON/OFF*
Pin
Conditions
IS1
Conditions
typ.
max.
min.
typ.
max.
5.00
5.10
8.82
9.00
9.18
11.76
12.00
12.24
VIN=20V, IO=0.5A
VIN=21V, IO=0.5A
VIN=24V, IO=0.5A
77
82
86
88
VIN=15V, IO=0.5A
VIN=20V, IO=0.5A
VIN=21V, IO=0.5A
VIN=24V, IO=0.5A
125
125
125
125
VIN=15V, IO=0.5A
VIN=20V, IO=0.5A
VIN=21V, IO=0.5A
VIN=24V, IO=0.5A
80
40
100
10
10
30
VIN=15V, IO=0.2 to 0.8A
50
40
10
VIN=20V, IO=0.2 to 0.8A
±0.5
40
mV/ °C
1.6
A
VIN=24V
VSSL
0.5
0.5
0.5
0.5
Outflow Current
at Low Voltage
ISSL
100
100
100
100
Quiescent Circuit Current
Conditions
Iq(oFF)
Conditions
7
VIN=15V, Io=0A
7
VIN=20V, Io=0A
200
VIN=15V, VON/OFF=0.3V
7
VIN=21V, Io=0A
200
VIN=20V, VON/OFF=0.3V
V
µA
VSSL=0V
7
*: Pin 5 is the ON/OFF pin. Soft start at power on can be performed with a capacitor connected to
this pin.
The output can also be turned ON/OFF with this pin.
The output is stopped by setting the voltage of this pin to VSSL or lower.
ON/OFF-pin voltage can be changed with an open-collector drive circuit of a transistor.
When using both the soft-start and ON/OFF functions together, the discharge current from C3
flows into the ON/OFF control transistor. Therefore, limit the current securely to protect the
transistor if C3 capacitance is large.
The ON/OFF pin is pulled up to the power supply in the IC, so applying the external voltage is
prohibited.
mA
VIN=24V, Io=0A
200
200
VIN=21V, VON/OFF=0.3V
VIN=24V, VON/OFF=0.3V
µA
SI-8000JD
SI-8000JD
SI-8000JD
5 ON/OFF
5 ON/OFF
5 ON/OFF
C3
VOUT. ON/OFF
ICs
mV
VIN=24V, IO=0.2 to 0.8A
VIN=21V
Conditions
mV
40
±1.0
1.6
VIN=20V
kHZ
130
10
±1.0
1.6
VIN=15V
60
%
VIN=18 to 30V, IO=0.5A
VIN=21V, IO=0.2 to 0.8A
±0.5
1.6
120
VIN=15 to 30V, IO=0.5A
V
Low Level Voltage
Iq
16
Unit
min.
VIN=10 to 30V, IO=0.5A
∆VO/∆Ta
SI-8120JD
max.
VIN=8 to 30V, IO=0.5A
∆VOLOAD
Conditions
SI-8090JD
typ.
VIN=15V, IO=0.5A
25
∆VOLINE
Line Regulation
SI-8050JD
min.
Soft Start
C3
Soft Start
+VOUT. ON/OFF
SI-8000JD Series
■External Dimensions (TO263-5)
(Unit : mm)
±0.2
10.0
(8.0)
±0.2
1.2
(2×R0.45)
(3°)
±0.3
±0.15
0.10
(3°)
±0.1
(3°)
±0.2
2.54
(R0.3)
4.9
±0.3
±0.2
2.4
(R0.3)
2.0
(0.75)
±0.2
4.9
±0.10
0.88
0 to 6°
(0.5)
±0.1
±0.1
±0.25
(1.7
0.8
±0.25
)
(1.7
)
1
2
3
4
Pin Assignment
q VIN
w SWOUT
e GND
r VOS
t ON/OFF
15.30
15.3
9.2±
±0.3
±0.2
(6.8)
±0.2
1.3 +0.10
–0.05
±0.2
(4.6)
3-R0.3
φ1.5 Dp:
(4.4)
±0.2
4.5
9.2
(15°)
(1.75)
(0.40)
Case temperature
measurement point
±0.25
(1.7
0.8
±0.25
(1.7
)
)
Plastic Mold Package Type
Flammability: 94V-0
Product Mass: Approx. 1.48g
5
±0.2
9.9
(3°)
(3°)
2-R0.3
±0.02
10.0
■Typical Connection Diagram
■Block Diagram
L1
VIN
1
SWOUT
VIN
PReg.
SI-8000JD
OCP
5 ON/OFF
+
Latch &
Drive
Reset
SWOUT
VIN
2
C1
ON/OFF
Soft
Start
1
VOS
2
VOUT
4
+
ON/OFF GND
5
3
Di
C2
C3
OSC
GND
+
–
TSD
Comp.
Error Amp.
C1
C2
C3
L1
Di
4
+
–
VREF
GND
3
:
:
:
:
:
GND
50V/220µF
25V/470µF
10V/0.47µF (Only when using soft-start function)
100µH
SJPB-H6 (Sanken)
■Reference Data
Thermal Resistance (junction to ambient air)
θ j-a (°C/W )
Copper Laminate Area on Glass Epoxy Board vs.
Thermal Resistance (Junction to Ambient Air) (Typical Value)
Output Current vs. Power Dissipation (Typical)
Power Dissipation Pd (W)
55
50
With glass epoxy board of 40 × 40 mm
45
40
35
30
0
200
400
600
800
1000
1200
1400
1600
1800
Copper Laminate Area (mm2)
2.6
2.4
2.2
2.0
1.8
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0
40V
30V
20V
VIN 8V
0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
Output Current IO (A)
■Ta-PD Characteristics
3.5
Power Dissipation PD (W)
3
Copper Area
40×40 mm
( θ j-a : 33.3°C/W)
PD=VO·IO
20×40 mm
( θ j-a : 37°C/W)
2.5
20×20 mm
( θ j-a :44°C/W)
2
10×10 mm
( θ j-a : 53°C/W)
100
VO
–1 –VF·IO 1–
ηχ
VIN
The efficiency depends on the input voltage and the output current. Therefore, obtain the value
from the efficiency graph and substitute the percentage in the formula above.
VO : Output Voltage
1.5
VIN : Input Voltage
IO : Output Current
1
ηχ : Efficiency (%)
0.5
VF : D1 forward voltage
0
–25
0
25
50
75
100
125
0.4V(IO=2A)(SJPB-H6)
Ambient Temperature Ta (°C)
Thermal design for D1 must be considered separately.
ICs
17
1-1-3 DC/DC Converter ICs
SI-8000TM Series
Surface-Mount, Separate Excitation Step-down Switching Mode
■Features
■Absolute Maximum Ratings
• Compact surface-mount package (TO252-5)
Parameter
Symbol
Ratings
Unit
VIN
43
V
PD1
1.06
PD2
1.65
Junction Temperature*
Tj
–30 to +150
Storage Temperature
Tstg
–40 to +150
°C
Thermal Resistance (Junction to Case)
θ j-c
6
°C/W
Thermal Resistance (Junction to
Ambient Air)
θ j-a
95
°C/W
• Output current: 1.5 A
DC Input Voltage
• High efficiency: 81% typ. (at Vo = 5 V)
Power Dissipation
• Requires only 4 discrete components
• Built-in reference oscillator (300 kHz)
• Built-in drooping-type-overcurrent and thermal
protection circuits
W
Conditions
When mounted on glass-epoxy board (900 mm2 copper area 4.3%)
When mounted on glass-epoxy board (900 mm2 copper area 50%)
°C
When mounted on glass-epoxy board (900 mm2 copper area 4.3%)
*: This product has built-in thermal protection circuits that may operate when the junction temperature rises above
130°C.
The recommended design for the junction temperature during operation is below 125°C.
• Output ON/OFF available (circuit current at
output OFF: 200 µA typ.)
• Soft start available by ON/OFF pin
■Applications
• Onboard local power supplies
• AV equipment
• OA equipment
■Recommended Operating Conditions
Ratings
Parameter
Symbol
Unit
SI-8008TM
Input Voltage Range
VIN
VO+3*1 to 40
V
Output Voltage
VO
0.8 to 24
V
Output Current Range
IO
0 to 1.5
A
Operating Junction Temperature Range
Tjop
–20 to +100
°C
Operating Temperature Range
Top
–20 to +85
°C
*1: The minimum value of an input voltage range is the higher of 4.5 V or VO + 3 V.
■Electrical Characteristics
(Ta=25°C)
Rating
Parameter
Reference Voltage
Temperature Coefficient of
Reference Voltage
Symbol
min.
0.784
VADJ
Conditions
∆VADJ/∆T
Conditions
η
Efficiency
Conditions
Oscillation Frequency
fo
300
VIN=15V, Io=0.5A
60
VIN=10 to 30V, Io=0.5A
10
VIN=15V, Io=0.2 to 1.5A
Conditions
∆VOLINE
Line Regulation
Conditions
∆VOLOAD
Load Regulation
Conditions
Overcurrent Protection Starting Current
IS
SI-8008TM
typ.
0.800
VIN=15V, Io=0.1A
±0.1
VIN=15V, Io=0.1A, Tc=0 to 100°C
81
VIN=15V, Io=0.5A
Outflow Current
at Low Voltage
ISSL
Conditions
Conditions
6
VIN=15V, Io=0A
Conditions
200
VIN=15V, VSS=0V
Iq (OFF)
*: Pin 5 is the SS pin. Soft start at power on can be performed with a capacitor connected to this pin. The
output can also be turned ON/OFF with this pin.
The output is stopped by setting the voltage of this pin to VSSL or lower. SS-pin voltage can be changed
with an open-collector drive circuit of a transistor. When using both the soft-start and ON/OFF functions
together, the discharge current from C3 flows into the ON/OFF control transistor. Therefore, limit the
current securely to protect the transistor if C3 capacitance is large. The SS pin is pulled up to the power
supply in the IC, so applying the external voltage is prohibited. If the pin is not used, leave it open.
kHz
mV
40
mV
A
0.5
40
V
µA
mA
400
SI-8000TM
5 SS
VO. ON/OFF
ICs
%
VIN=15V
10
VSSL=0V
Iq
18
mV/°C
1.6
Conditions
Quiescent Circuit Current
V
80
Low Level Voltage VSSL
ON/OFF Pin*
Unit
max.
0.816
µA
SI-8000TM
5 SS
SI-8000TM
5 SS
C3
C3
Soft start
Soft start
+VO. ON/OFF
SI-8000TM Series
■External Dimensions (TO252-5)
(Unit : mm)
6.60±0.20
±0.20
5.34
±0.20
2.30
±0.20
(5.04)
0.50±0.10
(1.50)
5
1.10
±0.20
6.60
5.34±0.20
(4.06)
9.90
0.1
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 0.33 g
8°
0 to
0.50±0.10
0.50±0.10
1.27 TYP
2.70±0.20
1.18±0.20
(0.89)
2.70±0.20
9.90
SEATING PLANE
0.00 to 0.127
±0.30
R0
±0.30
6.10±0.20
.3 2
Pin Assignment
q IN
w SW
e GND
r ADJ
t SS
(1.00)
1.27 TYP
2.30±0.20
1
2
3
4
5
■Block Diagram
■Typical Connection Diagram
L1
L47µH
SW
IN
5 SS
ON/OFF
Soft Start
2
Overcurrent
Protection
PReg.
SW
IN
SI-8000TM
C1
220µF
Latch &
Drive
Reset
+
SS
5
GND
3
2
VO
R1
ADJ 4
+
R2
Di
C2
470µF
IADJ
C3
OSC
+
–
Thermal
Protection
Comp.
Error Amp.
+
+
–
1
1
VIN
SI-8008TM
Reference Voltage
GND
3
GND
GND
ADJ
4
C1
C2
C3
L1
Di
: 220µF
: 470µF
: 1µF (Only when using soft-start function)
: 47µF
: SJPB-H6 (Sanken)
ICs
19
1-1-3 DC/DC Converter ICs
SI-8000SD Series
Surface Mount, Separate Excitation Step-down Switching Mode
■Features
■Lineup
• Surface-mount package (TO263-5)
Part Number
SI-8033SD
VO (V)
3.3
• Output current: 3.0A
SI-8050SD
5.0
IO (A)
• High efficiency: 79% typ. (SI-8033SD), 84%
typ. (SI-8050SD)
3
■Absolute Maximum Ratings
• Requires only 4 discrete external components
Parameter
• Internally-adjusted phase correction and
output voltage
• Built-in reference oscillator (60kHz)
Symbol
Ratings
Unit
DC Input Voltage
VIN
43*1
V
Power Dissipation*2
PD
3
W
°C
Conditions
When mounted on glass-epoxy board 40 × 40 mm
(copper area: 100%)
• Built-in overcurrent and thermal protection
circuits
Junction Temperature
Tj
+125
Storage Temperature
Tstg
–40 to +125
°C
Thermal Resistance (Junction to Case)
θ j-c
3
°C/W
• Output ON/OFF available
Thermal Resistance
(Junction to Ambient Air)
θ j-a
33.3
°C/W
• Soft start available by S.S pin
When mounted on glass-epoxy board 40 × 40 mm
(copper area: 100%)
*1: 35V for SI-8033SD
*2: Limited by thermal protection circuit.
■Applications
• Power supplies for telecommunication equipment
• Onboard local power supplies
■Recommended Operating Conditions
Ratings
Parameter
Symbol
SI-8033SD
SI-8050SD
5.5 to 28
7 to 40
Unit
DC Input Voltage Range
VIN1
Output Current Range*
IO
0 to 3.0
V
A
Operating Junction Temperature Range
Tjop
–30 to +125
°C
Operating Temperature Range*
Top
–30 to +125
°C
*: Limited by Ta-PD characteristics.
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Symbol
SI-8033SD
min.
Output Voltage
Line Regulation
Load Regulation
Temperature Coefficient of Output Voltage
Overcurrent Protection
Starting Current
Start
f
Conditions
∆VO/∆Ta
20
5.0
5.2
79
84
VIN=20V, IO=1A
60
60
V
%
kHZ
VIN=20V, IO=1A
80
40
100
mV
VIN=10 to 30V, IO=1A
30
10
40
VIN=15V, IO=0.5 to 1.5A
VIN=20V, IO=0.5 to 1.5A
±0.5
±0.5
mV
mV/°C
3.1
VIN=15V
VIN=20V
0.2
0.2
30
Conditions
40
20
A
V
30
40
µA
VSSL=0.2V
SI-8000SD
SI-8000SD
5 ON/OFF
5 ON/OFF
C3
VOUT. ON/OFF
ICs
max.
VIN=15V, IO=1A
* Pin 5 is a soft start pin. Soft start at power on can be performed with a capacitor connected to
this pin.
The output can also be turned ON/OFF with this pin.
The output is stopped by setting the voltage of this pin to VSSL or lower.
Soft-start pin voltage can be changed with an open-collector drive circuit of a transistor.
When using both the soft-start and ON/OFF functions together, the discharge current from C3
flows into the ON/OFF control transistor. Therefore, limit the current securely to protect the
transistor if C3 capacitance is large.
The ON/OFF pin is pulled up to the power supply in the IC, so applying the external voltage is
prohibited.
If this pin is not used, leave it open.
20
Unit
typ.
VIN=20V, IO=1A
3.1
Conditions
ISSL
4.8
10
Conditions
Outflow Current at
Low Voltage
3.43
VIN=8 to 28V, IO=1A
∆VOLOAD
VSSL
3.3
25
Conditions
Low-Level Voltage
min.
VIN=15V, IO=1A
∆VOLINE
IS1
max.
VIN=15V, IO=1A
Conditions
Oscillation Frequency
Pin*
3.17
η
Efficiency
Soft
VO
Conditions
SI-8050SD
typ.
Soft start
SI-8000SD
5 ON/OFF
C3
Soft start
+VOUT. ON/OFF
SI-8000SD Series
■External Dimensions (TO263-5)
(Unit : mm)
±0.2
10.0
(4.4)
1.2
±0.2
4.5
15.30
±0.3
±0.3
±0.1
±0.2
±0.3
2.0
2.54
±0.2
(0.75)
(R0.3)
0 to 6°
(0.5)
±0.1
±0.1
0.8
±0.25
)
(1.7
±0.25
(1.7
)
1
2
3
4
Plastic Mold Package Type
Flammability: 94V-0
Product Mass: Approx. 1.48g
±0.2
2.4
(R0.3)
4.9
15.3
9.2±
±0.2
±0.15
0.10
(3°)
(3°)
4.9
±0.10
0.88
±0.2
(2×R0.45)
(3°)
(6.8)
±0.2
φ1.5 Dp:
1.3 +0.10
–0.05
9.2
(4.6)
3-R0.3
(1.75)
(15°)
Pin Assignment
q VIN
w SWOUT
e GND
r VOS
t S.S
(8.0)
±0.2
(0.40)
Case temperature
measurement point
(1.7
±0.25
)
0.8
±0.25
(1.7
)
5
±0.2
9.9
(3°)
(3°)
2-R0.3
±0.02
10.0
■Block Diagram
■Reference Data
Copper Laminate Area on Glass Epoxy Board vs.
thermal resistance (junction to ambient air) (Typical Value)
VIN
SWOUT
2
Thermal resistance (junction to ambient air)
θ j-a (°C/W)
1
Overcurrent
protection
Internal power
supply
Oscillator
Reset
Latch & driver
Thermal
protection
Comparator
VOS
4
Error
amplifier
Reference voltage
S.S
55
50
With glass epoxy board of 40 × 40 mm
45
40
35
30
0
200
400
600
800
1000
1200
1400
1600
1800
Copper Laminate Area (mm2)
GND
5
3
■Typical Connection Diagram
L1
1
VIN
SWOUT
VIN
SI-8000SD
C1
+
S.S
5
GND
3
VOS
2
VOUT
4
+
D1
C2
C1 : 50V/1000µF
C2 : 50V/1000µF
C3 : 0.01µF
(only when soft start function is used)
L1 : 150µH
D1 : SPB-G56 (Sanken)
C3
GND
GND
Diode D1
• Be sure to use Schottky-barrier diode as D1.
If other diodes like fast recovery diodes are used, ICs may be destroyed because of the reverse voltage generated by the recovery voltage or ON
voltage.
Choke coil L1
• If the winding resistance of the choke coil is too high, the efficiency may drop below the rated value.
• As the overcurrent protection starting current is about 3.5 A, take care concerning heat radiation from the choke coil caused by magnetic saturation
due to overload or short-circuited load.
Capacitors C1, C2, and C3
• As large ripple currents flow through C1 and C2, use high-frequency and low-impedance capacitors aiming for switching-mode-power-supply use.
Especially when the impedance of C2 is high, the switching waveform may become abnormal at low temperatures.
For C2, do not use a capacitor with an extremely low equivalent series resistance (ESR) such as an OS capacitor or a tantalum capacitor, which may
cause an abnormal oscillation.
• C3 is a capacitor for soft start. Leave pin 5 open if the soft start function is not used.
This pin is pulled up with a pull-up resistor inside the ICs.
To create the optimum operating conditions, place the components as close as possible to each other.
ICs
21
1-1-3 DC/DC Converter ICs
SPI-8000A Series
Surface Mount, Separate Excitation Step-down Switching Mode
■Features
■Absolute Maximum Ratings
• Surface-mount 16 pin package
Parameter
(Ta=25°C)
Symbol
Ratings
Unit
• Output current: 3.0A
DC Input Voltage
VIN
53
V
• High efficiency: 91% (at VIN = 10V, lO = 1A, VO
= 5V)
Power Dissipation
PD*1, *2
2.4
W
Junction Temperature
Tj
+125
°C
• Capable of downsizing a choke-coil due to IC's
high switching frequency (125kHz). (Compared with conventional Sanken devices)
Storage Temperature
Tstg
–40 to +125
°C
Thermal Resistance (junction to case)
θ j-c*2
18
°C/W
Thermal Resistance (junction to ambient air)
θ j-a*2
50
°C/W
• The output-voltage-variable type can vary its
output voltage from 1V to 14V because of its
low reference voltage (Vref) of 1V.
*1: Limited due to thermal protection.
*2: When mounted on glass-epoxy board 700cm2 (copper laminate area 30.8cm2).
• Wide Input Voltage Range (8 to 50V)
• Output ON/OFF available
• Built-in overcurrent and thermal protection
circuits
■Applications
• Onboard local power supplies
• OA equipment
• For stabilization of the secondary-side output voltage of switching power supplies
■Recommended Operating Conditions
Ratings
Parameter
Symbol
Unit
SPI-8010A
DC Input Voltage Range
VIN
(8 or Vo+3)*1 to 50
V
Output Voltage Range
VO
1 to 14
V
Output Current Range*2
IO
0.02 to 3.0*2
A
Operating Junction Temperature Range
Tjop
–30 to +125
°C
Operating Temperature Range
Top
–30 to +125
°C
*1: The minimum value of an input voltage range is the higher of either 8V or VO+3V.
*2: Please be sure to let the output current run more than 20 mA. When using by less than 20 mA, there is a possibility that the output voltage becomes unstable.
■Electrical Characteristics
(Ta=25°C)
Rating
Parameter
Symbol
SPI-8010A (Variable type)
min.
Reference Voltage
Line Regulation
Load Regulation
Temperature Coefficient of
Reference Voltage
Overcurrent Protection
Starting Current
Quiescent Circuit Current
Circuit Current at Output OFF
1.00
1.03
%
VIN=20V, IO=1A, VO=5V
250
Conditions
kHZ
VIN=12V, IO=1A
20
∆VOLINE
Conditions
40
mV
VIN=10 to 30V, IO=1A
10
∆VOLOAD
Conditions
30
mV
VIN=12V, IO=0.1 to 1.5A
∆VREF/∆Ta
mV/°C
±0.5
3.1
Conditions
Iq
Conditions
A
VIN=12V
7
mA
VIN=12V, IO=0A
Iq(off)
Conditions
400
µA
VIN=12V, VON/OFF=0.3V
Low Level Voltage
VSSL
0.5
Outflow Current at
Low Voltage
ISSL
50
Conditions
* Pin 4 is the CE/SS pin. Soft start at power on can be performed with a capacitor connected to
this pin. The output can also be turned ON/OFF with this pin. The output is stopped by setting
the voltage of this pin to VSSL or lower. CE/SS-pin voltage can be changed with an opencollector drive circuit of a transistor. When using both the soft-start and ON/OFF functions
together, the discharge current from C4 flows into the ON/OFF control transistor. Therefore,
limit the current securely to protect the transistor if C3 capacitance is large.
The CE/SS pin is pulled up to the power supply in the IC, so applying the external voltage is
prohibited.
VSSL=0V
ICs
V
µA
SPI-8000A
SPI-8000A
SPI-8000A
4 CE/SS
4 CE/SS
4 CE/SS
C4
VO. ON/OFF
22
V
86
FOSC
IS
max.
VIN=12V, IO=1A
Conditions
Oscillation Frequency
Terminal
0.97
Eff
Efficiency
CE/SS
VREF
Conditions
Unit
typ.
Soft start
C4
Soft start
+VO. ON/OFF
SPI-8000A Series
■External Dimensions (HSOP16)
(Unit : mm)
1+0.1/-0.05
(Heatsink thickness)
10.5±0.2
9
1
8
10.5±0.3
2.5±0.2
2.75MAX
2.0+0.2/-0.08
16
0.25+0.15/-0.05
S
0.10
Pin Assignment
1.AGND
2.N.C
3.DGND
4.CE/SS
5.Reg
6.N.C
7.SWOUT
8.N.C
9.N.C
10.N.C
11.VIN
12.B.S
13.N.C
14.Comp
15.VREF
16.N.C
S
12.2±0.2
(Gate remains: Not included in dimensions)
(11)
8
(4.5)
7.5±0.2
(2)
1
16
9
1.27±0.25
Product Mass : Approx 0.86g
0.4+0.15/-0.05
■Block Diagram
SPI-8010A
VIN
UVLO
CE/SS
P.REG
OCP
CE/SS
BS
Boot REG
TSD
DRIVE
Reg
OSC
+
-
PWM
LOGIC
SWOUT
VREF
Comp
Amp
+
1V
GND
ICs
23
1-1-3 DC/DC Converter ICs
■Typical Connection Diagram
SPI-8010A
12
B.S
R1
L1
C3
11
VIN
VIN
SPI-8010A
SWOUT
V0
7
4
C1
D1 R2
CE/SS
+
C7
Reg Comp AGND
5
C4
14
C5
1
DGND VREF
+
C2
15
R3
3
C8
IREF
C6
GND
GND
C1: 220µF/63V
C2: 470µF/25V
C3: 0.1µF
C4: 1000pF
C5: 0.1µF
C6: 0.047µF
C7: 0.1µF
C8: 0.1µF
R1: 47Ω
L1: 47µH
D1: SPB-G56S
(Sanken)
Diode D1
• Be sure to use a Schottky-barrier diode for D1. If other diodes like fast recovery diodes are used, ICs may be destroyed because of the reverse voltage
generated by the recovery voltage or ON voltage.
Choke coil L1
• If the winding resistance of the choke coil is too high, the efficiency may drop below the rated value.
• As the overcurrent protection starting current is about 4.5A, take care concerning heat radiation from the choke coil caused by magnetic saturation due to
overload or short-circuited load.
Capacitors C1, C2
• As large ripple currents flow through C1 and C2, use high-frequency and low-impedance capacitors aiming for switching-mode-power-supply use. Especially
when the impedance of C2 is high, the switching waveform may become abnormal at low temperatures. For C2, do not use a capacitor with an extremely low
equivalent series resistance (ESR) such as an OS capacitor or a tantalum capacitor, which may cause an abnormal oscillation.
Resistors R2, R3
• R2 and R3 are the resistors to set the output voltage. Set their values so that IREF becomes approx. 2mA. Obtain R2 and R3 values by the following formula:
R2=
VREF
(VOUT–VREF) (VOUT–1)
1
.=500(Ω)
=
(Ω), R3 =
=
.
IREF
2×10–3
IREF
2×10–3
To create the optimum operating conditions, place the components as close as possible to each other.
■Ta-PD Characteristics
3.00
Power Dissipation PD (W)
PD=VO • IO
2.50
θ j-a:41.7°C/W(30.8cm2)
θ j-a:47.6°C/W(8.64cm2)
Note 1: The efficiency depends on the input voltage and the output current. Therefore, obtain the value from the efficiency graph and
substitute the percentage in the formula above.
Note 2: Thermal design for D1 must be considered separately.
2.00
θ j-a:62.5°C/W(0.84cm2)
1.50
1.00
0.50
0
–30
0
25
50
75
100
Ambient Temperature Ta (°C)
24
ICs
100
VO
–1 –VF • IO 1–
ηχ
VIN
125
VO : Output voltage
VIN : Input voltage
IO : Output current
ηχ : Efficiency (%)
VF : Diode D1 forward voltage
SPB-G56S···0.4V(IO=2A)
ICs
25
1-1-3 DC/DC Converter ICs
SI-8000Q Series Surface Mount, Current Mode Cntrol Step-down Switching Mode
■Features
■Absolute Maximum Ratings
• Compact surface-mount package (HSOP8)
Symbol
Ratings
Unit
• Introduction of current mode control method
Input Voltage
VIN
30
V
• Output current: 3.5 A
Power Dissipation*1
PD
1.35
W
Junction Temperature*2
Tj
–30 to +150
°C
Storage Temperature
Tstg
–40 to +150
°C
Thermal Resistance(junction to case)
θ j-c
40
°C/W
Thermal Resistance(junction to ambient air)
θ j-a
74
°C/W
• High efficiency: 90% (Vo = 5 V)
• Built-in reference oscillator (500 kHz)
• A ceramic capacitor can be used for output
• Built-in drooping-type overcurrent and thermal
protection circuits
Parameter
Conditions
When mounted on glass-epoxy board, 30×30 mm (copper laminate area: 25×25 mm)
When mounted on glass-epoxy board, 30×30 mm (copper laminate area: 25×25 mm)
*1: Limited by thermal protection circuit
*2: Note that the detection temperature for thermal protection is about 140°C.
• Built-in soft start circuit
• Built-in on/off function (Active Hi)
• Low current consumption during off
■Applications
• DVD recorder, FPD-TV
• Onboard local power supplies
• OA equipment
■Recommended Operating Conditions
Ratings
Parameter
Symbol
Unit
SI-8005Q
Vo+3*1
DC Input Voltage Range
VIN
Output Voltage Range
VO
0.5 to 24
to 28
Output Current Range
IO
0 to 3.5
A
Operating Junction Temperature Range
Tjop
–30 to +125
°C
Operating Temperature Range
Top
–30 to +85
°C
Conditions
V
V
*1: The minimum value of the input voltage range is 4.75 V or Vo +3 V, whichever is higher.
■Electrical Characteristics
(R1=4.2kΩ, R2=0.8kΩ when Ta = 25°C and Vo=5V)
Rating
Parameter
SI-8005Q
Symbol
min.
Reference Voltage
Temperature Coefficient of Reference Voltage
VADJ
0.485
Conditions
Oscillation Frequency
Line Regulation
Load Regulation
Overcurrent Protection Starting Current
∆VADJ/∆T
0.500
0.515
0.05
Conditions
VIN=12V, Io=1A, Ta=–40 to +85°C
Conditions
VIN=12V, Io=1A
450
Conditions
550
30
Conditions
60
VIN=8 to 28V, Io=1A
30
∆VOLOAD
Conditions
60
VIN=12V, Io=0.1 to 3.5A
3.6
Conditions
6.0
VIN=12V
Iq
18
Conditions
Outflow Current at Low Voltage
High Level Voltage
EN Pin
Low Level Voltage
Inflow Current at Low Low Voltage
20
Conditions
VIN=12V, Io=0A, VEN=0V
Conditions
VIN=16V, VSSL=0V
ISSL
5
Vc/EN
2.2
VIN=12V
Conditions
VEN=0V
IC/EH
mV
A
µA
V
VIN=12V
Vc/EL
Conditions
mV
µA
2.8
Conditions
kHz
mA
VIN=12V, Io=0A, VEN=open
Iq(OFF)
SS Pin
%
VIN=16V, Io=1A
∆VOLINE
IS
500
V
mV/ °C
90
fo
Quiescent Circuit Current
max.
VIN=12V, Io=1A
η
Efficiency
Unit
typ.
5
V
µA
Error Amplifier Voltage Gain
AEA
1000
V/V
Error Amplifier Transformer Conductance
GEA
800
µA/V
Current Sense Amplifier Impedance
1/GCS
0.35
V/A
Maximum ON Duty
DMAX
92
%
Minimum ON Time
DMIN
100
nsec.
*: Pin 8 is the SS pin. Soft start at power on can be performed with a capacitor connected to this pin.
The SS pin is pulled up to the power supply in the IC, so applying the external voltage is prohibited.
SI-8008Q
8 SS
C8
26
ICs
Soft start
SI-8000Q Series
■External Dimensions (HSOP8)
Pin Assignment
1BS
2IN
3SW
4GND
5FB
6COMP
7EN
0.08±0.08
6.20
4.40
Pin 1 Mark
0.05±0.05
(Unit : mm)
Enlarged View of A
1.50
0.695 TYP
5.20
0.15
A
8SS
0.4
1.27
0.40
Plastic Mold Package Type
2.70
Flammability: UL 94V-0
2.90
Product Mass: Approx. 0.1 g
■Block Diagram
2
IN
Current
Sense
Amp
OSC
Boot
REG
OCP
5v_ldo
P.REG
1
BS
VREF
0.5V
PWM
LOGIC
ON
OFF
7
EN
OVP
TSD
Drive
3
SW
5v_ldo
6
COMP
5
FB
Amp
UVLO
0.5V
4
GND
8
SS
■Typical Connection Diagram
VIN
7
2
IN
1
BS
EN
C4
R1
SI-8000Q
8
C1
SS
GND
COMP
6
C5
C6
OPEN
C3
R3
VO
L1
SW 3
FB 5
D1
GND
4
VFB
C2
R2
IADJ
GND
C1:10µF/50V
(Murata:GRM55DB31H106KA87)
C2:22µF/16V
(Murata:GRM32ER71A226KE20)
C3:560pF
(Murata:GRM18 Type)
C4:10nF
(murata: GRM18 Type)
C5:10nF
(murata: GRM18 Type)
L1:10µH
D1: SPB-G56S (Sanken)
SJPB-L4 (Sanken)
R1:46kΩ (Vo=5V)
R2:5.1kΩ
R3:24kΩ
ICs
27
1-1-3 DC/DC Converter ICs
SI-8000FD Series Surface Mount, Separate Excitation Step-down Switching Mode
■Lineup
■Features
• Surface-mount package (TO263-5)
Part Number
• Output current: 3.5 A
SI-8001FDE
SI-8001FDL
VO(V)
IO(A)
• High efficiency: 83% (Vo = 5 V, VIN = 15 V, Io = 2 A)
• Built-in drooping-type overcurrent and thermal
protection circuits
3.5
Function
• Requires only 6 discrete components
• Built-in reference oscillator (300 kHz)
Variable(0.8 to 24)
Soft start
ON/OFF
■Absolute Maximum Ratings
Parameter
• Built-in soft start circuit (Output ON/OFF
available)
Symbol
Input Voltage
- SI-8001FDE
• Built-in on/off function (active Low)
- SI-8001FDL
• Low current consumption during off
- SI-8001FDL
Ratings
SI-8001FDE SI-8001FDL
VIN
43
Unit
Conditions
V
ON/OFF Control Voltage
Vc
Power Dissipation*1
PD
–
3
VIN
W
V
Junction Temperature*2
Tj
+150
°C
Storage Temperature
Tstg
–40 to +150
°C
Thermal Resistance (Junction to Case)
θj-c
3*1
°C/W
When mounted on glass-epoxy board measuring 40×40 mm (copper laminate area: 100%)
Thermal Resistance (Junction to Ambient Air)
θj-a
33.3*1
°C/W
When mounted on glass-epoxy board measuring 40×40 mm (copper laminate area: 100%)
When mounted on glass-epoxy board measuring 40×40 mm (copper laminate area: 100%)
*1 : Limited by thermal protection circuit
*2 : This product has built-in thermal protection circuits that may activate when the junction temperature exceeds 130°C.
The recommended design for the junction temperature during IC operation is below 125°C.
■Applications
• DVD recorder, FPD-TV
• OA equipment, such as printers
• Onboard local power supplies
■Recommended Operating Conditions
Parameter
Ratings
Symbol
SI-8001FDE
Unit
SI-8050FDL
VIN
Output Voltage Range
VO
Output Current Range
IO
Operating Junction Temperature Range
Tjop
Operating Temperature Range
Top
*1: The minimum value of the input voltage range is 4.5 V or Vo + 3 V, whichever is higher.
Input Voltage Range
Vo+3*1 to 40
V
0.8 to 24
V
0 to 3.5
A
–30 to +100
°C
–30 to +85
°C
■Electrical Characteristics
(R1=4.2kΩ, R2=0.8kΩ when Ta = 25°C and Vo=5V)
Ratings
Parameter
Symbol
SI–8001FDE
min.
Reference Voltage
Temperature Coefficient of Reference Voltage
∆VADJ/∆T
Conditions
Line Regulation
Load Regulation
Overcurrent Protection Starting Current
fO
min.
0.800
0.816
0.784
83
83
VIN=15V, Io=2A
VIN=15V, Io=2A
300
330
50
mV
50
mV
3.6
VIN=15V
6
0.5
–
–
–
30
–
–
–
–
–
VIN=15V, VSS=0V
–
–
ON/OFF Control Voltage (Output off)
Vc, IL
–
–
–
Ic, IH
–
–
–
–
V
2.0
V
6
100
–
Vc=2V
Iq
6
6
VIN=15V, Io=0A
µA
mA
VIN=15V, Io=0A
600
30
VIN=15V, Vss=0V
*1: Pin 5 is the SS pin. Soft start at power on can be performed with a capacitor connected to
this pin. The output can also be turned ON/OFF with this pin. The output is stopped by
setting the voltage of this pin to VSSL or lower. SS-pin voltage can be changed with an
open-collector drive circuit of a transistor. When using both the soft-start and ON/OFF
functions together, the discharge current from C3 flows into the ON/OFF control transistor.
Therefore, limit the current securely to protect the transistor if C3 capacitance is large. The
SS pin is pulled up (3.7 V typ.) to the power supply in the IC, so applying the external
voltage is prohibited. If this pin is not used, leave it open.
*2: Output is OFF when the output control terminal VC is open. Each input level is equivalent to
V
µA
0.8
Conditions
200
A
VIN=15V
–
Conditions
kHz
VIN=15V, Io=0.2 to 3.5A
3.6
Conditions
%
80
VIN=15V, Io=0.2 to 3.5A
Iq(OFF)
mV/ °C
VIN=10 to 30V, Io=2A
Vc, IH
Quiescent Circuit Current
300
80
Conditions
V
VIN=15V, Io=2A
ON/OFF Control Voltage (Output on)
ON/OFF Controll Current (Output on)
270
VIN=10 to 30V, Io=2A
Conditions
ISSL
330
VIN=15V, Io=2A
∆VOLOAD
VSSL
0.816
±0.1
Conditions
Outflow Cuurent
0.800
VIN=15V, Io=0.2A
VIN=15V, Io=0.2A, Tc=0 to 100°C
∆VOLINE
IS
max.
±0.1
270
Conditions
Unit
typ.
VIN=15V, Io=0.2A, Tc=0 to 100°C
Conditions
Low Level Voltage
at Low Voltage
max.
VIN=15V, Io=0.2A
Conditions
Oscillation Frequency
ON/OFF Pin*2
0.784
Conditions
η
Efficiency
SS Pin*1
VADJ
SI–8001FDL
typ.
200
µA
VIN=15V, Vc=2V
SI-8001FDE
5 SS
SI-8001FDE
5 SS
C3
SI-8001FDE
5 SS
C3
LS-TTL. Therefore, the device can be driven directly by LS-TTLs.
VO.ON/OFF
28
ICs
Soft start
Soft start
+Vo. On/OFF
SI-8000FD Series
■External Dimensions (TO263-5)
(Unit : mm)
±0.2
10.0
(8.0)
±0.2
1.2
(4.4)
±0.2
4.5
+0.10
1.3 –0.05
(6.8)
±0.3
15.30
15.3
±0.1
±0.2
±0.2
±0.3
2.54
(0.75)
±0.2
2.0
2.4
(R0.3)
4.9
9.2±
±0.3
±0.15
0.10
(3°)
(3°)
4.9
±0.10
0.88
(R0.3)
0 to 6°
(0.5)
±0.1
±0.1
0.8
±0.25
)
(1.7
±0.25
(1.7
)
1
2
3
4
Pin Assignment
1 IN
2 SW
3 GND (Common to the rear side of the
product)
4 VADJ
5 SS or Vc
(2×R0.45)
(3°)
±0.2
φ1.5 Dp:
±0.2
(4.6)
3-R0.3
±0.2
9.2
(15°)
(1.75)
(0.40)
Case temperature
measurement point
Plastic Mold Package Type
Flammability: UL 94V-0
Product Mass: Approx. 1.48g
0.8
±0.25
(1.7
)
±0.25
(1.7
)
5
±0.2
9.9
(3°)
(3°)
2-R0.3
±0.02
10.0
■Block Diagram
SI-8001FDE
1
SI-8001FDL
SW
IN
PReg.
SW
VIN
1
2
PReg.
OCP
5 SS
2
OCP
5 VC
ON/OFF
Soft
start
Latch &
Drive
Reset
Latch &
Drive
Reset
ON/OFF
OSC
OSC
+
–
ADJ
VADJ
TSD
Comp.
Error Amp.
4
TSD
Comp.
4
Error Amp.
–
+
+
VREF
VREF
GND
GND
3
3
■Typical Connection Diagram
L1
1
VIN
SW
IN
SI-8000FDE
+
C1
SS
5
GND
3
L1
2
VOUT
1
VIN
SI-8001FDL
R1
ADJ 4
+
C2
R2
Di
SW
IN
+
C1
Vc
5
GND
3
IADJ
2
VOUT
R1
ADJ 4
+
C2
R2
Di
IADJ
C3
GND
GND
C1
C2
C3
L1
Di
: 470µF
: 680µF
: 0.1µ (Only when using soft-start function)
: 47µH
: SPB-G56S (Sanken)
GND
GND
C1
C2
L1
Di
: 470µF
: 680µF
: 47µH
: SPB-G56S (Sanken)
ICs
29
1-1-3 DC/DC Converter ICs
SI-8000HD Series Surface-Mount, Separate Excitation Step-down Switching Mode
■Features
■Absolute Maximum Ratings
• Surface-mount package (TO263-5)
Symbol
Ratings
Unit
• Output current: 5.5 A
Input Voltage
VIN
43
V
• High efficiency: 83% (at TYP, Vo = 5 V)
Power Dissipation*1
PD
3
W
Junction Temperature*2
Tj
+150
°C
Storage Temperature
Tstg
–40 to +150
°C
Thermal Resistance (Junction to Case)
θj-c
3
°C/W
When mounted on glass-epoxy board measuring 40×40 mm (copper laminate area: 100%)
Thermal Resistance (Junction to Ambient Air)
θj-a
33.3
°C/W
When mounted on glass-epoxy board measuring 40×40 mm (copper laminate area: 100%)
• Requires only 5 discrete components (SI8008HD)
• Built-in reference oscillator (150 kHz)
• Built-in drooping-type overcurrent and thermal
protection circuits
• Built-in soft start circuit (Output ON/OFF
available)
Parameter
Conditions
When mounted on glass-epoxy board measuring 40×40 mm (copper laminate area: 100%)
*1: Limited by thermal protection circuit
*2: This product has built-in thermal protection circuits that may activate when the junction temperature exceeds 130°C.
The recommended design for the junction temperature during IC operation is below 125°C.
• Low current consumption during off
■Applications
• DVD recorder, FPD-TV
• Onboard local power supplies
• OA equipment
■Recommended Operating Conditions
Parameter
Ratings
Symbol
Unit
SI-8008HD
Input Voltage Range
VIN
Vo+3*1 to 40
V
Output Voltage Range
VO
0.8 to 24
V
Output Current Range
IO
0 to 5.5
A
Operating Junction Temperature Range
Tjop
–30 to +100
°C
Operating Temperature Range
Top
–30 to +85
°C
Conditions
VIN ≥ Vo+3V
*1: The minimum value of the input voltage range is 4.5 V or Vo+3 V, whichever is higher.
■Electrical Characteristics
(R1=4.2kΩ, R2=0.8kΩ when Ta=25°C and Vo=5V)
Ratings
Paramter
Symbol
SI-8008HD
min.
VADJ
Reference Voltage
0.784
Conditions
Temperature Coefficient of Reference Voltage
max.
0.800
0.816
Oscillation Frequency
(∆VADJ/∆T)
±0.1
Conditions
VIN=15V, Io=1A, Tc=0 to 100°C
Conditions
VIN=15V, Io=3A
Conditions
VIN=15V, Io=3A
Outflow Current at Low Voltage
IS
20
5.6
50
6.5
Conditions
mV
7.5
A
VIN=15V
VSSL
0.5
ISSL
10
Conditions
VSSL=0V
Conditions
VIN=15V, Io=0A
V
30
µA
6
Iq(OFF)
*1: Pin 5 is the SS pin. Soft start at power on can be performed with a capacitor connected to
this pin. The output can also be turned ON/OFF with this pin.
The output is stopped by setting the voltage of this pin to VSSL or lower. SS-pin voltage
can be changed with an open-collector drive circuit of a transistor. When using both the
soft-start and ON/OFF functions together, the discharge current from C3 flows into the ON/
OFF control transistor. Therefore, limit the current securely to protect the transistor if C3
capacitance is large. The SS pin is pulled up (3.7 V typ.) to the power supply in the IC, so
applying the external voltage is prohibited. If this pin is not used, leave it open.
mA
200
400
µA
VIN=15V, VSS=0V
SI-8008HD
SI-8008HD
5 SS
5 SS
C3
VO.ON/OFF
ICs
mV
VIN=15V, Io=0.2 to 5.5A
Conditions
30
80
VIN=10 to 30V, Io=3A
Iq
Quiescent Circuit Current
kHz
60
Conditions
Low Level Voltage
%
150
∆VOLOAD
Overcurrent Protection Starting Current
SS Pin*1
fo
Conditions
Load Regulation
mV/°C
83
∆VOLINE
Line Regulation
V
VIN=15V, Io=1A
η
Efficiency
Unit
typ.
Soft start
SI-8008HD
5 SS
C3
Soft start
+Vo. On/OFF
SI-8000HD Series
■External Dimensions (TO263-5)
(Unit : mm)
±0.2
10.0
(8.0)
±0.2
1.2
(4.4)
±0.2
4.5
+0.10
1.3 –0.05
(2×R0.45)
(3°)
±0.3
±0.15
0.10
(3°)
±0.1
(3°)
±0.2
2.4
(R0.3)
±0.2
2.54
(R0.3)
±0.25
±0.1
0.8
±0.25
)
(1.7
)
1
2
3
4
Flammability: UL 94V-0
0 to 6°
(0.5)
±0.1
(1.7
Plastic Mold Package Type
4.9
±0.3
2.0
(0.75)
±0.2
4.9
±0.10
0.88
15.30
15.3
9.2±
±0.3
±0.2
(6.8)
±0.2
φ1.5 Dp:
Pin Assignment
1 IN
2 SW
3 GND
4 ADJ
5 SS
±0.2
(4.6)
3-R0.3
9.2
(15°)
(1.75)
(0.40)
Case temperature
measurement point
(1.7
±0.25
Product Mass: Approx. 1.48 g
0.8
±0.25
(1.7
)
)
5
±0.2
9.9
(3°)
(3°)
2-R0.3
±0.02
10.0
■Block Diagram
SI-8008HD
1
SW
IN
PReg.
2
OCP
5 SS
ON/OFF
Soft
start
Latch &
Drive
Reset
OSC
+
–
ADJ
TSD
Comp.
Error Amp.
GND
4
–
+
+
VREF
3
■Typical Connection Diagram
■Reference Data
L1
SW
IN
SI-8008HD
+
C1
C4
SS
5
GND
3
2
VOUT
R1
ADJ 4
+
R2
C2
Di
C3
GND
GND
C1
C2
C3
C4
The acceptable loss of the package is 3 W for the SI-8000HD
series, so some ranges are not available, depending on the
relation between the input voltage and output current.
: 1500µF
: 1000µF
: 0.1µF (Only when using soft-start function)
: 4.7µF (GMR32ER71H475KA88L (Murata Manufacturing)
recommended)
L1 : 100µH
Di : FMB-G16L (Sanken)
Thermal Resistance
(junction to ambient air temperature) θj-a (°C/W)
1
VIN
55
When using glass-epoxy board measuring 40×40 mm
50
45
40
35
30
0
200
400
600
800
1000
1200
1400
1600
1800
Copper Laminate Area (mm2)
ICs
31
1-1-3 DC/DC Converter ICs
SI-8000E Series
Full-Mold, Separate Excitation Step-down Switching Mode
■Features
■Lineup
• Compact full-mold package (equivalent to
TO220)
Part Number
SI-8050E
VO(V)
5.0
IO(A)
0.6
• High efficiency: 80%
• Requires only 4 discrete components
• Internally-adjusted phase correction and output
voltage
■Absolute Maximum Ratings
Parameter
• Built-in reference oscillator (60kHz)
DC Input Voltage
• Built-in overcurrent and thermal protection
circuits
Power Dissipation
■Applications
• Power supplies for telecommunication
equipment
Symbol
Ratings
VIN
43
V
PD1
14(With infinite heatsink)
W
PD2
Unit
1.5(Without heatsink, stand-alone operation)
W
Junction Temperature
Tj
+125
Storage Temperature
Tstg
–40 to +125
°C
Thermal Resistance(junction to case)
θ j-c
7.0
°C/W
Thermal Resistance(junction to ambient air)
θ j-a
66.7
°C/W
°C
• Onboard local power supplies
■Recommended Operating Conditions
Ratings
Parameter
Symbol
Unit
SI-8050E
DC Input Voltage Range
VIN
7 to 40
Output Current Range
IO
0 to 0.6
V
A
Operating Junction Temperature Range
Tjop
–30 to +125
°C
Operating Temperature Range
Top
–30 to +125
°C
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
SI-8050E
Symbol
VO
Output Voltage
min.
4.80
Conditions
Load Regulation
Temperature Coefficient of Output Voltage
Overcurrent Protection Starting
Current
32
ICs
Conditions
%
kHZ
VIN=20V, IO=0.3A
80
Conditions
100
mV
VIN=10 to 30V, IO=0.3A
30
∆VOLOAD
Conditions
VIN=20V, IO=0.1 to 0.4A
∆VO/∆Ta
IS1
V
60
∆VOLINE
Conditions
5.20
VIN=20V, IO=0.3A
f
Line Regulation
5.00
80
Conditions
Oscillation Frequency
max.
VIN=20V, IO=0.3A
η
Efficiency
Unit
typ.
±0.5
40
mV
mV/°C
0.61
VIN=10V
A
SI-8000E Series
■External Dimensions (TO220F-5)
(Unit : mm)
4.2
±0.2
2.8
(17.9)
16.9±0.3
4.0±0.2
7.9±0.2
0.5
±0.2
φ 3.2±0.2
±0.2
10.0
2.6±0.1
(2.0)
Pin Assignment
q VIN
w SWOUT
e GND
r VOS
t N.C
±0.15
(4.6)
+0.2
0.85 –0.1
(8.0)
0.95
+0.2
0.45 –0.1
P1.7±0.7×4=6.8±0.7
3.9±0.7
1 2 3 4 5
(4.3)
8.2±0.7
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 2.3g
Forming No. 1101
■Block Diagram
■Typical Connection Diagram
5V : 200µH
VIN
1
2 SWOUT
OCP
VIN
Reg.
OSC
1
TSD
Reset
Drive
+
Comp.
2
VIN
SI-8000E
C1
100µF
4 VOS
Amp.
D1
AK06
(Sanken)
VOS
GND
3
VREF
L1
NC
+
C2
330µF
4
5
GND
3
GND
VO
SWOUT
GND
5
N.C
■Ta-PD Characteristics
Infinite heatsink
With Silicone Grease
Heatsink: Aluminum
0×
10
m
2m
0×
10
20
0×
10
m
(5
75
.2°
×7
C/
5×
W
2m
)
m
(7.
6°
C/
W)
.3
VO
VIN
IO
ηx
VF
/
°C
W
)
5
Without heatsink
0
–30
0
25
50
100
VO
–1 –VF·IO 1–
ηχ
VIN
(2
0×
2m
PD=VO·IO
The efficiency depends on the input voltage and the output current. Therefore, obtain the value from the efficiency graph and
substitute the percentage in the formula above.
20
Power Dissipation PD (W)
15
75
100
125
:
:
:
:
:
Output voltage
Input voltage
Output current
Efficiency (%)
Diode D1 forward voltage
0.4V(AK06)
Operating Ambient Temperature Ta (°C)
Thermal design for D1 must be considered separately.
ICs
33
1-1-3 DC/DC Converter ICs
SI-8000JF Series Full-Mold, Separate Excitation Step-down Switching Mode
■Features
■Lineup
• Compact full-mold package (equivalent to
TO220)
• Output current: 1.5A
• High efficiency: 67 to 88%
• Requires only 4 discrete components
• Internally-adjusted phase correction and
output voltage
• Capable of downsize a choke-coil due to IC's
high switching frequency (125kHz).
(Compared with conventional Sanken devices)
• Built-in foldback-overcurrent and thermal
protection circuits
• Output ON/OFF available (circuit current at
output OFF: 200µA max.)
• Soft start available by ON/OFF pin
Part Number
SI-8015JF
SI-8033JF
SI-8050JF
SI-8120JF
VO (V)*
1.59
3.3
5.0
12.0
IO (A)
1.5
* VREF(V) for SI-8015JF
■Absolute Maximum Ratings
Parameter
Symbol
Ratings
VIN
43
V
PD1
16.6 (with infinite heatsink)
W
DC Input Voltage
Power Dissipation
Unit
PD2
1.5 (without heatsink, standalone operation)
W
Junction Temperature
Tj
+125
°C
Storage Temperature
Tstg
–40 to +125
°C
Thermal Resistance (Junction to Case)
θ j-c
6.0
°C/W
■Applications
• Power supplies for telecommunication equipment
• Onboard local power supplies
■Recommended Operating Conditions
Ratings
Parameter
Symbol
DC Input Voltage Range
Unit
Conditions
SI-8015JF*
SI-8033JF
SI-8050JF
SI-8120JF
VIN1
VO+2 to 40
5.3 to 40
7 to 40
14 to 40
V
IO=0 to 1A
VIN2
VO+3 to 40
6.3 to 40
8 to 40
15 to 40
V
IO=0 to 1.5A
VIN≥VO+3V
Output Current Range
Operating Junction Temperature Range
IO
0 to 1.5
A
Tjop
–30 to +125
°C
* SI-8015JF is a variable output voltage type. The variable output voltage range is from 2.5 V to 24 V.
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Output Voltage*1
Line Regulation
Load Regulation
Temperature Coefficient of
Output Voltage*3
Overcurrent Protection
typ.
max.
min.
typ.
max.
min.
typ.
max.
1.558
1.59
1.622
3.234
3.30
3.366
4.90
5.00
5.10
11.76
12.00
12.24
VIN=12V, IO=0.5A
Starting Current
VIN=12V, IO=0.5A
VIN=20V, IO=0.5A
VIN=24V, IO=0.5A
77
82
88
VIN=15V, IO=0.5A
VIN=20V, IO=0.5A
VIN=24V, IO=0.5A
125
125
125
125
Conditions
VIN=12V, IO=0.5A
25
10
VIN=20V, IO=0.5A
VIN=24V, IO=0.5A
25
40
60
80
VIN=10 to 30V, IO=1.0A
VIN=18 to 30V, IO=1.0A
10
10
30
VIN=15V, IO=0.5 to 1.5A
VIN=20V, IO=0.5 to 1.5A
±0.5
±1.0
1.6
VIN=15V
VIN=20V
0.5
0.5
0.5
0.5
ISSL
100
100
100
100
Quiescent Circuit
Current
Conditions
Iq(OFF)
Conditions
*1: Reference voltage for SI-8015JF
*2: VREF for SI-8015JF
VSSL=0V
VSSL=0V
VSSL=0V
7
7
7
7
VIN=12V, IO=0A
VIN=15V, IO=0A
VIN=20V, IO=0A
VIN=24V, IO=0A
200
VIN=12V, VON/OFF=0.3V
200
VIN=15V, VON/OFF=0.3V
VSSL=0V
200
VIN=20V, VON/OFF=0.3V
VIN=24V, VON/OFF=0.3V
mA
µA
SI-8000JF
SI-8000JF
SI-8000JF
5 ON/OFF
5 ON/OFF
5 ON/OFF
C3
VOUT. ON/OFF
ICs
200
V
µA
*3: Temperature Coefficient of Reference Voltage for SI-8015JF
*4: ∆VREF/∆Ta for SI-8015JF
*5: Pin 5 is the ON/OFF pin. Soft start at power on can be performed with a capacitor connected
to this pin.
The output can also be turned ON/OFF with this pin. The output is stopped by setting the
voltage of this pin to VSSL or lower. ON/OFF-pin voltage can be changed with an open-collector drive circuit of a transistor. When using both the soft-start and ON/OFF functions together,
the discharge current from C3 flows into the ON/OFF control transistor. Therefore, limit the
current securely to protect the transistor if C3 capacitance is large. The ON/OFF pin is pulled
up to the power supply in the IC, so applying the external voltage is prohibited. If this pin is not
used, leave it open.
34
mV
A
VIN=24V
VSSL
Iq
mV
mV/ °C
Outflow Current
Conditions
kHZ
1.6
Low Level Voltage
at Low Voltage
%
40
VIN=24V, IO=0.5 to 1.5A
±0.5
1.6
VIN=12V
40
V
130
10
±0.5
1.6
100
VIN=8 to 30V, IO=1.0A
30
VIN=12V, IO=0.2 to 0.8A
∆VO/∆Ta*4
VIN=15V, IO=0.5A
80
VIN=8 to 30V, IO=0.5A
∆VOLOAD
Conditions
VIN=15V, IO=0.5A
67
∆VOLINE
IS1
Unit
SI-8120JF
min.
f
Conditions
SI-8050JF
max.
Conditions
Conditions
SI-8033JF
typ.
Conditions
Oscillation Frequency
Terminal
VO*2
SI-8015JF
min.
η
Efficiency
ON/OFF*5
Symbol
Soft start
C3
Soft start
+VOUT. ON/OFF
SI-8000JF Series
■External Dimensions (TO220F-5)
4.2±0.2
±0.2
2.8
±0.2
(17.9)
16.9±0.3
4.0±0.2
7.9±0.2
0.5
10.0
φ 3.2±0.2
(Unit : mm)
Pin Assignment
q VIN
w SWOUT
e GND
r VOS
t ON/OFF
(2.0)
2.6±0.1
±0.15
0.95
(8.0)
(4.6)
+0.2
0.85 –0.1
+0.2
0.45 –0.1
±0.7
P1.7
×4=6.8
±0.7
3.9±0.7
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 2.3g
(4.3)
8.2±0.7
Forming No.1101
1 2 3 4 5
■Block Diagram
SI-8015JF
8033JF, 8050JF, 8120JF
SW OUT
VIN
1
PReg.
2
1
SW OUT
VIN
PReg.
OCP
5 ON/OFF
2
OCP
5 ON/OFF
ON/OFF
Soft
Start
Latch&
Drive
Reset
ON/OFF
Soft
Start
OSC
+
–
VREF
TSD
Comp.
Error Amp.
Latch&
Drive
Reset
OSC
+
–
4
TSD
Comp.
Error Amp.
+
–
4
+
–
VREF
VREF
GND
GND
3
3
■Typical Connection Diagram
SI-8015JF
8033JF, 8050JF, 8120JF
L1
1
VIN
SW
VIN
SI-8015JF
+
220µF
VREF
L1
2
VOUT
C4
R1
4
R2
SW
VIN
SI-8000JF
+
ON/OFF GND
5
3
1
VIN
470µF
+
C1
Di
ON/OFF GND
5
3
VS
2
VOUT
4
+
Di
C2
REF
C3
GND
GND
GND
GND
IREF
IREF shall be approx. 2mA.
C1 :
C2 :
C3 :
C4 :
L1 :
Di :
50V/220µF
25V/470µF
10V/0.47µF (Only when using soft-start function)
6800pF
VREF × (R1+R2)
100µH
VOUT=
RK16 (Sanken)
R2
C1
C2
C3
L1
Di
:
:
:
:
:
50V/220µF
25V/470µF
10V/0.47µF (Only when using soft-start function)
100µH
RK16 (Sanken)
ICs
35
1-1-3 DC/DC Converter ICs
SI-8000TFE Series Full-Mold, Separate Excitation Step-down Switching Mode
■Features
■Lineup
• Compact full-mold package (equivalent to
TO220)
Part Number
SI-8008TFE
VO (V)
Variable (0.8 to 24)
• Output current: 1.5 A
SI-8050TFE
5
IO (A)
1.5
• High efficiency: 81% typ. (at Vo = 5 V)
• Requires only 4 discrete components
• Built-in reference oscillator (300 kHz)
■Absolute Maximum Ratings
• Built-in dropping-type-overcurrent and thermal
protection circuits
DC Input Voltage
• Output ON/OFF available (circuit current at
output OFF: 200µA typ.)
Power Dissipation
Parameter
Symbol
Ratings
Unit
VIN
43
V
PD1-1
17.8 (with infinite heatsink)
PD1-2
14.2 (with infinite heatsink)
PD2-1
2.15 (without heat sink, standalone operation)
PD2-2
1.72 (without heatsink, standalone operation)
Tj
–30 to +150
Storage Temperature
Tstg
–40 to +150
°C
Thermal Resistance (Junction to Case)
θ j-c
7
°C/W
Thermal Resistance (Junction to Ambient Air)
θ j-a
58
°C/W
• Soft start available by ON/OFF pin
Junction Temperature*
■Applications
• Onboard local power supplies
• AV equipment
• OA equipment
Conditions
Limited by thermal protection, Tjmax=150°C
Tjmax=125°C
W
Limited by thermal protection, Tjmax=150°C
Tjmax=125°C
°C
*: This product has built-in thermal protection circuits that may operate when the junction temperature rises above 130°C.
The recommended design for the junction temperature during operation is below 125°C.
■Recommended Operating Conditions
Ratings
Parameter
Symbol
Input Voltage Range
VIN
Output Voltage Range
VO
Output Current Range
SI-8008TFE
SI-8050TFE
Vo+3*1 to 40
0.8 to 24
8 to 40
5.0
Tjop
Operating Temperature Range
Top
(Ta=25°C)
V
V
A
0 to 1.5
–20 to +125
–20 to +85
IO
Operating Junction Temperature Range
Unit
°C
°C
*1: The minimum value of an input voltage range is the higher of 4.5 V or VO + 3 V.
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Symbol
SI-8008TFE
typ.
min.
Output Voltage
(Reference Voltage)
Vo
(VADJ)
0.784
Conditions
Temperature Coefficient of Output Voltage
(Temperature Coefficient of Reference Voltage)
∆Vo/∆T
(∆VREF/∆T)
Conditions
η
Efficiency
Conditions
Oscillation Frequency
Conditions
Low Level Voltage
ON/OFF Pin*
Outflow Current at
Low Voltage
Conditions
10
VSSL=0V
Conditions
6
VIN=15V, Io=0A
Conditions
200
VIN=15V, VSS=0V
Iq(OFF)
mV/°C
80
40
400
0.5
40
200
VIN=15V, VSS=0V
SI-8000TFE
5 SS
mV
mV
A
10
VSSL=0V
V
µA
mA
400
SI-8000TFE
5 SS
µA
SI-8000TFE
5 SS
C3
VO.ON/OFF
ICs
40
6
VIN=15V, Io=0A
*: Pin 5 is the SS pin. Soft start at power on can be performed with a capacitor connected to this
pin. The output can also be turned ON/OFF with this pin. The output is stopped by setting the
voltage of this pin to VSSL or lower. SS-pin voltage can be changed with an open-collector
drive circuit of a transistor. When using both the soft-start and ON/OFF functions together, the
discharge current from C3 flows into the ON/OFF control transistor. Therefore, limit the current securely to protect the transistor if C3 capacitance is large. The SS pin is pulled up to the
power supply in the IC, so applying the external voltage is prohibited. If the pin is not used,
leave it open.
36
80
VIN=15V
0.5
40
%
kHz
1.6
VIN=15V
Iq
V
VIN=15V, Io=0.1A
±0.5
1.6
Conditions
VSSL
ISSL
Quiescent Circuit Current
0.816
300
VIN=15V, Io=0.5A
60
VIN=10 to 30V, Io=0.5A
10
VIN=15V, Io=0.2 to 1.5A
∆VOLOAD
IS
max.
5.10
300
VIN=15V, Io=0.5A
60
VIN=10 to 30V, Io=0.5A
10
VIN=15V, Io=0.2 to 1.5A
fo
Conditions
Overcurrent Protection
Starting Current
Unit
SI-8050TFE
typ.
5.00
min.
4.90
VIN=15V, Io=0.1A, Tc=0 to 100°C
81
VIN=15V, Io=0.5A
∆VOLINE
Load Regulation
max.
±0.1
VIN=15V, Io=0.1A, Tc=0 to 100°C
81
VIN=15V, Io=0.5A
Conditions
Line Regulation
0.800
VIN=15V, Io=0.1A
Ratings
Soft start
C3
Soft start
+VO.ON/OFF
SI-8000TFE Series
■External Dimensions (TO220F-5)
(Unit : mm)
±0.2
4.2
±0.2
2.8
φ 3.2±0.2
0.5
±0.2
(2.0)
2.6±0.1
Pin Assignment
q IN
w SW
e GND
r ADJ
t SS
(17.9)
16.9±0.3
4.0±0.2
7.9±0.2
10.0
±0.15
(4.6)
+0.2
4.6±0.6
0.95
0.85 –0.1
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 2.3g
+0.2
P1.7±0.7×4=6.8±0.7
0.45 –0.1
3.9±0.7
(4.3)
8.2±0.7
1 2 3 4 5
■Block Diagram
■Typical Connection Diagram
L1
47µH
SW
IN
5 SS
Latch &
Drive
Reset
SW
IN
SI-8000TFE
C1
220µF
+
SS
5
GND
3
2
VOUT
R1
ADJ 4
+
R2
Di
C2
470µF
IADJ
C3
OSC
+
–
ON/OFF
Soft Start
2
Overcurrent
Protection
PReg.
Thermal ADJ
Protection
4
Comp.
Error Amp.
+
+
–
1
1
VIN
SI-8008TFE
Reference
Voltage
GND
3
GND
GND
C1 : 220µF
C2 : 470µF
C3 :1µF (Only when using soft-start function)
L1 : 47µH
Di : RK16 (Sanken)
ICs
37
1-1-3 DC/DC Converter ICs
SI-8000GL Series
Compact, Separate Excitation Step-down Switching Mode
■Features
■Absolute Maximum Ratings
• DIP 8 pin package
• Output current: 1.5A
• High efficiency: 86% (at VIN = 20V, lO = 1A, VO
= 5V)
• Capable of downsize a choke-coil due to IC's
high switching frequency (250kHz). (Compared with conventional Sanken devices)
• The output-voltage-variable type can vary its
output voltage from 1V to 14V because of its
low reference voltage (Vref) of 1V.
• Wide Input Voltage Range (8 to 50V)
• Output ON/OFF available
• Built-in overcurrent protection and thermal
protection circuits
Symbol
Ratings
DC Input Voltage
Parameter
VIN
53
Unit
V
Power Dissipation
PD*1
1
W
°C
Junction Temperature
Tj
+125
Storage Temperature
Tstg
–40 to +125
°C
Thermal Resistance (junction to case)
θ j-c
28
°C/W
Thermal Resistance (junction to ambient air)
θ j-a
100
°C/W
*1: Limited by thermal protection.
■Applications
• Onboard local power supplies
• OA equipment
• For stabilization of the secondary-side output voltage of switching power supplies
■Recommended Operating Conditions
Ratings
Symbol
Parameter
Unit
SI-8010GL
DC Input Voltage Range
VIN
(8 or VO+3)*1 to 50
V
Output Voltage Range
VO
1 to 14
V
Output Current Range*2
IO
0.02 to 1.5*2
A
Operating Junction Temperature Range
Tjop
–30 to +125
°C
Operating Temperature Range
Top
–30 to +125
°C
*1: The minimum value of an input voltage range is the higher of either 8V or VO+3V.
*2: Please be sure to let the output current run more than 20 mA. When using by less than 20 mA, there is a possibility that the output voltage becomes unstable.
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Symbol
SI-8010GL (Variable type)
min.
Reference Voltage
0.97
FOSC
Conditions
Temperature Coefficient
of Reference Voltage
Overcurrent Protection
Starting Current
Quiescent Circuit Current
Circuit Current at Output OFF
40
VIN=10 to 30V, IO=1A
10
∆VOLOAD
Conditions
30
VIN=12V, IO=0.1 to 1.5A
1.6
Conditions
Iq
Conditions
7
400
VIN=12V, VON/OFF=0.3V
VSSL
0.5
Terminal Outflow
Current at Low Voltage
ISSL
50
*: Pin 2 is the CE/SS pin. Soft start at power on can be performed with a capacitor
connected to this pin.The output can also be turned ON/OFF with this pin. The output is
stopped by setting the voltage of this pin to VSSL or lower. CE/SS-pin voltage can be
changed with an open-collector drive circuit of a transistor.
When using both the soft-start and ON/OFF functions together, the discharge current
from C4 flows into the ON/OFF control transistor. Therefore, limit the current securely to
protect the transistor if C3 capacitance is large. The CE/SS pin is pulled up to the power
supply in the IC, so applying the external voltage is prohibited.
VSSL=0V
ICs
µA
V
µA
SI-8000GL
SI-8000GL
SI-8000GL
2 CE/SS
2 CE/SS
2 CE/SS
C4
VO. ON/OFF
38
mA
VIN=12V, IO=0A
Low Level Voltage
Conditions
mV
A
VIN=12V
Iq(OFF)
Conditions
mV
mV/°C
±0.5
∆VREF/∆Ta
IS
kHZ
VIN=12V, IO=1A
20
V
%
250
Conditions
Load Regulation
1.03
VIN=20V, IO=1A, VO=5V
∆VOLINE
Line Regulation
1.00
86
Conditions
Oscillation Frequency
max.
VIN=12V, IO=1A
Eff
Efficiency
CE/SS*
Terminal
VREF
Conditions
Unit
typ.
Soft start
C4
Soft start
+VO. ON/OFF
SI-8000GL Series
■External Dimensions (DIP8)
1
7
6
2
6.5±0.2
8
5
3
(Unit: mm)
Pin Assignment
1. GND
2. CE/SS
3. Reg
4. SWOUT
5. VIN
6. B.S
7. Comp
8. VREF
4
1.0+0.3
-0.05
1.5+0.3
-0.05
7.6
7.5±0.5
4.2±0.3
3.4±0.1
9.4±0.3
+0.1
0.25-0.
05
3.3±0.2
Plastic Mold Package Type
Flammability: UL 94V-0
Product Mass: Approx. 0.49 g
0.5±0.1
0.25 M
2.54
0° to 15°
0.89 TYP
■Block Diagram
■Ta-PD Characteristics
SI-8010GL
2
PD=VO • IO
1.8
UVLO
CE/SS
P.REG
Power Dissipation PD (W)
VIN
OCP
CE/SS
BS
Boot REG
TSD
DRIVE
Reg
OSC
+
PWM
LOGIC
-
SWOUT
100
VO
–1 –VF • IO 1–
ηχ
VIN
1.6
Note 1: The efficiency depends on the input voltage and the output current. Therefore, obtain the value from the efficiency graph and
substitute the percentage in the formula
above.
Note 2: Thermal design for D1 must be considered
separately.
1.4
1.2
θ j-a:100°C/W
1
0.8
0.6
0.4
0.2
0
–25
VREF
Comp
Amp
+
0
25
50
75
100
125
Ambient Temperature Ta (°C)
1V
GND
VO : Output voltage
VIN : Input voltage
IO : Output current
ηχ : Efficiency
VF : Diode D1 forward voltage
RK16···0.4V(IO=1A)
■Typical Connection Diagram
SI-8010GL
6
B.S
R1
L1
C3
5
VIN
VIN
SI-8010GL
V0
SWOUT
4
2
C1
+
D1 R2
CE/SS
C7
Reg
3
C4
C5
Comp
GND
7
1
VREF
+
C2
8
R3
C8
IREF
C1: 220µF/63V
C2: 470µF/25V
C3: 0.1µF
C4: 1000pF
C5: 0.1µF
C6: 0.047µF
C7: 0.1µF
C8: 0.1µF
R1: 47Ω
L1: 47µH
D1: RK16
(Sanken)
C6
VREF
(VOUT–VREF) (VOUT–1)
1
.
GND
=
=
(Ω), R3 =
R2=
=
. 500(Ω)
2×10–3
IREF
2×10–3
IREF
Diode D1
• Be sure to use a Schottky-barrier diode as D1. If other diodes like fast recovery diodes are used, IC may be destroyed because of the reverse voltage generated
by the recovery voltage or ON voltage.
Choke coil L1
• If the winding resistance of the choke coil is too high, the efficiency may drop below the rated value.
• As the overcurrent protection starting current is approx. 2.5 A, take care concerning heat radiation from the choke coil caused by magnetic saturation due to
overload or short-circuited load.
Capacitor C1, C2
• As large ripple currents flow through C1 and C2, use high-frequency and low-impedance capacitors aiming for switching-mode-power-supply use. Especially
when the impedance of C2 is high, the switching waveform may become abnormal at low temperatures. For C2, do not use a capacitor with an extremely low
equivalent series resistance (ESR) such as an OS capacitor or a tantalum capacitor, which may cause an abnormal oscillation.
Resistors R2, R3
• R2 and R3 are the resistors to set the output voltage. Set their values so that IREF becomes approx. 2 mA. Obtain R2 and R3 values by the following formula above.
GND
* To create the optimum operating conditions, place the components as close as possible to each other.
ICs
39
1-1-3 DC/DC Converter ICs
SI-8000S Series Full-Mold, Separate Excitation Step-down Switching Mode
■Features
■Lineup
• Compact full-mold package (equivalent to
TO220)
Part Number
SI-8033S
SI-8050S
SI-8090S
SI-8120S
SI-8150S
VO(V)
3.3
5.0
9.0
12.0
15.0
IO(A)
• Output current: 3.0A
• High efficiency: 79 to 91%
3.0
■Absolute Maximum Ratings
• Requires only 4 discrete components
Parameter
Symbol
Ratings
VIN
43*
V
PD1
18(With infinite heatsink)
W
PD2
1.5(Without heatsink, stand-alone operation)
W
Tj
+125
°C
Storage Temperature
Tstg
–40 to +125
°C
SW Terminal Applied Reverse Voltage
VSW
–1
V
Thermal Resistance(junction to case)
θ j-c
5.5
°C/W
• Internally-adjusted phase correction and output
voltage
DC Input Voltage
• Built-in reference oscillator (60kHz)
Power Dissipation
• Built-in overcurrent and thermal protection
circuits
Junction Temperature
• Built-in soft start circuit (Output ON/OFF
available)
Unit
*35V for SI-8033S
■Applications
• Power supplies for telecommunication equipment
• Onboard local power supplies
■Recommended Operating Conditions
Ratings
Parameter
Symbol
SI-8033S
SI-8050S
SI-8090S
SI-8120S
SI-8150S
5.5 to 28
7 to 40
12 to 40
15 to 40
18 to 40
Unit
DC Input Voltage Range
VIN
Output Current Range
IO
0 to 3.0
A
Tjop
–30 to +125
°C
Operating Junction Temperature Range
V
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
SI-8000S*1
Output Voltage
SI-8033S
Symbol
SI-8000SS
VO
min.
typ.
3.17
3.234
Conditions
Conditions
Oscillation Frequency
Line Regulation
Load Regulation
Temperature Coefficient of
Output Voltage
Overcurrent Protection
Starting Current
f
Conditions
Conditions
Conditions
typ.
max.
min.
typ.
max.
min.
typ.
max.
3.30
3.43
4.80
5.00
5.20
8.55
9.00
9.45
11.50
12.00
12.50
14.25
15.00
15.75
3.30
3.366
4.90
5.00
5.10
ICs
V
VIN=20V, IO=1.0A
VIN=21V, IO=1.0A
VIN=24V, IO=1.0A
VIN=25V, IO=1.0A
79
84
88
90
91
VIN=15V, IO=1.0A
VIN=20V, IO=1.0A
VIN=21V, IO=1.0A
VIN=24V, IO=1.0A
VIN=25V, IO=1.0A
60
60
60
60
60
VIN=15V, IO=1.0A
VIN=20V, IO=1.0A
VIN=21V, IO=1.0A
VIN=24V, IO=1.0A
VIN=25V, IO=1.0A
80
40
100
50
120
60
130
60
%
kHZ
130
VIN=10 to 30V, IO=1.0A
VIN=15 to 30V, IO=1.0A
VIN=18 to 30V, IO=1.0A
VIN=21 to 30V, IO=1.0A
10
10
10
10
30
VIN=15V, IO=0.5 to 1.5A
±0.5
3.1
±1.0
mV
40
VIN=25V, IO=0.5 to 1.5A
±1.0
3.1
VIN=21V
40
VIN=24V, IO=0.5 to 1.5A
±1.0
3.1
VIN=20V
40
VIN=21V, IO=0.5 to 1.5A
±0.5
3.1
VIN=15V
40
VIN=20V, IO=0.5 to 1.5A
*1: “S” may be printed to the right of the marking (except SI-8090S, SI-8120S, SI-8150S).
40
Unit
min.
10
∆VO/∆Ta
IS1
SI-8150S
max.
VIN=8 to 28V, IO=1.0A
∆VOLOAD
Conditions
SI-8120S
typ.
25
∆VOLINE
SI-8090S
min.
VIN=15V, IO=1.0A
η
Efficiency
SI-8050S
max.
mV
mV/°C
3.1
VIN=24V
VIN=25V
A
SI-8000S Series
■External Dimensions (TO220F-5)
(Unit : mm)
±0.2
4.2
2.8±0.2
±0.2
(17.9)
16.9±0.3
4.0±0.2
7.9±0.2
φ 3.2±0.2
0.5
10.0
Pin Assignment
q VIN
w SWOUT
e GND
r VOS
t S.S
(2.0)
2.6±0.1
0.95±0.15
(8.0)
(4.6)
+0.2
0.85 –0.1
+0.2
0.45 –0.1
P1.7±0.7×4=6.8±0.7
3.9±0.7
(4.3)
8.2±0.7
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 2.3g
Forming No. 1101
1 2 3 4 5
■Block Diagram
VIN 1
2 SWOUT
OCP
Reg.
OSC
Reset
Drive
Comp.
TSD
4 VOS
Amp.
VREF
5 S.S.
3 GND
■Typical Connection Diagram
VIN
1
L1
2
VIN
SI-8000S
+
VO
SWOUT
D1
+
C1
C2
VOS
S.S
GND
5
3
C1,2 : 1000µF
L1 : 150µH
D1 : RK46(Sanken)
4
GND
GND
■Ta-PD Characteristics
PD=VO•IO
20
Power Dissipation PD (W)
Infinite heatsink
15
With Silicone Grease
Heatsink: Aluminum
200×200×2mm
(2.3°C/W)
100×100×2mm
10 (5.2°C/W)
5
Without heatsink
0
–25
0
25
50
75
100
–VF•IO 1–
VO
VIN
The efficiency depends on the input voltage and the output current.
Therefore, obtain the value from the efficiency graph and substitute the percentage in the formula above.
VO
VIN
IO
ηx
VF
75×75×2mm
(7.6°C/W)
100
–1
ηχ
:
:
:
:
:
Output voltage
Input voltage
Output current
Efficiency (%)
Diode D1 forward voltage
0.5V(RK46)
125
Operating Ambient Temperature Ta (°C)
Thermal design for D1 must be considered separately.
ICs
41
1-1-3 DC/DC Converter ICs
SI-8100QL Series Current Mode Control Step-down Switching Mode
■Features
■Absolute Maximum Ratings
• DIP8 package
Symbol
Ratings
Unit
• Introduction of current mode control method
Input Voltage
Parameter
VIN
30
V
• Output current: 3.5A
Power Dissipation*1
PD
1.56
W
Junction Temperature*2
Tj
–30 to +150
°C
Storage Temperature
Tstg
–40 to +150
°C
Thermal Resistance (Junction to Case)
θj-c
25
°C/W
Thermal Resistance (Junction to Ambient Air)
θj-a
64
°C/W
• High efficiency: 90% (Vo=5V)
• Built-in reference oscillator (350kHz)
• Built-in drooping-type overcurrent and thermal
protection circuits
• Built-in soft start circuit
Conditions
When mounted on glass-epoxy board measuring 70×60 mm (copper laminate area: 1310 mm2)
When mounted on glass-epoxy board measuring 70×60 mm (copper laminate area: 1310 mm2)
*1: Limited by thermal protection circuit
*2: Note that the detect temperature for thermal protection is about 140°C.
• Built-in on/off function (Active Hi)
• Low current consumption during off
■Applications
■Recommended Operating Conditions
Parameter
Symbol
Ratings
Unit
SI-8105QL
Vo+3*1
Input Voltage Range
VIN
Output Voltage Range
Vo
0.5 to 24
• Onboard local power supplies
Output Current Range
Io
0 to 3.5
A
• OA equipment
Operating Junction Temperature Range
Tjop
–30 to +125
°C
Operating Temperature Range
Top
–30 to +85
°C
• DVD recorder, FPD-TV
to 28
Conditions
V
V
*1: The minimum value of the input voltage range is 4.75 V or Vo +3 V, whichever is higher.
■Electrical Characteristics
(When Ta=25°C and Vo=5V)
Ratings
Parameter
Symbol
SI-8105QL
min.
VADJ
Reference Voltage
0.485
Conditions
Temperature Coefficient of Reference Voltage
Oscillation Frequency
(∆VADJ/∆T)
VIN=12V, Io=1A, Ta=–40 to +85°C
Conditions
VIN=12V, Io=1A
fo
315
Conditions
30
30
Outflow Current at Low Voltage
High Level Voltage
EN Pin
Low Level Voltage
Inflow Current at Low Voltage
60
60
VIN=12V, Io=0.1 to 3.5A
3.6
6.0
Conditions
VIN=12V
Conditions
VIN=12V, Io=0A, VEN=open
18
Iq(OFF)
SS Pin
385
VIN=8 to 28V, Io=1A
Iq
Quiescent Circuit Current
%
VIN=16V, Io=1A
Conditions
Is
350
VIN=12V, Io=0A, VEN=0V
Conditions
VIN=12V, VSSL=0V
ISSL
5
VC/EH
VIN=12V
Conditions
VIN=12V
Conditions
VEN=0V
VC/EL
5
mV
A
µA
V
2.2
IC/EH
mV
µA
2.8
Conditions
kHz
mA
20
Conditions
V
mV/ °C
90
∆VoLOAD
Overcurrent Protection Starting Current
0.515
Conditions
Conditions
Load Regulation
0.500
0.05
∆VoLINE
Line Regulation
max.
VIN=12V, Io=1A
η
Efficiency
Unit
typ.
V
µA
Error Amplifier Voltage Gain
AEA
1000
V/V
Error Amplifier Transformer Conductance
GEA
800
µA/V
Current Sense Amplifier Impedance
1/GCS
0.35
V/A
Maximum ON Duty
DMAX
92
%
Minimum ON Time
DMIN
100
nsec.
*: Pin 8 is the SS pin. Soft start at power on can be performed with a capacitor connected to this pin.
The SS pin is pulled up to the power supply in the IC, so applying the external voltage is prohibited.
SI-8100QL
8 SS
C5
Soft start
42
ICs
SI-8100QL Series
■External Dimensions (DIP8)
7
6
5
6.5±0.2
8
(Unit : mm)
2
3
4
4.2±0.3
3.4±0.1
9.4±0.3
1.0+0.3
-0.05
7.5±0.5
1
Pin Assignment
1 BS
2 IN
3 SW
4 GND
5 FB
6 COMP
7 EN
8 SS
7.6
1.5+0.3
-0.05
+0.1
0.25-0.
05
3.3±0.2
Plastic Mold Package Type
Flammability: UL 94V-0
Product Mass: Approx. 0.49 g
0.5±0.1
2.54
0.25 M
0° to 15°
0.89 TYP
■Block Diagram
2
IN
Current
Sense
Amp
OSC
P.REG
Boot
REG
OCP
5v_ldo
1
BS
VREF
0.5V
ON
OFF
7
EN
PWM
LOGIC
Drive
3
SW
OVP
TSD
5v_ldo
6
COMP
5
FB
Amp
UVLO
0.5V
4
GND
8
SS
■Typical Connection Diagram
VIN
7
2
IN
1
BS
EN
C4
R1
SI-8105QL
8
C1
SS
GND
COMP
6
C5
C6
OPEN
C3
R3
VO
L1
SW 3
FB 5
D1
GND
VFB
C2
R2
IADJ
GND
C1:10µ F/50V
(Murata: GRM55DB31H106KA87)
C2:22µ F/16V
(Murata: GRM32ER71A226KE20)
C3:560pF
(Murata: GRM18 Type)
C4:10nF
(Murata: GRM18 Type)
C5:10nF
(Murata: GRM18 Type)
L1:10µ H
D1:SPB-G56S (Sanken)
SJPB-L4 (Sanken)
R1:46kΩ (When Vo = 5 V)
R2:5.1kΩ
R3:24kΩ
ICs
43
1-1-3 DC/DC Converter ICs
SI-8000FFE Series Full-Mold, Separate Excitation Step-down Switching Mode
■Features
■Lineup
• Compact full-mold package (equivalent to
TO220)
• Output current: 3.5 A
Part Number
SI-8001FFE
Variable (0.8 to 24)
Vo (V)
Io (A)
3.5
Function
Soft start
• High efficiency: 83% (Vo = 5 V, VIN = 15 V, Io = 2 A)
• Requires only 6 discrete components
• Built-in reference oscillator (300 kHz)
• Built-in drooping-type overcurrent and thermal
protection circuits
• Built-in soft start circuit (Output ON/OFF
available)
■Applications
■Absolute Maximum Ratings
Parameter
Input Voltage
Symbol
Ratings
VIN
43
Power Dissipation
PD1-1
22.7
(With infinite heatsink)
PD1-2
18.2
Power Dissipation
PD2-1
2.15
(Without heatsink)
PD2-2
1.72
Tj
+150
Junction
Temperature*1
Unit
SI-8001FFE
V
Limited by thermal protection circuit, Tj=150°C
W
Tj=125°C
Limited by thermal protection circuit, Tjmax=150°C
W
Tj=125°C
°C
• DVD recorder, FPD-TV
Storage Temperature
Tstg
–40 to +150
°C
• OA equipment, such as printers
Thermal Resistance (Junction to Case)
θj-c
5.5
°C/W
Thermal Resistance (Junction to Ambient Air)
θj-a
58
°C/W
• Onboard local power supplies
Conditions
*: This product has built-in thermal protection circuits that may activate when the junction temperature exceeds 130°C.
The recommended design for the junction temperature during IC operation is below 125°C.
■Recommended Operating Conditions
Parameter
Ratings
Symbol
Unit
SI-8001FFE
Vo+3*1
Input Voltage Range
VIN
Output Voltage Range
VO
0.8 to 24
to 40
V
Output Current Range
IO
0 to 3.5
A
Operating Junction Temperature Range
Tjop
–30 to +125
°C
Operating Temperature Range
Top
–30 to +85
°C
V
*: The minimum value of the input voltage range is 4.5 V or Vo +3 V, whichever is higher.
■Electrical Characteristics
(R1=4.2kΩ, R2=0.8kΩ when Ta=25°C and Vo=5V)
Ratings
Parameter
Symbol
SI-8001FFE
min.
VADJ
Reference Voltage
0.784
Conditions
Temperature Coefficient of Reference Voltage
Oscillation Frequency
∆VADJ/∆T
VIN=15V, Io=0.2A, Tc=0 to 100°C
Conditions
VIN=15V, Io=2A
fo
270
Outflow Current at Low Voltage
IS
kHz
80
mV
VIN=10 to 30V, Io=2A
15
50
mV
VIN=15V, Io=0.2 to 3.5A
3.6
Conditions
A
VIN=15V
VSSL
0.5
ISSL
6
Conditions
VIN=15V, VSS=0V
Conditions
VIN=15V, Io=0A
V
30
µA
6
Iq(OFF)
*: Pin 5 is the SS pin. Soft start at power on can be performed with a capacitor connected to
this pin. The output can also be turned ON/OFF with this pin.
The output is stopped by setting the voltage of this pin to VSSL or lower. SS-pin voltage
can be changed with an open-collector drive circuit of a transistor. When using both the
soft-start and ON/OFF functions together, the discharge current from C3 flows into the ON/
OFF control transistor. Therefore, limit the current securely to protect the transistor if C3
capacitance is large. The SS pin is pulled up (3.7 V typ.) to the power supply in the IC, so
applying the external voltage is prohibited. If this pin is not used, leave it open.
mA
200
600
µA
VIN=15V, Vss=0V
SI-8000FFE
5 SS
SI-8000FFE
5 SS
C3
VO.ON/OFF
ICs
330
55
Conditions
44
%
VIN=15V, Io=2A
Iq
Quiescent Circuit Current
mV/ °C
300
Conditions
Conditions
Low Level Voltage
SS Pin
V
83
∆VOLOAD
Overcurrent Protection Starting Current
0.816
Conditions
Conditions
Load Regulation
0.800
±0.1
∆VOLINE
Line Regulation
max.
VIN=15V, Io=0.2A
η
Efficiency
Unit
typ.
Soft start
SI-8000FFE
5 SS
C3
Soft start
+Vo. ON/OFF
SI-8000FFE Series
■External Dimensions (TO220F-5)
(Unit : mm)
±0.2
4.2
±0.2
2.8
±0.2
4.0±0.2
7.9±0.2
φ 3.2±0.2
0.5
10.0
q IN
w SW
e GND
r ADJ
t SS
(17.9)
16.9±0.3
Pin Assignment
(2.0)
2.6±0.1
Plastic Mold Package Type
0.95±0.15
Flammability: UL 94V-0
4.6±0.6
(4.6)
+0.2
0.85 –0.1
Product Mass: Approx. 2.3 g
+0.2
P1.7±0.7×4=6.8±0.7
0.45 –0.1
3.9±0.7
(4.3)
8.2±0.7
1 2 3 4 5
■Block Diagram
1
SW
IN
PReg.
2
OCP
5 SS
ON/OFF
Soft
start
Latch &
Drive
Reset
OSC
+
–
ADJ
TSD
Comp.
Error Amp.
4
–
+
+
VREF
GND
3
■Typical Connection Diagram
L1
1
VIN
SW
IN
SI-8001FFE
+
C1
SS
5
GND
3
2
VOUT
R1
ADJ 4
+
C2
R2
Di
IADJ
C3
GND
GND
C1
C2
C3
L1
D1
:470µF
:680µF
:0.1µF(Only when using soft-start function)
:47µH
:RK46(Sanken)
ICs
45
1-1-3 DC/DC Converter ICs
SI-8000HFE Series Full-Mold, Separate Excitation Step-down Switching Mode
■Features
■Lineup
• Compact full-mold package (equivalent to
TO220)
Part Number
SI-8008HFE
VO (V)
Variable (0.8 to 15)
• Output current: 5.5 A
SI-8050HFE
5
IO (A)
5.5
• High efficiency: 83% typ. (at Vo = 5 V)
• Requires only 4 discrete components
• Built-in reference oscillator (150 kHz)
■Absolute Maximum Ratings
• Built-in drooping-type-overcurrent and
thermal protection circuits
Parameter
Symbol
Ratings
Unit
VIN
43
V
PD1-1
25 (with infinite heatsink)
PD1-2
20 (with infinite heatsink)
PD2-1
2.15 (without heat sink, standalone operation)
PD2-2
1.72 (without heatsink, standalone operation)
Tj
+150
Storage Temperature
Tstg
–40 to +150
°C
Thermal Resistance (Junction to Case)
θ j-c
5
°C/W
Thermal Resistance (Junction to Ambient Air)
θ j-a
58
°C/W
DC Input Voltage
• Built-in soft start circuit (Output ON/OFF
available)
Power Dissipation
■Applications
Junction Temperature*
• Onboard local power supplies
• OA equipment
Conditions
Limited by thermal protection, Tjmax=150°C
Tjmax=125°C
W
Limited by thermal protection, Tjmax=150°C
Tjmax=125°C
°C
*: This product has built-in thermal protection circuits that may operate when the junction temperature rises above 130°C.
The recommended design for the junction temperature during operation is below 125°C.
■Recommended Operating Conditions
Ratings
Parameter
Symbol
Input Voltage Range
VIN
Output Voltage Range
VO
Output Current Range
SI-8008HFE
SI-8050HFE
Vo+3*1 to 40
0.8 to 24
8 to 40
5.0
Tjop
Operating Temperature Range
Top
(Ta=25°C)
V
V
A
0 to 5.5
–30 to +125
–30 to +85
IO
Operating Junction Temperature Range
Unit
°C
°C
*1: The minimum value of an input voltage range is the higher of 4.5 V or VO + 3 V.
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Output Voltage
(Reference Voltage)
Symbol
Vo
(VADJ)
SI-8008HFE (at Vo = 5 V)
max.
min.
typ.
0.784
Conditions
Temperature Coefficient of Output Voltage
(Temperature Coefficient of Reference Voltage)
∆Vo/∆T
(∆VADJ/∆T)
Conditions
η
Efficiency
Conditions
Oscillation Frequency
Conditions
Low Level Voltage
ON/OFF Pin*
Outflow Current at
Low Voltage
Quiescent Circuit Current
50
VIN=15V
Conditions
10
VSSL=0V
Conditions
6
VIN=15V, Io=0A
Conditions
200
VIN=15V, VSS=0V
Iq(OFF)
400
0.5
30
200
VIN=15V, VSS=0V
SI-8000HFE
5 SS
mV
mV
A
10
VSSL=0V
V
µA
mA
400
SI-8000HFE
5 SS
C3
VOUT. ON/OFF
ICs
50
6
VIN=15V, Io=0A
*: Pin 5 is the SS pin. Soft start at power on can be performed with a capacitor connected to this
pin. The output can also be turned ON/OFF with this pin. The output is stopped by setting the
voltage of this pin to VSSL or lower. SS-pin voltage can be changed with an open-collector
drive circuit of a transistor. When using both the soft-start and ON/OFF functions together, the
discharge current from C3 flows into the ON/OFF control transistor. Therefore, limit the current securely to protect the transistor if C3 capacitance is large. The SS pin is pulled up to the
power supply in the IC, so applying the external voltage is prohibited. If the pin is not used,
leave it open.
46
80
VIN=15V
0.5
30
%
kHz
5.6
Conditions
Iq
mV/°C
80
5.6
VSSL
ISSL
V
VIN=15V, Io=1A
±0.5
150
VIN=15V, Io=3A
60
VIN=10 to 30V, Io=3A
20
VIN=15V, Io=0.2 to 5.5A
∆VOLOAD
IS
0.816
150
VIN=15V, Io=3A
60
VIN=10 to 30V, Io=3A
20
VIN=15V, Io=0.2 to 5.5A
fo
Conditions
Overcurrent Protection
Starting Current
max.
5.10
VIN=15V, Io=1A, Tc=0 to 100°C
83
VIN=15V, Io=3A
∆VOLINE
Load Regulation
0.800
VIN=15V, Io=1A
Unit
SI-8050HFE
typ.
5.00
min.
4.90
±0.1
VIN=15V, Io=1A, Tc=0 to 100°C
83
VIN=15V, Io=3A
Conditions
Line Regulation
Ratings
Soft start
µA
SI-8000HFE
5 SS
C3
Soft start
+VOUT. ON/OFF
SI-8000HFE Series
■External Dimensions (TO220F-5)
(Unit : mm)
±0.2
4.2
±0.2
2.8
±0.2
(17.9)
16.9±0.3
4.0±0.2
7.9±0.2
φ 3.2±0.2
0.5
10.0
Pin Assignment
q VIN
w SW
e GND
r ADJ (VOS for SI-8050HFE)
t SS
(2.0)
2.6±0.1
(4.6)
+0.2
4.6±0.6
0.95±0.15
0.85 –0.1
+0.2
P1.7±0.7×4=6.8±0.7
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 2.3g
0.45 –0.1
±0.7
(4.3)
8.2±0.7
3.9
1 2 3 4 5
■Block Diagram
SI-8050HFE
SI-8008HFE
SW
IN
1
Overcurrent
Protection
PReg.
5 ON/OFF
ON/OFF
Soft Start
1
2
2
Overcurrent
Protection
PReg.
5 ON/OFF
Latch &
Drive
Reset
SW
IN
ON/OFF
Soft Start
Latch &
Drive
Reset
OSC
OSC
Thermal ADJ
Protection
4
+
Comp.
Error Amp.
+
–
Reference
Voltage
GND
GND
3
3
Vos
Thermal
Protection
Comp.
Error Amp.
–
+
+
–
4
–
+
+
Reference
Voltage
■Typical Connection Diagram
VIN
C1
1
+
SW
IN
C4
VOUT
L
2
+
Di
PReg.
5 ON/OFF
C2
VIN
C1
1
+
SW
IN
C4
L
2
VOUT
+
Di
PReg.
C2
5 ON/OFF
R1
SI-8008HFE
SI-8050HFE
C3
C3
ADJ 4
+
–
+
–
C1
C2
C3
C4
L1
Di
ADJ
+
–
4
–
+
+
R2
GND
GND
3
3
: 1500µF
: 1000µF
:1µF (Only when using soft-start function)
:4.7µF (RPER11H475K5 (Murata Manufacturing) recommended)
:100µH
: FMB-G16L (Sanken)
ICs
47
1-1-3 DC/DC Converter ICs
SI-8000Y Series Current
Full-Mold, Mode
SeparateControl
ExcitationStep-down
Step-down Switching
Switching
ModeMode
Regulator ICs
■Features
■Absolute Maximum Ratings
• Compact (equivalent to TO220) full-mold
package
Parameter
Input Voltage
• Output current: 8.0 A
Power Dissipation
• High efficiency: 86%
• Built-in reference oscillator (130 kHz)
• Built-in drooping-type-overcurrent protection
and thermal protection circuits
Symbol
Ratings
VIN
45
Unit
V
PD1
20.8(With infinite heatsink)
W
PD2
1.8(Without heatsink, stand-alone operation)
W
Junction Temperature
Tj
–30 to +150
°C
Storage Temperature
Tstg
–40 to +150
°C
Thermal Resistance (Junction to Case)
θj-c
6
°C/W
Thermal Resistance (Junction to Ambient Air)
θj-a
66.7
°C/W
• Built-in soft start circuit (Output ON/OFF
available)
• Low current consumption during off
■Applications
•
•
•
•
AV equipment
OA equipment
Gaming equipment
Onboard local power supplies
■Recommended Operating Conditions
Raings
Symbol
Parameter
SI-8010Y
SI-8050Y
Unit
Input Voltage Range
VIN
8 or VO+3* to 43
8 to 43
V
Output Voltage Range
Vo
1 to 15
5
V
Output Current Range
Io
0 to 8.0
A
Operating Junction Temperature Range
Tjop
–30 to +135
°C
Operating Temperature Range
Top
–30 to +85
°C
*: The minimum value of the input voltage range is 8 V or Vo + 3V, whichever is higher.
■Electrical Characteristics
Ratings
Parameter
Symbol
SI-8010Y*
mIN.
Output Voltage
(Reference voltage for SI-8010Y)
VO(VREF)
0.98
Conditions
Temperature Coefficient of Output Voltage ∆VO/∆T(∆VREF/∆T)
(Reference voltage temperature coefficient for SI-8010Y)
Conditions
η
Efficiency
Conditions
Oscillation Frequency
Line Regulation
Load Regulation
Overcurrent Protection Starting Current
fo
Conditions
∆VOLINE
Iq
Quiescent Circuit Current
Conditions
Iq(OFF)
Conditions
Outflow Current at
Low Voltage
EN/SS Pin*
Low Level Voltage
Error Amplifier Voltage Gain
ISSL
Conditions
1.00
1.02
4.90
AEA
max.
5.00
5.10
VIN=30V, Io=0.1A
±0.1
±0.5
VIN=30V, Io=0.1A, Ta=0 to 100°C
VIN=30V, Io=0.1A, Ta=0 to 100°C
86
86
VIN=30V, Io=3A
VIN=30V, Io=3A
130
130
VIN=30V, Io=3A
VIN=30V, Io=3A
90
mV/°C
kHz
90
VIN=10 to 43V, Io=3A
90
30
90
VIN=30V, Io=0.1 to 8A
8.1
8.1
VIN=20V
8
8
VIN=30V, Io=0A, EN/SS=open
500
VIN=30V, EN/SS=0V
10
200
VIN=30V, EN/SS=0V
mV
mA
500
VIN=30V, EN/SS=0V
30
mV
A
VIN=20V
VIN=30V, Io=0A, EN/SS=open
200
V
%
30
VIN=30V, Io=0.1 to 8A
VSSL
Conditions
Unit
typ.
VIN=30V, Io=0.1A
30
Conditions
Is
mIN.
VIN=10 to 43V, Io=3A
∆VOLOAD
Conditions
max.
30
Conditions
SI-8050Y
typ.
10
30
VIN=30V, EN/SS=0V
0.5
0.5
µA
µA
V
VIN=30V
VIN=30V
300
300
V/V
Error Amplifier Transformer Conductance
GEA
800
800
µA/V
Current Sense Amplifier Impedance
1/GCS
0.16
0.16
V/A
Maximum ON Duty
DMAX
92
92
%
Minimum ON Time
DMIN
200
200
nsec
*:R1=8kΩ, R2=2kΩ when Ta=25°C and Vo=5V
48
ICs
SI-8000Y
SI-8000Y
5 SS
5 SS
C6
C6
Soft start
Soft start
+VOUT. ON/OFF
SI-8000Y Series
■External Dimensions (TO220F-7)
(Unit : mm)
10.0±0.2
4.2±0.2
2.8±0.2
φ 3.2±0.2
7.9±0.2
Pin Assignment
q BS
w SW
e VIN
r GND
t COMP
y FB
u EN/SS
7.6±0.1
(Measured at the root)
(3-R1)
6-0.74±0.15
10±0.5
2.8
17.6±0.7
16.9±0.3
4.0±0.2
0.5
Gate burr
+0.2
6-0.65 –0.1
(5.3)
R-end
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 2.3g
+0.2
0.45 –0.1
6×P1.27±0.15–7.62±0.15
4.3±0.5
3.6±0.5
(Measured at the root)
0.5
1 234 567
0.5
Plan View
■Block Diagram
SI-8010Y
SI-8050Y
3
3
IN
Pre
REG
Current
Sence
Amp
OSC
Pre
REG
+
–
2
UVLD
TSD
OCP
EN/SS
+
–
7
EN/
SS
SW
–
–
+
6
1.0V
BS
DRIVE
PWM
LOGIC
2
UVLD
TSD
OCP
EN/SS
5 COMP
1
Boot
5vREG
BS
DRIVE
PWM
LOGIC
EN/
SS
Current
Sence
Amp
OSC
1
Boot
5vREG
7
IN
SW
5 COMP
6
–
–
+
FB
Amp
1.0V
FB
Amp
GND
GND
4
4
■Typical Connection Diagram
Csn1 Rsn1
Csn1 Rsn1
Vin
Vin
3
C1 + C2
IN
7
EN/SS
C6
C5
1
BS SW
3
L1
2
SI-8010Y
C1 + C2
D1
R1
6
COMP
GND
5
4
C4
Vo
FB
IN
7
EN/SS
C3
+
C6
R2
Csn2
BS SW
L1
2
SI-8050Y
COMP
GND
5
4
Vo
D1
6
C4
C7
C5
1
C3
+
FB
Csn2
C7
R3
Rsn2
GND
R3
GND
SI-8010Y
C1:2200µF/50V
C2:4.7µF/50V
C3:470µF/25V
C4:1200pF
C5:0.22µF/50V
C7:680pF
L1:47µH
D1:FMW-2156 (Sanken)
R1:8kΩ (When Vo=5V)
R2:2kΩ
R3:39kΩ
Csn1,2=2200pF (When Vin>40V)
Rsn1,2=10Ω (When Vin>40V)
GND
Rsn2
GND
SI-8050Y
C1:2200µF/50V
Csn1,2=2200pF (When Vin>40V)
C2:4.7µF/50V
Rsn1,2=10Ω (When Vin>40V)
C3:470µF/25V
C4:1200pF
C5:0.22µF/50V
C7:680pF
L1:56µH
D1:FMW-2156 (Sanken)
R3:39kΩ
ICs
49
1-1-3 DC/DC Converter ICs
SI-8205NHD Full-Mold,
Surface-Mount,
Separate
CurrentExcitation
Mode Control,
Step-down
Synchronous
Switching
RectifierMode
Step-down
Regulator
Switching
ICs Mode
■Features
•
•
•
•
•
•
•
•
•
•
■Absolute Maximum Ratings
Compact surface-mount (HSOP8) package
Wide input voltage range (VIN): Vo + 3 to 43 V
Synchronous rectifier mode
Output current: 3 A
Reference voltage and accuracy of 0.5 V ±1%
Oscillation frequency: 200 kHz to 1 MHz
A ceramic capacitor can be used for output
Output can be disabled
Symbol
Ratings
Unit
VIN
PD
Tj
Tstg
θj-c
θj-a
46
1.35
–40 to +150
–40 to +150
40
74
V
W
°C
°C
°C/W
°C/W
Soft start function
Power supply for LCD module
Power supply for notebook PC
Conditions
When mounted on a 30 × 30 mm glass-epoxy board (with a 25 × 25 mm copper area)
When mounted on a 30 × 30 mm glass-epoxy board (with a 25 × 25 mm copper area)
■Recommended Operating Conditions
Parameter
Undervoltage Lock Out
■Applications
•
•
•
•
Parameter
Input Voltage (VIN Pin)
Power Dissipation
Junction Temperature
Storage Temperature
Thermal Resistance (Junction to Lead <1 pin>)
Thermal Resistance (Junction to Ambient Air)
Input Voltage Range
Output Current Range
Output Voltage Range
Operating Junction Temperature Range
Operating Temperature Range
Symbol
VIN
Io
Vo
Tjop
Top
Ratings
8 or Vo+3 to 43
0 to 3.0
0.5 to 24
–40 to +125
–40 to +85
Unit
V
A
V
°C
°C
*: The minimum value of the input voltage range is 8 V or Vo + 3V, whichever is higher.
Onboard local power supplies
Power supply for LBP/PPC
■Electrical Characteristics
Parameter
Reference Voltage
Temperature Coefficient of Reference Voltage
Efficiency
Oscillation Frequency 1
Oscillation Frequency 2
Line Regulation
Load Regulation
Overcurrent Protection Starting Current
Quiescent Circuit Current
Outflow Current at Low Voltage
EN/SS Pin
Open Voltage
On Threshold Voltage
OVP Start Voltage
Thermal Protection Start Temperature
Error Amplifier Voltage Gain
Error Amplifier Transformer Conductance
Current Sense Amplifier Impedance
Maximum ON Duty
Minimum ON Time
50
ICs
(Ta = 25°C and fo = 500kHz, unless otherwise specified)
Symbol
Vref
∆VREF/∆T
min.
0.495
η
fo1
fo2
∆VoLINE
∆VoLOAD
Is
IIN
IIN(OFF)
IEN/SS
VSSH
VC/EH
Vovp
Tj
AEA
GEA
GCS
DMAX
DMIN
Ratings
typ.
0.500
±0.05
90
200
1
50
50
3.1
max.
0.505
6.0
8
40
3.0
0.6
0.57
151
80
5
4.5
1.3
0.60
160
800
800
3.33
90
150
Unit
V
mV/°C
%
kHz
MHz
mV
mV
A
mA
µA
µA
6.0
2.0
0.63
V
V
V
Conditions
VIN=12V, Io=1.0A
VIN=12V, Io=1.0A, Ta=–40 to +85°C
VIN=12V, Vo=5V, Io=1.0A
VIN=12V, Vo=5V, Io=1A, Rfset=375kΩ
VIN=12V, Vo=5V, Io=1A, Rfset=75kΩ
VIN=8 to 43V, Vo to 5V, Io=1A
VIN=12V, Vo=5V, Io=0.1 to 3.0A
VIN=12V, Vo=5V
VIN=12V, Vcomp=0V
VIN=12V, VEN/ss=0V
VEN/SS=0V, VIN=12V
VIN=12V
VIN=12V
°C
V/V
µA/V
A/V
%
nsec
VIN=12V
VIN=12V
SI-8205NHD
■External Dimensions (HSOP8)
Pin Assignment
q GND
w EN/SS
e VIN
r FSET
t COMP
y FB
u BS
i SW
0.08±0.08
6.20
4.40
Pin 1 Mark
0.05±0.05
(Unit : mm)
Enlarged View of A
1.50
0.695 TYP
5.20
0.15
A
0.4
1.27
0.40
2.70
Plastic Mold Package Type
Flammability
: UL 94V-0
Product Mass
: Approx. 0.1 g
2.90
■Block Diagram
③VIN
+
CUR_SUS
REG
–
REG
REG_DRV
DRV_REG
REG
REG_DEV
REG
REG_DEV
⑦BS
REG_BIAS STANDBY
OVC
STANDBY
OCP_CMP
RegOK
REG_UVLO
H/S
Drv
BC
VIN_UVLO
VinOK
M1
Level
Shift
PWR_stage
REG
VinOK REG
REG
VinOK
Set PH
Fere Off
OSC_RAMP
Ramp
Phase_
logic
REG
GATE_logic
L/S
Drv
STANDBY
LSoft
INIT PH
INIT CC
Res PH
CUR_COMP
Level
Shift
LSoft
FB
FSET④
⑧SW
M2
Phase
REG
REG
VinOK
PH Open
OVT
BS_CHG
REG
Fere_Off
Set PH
RegOK
VinOK
Control_logic
OVT
TSD
BG
REG
INIT OVP
OVP
OVP_CMP
REG_BIAS
REG
SS_Ref
EN_SS
REG
BG
⑥FB
Ref
Err_AMP
STANDBY
REF
Rnf
SS_Rnf
①GND
⑤COMP
■Typical Connection Diagram
VIN
R5
3
VIN
2
EN/SS
C1
C4
7
8
BS
SW
L1
SI-8205NHD
4
C5
FSET
GND
1
R4
FB
COMP
5
C3
GND
C6
Open
C2
6
R1
R2
R3
VO
D1
GND
C1:10µF/50V×2
(murata:GRM55DB31H106KA87)
C2:22µF/16V×2
(murata:GRM32ER71A226KE20)
C3:270pF
(murata:GRM18 type)
C4:10µF
(murata: GRM18 type)
C5:1µF
(murata: GRM18 type)
L1:10µH
D1: SJPB-L6 (Sanken)
R1:9kΩ(When Vo=5V)
R2:1kΩ
R3:51kΩ
R4:150kΩ
R5:47Ω
ICs
51
1-1-3 DC/DC Converter ICs
NR885K Surface-Mount,
Full-Mold,Current
Separate
Mode
Excitation
Control, Synchronous
Step-down Switching
Rectifier Step-down
Mode Regulator
Switching
ICs Mode
■Features
•
•
•
•
•
•
•
•
•
•
•
•
•
■Absolute Maximum Ratings
Compact surface-mount package (HSOP8)
Input voltage range (VIN): VO + 3 to 18 V
Synchronous rectifier mode
High efficiency of at least 94%
Introduction of current mode control method
A ceramic capacitor can be used for output
Parameter
Symbol
Ratings
Unit
Input Voltage
Power Dissipation
Junction Temperature
Storage Temperature
Thermal Resistance (Junction to Lead (4 pins))
Thermal Resistance (Junction to Ambient Air)
VIN
PD
Tj
Tstg
θj-c
θj-a
20
1.69
–40 to +150
–40 to +150
40
74
V
W
°C
°C
°C/W
°C/W
Conditions
When mounted on 30 × 30 mm glass-epoxy board (with a 25 × 25 mm copper area)
When mounted on a 30 × 30 mm glass-epoxy board (with a 25 × 25 mm copper area)
Built-in phase correction component
Output current: 3 A
Reference voltage and accuracy of 0.8 V ± 2%
■Recommended Operating Conditions
Symbol
VIN
Io
Vo
Top
Parameter
Oscillation frequency: 350 kHz
Input Voltage Range
Output Current Range
Output Voltage Range
Operating Temperature Range
Output ON/OFF available
Undervoltage lockout
Soft start function
Ratings
4.5 or VO + 3* to 18
0 to 3.0
0.8 to 14
–40 to +85
Unit
V
A
V
°C
*: The minimum value of the input voltage range is 4.5 V or VO + 3 V, whichever is higher.
■Applications
•
•
•
•
Power supply for LCDTV and PDP
Power supply for DVD, BD, and STB
On-board local power supply
Power supply for LBP and PPC
■Electrical Characteristics
Parameter
Symbol
Reference Voltage
Temperature Coefficient of Reference Voltage
Efficiency
Oscillation Frequency
Line Regulation
Load Regulation
Overcurrent Protection Starting Current
Quiescent Circuit Current 1
Quiescent Circuit Current 2
Outflow Current at Low Voltage
SS Pin
Open Voltage
Inflow Current
EN Pin
On Threshold Voltage
Maximum ON Duty
Minimum ON Time
Thermal Protection Start Temperature
Thermal Protection Return Hysteresis
VREF
⊿VREF/⊿T
(Ta=25°C, VIN=12V, and VO=3.3V, unless otherwise specified)
min.
0.784
η
fo
VLINE
VLoad
Is
IIN
IIN(off)
IEN/SS
VSSH
IEN
VC/EH
DMAX
DMIN
TSD
TSD_hys
280
Ratings
typ.
0.800
±0.05
90
350
50
50
3.1
max.
0.816
420
6.0
6
0
6
0.7
151
10
3.0
50
1.4
90
150
165
20
10
14
100
2.1
Unit
V
mV/℃
%
kHz
mV
mV
A
mA
µA
µA
V
µA
V
%
nsec
℃
℃
Conditions
VIN=12V,
Io=1.0A
VIN=12V,
Io=1.0A Ta=–40℃ to +85℃
VIN=12V, Vo=3.3V, Io=1A
VIN=12V, Vo=3.3V, Io=1A
VIN=12V, Vo=3.3V, Io=1A
VIN=6.3V to 18V, Vo=3.3V, Io=1A
VIN=12V, Vo=3.3V
VIN=12V, VEN=3V
VIN=12V, Io=0A, VEN=0V
VSS=0V, VIN=12V
VIN=12V
VEN=10V
VIN=12V
*: Pin 8 is the SS pin. Soft start at power on can be performed with a capacitor connected to this pin.
The SS pin is pulled up to the power supply in the IC, so applying the external voltage is prohibited.
NR885K
8
SS
C9
Soft start
52
ICs
NR885K
■External Dimensions (HSOP8)
0.05±0.05
6.20
4.40
Pin 1
Mark
0.08±0.08
(Unit : mm)
Pin Assignment
q BS
w VIN
e SW
r GND
t FB
y NC
u EN
i SS
*: The heat slug on the rear side is at
the ground potential.
Enlarged View of A
1.50
0.695 TYP
5.20
0.15
A
0.4
1.27
2.70
0.40
2.90
Plastic Mold Package Type
Flammability: UL 94V-0
Product Mass: Approx. 0.1g
■Block Diagram
2
IN
Σ
OSC
Current
Sense
BS
3.5V
ON/
OFF
7
EN
Drive
REG
OCP
P.REG
1
5V
VREF
0.8V
SW
+
-
PWM
LOGIC
3
5V
TSD
Compensation
UVLO
6
FB
+
+
Error Amp
NC
3.5V
0.8V
5
10uA
SS
SS
GND
4
8
■Typical Connection Diagram
VIN
R3
2
VIN
7
EN
C2
1
BS
C10
SW
NR885K
C1
8
SS
GND
4
R4
FB
Vout
L1
3
5
NC
6
R5
C9
Option
R6
D1
C4 C5
C1, C2: 10µF/25V
C4, C5: 22µF/16V
C9: 0.1µF
C10: 0.1µF
L1: 10µH
R3: 20Ω to 47Ω
R4+R5: 5kΩ (VO=3.3V)
R6: 1.6kΩ
ICs
53
1-1-3 DC/DC Converter ICs
SI-8400L/8500L Series Separate Excitation Switching Mode with Coil
■Features
■Lineup
• Switching ICs/Coil combined type
Part Number
SI-8401L
SI-8501L
VO(V)
5.0
5.0
IO(A)
0.5
1.0
• Requires only 2 discrete components
• Low switching noise
• No heatsink required
• Built-in overcurrent and thermal protection
circuits
■Absolute Maximum Ratings
• Built-in soft start circuit (Output ON/OFF
available)...SI-8500L Series
Parameter
■Applications
Ratings
Symbol
DC Input Voltage
VIN
Power Dissipation
PD
SI-8400L
Unit
SI-8500L
35
V
1.25
3
W
Junction Temperature
Tj
+100
°C
Storage Temperature
Tstg
–25 to +85
°C
• Telephone power supplies
• Onboard local power supplies
■Recommended Operating Conditions
Parameter
Ratings
Symbol
Unit
SI-8401L
DC Input Voltage Range
VIN
7 to 33
Output Current Range
IO
0 to 0.5
A
Operating Temperature Range
Top
–20 to +85
°C
Parameter
V
Ratings
Symbol
Unit
SI-8501L
DC Input Voltage Range
VIN
7 to 33
Output Current Range
IO
0 to 1.0
V
A
Operating Temperature Range
Top
–20 to +85
°C
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Symbol
SI-8401L
min.
Output Voltage
VO
4.80
Conditions
Line Regulation
Load Regulation
Temperature Coefficient of Output Voltage
Switching Ripple
Voltage (C2=470µF)
Overcurrent Protection
Starting Current
5.20
V
%
VIN=20V, IO=0.3A
f
60
Conditions
kHZ
VIN=20V, IO=0.3A
80
∆VOLINE
Conditions
100
mV
VIN=10 to 30V, IO=0.3A
30
∆VOLOAD
Conditions
40
mV
VIN=20V, IO=0.1 to 0.4A
∆VO/∆Ta
mV/°C
±0.5
20
∆Vr
Conditions
IS1
5.00
80
Conditions
Oscillation Frequency
max.
VIN=20V, IO=0.3A
η
Efficiency
Unit
typ.
40
mVp-p
VIN=20V, IO=0.3A
0.55
Conditions
A
VIN=10V
(Ta=25°C)
Ratings
Parameter
Symbol
SI-8501L
min.
Output Voltage
4.80
Line Regulation
Load Regulation
Temperature Coefficient of Output Voltage
Switching Ripple
Voltage (C2=470µF)
Overcurrent Protection
Starting Current
ICs
V
%
60
Conditions
kHZ
VIN=20V, IO=0.5A
70
∆VOLINE
Conditions
130
mV
VIN=10 to 30V, IO=0.5A
30
∆VOLOAD
Conditions
VIN=20V, IO=0.2 to 0.8A
∆VO/∆Ta
±0.5
55
mV
mV/°C
45
∆Vr
Conditions
Conditions
5.20
VIN=20V, IO=0.5A
f
IS1
5.00
83
Conditions
Oscillation Frequency
max.
VIN=20V, IO=0.5A
η
Efficiency
54
VO
Conditions
Unit
typ.
VIN=20V, IO=0.5A
mVp-p
1.1
VIN=18V
A
SI-8400L/8500L Series
■External Dimensions (Non-package type [EI-12.5 core/EI-19 core])
(Unit : mm)
SI-8400L
SI-8500L
LIN
r
VIN
y
e LIN
26
±0.1
12±0.5
VIN r
w GND
14.5
Not encapsulated in a plastic
package
Product Mass: Approx. 5.1g
±0.5
(2.17)
q w e
VOUT SS GND
±0.1
26
Pin1 marking
(10.16)
(7.62)
(2.19)
18
φ 0.8max.
Not encapsulated in a plastic
package
Product Mass: Approx. 14.5g
SK
4.7
±0.6
10±0.2
13.2±0.6
Pin 1 marking
3.7
Vo q
φ 0.6
4
2
18
■Block Diagram
SI-8400L
SI-8500L
3
4
LIN
4
L1
MIC1
VIN
Reg.
1
6
VO
VIN
Comp.
1
VO
Reg.
Latch
&
Drive
Reset
L1
MIC1
OCP
OSC
LIN
OCP
OSC
Reset
Comp.
TSD
Latch
&
Drive
TSD
Di1
Di1
Amp.
Amp.
VREF
VREF
2
GND
2
S.S.
3
GND
■Typical Connection Diagram
VIN
4
VIN
SI-8400L
GND
2
+
C1
220µF
VOUT
LIN
3
N.C
VO
1
+
VIN
+
C1
470µF
C2
470µF
GND
GND
VIN SI-8500L
6
S.S
2
GND
3
C3
VOUT
LIN
4
VO
1
+
C2
470µF
N.C
GND
GND
C3 is necessary only for using soft start function.
■Ta-PD Characteristics
3.0
1.5
1.0
0.5
0
0
25
50
75
Ambient Temperature Ta (°C)
PD=VO•IO
SI-8500L
Power Dissipation PD (W)
Power Dissipation PD (W)
SI-8400L
100
VO : Output voltage
IO : Output current
ηχ : Efficiency (%)
2.0
1.0
0
0
100
–1
ηχ
25
50
75
100
The efficiency depends on the input voltage
and the output current. Therefore, obtain the
value from the efficiency graphs and substitute the percentage in the formula above.
Ambient Temperature Ta (°C)
ICs
55
1-1-3 DC/DC Converter ICs
STA801M 2-Output Separate Excitation Switching Mode
■Features
■Lineup
• 2 regulators combined in 1 package
Output Voltage (V)
Part Number
• Compact inline package
Ch1
Ch2(Select one output)
5
9.0 / 11.5 / 12.1 / 15.5
STA801M
• Output current (0.5A × 2 outputs)
• Output voltage of Ch2 selectable from 4 levels
■Absolute Maximum Ratings
• Built-in flywheel diode (Schottky barrier diode)
• Requires only 7 discrete components (2
outputs)
Parameter
DC Input Voltage
• Internally-adjusted phase corrections and output
voltages
• Built-in reference oscillator (125kHz) - Enables
to downsize a choke-coil due to IC's high
oscillating frequency. (Compared with conventional Sanken devices)
Power Dissipation
Symbol
Ratings
VIN
43
Unit
V
PD1
6.7(With infinite heatsink)
W
PD2
1.6(Without heatsink, stand-alone operation)
W
Junction Temperature
Tj
+125
°C
Storage Temperature
Tstg
–40 to +125
°C
• Built-in overcurrent and thermal protection circuits
• Built-in soft start circuits (Output ON/OFF available)
■Applications
• For BS and CS antenna power supplies
• For stabilization of the secondary stage of switching power supplies
• Electronic equipment
■Recommended Operating Conditions
Parameter
Ratings
Symbol
min.
max.
Unit
DC Input Voltage Range
VIN
Ch2 VOmax.+2
40
Output Current Range per Channel
IO
0
0.5
A
Tjop
–20
+125
°C
Operating Temperature Range
V
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
STA801M
Symbol
min.
Output voltage 1
Ch1
Efficiency *
Temperature Coefficient of Output Voltage
Line Regulation
Load Regulation
Output voltage 2-1
Ch2
(Select one output)
Output voltage 2-2
Output voltage 2-3
Output voltage 2-4
VO2-4
Efficiency*
Temperature Coefficient of Output Voltage
Line Regulation
Load Regulation
Common
No-load Circuit Current
Oscillation Frequency
Overcurrent Protection Starting Current
VO1
4.80
Conditions
η1
V
%
±0.5
30
Conditions
mV/°C
90
mV
VIN=10 to 30V, IO=0.3A
∆VOLOAD1
10
Conditions
40
mV
VIN=20V, IO=0.1 to 0.4A
8.64
Conditions
9.00
9.36
V
VIN=20V, IO=0.3A
11.04
Conditions
11.50
11.96
V
VIN=20V, IO=0.3A
11.62
Conditions
VO2-4
5.20
80
∆VOLINE1
VO2-3
5.00
VIN=20V, IO=0.3A
∆VO/∆Ta1
VO2-2
max.
VIN=20V, IO=0.3A
Conditions
VO2-1
Unit
typ.
12.10
12.58
V
VIN=20V, IO=0.3A
14.88
Conditions
15.50
16.12
V
VIN=20V, IO=0.3A
η
89
Conditions
%
VIN=20V, IO=0.3A
∆VO/∆Ta
±2.0
∆VOLINE
40
Conditions
mV/°C
130
mV
VIN=20 to 30V, IO=0.3A
∆VOLOAD
30
Conditions
120
VIN=20V, IO=0.1 to 0.4A
15
mA
f
125
kHZ
IS1
0.51
0.7
* Efficiency indicates the value when only one channel is active. The value can be calculated as shown below. 7.5mA is deducted for the no-load circuit current of
output.
η=
56
VO•IO
VIN•(IIN–0.0075)
ICs
× 100(%)
mV
ICC
A
Icc at unused
2
STA801M
■External Dimensions (SIP10 [STA 10Pin])
(Unit : mm)
9±0.2
3.15±0.5
(1)
4±0.2
1.2±0.1
2–(R1)
2–(R0
(3.1)
1.15 +0.2
–0.1
.65)
R-END
0.55+0.2
–0.1
9×P2.54±0.5=22.86±1
Pin Assignment
q VO2 Cont
w VOS1
e SS1
r SWOUT1
t GND
y VIN
u SWOUT2
+0.2
0.55 –0.1
4.3±0.7
(Measured at
the tip)
(Measured at the tip)
25.25±0.3
C1.5±0.5
i SS2
o VOS2–2
!0 VOS2–1
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 2.5g
1 2 3 4 5 6 7 8 9 10
■Block Diagram
VIN 6
4 SW1
P.Reg.
OCP
SS1 3
+
PWM
–
PWM
Logic
Drive
2 VOS1
+
Amp.
–
PWM
OSC
Vref
TSD
f/4
Reset
4 SW2
OCP
PWM
Logic
SS2 8
10 VOS2 –1
Drive
+
PWM
–
9 VOS2 –2
VO2 Cont 1
+
Amp.
–
GND 5
Vref
■Typical Connection Diagram
STA800M
6
VIN
+
SWOUT1
VIN
+
STA801M
9
+
Vo2
9v
10
7
STA801M
+
Vo2
11.5v
10
C2 +
Ch 1
C4
330µF
VOS1
1
12.1V
Vo2Cont
1
15.5V
Vo2Cont
2
0.47µ F
8
Open:ON
Low :OFF
7
VO1
5V:100 µ H
C1
220µF
3 SS1
Open:ON
Low :OFF
Selection of connection method and output for VOS2-1 and VOS2-2 of Channel 2
L1
4
SWOUT2
SS2
C5
+ 0.47µ F
VO2 Cont
1
GND
5
L2
7
VO2
150 µ H
Ch 2
GND
VOS2
–2
+
VO2Cont Pin
C3
330µF
10
Or
Open
Low
9V
11.5V
12.1V
15.5V
VO2 Sensing Pin
VOS2
–1 9
Pin 9
Pin 10
■Ta-PD Characteristics
7
Power Dissipation PD (W)
6
With Infinite Heatsink
5
4
3
2
Without Heatsink
1
0
–30
0
25
50
75
100
125
Ambient Temperature Ta (°C)
ICs
57
1-1-3 DC/DC Converter ICs
SPI-8001TW/SPI-8002TW/SPI-8003TW 2-Output, Step-down Switching Mode
■Features
■Absolute Maximum Ratings*1
• 2 regulators combined in one package
Ratings
Input Voltage
• High efficiency: TYP80% (SPI-8001TW),
TYP78% (SPI-8002TW)
Power Dissipation*2, *3
• Variable output voltage: 1.0 to 16V (SPI8001TW), 1.0 to 24V (SPI-8002TW)
• Built-in reference oscillator (250kHz): Enables
to downsize a choke-coil
• Low circuit current consumption: ≤ 1µA (at
output OFF)
• High accuracy reference voltage: ±1%
Symbol
Parameter
• Output current: 1.5A × 2 (HSOP 16 Pin
Surface mount package)
Unit
SPI-8001TW
SPI-8002TW
SPI-8003TW
VIN
21
40
40
V
VCC
21
40
40
V
VC/E
21
40
40
PD
V
3.0
W
Junction Temperature
Tj
+135
+150
Storage Temperature
Tstg
–40 to +135
–40 to +150
Thermal Resistance (junction to case)*2
θ j-c
9.0
°C/W
Thermal Resistance (junction to ambient air)*2
θ j-a
35.8
°C/W
°C
°C
*1: Absolute maximum ratings show the destructive limit. No parameter should exceed the ratings in transient or normal
operations.
*2: When mounted on glass-epoxy board 70cm2 (copper laminate area 30.8cm2).
*3: Limited by thermal protection.
• Built-in foldback-overcurrent and thermal
protection circuits
• Built-in ON/OFF circuit (soft start available) –
per output
■Applications
• Onboard local power supplies
• OA equipment
• For stabilization of the secondary-side output voltage of switching power supplies
■Recommended Operating Conditions*1
Ratings
Parameter
Symbol
SPI-8001TW
min.
Input Voltage Range
SPI-8002TW
max.
min.
SPI-8003TW
max.
min.
Unit
max.
VIN
VO+3
20
VO+3
38
VO+3
38
V
VCC
4.5
20
4.5
38
4.5
38
V
38
V
24
V
VC/E
Output Voltage Range
VO
Output Current Range
IO
20
1
16
38
1
1.5
24
1
1.5
1.5
A
Operating Junction Temperature Range
Tjop
–30
+135
–30
+135
–30
+125
°C
Operating Temperature Range
Top
–30
+135
–30
+135
–30
+85
°C
*1: Recommended operating conditions show the operating conditions required for the normal circuit function described in the electrical characteristics.
These conditions must be followed in actual use.
58
ICs
SPI-8001TW/SPI-8002TW/SPI-8003TW
■Electrical Characteristics*1
(Ta=25°C)
Ratings
Parameter
Reference Voltage
Temperature Coefficient
of Reference Voltage
typ.
0.996
1.006
Conditions
∆VREF/∆T
Conditions
Quiescent Circuit Current 1
Quiescent Circuit Current 2
Quiescent Circuit Current 3
Quiescent Circuit Current 4
Quiescent Circuit Current 5
Quiescent Circuit Current 6
High Level Voltage
Low Level Voltage
Inflow Current
at High
Low Level Voltage
Inflow Current
at Low
1.016
0.996
1.006
1.016
0.966
±0.1
VLOAD
10
81
215
250
60
30
40
81
285
200
30
40
Conditions
10
Conditions
IIN (off)
mA
VCC=14V, IO=0A
1
1
1
1
VCC=15V, VC/E=0V or Open
VIN=14V, VC/E=0V or Open
IIN (ssov)
—
4
Conditions
—
VC/EH
95
VSSL
95
Conditions
95
0.5
VIN=VCC=15V
80
VSSL=0V, VIN=VCC=15V
V
µA
VC/E=20V
0.5
60
0.8
VIN=VCC=14V
VC/E=20V
Conditions
ISSL
0.8
VIN=VCC=15V
Conditions
V
VIN=VCC=14V
0.8
Conditions
IC/EH
2
VIN=VCC=15V
VC/EL
mA
VCC=14V, IO=0V, SS1=SS2=0V
2
Conditions
mA
8.5
—
2
µA
VIN=14V, VCC=5V, IO=0A, SS1=SS2=0V
—
Conditions
µA
VIN=14V, VC/E=0V or Open
1
ICC (ssov)
mA
8.5
VIN=15V, VC/E=0V or Open
Conditions
A
VIN=14V, VCC=5V, IO=0A, VO≤12V
8.5
1
ICC (off)
mV
4
VCC=15V, IO=0A
Conditions
40
VIN=VCC=14V
4
8.5
mV
1.6
VIN=15V, VCC=5V, IO=0V, VO≤12V
ICC
kHz
60
VIN=VCC=14V, VO=5V, IO=0.2 to 1.5A
1.6
4
%
400
VIN=14V, IO=0.1A, COSC=100pF
60
VIN=VCC=15V
IIN
%
VIN=VCC=9 to 18V, VO=5V, IO=1A
10
1.6
mV/ °C
VIN=14V, VCC=5V, VO=5V, IO=0.5A, IIN : excluding ICC
VIN=VCC=15V, VO=5V, IO=0.2 to 1.5A
Conditions
V
VIN= VCC=14V, VO=5V, IO=0.5A, IIN : including ICC
VIN=VCC=10 to 20V, VO=5V, IO=1A
Conditions
1.016
78
VIN=VCC=15V, VO=5V, IO=0.5A
30
1.006
VIN=14V, IO=0.1A, Ta=–30 to +125°C
VIN=15V, VO=5V, IO=0.5A, VCC=5V, IIN: excluding ICC
Conditions
max.
±0.1
78
250
Unit
typ.
VIN=14V, IO=0.1A
83
fosc
IS
min.
VIN=VCC=15V, VO=5V, IO=0.5A, IIN: including ICC
Conditions
Overcurrent Protection
Starting Current
max.
VIN=10V, VO=1V, IO=0.1A, Ta=–30 to +135°C
VLINE
Load Regulation
typ.
80
Eff2
Line Regulation
SPI-8003TW
min.
±0.1
Conditions
Oscillation Frequency
SPI-8002TW
max.
VIN=10V, VO=1V, IO=0.1A
Conditions
Efficiency 2*2
SS Pin*3
VREF
SPI-8001TW
min.
Eff1
Efficiency 1*2
C/E Pin
Symbol
0.5
V
VIN=VCC=14V
60
80
60
80
µA
VSSL=0V, VIN=VCC=14V
*1: Electrical characteristics show the characteristic ratings guaranteed when operating the ICs under the measurement conditions described in the above table.
*2: Efficiency is calculated from the following formula.
η (%) = VO·IO × 100
VIN·IIN
*3: Pin 6 and pin 11 are the SS pins. Soft start at power on can be performed with capacitors connected to these pins. The outputs can also be turned ON/OFF with these pins. The
outputs are stopped by setting the voltages of these pins to VSSL or lower. SS-pin voltages can be changed with open-collector drive circuits of transistors.
When using both the soft-start and ON/OFF functions together, the discharge currents from C4 and C5 flow into the ON/OFF control transistors respectively. Therefore, limit the
currents securely to protect the transistors if C4 and C5 capacitances are large. The SS pins are pulled up to the power supply in the ICs, so applying the external voltages are
prohibited.
ICs
59
1-1-3 DC/DC Converter ICs
■External Dimensions (HSOP16)
(Unit : mm)
1.35±–0.2
1+0.1/–0.05
(Between the root of leads and
back side)
(Heatsink thickness)
10.5±0.2
16
9
0.9±0.3
10.5±0.3
2.0+0.2/–0.08
0 to 0.1
0 to 8°
8
2.5±0.2
2.75MAX
1
Enlarged View of A
A
0.25+0.15/–0.05
S
0.10
S
12.2±–0.2
(Gate remains: Not included in dimensions)
(11)
(4.5)
7.5±0.2
(2)
Pin Assignment
(SPI-8001TW, SPI-8002TW)
q AGND
o AGND
!0 VREF2
w VIN1
e VCC
!1 SS2
r SWout1
!2 DGND2
t DGND1
!3 SWout2
y SS1
!4 C/E
!5 VIN2
u VREF1
i N.C
!6 N.C
16
9
1.27±0.25
Pin Assignment
(SPI-8003TW)
q AGND
w VIN1
e VCC
r SWout1
t DGND1
y SS1
u VREF1
i COSC
o
!0
!1
!2
!3
!4
!5
!6
AGND
ROSC
VREF2
SS2
DGND2
SWout2
C/E
VIN2
0.4+0.15/–0.05
Product Mass : Approx.0.86g
■Block Diagram
VIN
VIN
+
3
VCC
VC/E
C1
SPI-8001TW/SPI-8002TW
+
3
VCC
C6
3V
14
Start
C/E
VREF
PReg
OSC
fdown
TSD
15
VC/E
UVLO
3V
C/E
Start
VREF
10
VIN1
C4
6
SS1
7
VREF1
PWM
Logic
–
–
Buffer-Amp
f down
cut
Amp
TSD
UVLO
VIN2
L1
4
5
VO1
C2
C7
6
SS1
7
VREF1
3V
+
–
–
+
Buffer-Amp
C5
15
f down
cut
R1
2
SWOUT1
4
DGND1
5
Drive
+
–
–
Amp
VIN1
OCP
PWM
Logic
R5
+
Di1
OCP
3V
f down
cut
C9
DGND1
AGND
Cosc
R7
SWOUT1
PWM
Rosc
8
Drive
+
–
–
+
2
OCP
3V
+
fdown
C4
1V
1V
R5
OSC
RESET
PReg
RESET
f down
cut
C1
SPI-8003TW
PWM
VIN2
AGND
L1
11
10
SS2
VREF2
PWM
Logic
+
–
C5
Buffer-Amp
AGND
+
–
–
+
–
Amp
SWOUT2
13
PWM
L2
VO2
DGND2
C3
12
R3
R4
60
ICs
R6
11
SS2
VREF2
+
Di2
AGND
1, 9
R2
12
Drive
C7
R1
R2
R6
C2
16
OCP
3V
VO1
+
Di1
PWM
Logic
+
–
C8
C6
Buffer-Amp
AGND
+
–
–
–
+
Amp
Drive
SWOUT2
14
PWM
L2
VO2
+
Di2
DGND2
C3
13
AGND
1, 9
R3
R4
C8
SPI-8001TW/SPI-8002TW/SPI-8003TW
■Typical Connection Diagram
VC/E
VIN
VCC
2
6
5
SWout1
VCC
L1
4
2
V01
Ch1
SS1
7
Di1
R1
6
+
C2
IREF1
DGND1
C4
15
C1
5
R2
C4
V02
7
R6
12
SS2
Ch2
VREF2
10
Di2
12
R6
C8
R4
AGND
C5
+
C2
C7
R2
SWout2
VIN2
14
VC2
L2
R3
C3
DGND2
R1
SPI-8003TW
16
C1
+
IREF2
Di1
IREF1
L2
11
L1
VC1
Ch1
DGND1
C5
13
4
SWout1
SS1
+
SWout2
VIN2
C/E
VIN1
VREF1
R5
C7
SPI-8000TW
+
C6
C/E
VIN1
15
3
VREF1
R5
VC/F
VIN
14
3
C6
1, 9
13
SS2
VREF2
11
R3
+
C3
IREF2
DGND2
AGND
1, 9
GND
Ch2
Di2
CORC
8
C8
R4
RCSC
10
GND
C9
C1
C2, C3
C4, C5
C6, C7, C8
: 220 µF/50V
: 470 µF/25V
: 1 µF
: 0.1 µF
R5, R6
L1, L2
Di1, Di2
(Sanken)
: 1kΩ
: 47 µH
: SJPB-H6
R7
GND
GND
C1
C2, C3
C4
C5, C6
C7, C8
: 220 µF/50V
: 470 µF/25V
: 1 µF/50V
: 1 µF/10V
: 0.1 µF/50V
C9
L1, L2
R2, R4
R5, R6
Di1, Di2
: 100pF/10V
: 47 µH
: 1kΩ
: 1kΩ
: SJPB-H6 (Sanken)
Diodes Di1, Di2
• Be sure to use Schottky-barrier diodes for Di1 and Di2.
If other diodes like fast recovery diodes are used, IC may be destroyed because of the reverse voltage generated by the recovery voltage or ON voltage.
Choke coils L1, L2
• If the winding resistance of the choke coil is too high, the efficiency may drop below the rated value.
• As the overcurrent protection starting current is about 2.0A, take care concerning heat radiation from the choke coil caused by magnetic saturation due to
overload or short-circuited load.
• Use a closed-magnetic-path coil to prevent interference between the channels SWout1 and SWout2.
Capacitors C1, C2, C3
• As large ripple currents flow through C1, C2 and C3, use high-frequency and low-impedance capacitors suitable for switching mode power supplies.
Especially when the impedance of C2 and C3 are high, the switching waveforms may become abnormal at low temperatures. For C2 and C3, do not use
capacitors with extremely low equivalent series resistance (ESR) such as OS capacitors or tantalum capacitors, which may cause abnormal oscillation.
Resistors R1, R2, R3, R4
• R1, R2, R3 and R4 are resistors for setting output voltages. Set the resistors so that IREF is approx. 1 mA. For example, R1 and R2 can be calculated as
shown below.
R1=
(VO1–VREF1)
(VO1–V)
VREF1
1
.=
=
(Ω), R2=
=
1(KΩ)
1×10–3
IREF1 1×10–3 .
IREF1
To create the optimum operating conditions, place the components as close as possible to each other.
■Ta-PD Characteristics
3.5
θ j-a (Copper Laminate Area)
35.8°C/W (30.8 cm2)
Power Dissipation PD (W)
3.0
38.2°C/W (15.6 cm2)
PD = VO·IO
42.6°C/W (8.64 cm2)
2.5
100
VO
–1 – VF·IO 1–
ηχ
VIN
52.3°C/W (3.34 cm2)
2.0
VO :
VIN :
IO :
ηχ :
VF :
69.2°C/W (0.84 cm2)
1.5
1.0
0.5
0.0
–25
0
25
50
75
100
Output Voltage
Input Voltage
Output Current
Efficiency (%)
D1 Forward Voltage
SJPB-H6···0.45V (IO=1A)
125 135 150
Ambient Temperature Ta (°C)
Note 1: The efficiency depends on the input voltage and the output current. Therefore, obtain the value from the efficiency graph and substitute the percentage in the formula above.
Note 2: Thermal design for D1 must be considered separately.
ICs
61
1-1-3 DC/DC Converter ICs
SI-8511NVS Surface-Mount, Synchronous Rectifier Step-down Switching Mode Control ICs
■Features
■Absolute Maximum Ratings
• Surface-mount package (TSSOP24)
• High efficiency due to synchronous rectification: 92% (at VIN = 5V, IO = 1A, VO = 2.5V)
• Capable of downsize a choke-coil due to IC's
high switching frequency (400kHz typ, On
Time Control). (Compared with conventional
Sanken devices)
Parameter
(Ta=25°C)
Symbol
Ratings
Unit
Control-System DC Input Voltage
VCC
7
V
DC Input Voltage
VIN
25
V
Boost Block Input Voltage
VH
30
V
EN Terminal Input Voltage
VEN
VCC
V
VPWRGD
7
V
Junction Temperature
Tj
+150
°C
Storage Temperature
Tstg
–40 to +150
°C
PWRGD Terminal Applied Voltage
• Low reference voltage (Vref) of 1.1V. The
output voltage is variable from 1.1V to 6V.
• High-speed response to a load
• Compatible with low ESR capacitors
• Soft start and output ON/OFF available
• Built-in overcurrent and output-overvoltage
protection circuits
• PWRGD function to indicate the output voltage
status
• High precision reference voltage: 1.1V ± 1.2%
■Applications
• Power supplies for notebook PCs and mobile devices
• Onboard local power supplies
• OA equipment
• For stabilization of the secondary-side output voltage of switching power supplies
■Recommended Operating Conditions
Symbol
Ratings
Unit
Control System Input Voltage Range
Parameter
VCC
4.5 to 5.5
V
Input Voltage Range
VIN
3 to 18
V
Output Voltage Range
VO
1.1 to 6
V
Operating Temperature Range
Top
–20 to +85
°C
■Electrical Characteristics
(Ta=25°C unless otherwise specified)
Parameter
Symbol
Dynamic
Output Voltage
Characteristics Temperature Coefficient of Output Voltage
VO
Circuit
Current
min.
typ.
max.
–1.2%
1.1
+1.2%
∆VO/∆T
Unit
V
mV/°C
±0.03
Conditions
VIN=5V, VCC=5V, VSNS connected to VO, IO=0A
VIN=5V, VCC=5V, VSNS connected to VO, IO=0A, Ta=0 to 85°C
Circuit Current (VCC Terminal)
Iop
6
mA
VCC=5V, EN=H, FADJ:open
Circuit Current (VIN Terminal)
Iop
1
mA
VIN=5V, EN=H
Standby Current 1 (VCC Terminal)
Istd1
100
µA
VCC=5V, EN=L
Standby Current 2 (VIN Terminal)
Istd2
50
µA
VIN=5V, EN=L
Undervoltage UVLO Operating Voltage 1 (VCC Terminal)
Lockout
UVLO Operating Voltage 2 (VIN Terminal)
On Time
Control
Ratings
Vuvlo1
3.7
4.45
V
VIN=5V
Vuvlo2
2.5
2.9
V
VCC=5V
On Time
Ton
1.27
µS
VCC=5V, VIN=5V, VO=2.5V
Minimum Off Time
Toff
0.7
µS
VCC=5V
REF Terminal Voltage
Vref
1.3
V
VCC=5V
REF Terminal Source Current
Iref
100
µA
VCC=5V
1.1
1.2
High Side
Drive
On Resistance (high side)
RonHH
5.5
Ω
VH-VLIN=5V
On Resistance (low side)
RonHL
5.5
Ω
VH-VLIN=5V
Low Side
Drive
On Resistance (high side)
RonLH
5.5
Ω
VCC=5V
On Resistance (low side)
RonLL
5.5
Ω
VCC=5V
Bootstrap
Bootstrap Voltage
Protection
System
62
VH-VLIN
4.5
Current for Current Limit Detection
Ilim
90
Soft Start Terminal Current
Iss
5
5.5
V
100
110
µA
VCC=5V, VIN=5V
µA
VCC=5V
±20
EN Low Level Voltage
Vcelo
0
0.8
V
VCC=5V
EN High Level Voltage
Vcehi
2.4
VCC
V
VCC=5V
EN Bias Level Current
ICE
5
µA
VCC=5V, EN=5V
PWRGD Good Voltage (high side)
Vsens
1.32
V
VCC=5V
PWRGD Good Voltage (low side)
Vsens
0.88
V
VCC=5V
PWRGD Low Output Voltage
Vpwrgd
0.4
V
VCC=5V, Ipwrgd=120µA
PWRGD Terminal Current
Ipwrgd
120
µA
VCC=5V, Vpwrgd=0.4V
PWRGD Leakage Current
Ipwrgd
5
µA
Vpwrgd=5V
ICs
SI-8511NVS
■External Dimensions (TSSOP24)
(Unit : mm)
2.0 φ Mirror surface
Depth 0.02 to 0.08
11
°
A
11
°
13
24
1.0 φ Mirror surface
(6.4)
12
11
°
1
11
°
1.90
3.00
7.6±0.2
5.60±0.1
Depth 0.02 to 0.08
+0.1
0.15 –0.05
0.65
0.375 TYP
0.22+0.1
–0.05
0.12 M
A
7.80±0.1
0.4
7.9±0.2
1.15±0.05
11°
11°
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 1.36g
1°
1
0.10±0.05
11°
°
0 to 10
S
0.08 S
0.50±0.2
■Block Diagram (Pin Assignment)
VIN
+
+5V
VCC1
ILIM
VIN ISEN
VCC2
OCP
PRE_REG
EN
H : ON
L : OFF
EN
UVLO
Vpreg
VH
Level
Shift
Gate Driver
OFF Clamp
Latch
Buff
DRVH
VO
Synchronous
Cont.
(Logic)
POWER_GOOD
H : GOOD
L : NG
PWRGD
LIN
+
Buff
Logic
Power
Good
DRVL
PGND
–
Switching
+
Constant On
Time Cont.
+
COMP
–
VO
VSNS
–
OSC
+
SS
GND
OVP_SL
FADJ
Open : Change Frequency
Short : 400KHz Operation
FSET
14
SS
12
SKIP
Open : Skip Mode
L
: No Skip Mode
■Typical Connection Diagram
VIN
R2
C1 : 10 µ F
VCC : 5V
D2 : SFPL52
C7 : 0.1 µ F
R1
5mΩ
R5
10Ω
1
NC
NC
DRVH
LIN
Q1
24
L1 : 10 µ H
2
3
4
C6
0.1 ~ 1 µ F
C9
1000
pF
5
6
7
8
VCC
R7
47kΩ
R10
2.2kΩ
R9
9
10
VH
DRVL
VIN
PGND
ISEN
VCC2
ILIN
OVP_SL
SI-8511NVS
GND
VSNS
VO
PWRGD
VCC1
SS
EN
SKIP
23
22
21
20
VO
+
Q2
D1
SJPJ-L3
R6
10Ω
C5 : 4.7 µ F
19
R12
18
C4 : 3.3 µ F
VCC
17 C8 : 220pF
16
15
EN
SKIP
PWRGD
11
12
REF
NC
FADJ
NC
14
13
R11 : 100kΩ
R8 : 200kΩ
R13
R4
47kΩ
C3
0.1 µ F
C2 :
330 µ F
MOS FET Q1, Q2
• Be sure to use logic type MOS FET as Q1 and Q2.
If you use a normal power MOS FET type, the ON resistance may not drop to a
satisfactory level due to a shortage of VGS. This may deteriorate the efficiency
and cause overheating.
Diode D1
• Be sure to use a Schottky-barrier diode for D1.
If other diodes like fast recovery diodes are used, IC may be destroyed because
of the reverse voltage generated by the recovery voltage or ON voltage.
Choke coil L1
• If the winding resistance of the choke coil is too high, the efficiency may drop
below the rated value.
• Take care concerning heat radiation from the choke coil caused by magnetic
saturation due to overload or short-circuit load.
Capacitor C1, C2
• As large ripple currents flow through C1 and C2, use high-frequency and lowimpedance capacitors suitable for switching mode power supplies. Especially
when the impedance of C2 is high, the switching waveform may become abnormal at low temperatures. For C2, do not use a capacitor with an extremely low
equivalent series resistance (ESR) such as a ceramic capacitor, which may cause
an abnormal oscillation.
* To create the optimum operating conditions, place the components as close as
possible to each other.
ICs
63
1-1-4 Linear Regulator ICs
Selection
早 見 表Guide
Linear Regulator ICs (low dropout voltage, built-in overcurrent protection and thermal shutdown circuits)
<Single Output>
Surface-Mount Type
Output Voltage
(V)
Output Current
Series Name
(A)
SI-3000LU
0.25
SI-3000LSA
1.0
SI-3000KS
1.0
SI-3000KD
1.0
SI-3000LLSL
1.5
SI-3000ZD
3.0
1.8
2.5
3.3
5.0
◎
◎
◎
◎
◎
◎
Variable (Reference Voltage)
(V)
9.0
12
1.0
1.1
1.25
1.28
◎
◎
◎
◎
Maximum Input
Voltage
(V)
(V)
0.5
18
SOT89-5
○
66
1.2
16
SOP8
–
68
Package
Page
Capacitor
◎
0.6
17
SOP8
○
70
◎
0.6
35*1
TO263-5
○*2
72
0.3
10
SOP8
○
76
0.6
10
TO263-5
–
78
◎
◎
Can Use
Low ESR
Dropout
Voltage
◎
*1: For the SI-3012KD and 3033KD: 17 V
*2: The SI-3010KD and 3050KD cannot use a low ESR capacitor.
Thru-Hole Type
Output Current
Series Name
Variable (Reference Voltage)
(V)
(A)
1.0
SI-3000KF
1.0
◎
SI-3000ZF
3.0
1.1
Dropout
Voltage
Maximum Input
Voltage
(V)
(V)
Package
Can Use
Low ESR
Page
Capacitor
0.5
35
TO220F-5
–
80
◎
0.7
10
TO220F-5
–
82
Output Voltage
Output Current
Dropout
Voltage
Maximum Input
Voltage
Package
Can Use
Low ESR
Page
(V)
(A)
(V)
(V)
ch1
3.3
1.0
0.6
18.0
ch2
2.5
1.0
<Multi Output>
Part Number
SI-3002KWM
64
ICs
Capacitor
TO252-5
–
84
1-1-4 Linear Regulator ICs
Application Note
■ Heat dissipation and Reliability
■ Mounting Torque
The reliability of an IC is highly dependent on its operating temperature.
Please be sure to apply silicone grease to the IC and to mount it to the
heatsink with a proper mounting torque.
Heatsink design should pay particular attention to ensuring sufficient heat
dissipation capacity.
In addition, please take into account the air convection in operation.
SI-3000KF
SI-3000ZF
■ Calculating Internal Power Dissipation(PD)
PD is given by the following formula:
PD=IO • [VIN(mean)–VO]
Determine the size of the heatsink according to the relationship between
allowable power dissipation and ambient temperature.
■ Setting DC Input Voltage
The following is the waveform of a DC input voltage.
VIN (max.)
VIN (mean)
VIN (min.)
Input Ripple
When setting the DC input voltage, please follow the instructions below:
●Make VIN(min) ≥ [ (Output voltage) + (Minimum dropout voltage) ]
●Make VIN(max) ≤ DC input voltage shown in the "Absolute Maximum Ratings"
■ Thermal Design
The maximum junction temperature Tj(max) given in the absolute maximum ratings is specific to each product type and must be strictly observed. Thus, thermal design must consider the maximum power dissipation PD(max), which varies by the conditions of use, and the maximum ambient temperature Ta(max).
To simplify thermal design, Ta-PD characteristic graphs are provided herein.
Please observe the following steps for heatsink design:
1. Obtain the maximum ambient temperature Ta(max).
2. Obtain the maximum power dissipation PD(max).
3. Look for the intersection point on the Ta-PD characteristic graph and determine the size of the heatsink.
Although the heatsink size is now obtained, in actual applications, 10-to-20%
derating factor is generally introduced. Moreover, the heat dissipation capacity
of a heatsink highly depends on how it is mounted. Thus, it is recommended to
measure the heatsink and case temperature in the actual operating environment.
Please refer to the Ta-PD characteristic graphs for respective product types.

 0.588 to 0.686 [N•m] ( 6.0 to 7.0 [kgf•cm] )

■ Recommended Silicone Grease
• Shin-Etsu Chemical Co., Ltd.: G746
• Momentive Performance Materials Inc.: YG-6260
• Dow Corning Toray Silicones Co., Ltd.: SC102
Please select proper silicone grease carefully since the oil in some grease
products may penetrate the device and result in an extremely short device
life.
■ Others
• Devices can not be operated in parallel connection aiming for a larger current.
• Diodes for isolation purpose are provided in between input and ground, and
also in between output and ground. They may be broken down if the device
is reverse biased. In this case, please clamp the device with low VF diodes to
protect them.
■ Rectifier Diodes for Power Supplies
To rectify the AC input voltage using rectifier diodes for power supplies,
please use SANKEN rectifier diodes shown in the following list. (Please
use a center-tap or bridge configuration in using stand-alone type diodes.)
Series Name
SI-3000LU Series
SI-3000LSA Series
SI-3000KS Series
SI-3000KD Series
SI-3000LLSL Series
SI-3000ZD Series
SI-3000KF Series
SI-3000ZF Series
Diodes
SJPM-H4(Surface-Mount Stand-Alone Type,VRM:400V,IO:2.0A)
AM01Z(Axial Type, VRM:200V, IO:1.0A)
RM10Z(Axial Type, VRM:200V, IO:1.5A)
ICs
65
1-1-4 Linear Regulator ICs
SI-3000LU Series Surface-Mount, Low Current Consumption, Low Dropout Voltage
■Features
■Absolute Maximum Ratings
• Compact surface-mount package (SOT89-5)
Parameter
• Output current: 250 mA
• Low current consumption lq (OFF) ≤ 1µA (VC =
0 V)
• Low dropout voltage: VDIF ≤ 0.5 V (at IO = 250
mA)
• Output voltage range (1.5V to 15V)
• Built-in drooping-type-overcurrent and thermal
protection circuits
(Ta=25°C)
Symbol
Ratings
Unit
V
DC Input Voltage
VIN
18
Output control terminal voltage
VC
VIN
V
DC Output Current
IO
250
mA
Power Dissipation
PD*1
0.75
W
Junction Temperature
Tj*2
–40 to +135
°C
Storage Temperature
Tstg*2
–40 to +125
°C
Thermal Resistance (Junction to Ambient Air)
θ j-a*1
146
°C/W
*1: When mounted on glass-epoxy board 40 × 40 mm (copper laminate area 2%).
*2: Thermal protection circuits may operate if the junction temperature exceeds 135°C.
■Applications
• Auxiliary power supplies for PC
• Battery-driven electronic equipment
■Recommended Operating Conditions
Ratings
Parameter
Symbol
min.
Unit
max.
Input Voltage
VIN
*2, *3
VO+2*1
V
DC Output Current
IO
0
250
mA
Operating Ambient Temperature
Top
–20
85
°C
*1: VIN (max) and IO (max) are restricted by the relation PD = (VIN - VO) × IO.
Calculate these values referring to the reference data on page 67.
*2: Refer to the Dropout Voltage parameter.
*3: For the SI-3012LU, set the input voltage to Vin ≥ 2.4 V, and secure the minimum voltage as explained in "Setting DC Input Voltage" section in Linear Regulator Application Note.
■Electrical Characteristics
(Ta=25°C, VC=2V, unless otherwise specified)
Ratings
Parameter
Symbol
SI-3012LU(Variable)
min.
VADJ
Reference Voltage
1.210
Conditions
max.
1.250
1.290
VIN=VO+1V, IO =10mA
VDIF
Dropout Voltage
Conditions
IO=100mA(VO =3.3V)
Conditions
IO=250mA(VO =3.3V)
0.5
∆VLINE
∆VLOAD
∆VO/∆Ta
±0.3
Tj=0 to 100°C
Conditions
RREJ
Iq
150
µA
VIN=VO+1V, IO =0mA
VC=2V, R2=100kΩ
Conditions
Iq(OFF)
1
Conditions
VIN=VO+1V, VC=0V
260
Conditions
VC, IH
Control Voltage (Output OFF)*2
VC, IL
0.8
IC, IH
40
Control Current (Output ON)
Control Current (Output OFF)
Conditions
IC, IL
Conditions
2.0
VC=2V
0
VC=0V
µA
mA
VIN=VO +1V
ON)*2
Control Voltage (Output
Terminal
dB
VIN=VO +1V ,
f=100 to 120HZ( VO=3.3V)
Conditions
IS1
mV/ °C
55
Ripple Rejection
Overcurrent Protection
Starting Current*1
mV
VIN=VO +1V,
IO=1 to 250mA( V O=3.3V)
Conditions
Circuit Current at Output OFF
mV
20
Load Regulation
Quiescent Circuit
Current
V
10
VIN=VO+1 to VO+5V,
IO=10mA( VO=3.3V)
Conditions
Temperature Coefficient of
Reference Voltage
V
0.3
Line Regulation
VC
Unit
typ.
–5
V
µA
µA
*1: Is1 is specified at the 5% drop point of output voltage VO on the condition that VIN = 3.3 V, and IO = 10 mA.
*2: Output is OFF when the output control terminal (VC terminal) is open. Each input level is equivalent to LS-TTL level. Therefore, the device can be driven directly by LS-TTLs.
66
ICs
SI-3000LU Series
■External Dimensions (SOT89-5)
(Unit : mm)
4.5±0.05
1.6±0.05
4.2±0.05
r
w
e
4.2±0.05
4.3±0.05
2.5±0.05
4.7±0.05
q
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 0.05g
1.5±0.05
1.5±0.05
0.4±0.05
1.5±0.05
4.2±0.05
Pin Assignment
q ADJ
w GND
e VC
r VIN
t VO
0.1±0.05
5
±0.0 )
.0
( φ1
0.4±0.03
0.90±0.1
4.2±0.05
0.90±0.1
0.40
4.2±0.05
t
■Block Diagram
SI-3012LU
VIN 4
5 VO
VC 3
1 ADJ
TSD
+
–
2 GND
REF
■Typical Connection Diagram
SI-3012LU
+
CIN
5
4
R1
3
1
2
VIN
CO: Output capacitor (10 µF or larger)
For SI-3000LU series, Co has to be a low ESR capacitor such as a
ceramic capacitor.
CIN: Input capacitor (10 µF approx.)
Setting of SI-3012LU output voltage (recommended voltage: 1.5 V to 15 V)
R1 and R2: Resistors for output setting
The output voltage can be set by connecting R1 and R2 as shown in the
diagram on the left.
R2: 100 kΩ is recommended
R1=(VO–VADJ)/(VADJ/R2)
VO
ADJ
R2
GND
Load
VIN
•
VC
■Reference Data
Copper Laminate Area vs Power Dissipation
Tj=100°C PCB size 40×40
1
Power Dissipation PD (W)
Ta=25°C
0.9
Ta=40°C
0.8
Ta=60°C
Ta=85°C
0.7
0.6
Case temperature Tc
measurement point
0.5
0.4
0.3
• A monolithic ICs mounts an inner frame stage that is connected to the GND
pin (pin 2). Therefore, enlarging the copper laminate area connected to the
GND pin improves heat radiation effect.
• Obtaining the junction temperature
Measure the temperature TC at the lead part of the GND pin (pin 2) with a
thermocouple, etc. Then, substitute this value in the following formula to
obtain the junction temperature.
T j =PD ×θ j–c+Tc ( θ j–c=5° C/W)
0.2
0.1
0
10
100
1000
Copper Laminate Area (mm2)
ICs
67
1-1-4 Linear Regulator ICs
SI-3000LSA Series
Surface-Mount, Low Current Consumption, Low Dropout Voltage
■Features
■Absolute Maximum Ratings
• Compact surface-mount package (SOP8)
Parameter
• Output current: 1 A
• Low circuit current at output OFF: Iq(OFF) ≤ 1
µA (VC = 0 V)
VDIF ≤1.2 V (IO = 1 A) for SI-3018LSA
• Output ON/OFF control terminal voltage
compatible with LS-TTL
Unit
VIN
16
V
Output control terminal voltage
VC
VIN
V
DC Output Current
IO
1
A
PD1*1
1.16
W
PD2*2
1.1
W
Tj*3
–30 to +150
°C
Operating Ambient Temperature
Top
–30 to +150
°C
Storage Temperature
Tstg
–30 to +150
°C
Thermal Resistance (Junction to Lead (pin 8))
θ j-L
36
°C/W
Thermal Resistance (Junction to Ambient Air)
θ j-a *2
100
°C/W
Junction Temperature
• 4 types of output voltages (1.8 V, 2.5 V, 3.3 V,
5.0 V) available
Ratings
DC Input Voltage
Power Dissipation
• Low dropout voltage: VDIF≤0.8 V (at IO = 1 A)
(Ta=25°C)
Symbol
*1: When mounted on glass-epoxy board 56.5 × 56.5 mm (copper laminate area 100%).
*2: When mounted on glass-epoxy board 40 × 40 mm (copper laminate area 100%).
*3: Thermal protection circuits may be activated if the junction temperature exceeds 135°C.
• Built-in foldback-type-overcurrent and thermal
protection circuits
■Applications
• Auxiliary power supplies for PC
• Battery-driven electronic equipment
■Recommended Operating Conditions
Ratings
Parameter
Symbol
SI-3018LSA
SI-3025LSA
3.1 to 3.5*1
*2
SI-3033LSA
to 3.5*1
*2
Unit
SI-3050LSA
to 5.2*1
*2
DC Input Voltage Range
VIN
to 8.0
DC Output Current Range
IO
0 to 1
V
A
Operating Junction Temperature
Tjop
–20 to +125
°C
Operating Ambient Temperature
Taop
–30 to +85
°C
*1: VIN (max) and IO (max) are restricted by the relation PD = (VIN – VO) × IO.
Please calculate these values referring to the reference data on page 69.
*2: Refer to the Dropout Voltage parameter.
■Electrical Characteristics
(Ta=25°C, VC=2V, unless otherwise specified)
Ratings
Parameter
Symbol
VO
Output Voltage
Conditions
SI-3018LSA
SI-3033LSA
typ.
max.
min.
typ.
max.
min.
1.764
1.800
1.836
2.450
2.500
2.550
3.234
VIN=3.3V, IO=0.5A
VDIF
VIN=3.3V, IO=0.5A
–
Conditions
Dropout Voltage
SI-3025LSA
min.
Conditions
Temperature Coefficient of
Output Voltage
Conditions
IO≤0.5A
0.8
Overcurrent Protection
Starting Current*1,3
IS1
Control Voltage (Output OFF)*2
VC
Terminal
Control Current (Output ON)
Control Current (Output OFF)
VC, IH
10
2
10
Conditions
10
3
15
10
20
20
20
VIN=3.3V, IO=0 to 1A
VIN=5V, IO=0 to 1A
VIN=6V, IO=0 to 1A
±0.3
±0.3
±0.3
±0.5
VIN=3.3V, IO=5mA, Tj=0 to 100°C
VIN=3.3V, IO=5mA, Tj=0 to 100°C
VIN=5V, IO=5mA, Tj=0 to 100°C
VIN=6V, IO=5mA, Tj=0 to 100°C
60
57
55
55
VIN=3.3V, f=100 to 120HZ
VIN=3.3V, f=100 to 120HZ
VIN=5V, f=100 to 120HZ
VIN=6V, f=100 to 120HZ
1.7
1.7
1.7
1.7
2.5
VIN=3.3V, IO=0A
2.5
VIN=3.3V, IO=0A
1
VIN=5V, IO=0A
1
VIN=3.3V, IO=0A, VC=0V
VIN=3.3V, IO=0A, VC=0V
1.2
1.2
VIN=3.3V
1
VIN=5V, IO=0A, VC=0V
VIN=6V, IO=0A, VC=0V
1.2
VIN=5V
2.0
2.0
80
40
80
0
–5
0
–5
0.8
0.8
40
80
40
80
0
–5
0
–5
VC=2V
VC=0V
*1: Is1 is specified at the 5% drop point of output voltage VO on the condition that VIN = 3.3 V (5 V for SI-3033LSA), and IO = 0.5 A.
*2: Output is OFF when the output control terminal VC is open. Each input level is equivalent to LS-TTL level. Therefore, the device can be driven directly by LS-TTLs.
*3: These products cannot be used in the following applications. Because these applications require a certain current at start-up and so the built-in foldback-type overcurrent
protection may cause errors during start-up stage.
(1) Constant current load (2) Positive and negative power supply (3) Series-connected power supply (4) VO adjustment by raising ground voltage
68
ICs
dB
mA
µA
A
VIN=6V
2.0
0.8
40
mV/ °C
VIN=6V, IO=0A
1.2
0.8
mV
2.5
1
VIN=3.3V
2.0
2.5
mV
30
VIN=3.3V, IO=0 to 1A
Conditions
IC, IL
3
10
VC, IL
IC, IH
V
0.8
10
Conditions
ON)*2
IO≤0.5A
0.8
10
Iq(OFF)
Conditions
V
0.4
VIN=6 to 7V, IO=0.3A
Conditions
Circuit Current at Output OFF
5.10
0.4
IO≤0.5A
1.2
5.00
VIN=6V, IO=0.5A
VIN=4.5 to 5.5V, IO=0.3A
Iq
Quiescent Circuit Current
4.90
VIN=3.1 to 3.5V, IO=0.3A
RREJ
Ripple Rejection
Control Voltage (Output
2
∆VO/∆Ta
Conditions
3.366
max.
VIN=3.1 to 3.5V, IO=0.3A
∆VOLOAD
Load Regulation
3.300
Unit
typ.
IO≤1A
∆VLINE
Conditions
min.
VIN=5V, IO=0.5A
Conditions
Line Regulation
max.
0.4
–
0.6
SI-3050LSA
typ.
V
µA
µA
SI-3000LSA Series
■External Dimensions (SOP8)
(Unit : mm)
5.1±0.4
1.27
0.15+0.1
–0.05
6
5
1
2
3
4
6.2±0.3
7
4.4±0.2
8
Pin Assignment
q VIN
w NC (Leave open)
e VIN
r VC
t GND
y GND
u VO
i VO
0.5±0.1
0.4±0.1
10
°
1.27
1.5±0.1
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 0.1g
0.05±0.05
0.10
0.4±0.1
1.55±0.15
0
to
0.995max.
0.12 M
■Block Diagram
VIN 1
8
NC 2
7 VO
VO
+
–
VIN 3
TSD
6
VC 4
GND
5
GND
■Typical Connection Diagram
+
CIN
1
8
2
7
3
6
4
VO
+
5
VIN
GND
CO: Output capacitor (22 µF or larger)
CIN: Input capacitor (10 µF)
This capacitor is required in the case of an inductive input line or long
wiring.
Tantalum capacitors are recommended for CIN and CO, particularly at
low temperatures.
* Leave pin 2 open.
Load
VIN
CO
VC
■Reference Data
PCB Copper Laminate Area vs. Junction to
Ambient Air Thermal Resistance
Allowable Output Current
(vs. VIN-VOUT Voltage Difference)
VIN-IO max
150
140
1.2
PCB (glass-epoxy, 40×40mm)
160mm (40×40) mm
Tj = 120°C (20% derating of 150°C)
1.0
The inner frame stage, on which the PTr is mounted,
is directly connected to the VOUT pin.
Therefore, enlarging the copper laminate area
around the VOUT pin is really effective for a heat
radiation.
130
120
Iout (max) (A)
θ j-a (°C/W)
0.8
110
100
θ j-a=100°C/W
0.6
0.4
Ta=25°C
0.2
Ta=85°C
90
80
70
100
0
1000
Copper Laminate Area (mm2)
5000
1
2
3
4
VIN-VOUT Voltage Difference (V)
ICs
69
1-1-4 Linear Regulator ICs
SI-3000KS Series Surface-Mount, Low Current Consumption, Low Dropout Voltage
■Features
■Absolute Maximum Ratings
• Compact surface-mount package (SOP8)
Parameter
• Compatible with low ESR capacitor
• Low circuit current at output OFF Iq ≤ 350 µA
(IO = 0 A, VC = 2 V)
• Low current consumption Iq (OFF) ≤ 1 µA (VC
= 0 V)
Unit
VIN*1
17
V
VC
VIN
V
DC Output Current
IO*1
1.0
A
Power Dissipation
PD*1, *2
0.76
W
Junction Temperature
Tj
–40 to +125
°C
Storage Temperature
Tstg
–40 to +125
°C
Thermal Resistance (Junction to Ambient Air)
θ j-a
θ j-L
130
°C/W
22
°C/W
Thermal resistance (Junction to Lead (pin 7))
• Low dropout voltage VDIF ≤ 0.6 V (IO = 1 A)
Ratings
Output Control Terminal Voltage
DC Input Voltage
• Output current: 1.0 A
(Ta=25°C)
Symbol
*1: VIN (max) and IO (max) are restricted by the relation PD = (VIN - VO) × IO. Please calculate these values referring to the
Copper laminate area vs. Power dissipation data as shown hereinafter.
*2: When mounted on a glass epoxy board of 1600 mm2 (copper laminate area 2%).
• 3 types of output voltages (2.5 V, 3.3 V, and
variable type) available
• Output ON/OFF control terminal voltage
compatible with LS-TTL
• Built-in drooping-type-overcurrent and thermal
protection circuits
■Applications
• Local power supplies
• Battery-driven electronic equipment
■Electrical Characteristics
(Ta=25°C, Vc=2 V, unless otherwise specified)
Ratings
Parameter
Symbol
SI-3012KS (variable type)
min.
Input Voltage
Output Voltage
(Reference voltage VADJ for SI-3012KS)
VIN
2.4
VO (VADJ)
1.24
Conditions
max.
min.
1.28
1.32
2.45
Load Regulation
Quiescent Circuit Current
Circuit Current at Output OFF
Temperature Coefficient of
Output Voltage
Ripple Rejection
Overcurrent Protection
Starting Current*2
VC
Terminal
min.
2.50
2.55
3.234
VIN=3.3V, IO=10mA
0.3
Conditions
Conditions
Conditions
10
VIN=5V, IO=0 to 1A
350
VIN=3.3V, IO=0A, VC=2V
1
VIN=5V, IO=0A, VC=2V
1
1
VIN=3.3V, VC=0V
VIN=5V, VC=0V
±0.3
±0.3
Tj=0 to 100°C (VO=2.5V)
Tj=0 to 100°C
Tj =0 to 100°C
55
55
55
VIN =3.3V, f=100 to 120HZ (VO=2.5V)
VIN=3.3V, f=100 to 120HZ
VIN=5V, f=100 to 120HZ
RREJ
IS1
50
350
VIN=3.3V, VC=0V
Conditions
Conditions
15
VIN=5 to 10V, IO=10mA
VIN=3.3V, IO=0 to 1A
VIN=3.3V, IO=0A, VC=2V, R2=24kΩ
∆VO/∆Ta
0.6
40
350
1.2
Conditions
±0.3
1.2
Control Voltage (Output OFF)
VC, IL
0.8
0.8
0.8
IC, IH
40
40
40
Control Current (Output ON)
Control Current (Output OFF)
IC, IL
Conditions
2.0
VC=2V
Conditions
–5
0
–5
0
–5
0
VC=0V
*1: Refer to the Dropout Voltage parameter.
*2: The Is1 is specified at the 5% drop point of output voltage VO on the condition that VIN = VO + 1 V, and IO = 10 mA.
*3: Output is OFF when the output control terminal VC is open. Each input level is equivalent to LS-TTL level. Therefore, the device can be driven directly by LS-TTLs.
70
ICs
mV
µA
µA
A
VIN=5V
VC, IH
2.0
mV
dB
Control Voltage (Output ON)*3
2.0
V
mV/ °C
1.2
VIN=3.3V
VIN=3.3V (VO=2.5V)
V
IO=1A
10
VIN=3.3V, IO=0 to 1A (VO=2.5V)
Conditions
V
IO=0.5A
VIN=3.3 to 8V, IO=10mA
40
Iq (OFF)
3.366
0.4
IO=1A
VIN=3.3 to 8V, IO=10mA (VO=2.5V)
Iq
3.300
0.6
IO=1A (VO=2.5V)
∆VOLOAD
max.
VIN=5V, IO=10mA
IO=0.5A
0.6
∆VOLINE
typ.
0.4
IO=0.5A (VO=2.5V)
Conditions
Line Regulation
max.
*1
VIN=3.3V, IO=10mA
Conditions
Unit
SI-3033KS
typ.
*1
VDIF
Dropout Voltage
SI-3025KS
typ.
V
µA
µA
SI-3000KS Series
■External Dimensions (SOP8)
(Unit : mm)
±0.4
5.1
1.27
5
1
2
3
4
0.5±0.1
6
6.2±0.3
7
4.4±0.2
8
Pin Assignment
q VC
w VIN
e VO
r Sence (ADJ for SI-3012KS)
t GND
y GND
u GND
i GND
0.15+0.1
–0.05
0.4±0.1
10
°
1.27
0.10
0.4±0.1
0.12 M
1.55±0.15
Plastic Mold Package Type
Flammability: UL 94V-0
Product Mass: Approx. 0.1 g
0.05±0.05
1.5±0.1
0
to
0.995max.
■Block Diagram
●SI-3012KS
●SI-3025KS, SI-3033KS
VIN 2
3 VO
VIN 2
VC 1
4 ADJ
VC 1
3 VO
4
Sense
TSD
-
TSD
-
+
+
8
8
7
7
6
REF
6
REF
5 GND
5 GND
■Typical Connection Diagram
●SI-3012KS
●SI-3025KS, SI-3033KS
VIN
2
VO
3
R1
VC GND ADJ
1
4
5 to 8
CIN
VIN
2
CO
Load
CIN
VO
3
sense
VC GND 4
1
5 to 8
CO
Load
R2
R2
R1, R2: Output voltage setting resistors
The output voltage can be set by connecting R1 and R2
as shown above.
The recommended value of R2 is 24 kΩ .
CIN: Input capacitor (22 µF or larger)
CO: Output capacitor (22 µF or larger)
For SI-3000KS series, Co has to be a low ESR capacitor.
When using the electrolytic capacitor, the SI-3000KS series may oscillate at a low temperature.
R1=(VO–VADJ)÷(VADJ/R2)
■Reference Data
Copper Laminate Area vs.
Thermal Resistance
140
Copper Laminate Area vs.
Power Dissipation
Area of PC board : 40×40mm
1.2
Tj=100°C Area of PC board : 40×40mm
1
120
Power dissipation PD (W)
Thermal resistance θ j-a (°C/W)
Ta=25°C
100
80
Ta=50°C
Ta=80°C
0.8
• Obtaining the junction temperature
Measure the temperature TL at the lead part of the GND
pin (pin 7) with a thermocouple, etc. Then, substitute
this value in the following formula to obtain the junction
temperature.
Tj=PD × θ j–L + TL
0.6
( θ j–L = 22°C/W)
0.4
60
0.2
40
10
100
Copper laminate area (mm2)
(GND terminal)
1000
0
10
100
Copper laminate area (mm2)
(GND terminal)
1000
ICs
71
1-1-4 Linear Regulator ICs
SI-3000KD Series
Surface-Mount, Low Current Consumption, Low Dropout Voltage
■Features
■Absolute Maximum Ratings
• Compact surface-mount package (TO263-5)
Parameter
• Output current: 1.0A
(Ta=25°C)
Ratings
Symbol
SI-3012KD/3033KD
SI-3010KD/3050KD
35*1
17
Unit
DC Input Voltage
VIN
• Low dropout voltage: VDIF ≤ 0.6V (at IO = 1.0A)
DC Output Current
IO
1.0
A
• Low circuit current consumption: Iq ≤ 350 µA
(600 µA for SI-3010KD, SI-3050KD)
Power Dissipation
PD*2
3
W
Junction Temperature
Tj
–30 to +125
°C
Storage Temperature
Tstg
–30 to +125
°C
Thermal Resistance (Junction to Ambient Air)
θ j-a
33.3
°C/W
Thermal Resistance (Junction to Case)
θ j-c
3
°C/W
• Low circuit current at output OFF: Iq (OFF) ≤ 1 µA
• Built-in overcurrent, thermal protection circuits
• Compatible with low ESR capacitors (SI-3012KD
and SI-3033KD)
V
*1: A built-in input-overvoltage-protection circuit shuts down the output voltage at the Input Overvoltage Shutdown Voltage
of the electrical characteristics.
*2: When mounted on glass-epoxy board of 1600mm2 (copper laminate area 100%).
■Applications
• Secondary stabilized power supply (local power supply)
■Electrical Characteristics 1 (Low Input Voltage type compatible with low ESR output capacitor)
(Ta=25°C, VC=2V, unless otherwise specified)
Ratings
Parameter
Symbol
SI-3012KD (Variable type)
min.
Input Voltage
Output Voltage
(Reference Voltage for SI-3012KD)
VIN
2.4*3
VO (VADJ)
1.24
Conditions
max.
*4
*3
1.28
1.32
3.234
*4
VIN=5 to 10V, IO=10mA
50
VIN=5V, IO=0 to 1A
0.4
Conditions
IO=0.5A
0.6
Quiescent Circuit Current
Temperature Coefficient of
Output Voltage
RREJ
Overcurrent Protection Starting
Current*1
IS1
1
VIN=3.3V, VC=0V
Conditions
Conditions
VIN=5V, IO=0A,VC=2V
1
Conditions
∆VO/∆Ta
Ripple Rejection
350
VIN=3.3V, IO=0A, VC=2V, R2=2.4kΩ
Iq (OFF)
VIN=5V, VC=0V
±0.3
±0.3
Tj=0 to 100°C (VO=2.5V)
Tj=0 to 100°C
55
55
VIN=3.3V, f=100 to 120HZ, IO=0.1A (VO=2.5V)
1.1
Conditions
1.1
VIN=3.3V
VC, IL
0.8
0.8
IC, IH
40
40
Control Current (Output OFF)
IC, IL
Conditions
2
2
VC=2V
–5
0
VC=0V
V
VC=2V
–5
0
VC=0V
µA
µA
A
VIN=5V
VC, IH
Conditions
mV
dB
VIN=5V, f=100 to 120HZ, IO=0.1A
Control Voltage (Output OFF)
Control Current (Output ON)
mV
mV/°C
ON)*2
Control Voltage (Output
V
IO=1A
350
Conditions
Circuit Current at Output OFF
0.6
IO=1A (VO=2.5V)
Iq
V
0.4
IO=0.5A (VO=2.5V)
Conditions
Terminal
3.366
15
VIN=3.3V, IO=0 to 1A (VO=2.5V)
VDIF
VC
3.300
40
Conditions
Dropout Voltage
max.
VIN=5V, IO=10mA
VIN=3.3 to 8V, IO=10mA (VO=2.5V)
∆VOLOAD
Unit
typ.
15
Conditions
Load Regulation
min.
VIN=3.3V, IO=10mA
∆VOLINE
Line Regulation
SI-3033KD
typ.
V
µA
µA
*1: IS1 is specified at the 5% drop point of output voltage VO under the condition of Output Voltage parameter.
*2: Output is OFF when the output control terminal (VC terminal) is open. Each input level is equivalent to LS-TTL level. Therefore, the device can be driven directly by LS-TTLs.
*3: Refer to the Dropout Voltage parameter.
*4: VIN (max) and IO (max) are restricted by the relation PD = (VIN - VO) × IO. Please calculate these values referring to the Copper laminate area vs. Power dissipation data.
72
ICs
SI-3000KD Series
■Electrical Characteristics 2 (High Input Voltage Type)
Ratings
Parameter
Symbol
SI-3010KD (Variable type)
min.
VIN
2.4*1
VO (VADJ)
0.98
Input Voltage
Output Voltage
(Reference Voltage VADJ for SI-3010KD)
Conditions
SI-3050KD
typ.
max.
27*5
*1
1.00
1.02
4.90
VIN=7V, IO=10mA
IO=1A
600
1
Conditions
Conditions
IS1
Overcurrent Protection Starting Current*2
±0.5
±0.5
Tj=0 to 100°C
75
75
VIN=7V,
f=100 to 120Hz, IO=0.1A (VO=5V)
VIN=7V,
f=100 to 120Hz, IO=0.1A
1.1
ON)*3
VC, IH
Control Voltage (Output OFF)*3
VC, IL
Control Voltage (Output
VIN=7V
2.0
–5
µA
VC=2V
0
–5
VC=0V
VOVP
V
40
VC=2V
Conditions
Input Overvoltage Shutdown
Voltage
A
0.8
40
Conditions
Control Current (Output OFF)
dB
2.0
0.8
IC, IL
mV/ °C
VIN=7V
IC, IH
Control Current (Output ON)
µA
1.1
Conditions
*4
1
VIN=7V, VC=0V
Tj=0 to 100°C (VO=5V)
RREJ
µA
VIN=7V, IO=0A,
VC=2V
VIN=7V, VC=0V
∆VO/∆Ta
Ripple Rejection
600
VIN=7V, IO=0A, VC=2V
R2=10kΩ
Iq (OFF)
Temperature Coefficient of
Output Voltage
V
0.6
IO=1A (VO=5V)
Conditions
mV
IO=0.5A
Iq
Circuit Current at Output OFF
mV
0.3
IO=0.5A (VO=5V)
Conditions
V
VIN=7V, IO=0 to 1A
0.6
Quiescent Circuit Current
V
75
0.3
Conditions
Conditions
Terminal
15*5
75
VDIF
VC
5.10
30
VIN=7V,
IO=0 to 1A (VO=5V)
Conditions
Dropout Voltage
5.00
VIN=6 to 11V, IO=10mA
∆VOLOAD
Load Regulation
max.
30
VIN=6 to 11V,
IO=10mA (VO=5V)
Conditions
Unit
typ.
VIN=7V, IO=10mA
∆VOLINE
Line Regulation
min.
0
µA
VC=0V
33
26
Conditions
IO=10mA
V
IO=10mA
*1:
*2:
*3:
*4:
Refer to the Dropout Voltage parameter.
Is1 is specified at the 5% drop point of output voltage VO under the condition of Output Voltage parameter.
Output is OFF when the output control terminal (VC terminal) is open. Each input level is equivalent to LS-TTL level. Therefore, the device can be driven directly by LS-TTLs.
SI-3010KD, SI-3050KD, cannot be used in the following applications because the built-in foldback-type overcurrent protection may cause errors during start-up stage.
(1) Constant current load (2) Positive and negative power supply (3) Series-connected power supply (4) VO adjustment by raising ground voltage
*5: VIN (max) and IO (max) are restricted by the relation PD = (VIN - VO) ✕ IO. Please calculate these values referring to the Copper laminate area vs. Power dissipation data as shown
hereinafter.
■External Dimensions (TO263-5)
(unit : mm)
±0.2
10.0
(8.0)
±0.2
1.2
(6.8)
±0.15
±0.1
(3°)
±0.2
2.54
(R0.3)
0 to 6°
(0.5)
±0.1
±0.1
±0.25
(1.7
0.8
±0.25
(1.7
)
)
1
2
3
4
5
Pin Assignment
q VC
w VIN
e GND (Common to the rear side of product)
r VO
t Sense
(ADJ for SI-3010KD/3012KD)
4.9
±0.3
±0.2
2.4
(R0.3)
2.0
(0.75)
0.10
(3°)
15.30
15.3
±0.3
±0.3
9.2±
±0.2
4.9
±0.10
0.88
±0.2
(4.6)
(2×R0.45)
(3°)
±0.2
φ1.5 Dp:
+0.10
1.3 –0.05
3-R0.3
±0.2
(4.4)
±0.2
4.5
9.2
(15°)
(1.75)
(0.40)
Case temperature
measurement point
(1.7
±0.25
)
0.8
±0.25
(1.7
)
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 1.48g
±0.2
9.9
(3°)
(3°)
2-R0.3
±0.02
10.0
ICs
73
1-1-4 Linear Regulator ICs
■Block Diagram
●SI-3010KD/SI-3012KD
●SI-3033KD/SI-3050KD
VIN 2
4 VO
VIN 2
VC 1
5 ADJ
VC 1
4 Vo
5
Sense
TSD
-
TSD
-
+
+
REF
REF
3 GND
3 GND
■Typical Connection Diagram
●SI-3033KD/SI-3050KD
●SI-3010KD/SI-3012KD
D1*2
D1*2
*1
*1
*3
R3
VIN
2
VO
4
VIN
2
+
+
sense
VC GND 5
1
3
CIN
R1
+
+
Load
CO
VO
4
CIN
VC GND ADJ
1
5
3
CO
Load
R2
CIN: Input capacitor (22 µF or larger)
CO: Output capacitor
*1: SI-3012KD/3033KD (22 µF or larger)
Co has to be a low ESR capacitor such as a ceramic capacitor.
When using the electrolytic capacitor, oscillation may occur at a low temperature.
SI-3010KD/3050KD/ (47 µF or larger)
If a low ESR capacitor is used, oscillation may occur.
*2: D1: Reverse bias protection diode
This diode is required for protection against reverse biasing between the input
and output.
(Sanken SJPL-H2 is recommended.)
This diode is not required at VO ≤ 3.3V.
R1, R2: Output voltage setting resistors
The output voltage can be set by connecting R1 and R2 as shown
above.
The recommended value for R2 is 10Ω (24kΩ for SI-3012KD).
R1=(VO–VADJ)÷(VADJ/R2)
*3: For SI-3010KD, insert R3 in case of setting VO to VO ≤ 1.5V.
The recommended value for R3 is 10kΩ.
■Reference Data
Copper Laminate Area (on Glass-Epoxy Board) vs.
Thermal Resistance (from Junction to Ambient Temperature) (Typical Value)
Junction to Ambient Temperature
Thermal Resistance θ j-a (°C/W)
55
When Using Glass-Epoxy Board of 40 × 40 mm
45
40
35
30
0
Tj=PD × θ j–C + TC ( θ j–C = 3°C/W) PD= (VIN–VO)•IOUT
200
400
600
800
1000
1200
Copper Laminate Area (mm2)
74
• A higher heat radiation effect can be achieved by enlarging the copper laminate
area connected to the inner frame to which a monolithic ICs is mounted.
• Obtaining the junction temperature
Measure the case temperature TC with a thermocouple, etc. Then, substitute
this value in the following formula to obtain the junction temperature.
50
ICs
1400
1600
1800
ICs
75
1-1-4 Linear Regulator ICs
SI-3000LLSL Series Surface-Mount, Low Current Consumption, Low Dropout Voltage
■Features
■Absolute Maximum Ratings
• Low input voltage (1.3V) and low output
voltage (1.0V)
• Compact surface-mount package (SOP8)
• Low dropout voltage: VDIF ≤ 0.3V (at IO = 1.5A)
• Built-in overcurrent, input-overvoltage and
thermal protection circuits
• Built-in ON/OFF function (OFF state circuit
current: 1µA max.)
• Compatible with low ESR capacitors
Parameter
(Ta=25°C)
Symbol
Ratings
Unit
DC Input Voltage
VIN
10
DC Bias Voltage
VB
10
Output Control Terminal Voltage
VC
VIN
DC Output Current
IO
1.5
Power Dissipation
PD*1
1.1
V
V
V
A
W
Junction Temperature
Tj
–30 to +125
°C
Operating Ambient Temperature
Top
–30 to +100
°C
Storage Temperature
Tstg
–30 to +125
°C
Thermal Resistance (Junction to Lead (Pin 8))
θ (j-L)
36
°C/W
Thermal Resistance (Junction to Ambient Air)
θ (j-a)*1
100
°C/W
*1: When mounted on glass-epoxy board of 40 × 40mm (copper laminate area 100%).
■Applications
• On-board local power supply
• For stabilization of the secondary-side output voltage of switching power supplies
■Recommended Operating Conditions
Ratings
Parameter
Symbol
VIN
VB
IO
Top
Input Voltage
Bias Voltage
Output Current
Operating Ambient Temperature
Unit
SI-3010LLSL
1.4 to 3.6*1
3.3 to 5.5
0 to 1.5*1
–20 to +85*1
V
V
A
°C
*1: VIN (max) and IO (max) are restricted by the relation PD = (VIN - VO) × IO.
■Electrical Characteristics
(Ta=25°C, VC=2V, VIN=1.8V, VB=3.3V, VO=1.5V, unless otherwise specified)
Ratings
Parameter
Symbol
SI-3010LLSL
min.
VADJ
Reference Voltage
1.000
1.020
IO=10mA
10
Conditions
VIN=1.7 to 2.5V, IO=10mA
30
∆VOLOAD
Load Regulation
Conditions
VIN=1.8V, IO=0 to 1.5A
VDIF
Dropout Voltage
0.3
Conditions
IO=1.0A
Iq
Quiescent Circuit Current
500
Conditions
Circuit Current at Output OFF
Temperature Coefficient of
Output Voltage
Iq (OFF)
1
Conditions
VC=0V
±0.2
Conditions
IS1
800
IO=0A, R2=10kΩ
∆VO/∆Ta
Overcurrent Protection Starting
Current*1
1.6
Conditions
VC, IH
VC, IL
0.8
IC, IH
50
Control Current (Output OFF)
Conditions
2
mV
V
µA
µA
V
VC=2.7V
IC, IL
Conditions
mV
A
VIN=1.8V, VB=3.3V
Control Voltage (Output OFF)
Control Current (Output ON)
V
mV/ °C
Tj=0 to 100°C
ON)*2
Control Voltage (Output
Terminal
max.
∆VOLINE
Line Regulation
VC
0.980
Conditions
Unit
typ.
10
VC=0.4V
V
µA
µA
*1: IS1 is specified at the 5% drop point of output voltage VO on the condition that VIN = overcurrent protection starting current, IO = 10 mA.
*2: Output is OFF when the output control terminal (VC terminal) is open. Each input level is equivalent to LS-TTL level. Therefore, the device can be driven directly by LS-TTLs.
76
ICs
SI-3000LLSL Series
■External Dimensions (SOP8)
(unit : mm)
Pin Assignment
q VO
w ADJ
e VB
r VC
t GND
y GND
u VIN
i VIN
5.1±0.4
1.27
6
5
1
2
3
4
6.2±0.3
7
4.4±0.2
8
0.15+0.1
–0.05
0.5±0.1
0.4±0.1
0t
1.5±0.1
1.55±0.15
0.05±0.05
0.10
0.4±0.1
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 0.1g
o1
0°
1.27
0.995max.
0.12 M
■Typical Connection Diagram/Block Diagram
VIN
VOUT
1
7
+
CSS
R1
8
R1
CIN
OCP
R2
AMP1
-
ON/OFF
-
ADJ
2
-
TSD
+
+
CB 4
VC
OCP(2)
Drive
REF
3
+
VB
6
+
5
GND
Open:OFF
Low: OFF
High: ON
CO
CIN, CB: Input and bias capacitors (Approx. 0.1 to 10µF)
Required when the input line contains inductance or when the
wiring is long.
CO: Output capacitor (47µF or larger)
SI-3010LLSL is designed to use a low ESR capacitor (such as
a ceramic capacitor) for the output capacitor. The recommended ESR value for an output capacitor is 500mΩ or less
(at room temperature).
R1, R2: Output voltage setting resistors
The output voltage can be set by connecting R1 and R2 as
shown at left.
The recommended value for R2 is 10kΩ.
R1= (VO–VADJ) / (VADJ/R2)
CSS:Soft start capacitor
The rising time of the output voltage can be set by connecting
CSS between VOUT and ADJ.
■Reference Data
Copper Laminate Area - Power Dissipation
1.2
Ta=25°C
Pd (W)
1
Ta=50°C
0.8
0.6
Ta=80°C
0.4
0.2
0
10
100
1000
2
Copper Laminate Area (mm )
ICs
77
1-1-4 Linear Regulator ICs
SI-3000ZD Series Surface-Mount, Low Dropout Voltage
■Features
■Absolute Maximum Ratings
• Compact surface-mount package (TO263-5)
Parameter
(Ta=25°C)
Symbol
Ratings
Unit
VIN*1
10
V
Output Control Terminal Voltage
VC
6
V
DC Output Current
IO*1
3.0
A
• Low circuit current at output OFF: Iq (OFF) ≤ 1µA
Power Dissipation
PD*3
3
W
• Built-in overcurrent and thermal protection
circuits
Junction Temperature
Tj
–30 to +125
°C
Operating Ambient Temperature
Top
–30 to +85
°C
Storage Temperature
Tstg
–40 to +125
°C
Thermal Resistance (Junction to Ambient Air)
θ j-a
33.3
°C/W
Thermal Resistance (Junction to Case)
θ j-c
3
°C/W
DC Input Voltage
• Output current: 3.0A
• Low dropout voltage: VDIF ≤ 0.6V (at IO = 3.0A)
■Applications
• Secondary stabilized power supply (local
power supply)
■Recommended Operating Conditions
Parameter
Symbol
Input Voltage
Ratings
*2
VIN
Output Current
Unit
to 6*1
IO
0 to 3
A
Top (a)
–20 to +85
°C
Operating Junction Temperature
Top (j)
–20 to +100
°C
Output Voltage Variable Range
VOADJ
1.2 to 5
V
Operating Ambient Temperature
Remarks
V
Only for SI-3011ZD. Refer to the block diagram.
*1: VIN (max) and IO (max) are restricted by the relation PD = (VIN - VO) × IO.
*2: Set the input voltage to 2.4V or higher when setting the output voltage to 2.0V or lower (SI-3011ZD).
*3: When mounted on glass-epoxy board of 40 × 40mm (copper laminate area 100%).
■Electrical Characteristics
(Ta=25°C, VC=2V, unless otherwise specified)
Ratings
Parameter
Symbol
SI-3011ZD (Variable type)
min.
Output Voltage
(Reference Voltage VADJ for SI-3011ZD)
1.078
Conditions
max.
min.
1.100
1.122
3.234
VIN=VO+1V, IO=10mA
Conditions
Load Regulation
VDIF
1
Conditions
RREJ
Conditions
*4
VC, IH
Control Voltage (Output OFF)*3
VC, IL
VC
Control Current(Output ON)
Terminal
Control Current(Output OFF)
VIN=5V, VC=0V
±0.3
±0.3
Tj=0 to 100°C
Tj=0 to 100°C
60
60
VIN=VO+1V, f=100 to 120HZ, IO=0.1A
VIN=5V, f=100 to 120HZ, IO=0.1A
0.8
100
100
VC=2.7V
–5
0
VC=0V
VC=2.7V
–5
0
VC=0V
mV
V
mA
µA
A
2
0.8
mV
dB
VIN=5V
2
V
mV/ °C
3.2
IC, IH
IC, IL
1.5
1
VIN=VO+1V
Conditions
Conditions
1
VIN=5V, IO=0A, VC=2V
3.2
Conditions
Control Voltage (Output ON)*3
1.5
VIN=VO+1V, VC=0V
∆VO/∆Ta
IS1
0.6
IO=3A
1
Conditions
Current*2
VIN=5V, IO=0 to 3A
VIN=VO+1V, IO=0A, VC=2V
Iq (OFF)
Ripple Rejection
40
0.6
Iq
Temperature Coefficient
of Output Voltage
10
IO=3A (VO=2.5V)
Conditions
Circuit Current at Output OFF
3.366
VIN=4.5 to 5.5V, IO=10mA
VIN=3.3V, IO=0 to 3A (VO=2.5V)
Conditions
Quiescent Circuit Current
3.300
40
Conditions
Dropout Voltage
max.
VIN=5V, IO=10mA
VIN=3.3 to 5V, IO=10mA (VO=2.5V)
∆VOLOAD
Unit
typ.
10
∆VOLINE
Line Regulation
Overcurrent Protection Starting
VO (VADJ)
SI-3033ZD
typ.
V
µA
µA
*1: Set the input voltage to 2.4V or higher when setting the output voltage to 2.0V or lower.
*2: IS1 is specified at the –5% drop point of output voltage VO under the condition of Output Voltage parameter.
*3: Output is OFF when the output control terminal (VC terminal) is open. Each input level is equivalent to LS-TTL level. Therefore, the device can be driven directly by LS-TTLs.
*4: These products cannot be used for the following applications because the built-in foldback-type overcurrent protection may cause errors during start-up stage.
(1) Constant current load (2) Positive and negative power supply (3) Series-connected power supply (4) VO adjustment by raising ground voltage
78
ICs
SI-3000ZD Series
■External Dimensions (TO263-5)
(Unit : mm)
±0.2
10.0
(8.0)
±0.2
1.2
+0.10
1.3 –0.05
(2×R0.45)
±0.1
±0.2
(R0.3)
±0.2
4.9
2.54
±0.3
2.0
2.4
(R0.3)
(0.75)
±0.2
4.9
±0.10
0.88
Pin Assignment
q VC
w VIN
e GND (Common to the rear side of product)
r VO
t Sense
(ADJ for SI-3011ZD)
±0.3
±0.15
0.10
(3°)
(3°)
15.30
15.3
9.2±
±0.3
±0.2
(6.8)
(3°)
±0.2
(4.6)
±0.2
φ1.5 Dp:
(4.4)
±0.2
4.5
3-R0.3
9.2
(15°)
(1.75)
(0.40)
Case temperature
measurement point
0~6°
(0.5)
±0.1
±0.1
0.8
±0.25
)
(1.7
±0.25
(1.7
)
1
2
3
4
0.8
±0.25
(1.7
)
±0.25
(1.7
)
5
±0.2
9.9
(3°)
(3°)
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 1.48g
2-R0.3
±0.02
10.0
0.1
■Block Diagram
SI-3011ZD
VIN
2
4
*
R3
Drive
ON/
OFF
1
TSD
OCP
AMP1
5
-
+
+
REF
R1
+
CIN
VC
CIN: Input capacitor (Approx. 10µF)
CO: Output capacitor (47µF or larger)
The output voltage may oscillate if a low ESR type capacitor
(such as a ceramic capacitor) is used for the output capacitor in
the SI-3000ZD Series.
VO
+
ADJ
CO
-
R2
+
3
GND
SI-3033ZD
VIN
2
4
R1, R2: Output voltage setting resistors
The output voltage can be set by connecting R1 and R2 as shown
at left.
The recommended value for R2 is 10kΩ or 11kΩ.
VO
+
5
CIN
VC
ON/
OFF
1
TSD
OCP
AMP1
-
+
SENSE
+
REF
+
Drive
R1= (VO–VADJ) / (VADJ/R2)
*: Insert R3 in case of setting VO to VO ≤ 1.8V. The recommended
value for R3 is 10kΩ.
CO
+
3
GND
■Reference Data
Copper Laminate Area (on Glass-Epoxy Board) vs.
Thermal Resistance (from Junction to Ambient Temperature) (Typical Value)
Junction to Ambient Temperature
Thermal Resistance θ j-a (°C/W)
55
• A higher heat radiation effect can be achieved by enlarging the copper laminate
area connected to the inner frame to which a monolithic IC is mounted.
• Obtaining the junction temperature
Measure GND terminal temperature TC with a thermocouple, etc. Then substitute
this value in the following formula to obtain the junction temperature.
50
When Using Glass-Epoxy Board of 40 × 40 mm
45
40
Tj=PD×θ j–C+TC
PD= (VIN–VO)•IOUT
35
30
0
200
400
600
800
1000
1200
1400
1600
1800
Copper Laminate Area (mm2)
ICs
79
1-1-4 Linear Regulator ICs
SI-3000KF Series Low Current Consumption, Low Dropout Voltage
■Features
■Absolute Maximum Ratings
• Compact full-mold package (equivalent to
TO220)
Parameter
• Output current: 1.0A
• Low dropout voltage: VDIF ≤ 0.5V (at IO = 1.0A)
• High ripple rejection: 75dB
• Built-in overcurrent and thermal protection
circuits
■Applications
• Secondary stabilized power supply (local
power supply)
Symbol
SI-3010KF
Unit
Remarks
DC Input Voltage
VIN
35*1
V
Output Control Terminal Voltage
Vc
VIN
V
DC Output Current
Io
1.0
A
PD1
16.6
W
With infinite heatsink
PD2
1.72
W
Without heatsink, stand-alone operation
Junction Temperature
Tj
–40 to +125
°C
Storage Temperature
Tstg
–40 to +125
°C
Operating Ambient Temperature
Top
–40 to +100
°C
Thermal Resistance (Junction to Case)
θ j-c
6.0
°C/W
Thermal Resistance (Junction to Ambient Air)
θ j-a
58
°C/W
Power Dissipation
• Low circuit current at output OFF: Iq (OFF) ≤
1µ A
(Ta=25°C)
Ratings
Without heatsink, stand-alone operation
*1: A built-in input-overvoltage-protection circuit shuts down the output voltage at the Input Overvoltage Shutdown Voltage
of the electrical characteristics.
■Recommended Operating Conditions
Ratings
Parameter
Symbol
Unit
SI-3010KF
Input Voltage Range
VIN
2.4*2 to 27*1
V
Output Current Range
IO
0 to 1.0*1
A
Output Voltage Variable Range
VOADJ
1.1 to 16
V
Operating Ambient Temperature
Top
–30 to +85
°C
Operating Junction Temperature
Tj
–20 to +100
°C
*1: VIN (max) and IO (max) are restricted by the relationship PD (max) = (VIN - VO) × IO = 16.6W.
*2: Refer to the Dropout Voltage parameter.
■Electrical Characteristics
Ratings
Parameter
Symbol
SI-3010KF
min.
VADJ
Reference Voltage
0.98
max.
1.00
1.02
VIN=7V, IO=0.01A,
VC=2V, VO=5A
Conditions
∆VOLINE
Line Regulation
30
75
Circuit Current at Output OFF
Temperature Coefficient of
Output Voltage
IO=0.5A, VC=2V, VO=5V
0.5
Overcurrent Protection Starting
Current*3
Conditions
Conditions
Control Voltage (Output ON)*4
VC
Terminal
Control Voltage (Output OFF)
Control Current (Output ON)
Control Current (Output OFF)
Input Overvoltage Shutdown
Voltage
mV/ °C
75
dB
VIN=7V, IO=0.1A, VC=2V,
f=100 to 120Hz, VO=5V
1.1
Conditions
A
VIN=7V, VC=2V
2
Conditions
V
VIN=7V
VC, IL
0.8
Conditions
VIN=7V
IC, IH
40
Conditions
VIN=7V, VC=2V
–5
Conditions
VOVP
µA
±0.5
Conditions
Conditions
1
VIN=7V, IO=0.01A, VC=2V,
Tj=0 to 100°C, VO=2.5V
Conditions
IC, IL
µA
VIN=7V, VC=0V
∆VO/∆Ta
VC, IH
600
VIN=7V, IO=0A, VC=2V
Iq (OFF)
IS1
0
VIN=7V, VC=0V
33
IO=0.01A
*3: IS1 is specified at the 5% drop point of output voltage VO on the condition that VIN = overcurrent protection starting current, IO = 10 mA.
*4: Output is OFF when the output control terminal VC is open. Each input level is equivalent to LS-TTL level. Therefore, the device can be driven directly by LS-TTLs.
*5: SI-3000KFE cannot be used in the following applications because the built-in foldback-type overcurrent protection may cause errors during start-up stage.
(1) Constant current load (2) Positive and negative power supply (3) Series-connected power supply (4) VO adjustment by raising ground voltage
80
ICs
V
IO=1.0A, VC=2V, VO=5V
Iq
RREJ
Ripple Rejection
mV
0.3
Conditions
Conditions
Quiescent Circuit Current
mV
VIN=7V, IO=0 to 1A, VC=2V,
VO=5A
Conditions
VDIF
Dropout Voltage
V
VIN=6 to 15V, IO=0.01A,
VC=2V, VO=5A
Conditions
∆VOLOAD
Load Regulation
Unit
typ.
V
µA
µA
V
SI-3000KF Series
■Block Diagram
■Ta-PD Characteristics
SI-3010KF
20
VIN 2
4 VOUT
VC 1
5 ADJ
Power Dissipation PD (W)
With Infinite Heatsink
TSD
–
+
3 GND
Silicone Grease:
G746 (Shin-Etsu Chemical)
Heatsink: Aluminum
15
200×200×2mm (2.3°C/W)
10 100×100×2mm (5.2°C/W)
75×75×2mm (7.6°C/W)
5
Without Heatsink
REF
0
–30
–20
0
20
40
60
80
Ambient Temperature Ta (°C)
100
■Typical Connection Diagram
●SI-3010KF
D1*1
VIN
2
VO
4
R1
+
+
VC GND ADJ
1
5
3
CIN
Load
CO
*2
R2
R3
CIN: Input capacitor (22µF or larger)
CO: Output capacitor (47µF or larger)
If a low ESR capacitor (such as a ceramic capacitor) is used
for the output capacitor, oscillation may occur.
R1, R2: Output voltage setting resistors
The output voltage can be adjusted by connecting R1 and R2 as shown
above.
The recommended value for R2 is 10kΩ.
R1=(VO–VADJ)÷(VADJ/R2)
*1. D1: Reverse bias protection diode
This diode is required for protection against reverse
biasing between the input and output.
(Sanken RU2Z is recommended.)
*2: Insert R3 in case of setting VO to VO ≤ 1.5V.
The recommended value for R3 is 10kΩ.
■External Dimensions (TO220F-5)
4.2±0.2
±0.2
2.8
φ 3.2±0.2
0.5
±0.2
(17.9)
16.9±0.3
4.0±0.2
7.9±0.2
10.0
(Unit : mm)
(2.0)
2.6±0.1
+0.2
0.85 –0.1
P1.7±0.7×4=6.8±0.7
4.6±0.6
±0.15
(4.6)
0.95
+0.2
0.45 –0.1
3.9±0.7
Pin Assignment
q Vc
w VIN
e GND
r Vout
t ADJ
Plastic Mold Package Type
Flammability: UL 94V-0
Product Mass: Approx. 2.3 g
(4.3)
8.2±0.7
1 2 3 4 5
ICs
81
1-1-4 Linear Regulator ICs
SI-3000ZF Series 5-Terminal, Low Dropout Voltage
■Features
■Absolute Maximum Ratings
• Compact full-mold package (equivalent to
TO220)
Parameter
10
V
VC
6
V
DC Output Current
IO*1
3.0
A
PD1
20 (With infinite heatsink)
W
PD2
1.5 (Without heatsink, stand-alone operation)
W
Tj
–30 to +125
°C
Operating Ambient Temperature
Top
–30 to +100
°C
Storage Temperature
Tstg
–30 to +125
°C
Thermal Resistance (Junction to Case)
θ j-c
5.0
°C/W
Thermal Resistance (Junction to Ambient Air)
θ j-a
66.7 (Without heatsink, stand-alone operation)
°C/W
Power Dissipation
Junction Temperature
• Built-in overcurrent and thermal protection circuits
■Applications
• Secondary stabilized power supply (local
power supply)
Unit
VIN*1
• Low dropout voltage: VDIF ≤ 0.7V (at IO = 3.0A)
• Low circuit current at output OFF: Iq (OFF) ≤ 1µA
Ratings
Output Control Terminal Voltage
DC Input Voltage
• Output current: 3.0A
(Ta = 25°C)
Symbol
■Recommended Operating Conditions
Parameter
Symbol
Ratings
*2
to 6*1
Unit
Input Voltage
VIN
Output Current
IO
0 to 3
A
Top (a)
–20 to +85
°C
Operating Junction Temperature
Top (j)
–20 to +100
°C
Output Voltage Variable Range
VOADJ
1.2 to 5
V
Operating Ambient Temperature
V
*1: VIN (max) and IO (max) are restricted by the relationship PD = (VIN - VO) × IO.
*2: Set the input voltage to 2.4V or higher when setting the output voltage to 2.0V or lower.
■Electrical Characteristics
(Ta = 25°C, VC = 2V, unless otherwise specified)
Symbol
Parameter
SI-3011ZF
min.
VADJ
Reference Voltage
max.
1.100
1.122
VIN=VO+1V, IO=10mA
∆VOLINE
Line Regulation
10
Conditions
VIN=3.3 to 5V, IO=10mA (VO=2.5V)
∆VOLOAD
Load Regulation
40
Conditions
VIN=3.3V, IO=0 to 3A (VO=2.5V)
VDIF
Dropout Voltage
0.7
Conditions
IO=3A (VO=2.5V)
Iq
Quiescent Circuit Current
1
Conditions
1
Conditions
VIN=VO+1V, VC=0V
∆VO/∆Ta
Temperature Coefficient
of Output Voltage
±0.3
Conditions
60
Conditions
Overcurrent Protection Starting Current*2
*4
IS1
ON)*3
VC, IH
Control Voltage (Output OFF)*3
VC, IL
VC
Control Current(Output ON)
Terminal
Control Current(Output OFF)
3.2
2
0.8
IC, IH
IC, IL
Conditions
100
VC=2.7V
–5
0
VC=0V
*1: Set the input voltage to 2.4V or higher when setting the output voltage to 2.0V or lower.
*2: IS1 is specified at the 5% drop point of output voltage VO under the Output Voltage parameter conditions.
*3: Output is OFF when the output control terminal VC is open. Each input level is equivalent to LS-TTL level. Therefore, the device can be driven directly by LS-TTLs.
*4: These products cannot be used in the following applications because the built-in foldback-type overcurrent protection may cause errors during start-up stage.
(1) Constant current load (2) Positive and negative power supply (3) Series-connected power supply (4) VO adjustment by raising ground voltage
82
ICs
mV
V
mA
µA
A
VIN=VO+1V
Conditions
mV
dB
VIN=VO+1V, f=100 to 120HZ, IO=0.1A
Conditions
V
mV/ °C
Tj=0 to 100°C
RREJ
Ripple Rejection
1.5
VIN=VO+1V, IO=0A, VC=2V
Iq (OFF)
Circuit Current at Output OFF
Control Voltage (Output
1.078
Conditions
Unit
typ.
V
µA
µA
SI-3000ZF Series
■External Dimensions (TO220F-5)
(unit : mm)
4.2±0.2
±0.2
2.8
±0.2
Pin Assignment
q VC
w VIN
e GND
r Vo
t ADJ
(17.9)
16.9±0.3
4.0±0.2
7.9±0.2
φ 3.2±0.2
0.5
10.0
(2.0)
2.6±0.1
±0.15
0.95
Plastic Mold Package Type
Flammability: UL94V-0
Product Mass: Approx. 2.3g
4.6±0.6
(4.6)
+0.2
0.85 –0.1
+0.2
P1.7±0.7×4=6.8±0.7
0.45 –0.1
3.9±0.7
(4.3)
8.2±0.7
1 2 3 4 5
■Typical Connection Diagram/Block Diagram
CIN: Input capacitor (Approx. 10µF)
This capacitor is required when the input line contains inductance or when the wiring is long.
CO: Output capacitor (47µF or higher)
The output voltage may oscillate if a low ESR type capacitor
(such as a ceramic capacitor) is used for the output capacitor
in SI-3000ZF.
SI-3011ZF
VIN
2
4
VO
+
*
R3
Drive
VC
ON/
OFF
1
TSD
OCP
AMP1
5
-
+
+
REF
R1
+
CIN
ADJ
-
CO
R2
R1, R2: Output voltage setting resistors
The output voltage can be set by connecting R1 and R2 as
shown at left.
The recommended value for R2 is 10kΩ or 11kΩ.
+
3
GND
R1= (VO–VADJ) / (VADJ/R2)
*: Insert R3 in case of setting VO to VO ≤ 1.8V. The recommended value for R3 is 10kΩ.
■Ta-PD Characteristics
Power Dissipation PD (W)
25
With Infinite Heatsink
20
15
10
With Silicone Grease
Heatsink: Aluminum
200×200×2mm (2.3°C/W)
100×100×2mm (5.2°C/W)
75×75×2mm (7.6°C/W)
5
Without heatsink
0
–30
0
25
50
75
100
Ambient Temperature Ta (°C)
ICs
83
1-1-4 Linear Regulator ICs
SI-3000KWM Series 2-Output, Surface-Mount, Low Dropout Voltage
■Features
■Absolute Maximum Ratings
(Ta=25°C)
• Compact surface-mount package (TO252-5)
Ratings
Parameter
• Output current: 1.0A × 2
• Low dropout voltage: VDIF ≤ 0.6V (at IO = 1A)
• Built-in overcurrent and thermal protection
circuits
DC Input Voltage
Output Control Terminal Voltage
Output Current*1
Power Dissipation (with two outputs ON)
Junction Temperature
■Applications
• Secondary stabilized power supply (local
power supply)
Symbol
Unit
SI-3002KWM
VIN*1
18
V
VC
6
V
IO1
1.0
IO2
1.0
A
PD*2
1
W
Tj
–30 to +125
°C
°C
Operating Ambient Temperature
Top
–30 to +85
Storage Temperature
Tstg
–40 to +125
°C
Thermal Resistance (Junction to Ambient Air)
θ j-a
95
°C/W
Thermal Resistance (Junction to Lead)
θ j-c
6
°C/W
*1: VIN (max), IO1 (max) and IO2 (max) are restricted by the relation PD = (VIN – VO1) × IO1 + (VIN - VO2) × IO2.
*2: When mounted on glass-epoxy board of 30 × 30mm2 (copper laminate area 4.3%)
Thermal protection may operate when the junction temperature exceeds 135°C.
■Electrical Characteristics
Ratings
Parameter
Symbol
SI-3002KWM
min.
VO1
Output Voltage
3.234
Conditions
VO2
max.
3.300
3.366
VIN=5V, IO=10mA
2.450
Conditions
2.500
VIN=4.5 to 10V, IO=10mA
∆VOLINE2
20
Conditions
30
Conditions
VIN=5V, IO=0 to 1A
30
∆VOLOAD2
Output Voltage
0.6
Conditions
IO=1A
Tj=0 to 100°C
∆VO2/∆Ta
Tj=0 to 100°C
60
Conditions
VIN=5V, f=100 to 120Hz
RREJ2
Conditions
Current*1
IS1 2
VIN=5V, f=100 to 120Hz
1.2
VIN=5V
Circuit Current at Output OFF
A
1.2
Conditions
Quiescent Circuit Current
dB
60
Conditions
Overcurrent Protection Starting
mV/°C
±0.3
RREJ1
IS1 1
VIN=5V
Iq
1
Conditions
1.5
VIN=5V, IO=0A, VC=2V
Iq (OFF)
0.5
Conditions
VIN=5V, VC=0V
Control Voltage (Output ON)*2
VC, IH
Control Voltage (Output OFF)
VC, IL
0.8
IC, IH
5
VC
Control Current
Terminal (Output ON)
Control Current
(Output OFF)
Output OFF Voltage
Conditions
VO(OFF)
VC=2.7V
–100
ICs
mA
V
µA
µA
VC=0.4V
0.5
*1: IS1 1 and IS1 2 are specified at the 5% drop points of output voltages VO1 and VO2 on the condition that VIN = the condition of protection starting current, IO = 10 mA.
*2: Output is ON when the output control terminal VC is open. Each input level is equivalent to LS-TTL. Therefore, the devices can be driven directly by LS-TTLs.
Channels 1 and 2 are turned on or off at the same time.
84
mA
V
2
Conditions
IC, IL
V
±0.3
Conditions
Conditions
Ripple Rejection
mV
VIN=5V, IO=0 to 1A
VDIF1
∆VO1/∆Ta
Temperature Coefficient of
mV
VIN=4.5 to 10V, IO=10mA
Conditions
Dropout Voltage
V
20
Conditions
∆VOLOAD1
Load Regulation
2.550
VIN=5V, IO=10mA
∆VOLINE1
Line Regulation
Unit
typ.
V
SI-3000KWM Series
■External Dimensions (TO252-5)
(Unit : mm)
6.60±0.20
2
4
±0.20
2.70
(1.00)
1.27 TYP
3
(4.06)
R0
.32
5
(0.89)
1.18±0.20
9.90
6.10±0.20
±0.30
2.70±0.20
0.1
8°
0 to
0.50±0.10
2.30±0.20
1
(1.50)
SEATING PLANE
0.00 to 0.127
0.50±0.10
1.27 TYP
(5.04)
0.50±0.10
Plastic Mold Package Type
Flammability: UL 94V-0
Product Mass: Approx. 1.48 g
5
9.90±0.30
6.60
5.34±0.20
1.10±0.20
5.34±0.20
2.30±0.20
±0.20
Pin Assignment
q VC
w VO1
e GND
r VIN
t VO2
■Block Diagram
VIN
VOUT1
2
4
+
CIN
Drive
REF
+
OCP
ON/
OFF
VC
1
–
+
AMP2
COUT1
–
TSD
+
CIN: Input capacitor (Approx. 0.1 to 10µF)
This capacitor is required when the input line contains inductance or when the wiring is long.
Co1, Co2: Output capacitor (22µF or higher)
The output voltage may oscillate if a low ESR type capacitor
(such as a ceramic capacitor) is used for the output capacitor
in SI-3000KWM.
–
+
VOUT2
5
+
Drive
COUT2
+
OCP
AMP2
–
GND
3
ICs
85
1-2 Motor Driver ICs
Selection Guide
2-Phase Stepper Motor Unipolar Driver ICs
Excitation Method
2-Phase Excitation
2-Phase/1-2 Phase
Excitation
2W 1-2 Phase Excitation
µ Step Support
Output Current (A)
1.0
1.5
2.0
3.0
Package
Page
Remarks
SLA7022MU
SLA7029M
to 46
ZIP15Pin with Fin
90
SMA7022MU
SMA7029M
to 46
ZIP15Pin
90
SMA7036M
to 46
ZIP15Pin
92
94
SLA7027MU
SLA7024M
SLA7026M
to 46
ZIP18Pin with Fin
SLA7031M
SLA7032M
SLA7033M
to 46
ZIP18Pin with Fin
SLA7051M
SLA7052M
to 46
ZIP18Pin with Fin
Built-in sequencer
SLA7072MR
SLA7073MR
to 46
ZIP23Pin with Fin
Built-in sequencer, Current sensing resistors
100
SLA7070MPR SLA7071MPR SLA7072MPR SLA7073MPR
to 46
ZIP23Pin with Fin
Built-in sequencer, Current sensing resistors, Protection circuit
100
SLA7080MPR SLA7081MPR SLA7082MPR SLA7083MPR
to 46
ZIP23Pin with Fin
Built-in Current sensing resistors, Protection circuit
102
to 46
ZIP21Pin with Fin
Built-in sequencer
104
to 46
HSOP44Pin
Built-in sequencer, Protection circuit
106
SLA7050M
SLA7071MR
SLA7070MR
SLA7066M
SLA7065M
SLA7067M
SI-7321M
4W 1-2 Phase Excitation
µ Step Support
Motor Supply
Voltage (V)
SLA7060M
SLA7076MR
SLA7075MR
96
98
SLA7061M
SLA7062M
to 46
ZIP21Pin with Fin
Built-in sequencer
108
SLA7077MR
SLA7078MR
to 46
ZIP23Pin with Fin
Built-in sequencer, Current sensing resistors
110
to 46
ZIP23Pin with Fin
Built-in sequencer, Current sensing resistors, Protection circuit
110
SLA7075MPR SLA7076MPR SLA7077MPR SLA7078MPR
3-Phase Stepper Motor Driver ICs
Excitation Method
Part Number
Power Supply Voltage (V)
Output Current (A)
to 36
3.0
2-Phase/2-3 Phase Excitation SLA7611M
Package
Remarks
ZIP18 with Fin(SLA18Pin)
Page
112
5-Phase Stepper Motor Driver ICs
Excitation Method
Part Number
Power Supply Voltage(V)
Package
Remarks
Page
New Pentagon Drive
SI-7510
to 44
DIP30Pin
SLA5073+SLA5074 for Outputs
114
Power Supply Voltage (V)
Package
Remarks
Page
10 to 44
ZIP18Pin
Single Full Bridge
116
Brush DC Motor Driver ICs
Part Number
STA6940M
Output Current (A)
Average
Maximum
4.0
8.0(tw<100µS)
Low Voltage 3-Phase Brushless DC Motor Driver ICs
86
Part Number
Output Current (A)
Power Supply Voltage(V)
Package
Remarks
Page
SPI-6631M
3.0
13 to 33
HSOP16Pin
Predrive+Power
118
ICs
1-2 Motor Driver ICs
High Voltage 3-Phase Brushless Motor Driver ICs
Maximum Input Output Current
RDSon/
Part Number
Voltage
SX68001M
Package
Main
Function*
Package
250V
SX68002M
(A)
VCEsat
Main Application
Type
Switch 3.3V,5V UVLO OCP OCL
TD
TSD
FO
3shunt BootDi
STP
Reg
Fc
Page
2.0A
1.5Ω(max)
SOP27pin
Surface-mount MOSFET
○
○
○
○
−
○
○
−
○
−
○
−
Fan motor
120
1.5A
4.0Ω(max)
SOP27pin
Surface-mount MOSFET
○
○
○
○
−
○
○
−
○
−
○
−
Fan motor
120
500V
2.5A
2.4Ω(max)
SOP27pin
Surface-mount MOSFET
○
○
○
○
−
○
○
−
○
−
○
−
Fan motor
120
2.0A
1.8Ω(max)
SMA 24pin
Full Mould
MOSFET
○
○
−
−
○
−
○
−
○
−
○
−
Fan motor
122
4.0Ω(max)
SMA 24pin
Full Mould
MOSFET
○
○
−
−
○
−
○
−
○
−
○
−
Fan motor
122
SMA6862M
4.0Ω(max)
SMA 24pin
Full Mould
MOSFET
−
○
○
○
−
○
○
−
○
−
−
−
Fan motor
126
SMA6823MP
2.4Ω(max)
SMA 24pin
Full Mould
MOSFET
○
○
−
−
○
−
○
−
○
−
○
−
Fan motor
122
2.4Ω(max)
SMA 24pin
Full Mould
MOSFET
○
○
−
−
○
−
○
○
○
−
○
−
Fan motor
124
SMA6863M
2.4Ω(max)
SMA 24pin
Full Mould
MOSFET
−
○
○
○
−
○
○
−
○
−
−
−
Fan motor
126
SMA6865M
1.7Ω(max)
SMA 24pin
Full Mould
MOSFET
−
○
○
○
−
○
○
−
○
−
−
−
Fan motor
126
3.5Ω(max)
SMA 24pin
Full Mould
MOSFET
○
○
−
−
○
−
○
○
○
−
○
−
Fan motor
124
SX68003M
SMA6821MP
250V
SMA6822MP
1.5A
500V
SMA6853M
2.5A
SMA6854M
600V
1.5A
250V
2A
SLA6826M
SLA6866M
SLA6827M
1.5A
1.8Ω(max)
SLA 24pin
With Fin
MOSFET
○
○
−
−
○
−
○
−
○
−
○
−
Fan motor
122
1.5Ω(max)
SLA 24pin
With Fin
MOSFET
−
○
○
○
−
○
○
−
○
−
−
−
Fan motor
128
4.0Ω(max)
SLA 24pin
With Fin
MOSFET
○
○
−
−
○
−
○
−
○
−
○
−
Fan motor
122
2.4Ω(max)
SLA 24pin
With Fin
MOSFET
○
○
−
−
○
−
○
−
○
−
○
−
Fan motor
122
SLA6868M
2.4Ω(max)
SLA 24pin
With Fin
MOSFET
−
○
○
○
−
○
○
−
○
−
○
−
Fan motor, pump
128
SLA6870M
1.7Ω(max)
SLA 24pin
With Fin
MOSFET
−
○
○
○
−
○
○
−
○
−
−
−
Fan motor, pump
128
1.75V(typ)
SLA 23pin
With Fin
IGBT
○
○
○
−
−
−
○
−
−
−
−
−
Refrigerator compressor
130
1.75V(typ)
SLA 24pin
With Fin
IGBT
○
○
−
−
○
−
○
○
−
−
○
−
Washer dryer fan
132
SLA6828M
500V
SLA6805MP
2.5A
3A
SLA6845M
1.7V(typ)
SCM 33pin
Full Mould
IGBT
○
○
○
−
−
−
○
○
○
○
−
−
Refrigerator compressor
134
SCM1223M
1.7V(typ)
SCM 33pin
Full Mould
IGBT
○
○
○
−
−
○
○
○
○
○
−
−
Refrigerator compressor
138
SCM1104M
1.75V(typ)
SCM 33pin
Full Mould
IGBT
○
○
○
−
−
−
○
○
○
○
−
−
Air-conditioner compressor, washing machine
134
SCM1103M
5A
1.75V(typ)
SCM 33pin
With Fin
IGBT
○
○
○
−
−
−
○
○
○
○
−
−
Air-conditioner compressor, washing machine
134
SCM1224M
1.75V(typ)
SCM 33pin
Full Mould
IGBT
○
○
○
−
−
○
○
○
○
○
−
−
Air-conditioner compressor, washing machine
138
SCM1224MF
1.75V(typ)
SCM 33pin
With Fin
IGBT
○
○
○
−
−
○
○
○
○
○
−
−
Air-conditioner compressor, washing machine
138
SCM1101M
1.75V(typ)
SCM 33pin
Full Mould
IGBT
○
○
○
−
−
−
○
○
○
○
−
L
Air-conditioner compressor
134
SCM1101MF
1.75V(typ)
SCM 33pin
With Fin
IGBT
○
○
○
−
−
−
○
○
○
○
−
L
Air-conditioner compressor
134
1.75V(typ)
SCM 33pin
Full Mould
IGBT
○
○
○
−
−
○
○
○
○
○
−
L
Air-conditioner compressor
138
SCM1104MF
8A
600V
SCM1221M
1.75V(typ)
SCM 33pin
With Fin
IGBT
○
○
○
−
−
○
○
○
○
○
−
L
Air-conditioner compressor
138
SCM1106M
2.2V(typ)
SCM 33pin
Full Mould
IGBT
○
○
○
−
−
−
○
○
○
○
−
H
Washing machine
134
SCM1106MF
2.2V(typ)
SCM 33pin
With Fin
IGBT
○
○
○
−
−
−
○
○
○
○
−
H
Washing machine
134
SCM1226M
2.2V(typ)
SCM 33pin
Full Mould
IGBT
○
○
○
−
−
○
○
○
○
○
−
H
Washing machine
138
SCM1226MF
2.2V(typ)
SCM 33pin
With Fin
IGBT
○
○
○
−
−
○
○
○
○
○
−
H
Washing machine
138
SCM1105MF
1.75V(typ)
SCM 33pin
With Fin
IGBT
○
○
○
−
−
−
○
○
○
○
−
L
Air-conditioner compressor
134
SCM1221MF
10A
1.75V(typ)
SCM 33pin
With Fin
IGBT
○
○
○
−
−
○
○
○
○
○
−
L
Air-conditioner compressor
138
SCM1110MF
2.2V(typ)
SCM 33pin
With Fin
IGBT
○
○
○
−
−
−
○
○
○
○
−
H
Washing machine, hand dryer
134
SCM1230MF
2.2V(typ)
SCM 33pin
With Fin
IGBT
○
○
○
−
−
○
○
○
○
○
−
H
Washing machine, hand dryer
138
SCM1225MF
15A
*:
3.3V,5V 3.3 V and 5 V input levels are supported
UVLO ...... Under voltage lockout protection
OCP ........ Over current protection
OCL ........ Overcurrent limiting
TD ........... Thermal detection
TSD .......... Thermal shutdown
FO ........... Fault output
3shunt ..... 3 shunt support
Boot_Di ... Built-in boot diode
STP .......... Shoot through prevention
Reg .......... Built-in 7.5 V regulator output
Fc ............ Carrier frequency
ICs
87
88
ICs
1-2 Motor Driver ICs
Application Note
■ Setup Precautions
■ Handling Precautions
●Recommended mounting torque
0.588 to 0.784 [N•m](6.0 to 8.0 [kgf•cm])
●Recommended silicone grease
Shin-Etsu Chemical Co., Ltd.: G746
Momentive Performance Materials Inc.: YG-6260
Dow Corning Toray Silicone Co., Ltd.: SC102
Please select proper silicone grease carefully since the oil in some
grease products may penetrate the device and result in an extremely
short device life.
When using the following products that use C-MOS circuits for input
terminals, observe the following.
SMA7036M/SLA7031M/SLA7032M/SLA7033M
SLA7050M/SLA7051M/SLA7052M
SLA7060M/SLA7061M/SLA7062M
SLA7065M/SLA7066M/SLA7067M
SLA7070MR/SLA7071MR/SLA7072MR/SLA7073MR
SLA7070MPR/SLA7071MPR/SLA7072MPR/SLA7073MPR
SLA7075MR/SLA7076MR/SLA7077MR/SLA7078MR
SLA7075MPR/SLA7076MPR/SLA7077MPR/SLA7078MPR
SLA7080MPR/SLA7081MPR/SLA7082MPR/SLA7083MPR
STA6940M
SPI-6631M
SX68000M Series
SMA6800M Series
SLA6800M Series
SCM1100M Series
SCM1200M Series
●Carefully control the humidity of the room to prevent the buildup of static
electricity. Since static electricity is particularly a problem during the
winter, be sure to take sufficient precautions.
Take care to make sure that static electricity is not applied to the IC
during wiring and assembly. Take precautions such as shorting the
terminals of the printed circuit board to ensure that they are at the same
electrical potential.
ICs
89
1-2-1 2-Phase Stepper Motor Unipolar Driver ICs
SLA7022MU/SLA7029M/SMA7022MU/SMA7029M 2-Phase Excitation
■Absolute Maximum Ratings
(Ta=25°C)
Ratings
Parameter
Symbol
SLA7022MU
SLA7029M
SMA7022MU
SMA7029M
Unit
Motor Supply Voltage
VCC
46
FET Drain-Source Voltage
VDSS
100
V
VS
46
V
TTL Input Voltage
VIN
7
V
Reference Voltage
VREF
2
Control Supply Voltage
Output Current
IO
1
PD1
PD2
Power Dissipation
V
V
1.5
1
4.5 (Without Heatsink)
35 (TC=25°C)
1.5
A
4.0 (Without Heatsink)
28 (TC=25°C)
W
W
Channel Temperature
Tch
+150
°C
Storage Temperature
Tstg
–40 to +150
°C
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Symbol
SLA7022MU
min.
Control Supply Current
Control Supply Voltage
FET Drain-Source Voltage
FET ON Voltage
DC Characteristics
FET Drain Leakage Current
FET Diode Forward Voltage
max.
IS
10
15
Condition
VS=44V
VS
10
VDSS
100
Condition
44
Switching Time
90
ICs
24
44
VDSS=100V, VS=44V
1.1
40
–0.8
VIL=0.4V, VS=44V
VIL=0.4V, VS=44V
V
mA
V
mA
2
ID=1A
ID=1A
0.8
0.8
VDSS=100V
VDSS=100V
V
µA
VIH=2.4V, VS=44V
V
VDSS=100V
2
2
VDSS=100V
0.8
ID=1A
4
40
2
0.8
ID=1A
ID=1A, VS=14V
ID=1A
mA
V
0.6
–0.8
VDSS=100V
VDSS=100V
44
VS=44V, IDSS=250µA
VIH=2.4V, VS=44V
2
24
ID=1A
0.8
VDSS=100V
10
1.2
ID=1A
0.8
VIL
44
VDSS=100V, VS=44V
2
15
100
–0.8
ID=1A
10
4
VIL=0.4V, VS=44V
2
24
ID=1A, VS=14V
VIH=2.4V, VS=44V
2
max.
0.85
40
VIL=0.4V, VS=44V
Unit
typ.
VS=44V
1.1
–0.8
min.
VS=44V, IDSS=250µA
ID=1A
VIH=2.4V, VS=44V
VIL
10
VDSS=100V, VS=44V
40
Condition
15
100
1.2
IIL
10
4
ID=1A
Condition
max.
VS=44V
ID=1A, VS=14V
VSD
SMA7029M
typ.
0.6
VDSS=100V, VS=44V
Condition
Condition
15
4
Condition
Condition
10
min.
VS=44V, IDSS=250µA
ID=1A, VS=14V
Condition
TTL Input Voltage (Active Low)
max.
0.85
IDSS
VIH
10
VS=44V, IDSS=250µA
Condition
VIH
TTL Input Voltage (Active High)
SMA7022MU
typ.
100
IIH
TTL Input Current
min.
VS=44V
24
VDS
Condition
AC Characteristics
SLA7029M
typ.
VDSS=100V
0.8
ID=1A
0.8
V
ID=1A
Tr
0.5
0.5
0.5
0.5
Condition
VS=24V, ID=0.8A
VS=24V, ID=1A
VS=24V, ID=0.8A
VS=24V, ID=1A
Tstg
0.7
0.7
0.7
0.7
Condition
VS=24V, ID=0.8A
VS=24V, ID=1A
VS=24V, ID=0.8A
VS=24V, ID=1A
Tf
0.1
0.1
0.1
0.1
Condition
VS=24V, ID=0.8A
VS=24V, ID=1A
VS=24V, ID=0.8A
VS=24V, ID=1A
µs
SLA7022MU/SLA7029M/SMA7022MU/SMA7029M
■Internal Block Diagram
8
INB
5
VS
Reg
3
4
12
13
Excitation input signal
Active H
Active L
OUT A
OUT A
OUT A
OUT A
OUT B
OUT B
OUT B
OUT B
1pin
6pin
10pin
15pin
RSB
TDB
GNDB
2
15
+
–
+
–
GNDA
TDA
7
10
1, 6, 10, 15pin
Description of pins
+
–
REFA
RSA
+
–
14
Reg
REFB
1
INA
6
11
9
■Typical Connection Diagram (Recommended component values)
VCC (46V max)
Excitation signal time chart
2-phase excitation
+
11
1
H
H
INB
L
H
H
L
L
H
1-2 phase excitation
5
TdA
TdB
14
INB
INA
clock
RSA REFA REFB RSB
7
3 13
9
C3
Rs
r5
GA
4
GB
12
2
3
4
5
6
7
0
1
2
3
H H
0
H
H
L
L
L
L
H
H
H
H
tdA
L
L
L
H
L
L
L
H
L
L
L
H
INB
L
L
H
H
H
H
L
L
L
L
H
H
tdB
L H
L
L
L
H
L
L
L
H
L
L
●tdA and tdB are signals before the inverter
stage.
C4
r6
1
INA
INB
C2
r2
Rs
Open
collector
tdA
0
L
15
INA
2
3
L
r1
r2
r3
r4
r5
r6
tdB
:
:
:
:
:
:
510Ω
100Ω (VR)
47kΩ
47kΩ
2.4kΩ
2.4kΩ
C1
C2
C3
C4
Rs
:
:
:
:
:
(1~2W)
330 to 500pF
330 to 500pF
2200pF
2200pF
1.8Ω typ (7022MU)
1Ω typ (7029M)
■External Dimensions (ZIP15 with Fin [SLA15Pin] /ZIP15[SMA15Pin])
SLA7022MU/SLA7029M
31±0.2
24.4±0.2
16.4±0.2
SMA7022MU/SMA7029MA
Epoxy resin package
Epoxy resin package
4.8±0.2
1.7±0.1
4±0.2
+0.2
0.65 –0.1
+0.2
1.15 –0.1
4±0.7
14×P2.03±0.4=28.42±0.8
14×P2.03 ±0.7=28.42 ±1.0
30°
Lot No.
Part No.
1.45 ±0.15
6.7 ±0.5
8.5max
10.2±0.2
2.5 ±0.2
0.62±0.1
1.16±0.15
(3)
2.2±0.4
6.3±0.6
7.5±0.6
4.6±0.6
3±0.6
+0.2
1.15 –0.1
+0.2
0.55 –0.1
1.6±0.6
+1
9.7 –0.5
+0.2
0.65 –0.1
(3)
R-End
+0.2
2.45±0.2
0.55 –0.1
Part No.
Lot No.
6.7±0.5
9.9 ±0.2
16 ±0.2
13 ±0.2
31±0.2
3 ±0.6
φ 3.2 ±0.15×3.8
(9.7)
φ 3.2 ±0.15
(Unit:mm)
+0.2
0.65 –0.1
1.16 +0.2
–0.1
+0.2
0.55 –0.1
4 ±0.7
P2.03±0.1×14=28.42
1.2±0.1
(5.9)
(7.5)
(4.6)
10
r1
r4
C1
6
2
H
+0.2
r3
1
1
H
1.6 ±0.6
8
VS
0
INA
0.55 –0.1
Vb (5V)
clock
P2.03±0.1×14=28.42
31.3 +0.2
31.3±0.2
1 2 3 . . . . . . . 15
12 3 . . . . . . . 15
Forming No. No.853
Product Mass : Approx.6g
Forming No. No.855
123 . . . . . . .
12 3 . . . . . . . 15
15
Forming No. No.1054
Forming No. No.1055
Product Mass : Approx.4g
ICs
91
1-2-1 2-Phase Stepper Motor Unipolar Driver ICs
SMA7036M 2-Phase Excitation
■Absolute Maximum Ratings
Symbol
Ratings
Unit
Motor Supply Voltage
Parameter
VCC
46
V
Control Supply Voltage
VS
46
V
FET Drain-Source Voltage
VDSS
100
V
TTL Input Voltage
VIN
–0.3 to +7
V
SYNC Terminal Voltage
VSYNC
–0.3 to +7
V
Reference Voltage
VREF
–0.3 to +7
V
Sense Voltage
VRS
–5 to +7
V
Output Current
Power Dissipation
IO
1.5
A
PD1
PD2
4.0 (Ta=25°C)
28 (Tc=25°C)
W
W
Channel Temperature
Tch
150
°C
Storage Temperature
Tstg
–40 to +150
°C
Operating Ambient Temperature
Ta
–20 to +85
°C
■Electrical Characteristics
Parameter
Symbol
Control Supply Current
Control Supply Voltage
FET Drain-Source Voltage
Ratings
min.
typ.
max.
IS
10
15
Condition
VS=44V
VS
10
VDSS
100
Condition
FET Drain Leakage Current
1.1
Condition
ISD=1A
250
IDSS
Condition
VIH
Active H
ID=1A, VS=10V
VSD
VDSS=100V, VS=44V
ID=1A
VIL
DC Characteristics
VIH
Active L
0.8
Input
Loltage
VDSS=100V
VIL
0.8
II
±1
Condition
VS=44V, VI=0 or 5V
Condition
Synchronous chopping mode
VSYNCL
0.8
ISYNCL
–0.1
REF Terminal
Input
Current
AC Characteristics
Internal
Resistance
Switching Time
Chopping OFF Time
ICs
VREF
V
mA
VS=44V, VYS=0V
0
Condition
Condition
µA
0.1
VS=44V, VYS=5V
Condition
Input
Voltage
V
Asynchronous chopping mode
Condition
VREF
V
4.0
ISYNCH
Input
Current
µA
ID=1A
Condition
SYNC Terminal
V
VDSS=100V
Condition
VSYNCH
V
2
Condition
Input
Current
V
2
Condition
Condition
IN Terminal
mA
V
0.6
Condition
FET Diode Forward Voltage
44
VS=44V, IDSS=250µA
VDS
FET ON Voltage
92
24
Unit
2.0
Reference voltage input
4.0
5.5
V
Output FET OFF
IREF
±1
Condition
No synchronous trigger
RREF
40
Condition
Resistance between GND and REF terminal at synchronous trigger
Ton
1.5
Condition
VS=24V, ID=1A
Tr
0.5
Condition
VS=24V, ID=1A
Tstg
0.9
Condition
VS=24V, ID=1A
Tf
0.1
Condition
VS=24V, ID=1A
TOFF
12
Condition
VS=24V
µA
Ω
µs
µs
SMA7036M
■Internal Block Diagram
5
8
14
10
15
Vs
IN B
6
IN A
1
1, 6, 10, 15pin
Description of pins
Reg.
Oscillator
Chopping noise
blanking timer
(5 µ s typ)
Chopping
OFF timer
(12 µ s typ)
Chopping noise
blanking timer
(5 µ s typ)
+
+
–
–
13
12
11
Rs B
SYNC B
3
REF B
4
REF A
Synchronous
chopping
circuit
GND A
SYNC A
Rs A
2
MOSFET
gate drive
circuit
Chopping
OFF timer
(12 µ s typ)
Synchronous
chopping
circuit
7
1pin
6pin
10pin
15pin
Oscillator
GND B
MOSFET
gate drive
circuit
Excitation input signal
Active H
Active L
OUT A
OUT A
OUT A
OUT A
OUT B
OUT B
OUT B
OUT B
Reg.
9
■Typical Connection Diagram (Recommended component values)
Vcc (46V max)
+
8
1
6
10
Excitation signal time chart
2-phase excitation
15
VS
2
SyncA
INA
5
INA
INB
14
INB
SMA7036M
Vb (5V)
11
PchMOS
SyncB
r1
RsA
7
r2
RefA RefB
3
13
Rs
RsB
9
GA
4
GB
12
Rs
clock
0
1
2
3
0
1
INA
H
H
L
L
H
H
INB
L
H
H
L
L
H
r1
r2
R S (1 to 2W)
PchMOS
Inv
:
:
:
:
:
8kΩ
2kΩ (VR)
1Ω typ
HN1J02FU (Toshiba)
7404
Inv
Disable (High Active)
■External Dimensions (ZIP15 [SMA15Pin])
4 ±0.7
P2.03±0.1×14=28.42
1.2±0.1
(5.9)
(7.5)
+0.2
3 ±0.6
+0.2
0.55 –0.1
1.6 ±0.6
+0.2
0.65 –0.1
1.16 +0.2
–0.1
0.55 –0.1
0.62±0.1
1.16±0.15
(3)
6.7 ±0.5
1.45 ±0.15
(9.7)
Lot No.
Part No.
(4.6)
2.5 ±0.2
30°
8.5max
Epoxy resin package
4±0.2
31±0.2
10.2±0.2
(Unit : mm)
P2.03±0.1×14=28.42
31.3 +0.2
1 2 3 . . . . . . . . 15
Forming No. No.1054
12 3 . . . . . . . 15
Forming No. No.1055
Product Mass : Approx.4g
ICs
93
1-2-1 2-Phase Stepper Motor Unipolar Driver ICs
SLA7027MU/SLA7024M/SLA7026M
2-Phase/1-2 Phase Excitation
■Absolute Maximum Ratings
Parameter
(Ta=25°C)
Ratings
Symbol
SLA7027MU
SLA7024M
Unit
SLA7026M
Motor Supply Voltage
VCC
46
FET Drain-Source Voltage
VDSS
100
V
VS
46
V
Input Voltage
VIN
7
V
Reference Voltage
VREF
2
Control Supply Voltage
Output Current
IO
Power Dissipation
1
V
V
1.5
3
A
PD1
4.5 (Without Heatsink)
W
PD2
35 (TC=25°C)
W
Channel Temperature
Tch
+150
°C
Storage Temperature
Tstg
–40 to +150
°C
■Electrical Characteristics
Ratings
Parameter
Symbol
SLA7027MU
min.
Control Supply Current
Control Supply Voltage
FET Drain-Source Voltage
FET ON Voltage
DC characteristics
FET Drain Leakage Current
FET Diode Forward Voltage
typ.
max.
IS
10
15
Condition
VS=44V
VS
10
VDSS
100
Condition
TTL Input Voltage
(Active High)
IDSS
(Active Low)
Switching Time
94
ICs
44
10
24
4
VDSS=100V, VS=44V
2.3
ID=3A
40
VIH=2.4V, VS=44V
–0.8
–0.8
VIL=0.4V, VS=44V
VIL=0.4V, VS=44V
2
ID=1A
ID=3A
0.8
0.8
VDSS=100V
V
mA
V
µA
mA
V
VDSS=100V
2
VDSS=100V
V
2
0.8
VDSS=100V
mA
V
0.85
40
ID=1A
44
ID=3A, VS=14V
VIH=2.4V, VS=44V
2
24
VS=44V, IDSS=250µA
ID=1A
VIL=0.4V, VS=44V
VIL
10
1.1
–0.8
VIL
15
4
40
Condition
44
VDSS=100V, VS=44V
2
10
0.6
VIH=2.4V, VS=44V
IIL
max.
VS=44V
ID=1A, VS=14V
ID=1A
Unit
typ.
100
1.2
Condition
min.
VS=44V, IDSS=250µA
VDSS=100V, VS=44V
Condition
VIH
15
4
VSD
Condition
10
0.85
Condition
TTL Input Voltage
max.
VS=44V
ID=1A, VS=14V
Condition
SLA7026M
typ.
100
VDS
Condition
VIH
min.
VS=44V, IDSS=250µA
Condition
AC characteristics
24
IIH
TTL Input Current
SLA7024M
2
VDSS=100V
0.8
VDSS=100V
0.8
0.8
Condition
ID=1A
ID=1A
Tr
0.5
0.5
0.5
Condition
VS=24V, ID=0.8A
VS=24V, ID=1A
VS=24V, ID=1A
V
ID=3A
Tstg
0.7
0.7
0.7
Condition
VS=24V, ID=0.8A
VS=24V, ID=1A
VS=24V, ID=1A
Tf
0.1
0.1
0.1
Condition
VS=24V, ID=0.8A
VS=24V, ID=1A
VS=24V, ID=1A
µs
SLA7027MU/SLA7024M/SLA7026M
12
Reg
Reg
17
16
IN B
7
VSB
5
VSA
6
IN A
1
IN A
8
IN B
■Internal Block Diagram
18
11
1, 8, 11, 18pin
Description of pins
Excitation input signal
2
3 14
13
Active L
Pin 1
OUTA
OUTA
Pin 8
OUTA
OUTA
Pin 11
OUTB
OUTB
Pin 18
OUTB
OUTB
RSB
GB
TDB
REFB
4
+
–
+
–
REFA
9
+
–
TDA
GA
RSA
+
–
Active H
15
10
■Typical Connection Diagram (Recommended component values)
Active High
Excitation signal time chart
2-phase excitation
VCC (46V max)
+
Vb (5V)
r3
7 12
8
VSA VSB OUTA
2
13
C2
RSA REFA REFB RSB
9
3 14
10
r2
1
2
3
0
1
H
L
L
H
H
L
5
INA
17
INB
16
INB
GB
15
GA
4
INA
INA
INB
r5
r6
INA
L
H
H
L
L
H
INB
H
H
L
L
H
H
INB
L
L
H
H
L
L
Active
High
1-2 phase excitation
INB
clock
0
1
2
3
4
5
6
7
0
1
2
IN A
H
H
L
L
L
L
L
H
H
H
L
L
IN A
L
L
L
H
H
H
L
L
L
L
L
H
IN B
L
H
H
H
L
L
L
L
L
H
H
H
IN B
L
L
L
L
L
H
H
H
L
L
L
L
C4
C3
Rs
6
INA
SLA7024M
7026M
7027MU
TdA
TdB
0
INA
11
OUTB
r1
r4
C1
1
18
OUTA OUTB
clock
Rs
3
r1
r2
r3
r4
r5
r6
C1
C2
C3
C4
Rs
:
510Ω
100Ω (VR)
: 47kΩ
: 47kΩ
: 2.4kΩ
: 2.4kΩ
: 470pF
: 470pF
: 2200pF
: 2200pF
: 1Ω typ (7024M)
(1 to 2W)
0.68Ω typ (7026M)
1.8Ω typ (7027MU)
r1
r2
r3
r4
r5
r6
C1
C2
C3
C4
Rs
:
:
Excitation signal time chart
2-phase excitation
Active Low
VCC (46V max)
clock
0
1
2
3
0
1
INA
L
H
H
L
L
H
INA
H
L
L
H
H
L
INB
L
L
H
H
L
L
INB
H
H
L
L
H
H
+
Vb (5V)
r3
C1
7 12
8
1
18
VSA VSB OUTA OUTA OUTB
11
OUTB
r1
r4
C2
r2
2 TdA
TdB
13
RSA REFA REFB RSB
9
3 14
10
C3
Rs
6
INA
SLA7024M
7026M
7027MU
5
INA
17
INB
GA
4
INB
GB
15
16
INA
INA
INB
Active
Low
1-2 phase excitation
INB
clock
0
1
2
3
4
5
6
7
0
1
2
3
INA
L
L
H
H
H
H
H
L
L
L
H
H
C4
r5
r6
Rs
INA
H
H
INB
H
L
INB
H
H
H
L
L
L
H
H
H
H
H
L
L
L
H
H
H
H
H
L
L
L
H
H
H
L
L
L
H
H
H
H
■External Dimensions (ZIP18 with Fin [SLA18Pin])
:
:
:
:
:
2.2±0.6
6±0.6
7.5±0.6
+0.2
+0.2
1 –0.1
0.55 –0.1
1.6 ±0.6
+0.2
0.65 –0.1
+0.2
0.55 –0.1
4±0.7
17×P1.68±0.4=28.56±1
:
+1
(3)
+0.2
1 –0.1
3 ±0.6
2.45±0.2
R-End
+0.2
0.65 –0.1
:
4.6 ±0.6
Part No.
Lot No.
:
4.8 ±0.2
1.7±0.1
6.7±0.5
9.9 ±0.2
16 ±0.2
13 ±0.2
φ 3.2±0.15×3.8
:
510Ω
100Ω (VR)
47kΩ
47kΩ
2.4kΩ
2.4kΩ
470pF
470pF
2200pF
2200pF
1Ω typ (7024M)
0.68Ω typ (7026M)
1.8Ω typ (7027MU)
(Unit : mm)
9.7 –0.5
31±0.2
24.4±0.2
16.4±0.2
φ 3.2±0.15
(1 to 2W)
:
17×P1.68±0.4=28.56±1
31.3±0.2
1 2 3 . . . . . . . 18
Forming No. No.871
123 . . . . . . . 18
Forming No. No.872
Product Mass : Approx.6g
ICs
95
1-2-1 2-Phase Stepper Motor Unipolar Driver ICs
SLA7031M/SLA7032M/SLA7033M
2-Phase/1-2 Phase Excitation
■Absolute Maximum Ratings
Parameter
(Ta=25°C)
Ratings
Symbol
Control Supply Voltage
FET Drain-Source Voltage
Input Voltage
Reference Voltage
Sense Voltage
Output Current
Power Dissipation
Channel Temperature
Operating Ambient Temperature
Storage Temperature
Unit
SLA7031M
VCC
VS
VDSS
VIN
VSYNC
VREF
VRS
IO
PD1
PD2
Tch
Ta
Tstg
Motor Supply Voltage
SLA7032M
SLA7033M
46
46
100
– 0.3 to +7
– 0.3 to +7
– 0.3 to +7
– 5 to +7
1.5
3
4.5(Without Heatsink)
35(Tc=25°C)
+150
– 20 to+85
– 40 to +150
1
V
V
V
V
V
V
A
W
W
°C
°C
°C
■Recommended Operating Conditions
Parameter
Motor Supply Voltage
Control Supply Voltage
REF Input Voltage
Case Temperature
Ratings
Symbol
min.
VM
VS
VREF
VREF(dis)
TC
Unit
max.
44
44
1.0
5.5
100
10
0.1
4.0
V
V
V
V
°C
Remarks
The control current precision is degraded at 0.1V or lower.
Output MOS FET OFF
Temperature of 4(15)-Pin Lead(without heatsink)
■Electrical Characteristics
Ratings
Parameter
Symbol
SLA7031M
min.
Control Supply Current
Control Supply Voltage
FET Drain-Source Voltage
FET ON Voltage
FET Diode Forward Voltage
FET Drain Leakage Current
typ.
max.
IS
10
15
Condition
VS=44V
VS
10
VDSS
100
Condition
DC characteristics
VIH
(Active Low)
VIL
Input Current
Internal
Resistance
AC characteristics
Sense Voltage
Switching Time
Chopping OFF Time
96
ICs
VDSS=100V
0.8
0.8
ID=1A
±1
VS=44V, VI=0 or 5V
VS=44V, VI=0 or 5V
4.0
Synchronous chopping mode
Synchronous chopping mode
0.8
0.8
0.8
Asynchronous chopping mode
Asynchronous chopping mode
Asynchronous chopping mode
0.1
0.1
–0.1
2.0
4.0
VS=44V, VSYNC=5V
–0.1
–0.1
VS=44V, VSYNC=0V
0
Reference Voltage input
Output FET OFF
2.0
4.0
0
V
mA
2.0
Reference Voltage input
5.5
Output FET OFF
±1
No synchronous trigger
µA
VS=44V, VSYNC=0V
Reference Voltage input
5.5
V
0.1
VS=44V, VSYNC=5V
0
V
4.0
Synchronous chopping mode
VS=44V, VSYNC=0V
µA
ID=3A
±1
VS=44V, VSYNC=5V
V
2.0
±1
IREF
Condition
0.8
VDSS=100V
VS=44V, VI=0 or 5V
V
VDSS=100V
0.8
Condition
Condition
REF Terminal
ID=3A
VDSS=100V
ID=1A
V
2.0
2.0
ISYNC
VREF
250
VDSS=100V, VS=44V
0.8
VDSS=100V
Condition
VREF
2.3
ISD=3A
ID=1A
VDSS=100V
mA
V
ID=3A, VS=14V
0.8
Condition
Input Current
44
0.85
250
ID=1A
ISYNC
Input Current
24
VS=44V, IDSS=250µA
2.0
VSYNC
Condition
SYNC Terminal
10
VDSS=100V, VS=44V
4.0
15
100
250
2.0
10
1.1
VDSS=100V, VS=44V
Condition
VSYNC
44
ISD=1A
II
Condition
24
ID=1A, VS=14V
2.0
max.
VS=44V
1.2
Condition
Input Voltage
15
Unit
typ.
0.6
ISD=1A
Condition
Condition
10
min.
VS=44V, IDSS=250µA
IDSS
Input Voltage
10
ID=1A, VS=10V
Condition
VIL
max.
100
VSD
Condition
SLA7033M
typ.
0.85
Condition
(Active High)
Input Current
44
VS=44V, IDSS=250µA
Condition
Input Voltage
min.
VS=44V
24
VDS
VIH
IN Terminal
SLA7032M
4.0
5.5
V
Output FET OFF
±1
No synchronous trigger
±1
No synchronous trigger
RREF
40
40
40
Condition
Resistance between GND and REF terminal at synchronous trigger
Resistance between GND and REF terminal at synchronous trigger
Resistance between GND and REF terminal at synchronous trigger
VRS
VREF
VREF
VREF
Tr
0.5
0.5
0.5
Tstg
0.7
0.7
0.7
Tf
0.1
0.1
0.1
Condition
VS=24V, ID=0.8A
VS=24V, ID=1A
VS=24V, ID=1A
TOFF
12
12
12
Condition
VS=24V
VS=24V
VS=24V
µA
Ω
V
µs
µs
SLA7031M/SLA7032M/SLA7033M
12
Reg.
MOSFET
gate drive
circuit
Chopping
OFF timer
(12 µ s typ)
18
Chopping noise
blanking timer
(5 µs typ)
+
+
–
–
Oscillator
MOSFET
gate drive
circuit
Chopping
OFF timer
(12 µ s typ)
1pin
8pin
11pin
18pin
14
15
13
Excitation input signal
Active H
Active L
OUT A
OUT A
OUT A
OUT A
OUT B
OUT B
OUT B
OUT B
Rs B
GB
REF B
3
REF A
GA
4
SYNC B
Synchronous
chopping
circuit
SYNC A
Rs A
2
11
1,8,11,18pin
Description of pins
Synchronous
chopping
circuit
9
16
Reg.
Chopping noise
blanking timer
(5 µs typ)
Oscillator
17
IN B
7
Vs B
5
Vs A
6
IN A
8
IN A
1
IN B
■Internal Block Diagram
10
■Typical Connection Diagram (Recommended component values)
Active High
Vcc (46Vmax)
Excitation signal time chart
2-phase excitation
+
7
12
VsA
2
Vb (5V)
8
VsB
1
18
11
OUTA OUTA OUTB OUTB
SYNC A
13
SLA7031M
SLA7032M
SLA7033M
SYNC B
RsA
r1
REFA REFB RsB
3
9
14
GA
10
INA
INA 5
INA
INB 17
INB
INB 16
INB
Active
High
GB
4
Rs
INA 6
1-2 phase excitation
clock
0
1
2
3
0
1
clock
0
1
2
3
4
5
6
7
0
1
2
IN A
H
L
L
H
H
L
INA
H
H
L
L
L
L
L
H
H
H
L
L
IN A
L
H
H
L
L
H
INA
L
L
L
H
H
H
L
L
L
L
L
H
IN B
H
H
L
L
H
H
INB
L
H
H
H
L
L
L
L
L
H
H
H
IN B
L
L
H
H
L
L
INB
L
L
L
L
L
H
H
H
L
L
L
L
15
3
r1 : 4kΩ
r2 : 1kΩ (VR)
R s : 1Ω typ (7031M/7032M)
(1 to 2W)
0.68Ω typ (7033M)
Rs
r2
Active Low
Excitation signal time chart
2-phase excitation
Vcc (46Vmax)
+
7
VsA
2
Vb (5V)
13
12
8
VsB
1
18
11
OUTA OUTA OUTB OUTB
SYNC A
SLA7031M
SLA7032M
SLA7033M
SYNC B
RsA
r1
9
Rs
REFA REFB RsB
3
14
GA
10
4
INA 6
INA
INA 5
INA
INB 17
INB
INB 16
INB
GB
15
Rs
r2
Active
Low
1-2 phase excitation
clock
0
1
2
3
0
1
clock
0
1
2
3
4
5
6
7
0
1
2
3
IN A
L
H
H
L
L
H
INA
L
L
H
H
H
H
H
L
L
L
H
H
IN A
H
L
L
H
H
L
INA
H
H
H
L
L
L
H
H
H
H
H
L
IN B
L
L
H
H
L
L
INB
H
L
L
L
H
H
H
H
H
L
L
L
IN B
H
H
L
L
H
H
INB
H
H
H
H
H
L
L
L
H
H
H
H
r1 : 4kΩ
r2 : 1kΩ (VR)
R s : 1Ω typ (7031M/7032M)
(1 to 2W)
0.68Ω typ (7033M)
■External Dimensions (ZIP18 with Fin [SLA18Pin])
4±0.7
17×P1.68±0.4=28.56±1
+0.2
+0.2
0.65 –0.1
1 –0.1
2.2±0.6
6±0.6
7.5±0.6
+0.2
0.55 –0.1
+0.2
+0.2
1 –0.1
4.6 ±0.6
1.6 ±0.6
+1
(3)
R-End
+0.2
0.65 –0.1
3 ±0.6
2.45±0.2
0.55 –0.1
Part No.
Lot No.
4.8 ±0.2
1.7±0.1
6.7±0.5
9.9 ±0.2
16 ±0.2
13 ±0.2
φ 3.2±0.15×3.8
9.7 –0.5
31±0.2
24.4±0.2
16.4±0.2
φ 3.2±0.15
(Unit : mm)
17×P1.68±0.4=28.56±1
31.3±0.2
1 2 3 . . . . . . . 18
Forming No. No.871
123 . . . . . . . 18
Forming No. No.872
Product Mass : Approx.6g
ICs
97
1-2-1 2-Phase Stepper Motor Unipolar Driver ICs
SLA7050M/SLA7051M/SLA7052M 2-Phase/1-2 Phase Excitation, Built-in Sequencer
■Absolute Maximum Ratings
(Ta=25°C)
Ratings
Parameter
Symbol
SLA7050M
SLA7051M
Unit
SLA7052M
Motor Supply Voltage
VM
46
V
Load Supply Voltage
VS
46
V
Logic Supply Voltage
VCC
6
IO
Logic Input Voltage
VIN
–0.3 to VCC+0.3
V
REF Input Voltage
VREF
–0.3 to VCC+0.3
V
Sense Voltage
VRS
–2 to +2
V
PD1
4 (Without Heatsink)
W
PD2
20 (TC=25°C)
W
Tj
+150
°C
Power Dissipation
Junction Temperature
1
V
Output Current
2
3
A
Operating Ambient Temperature
Ta
–20 to +85
°C
Storage Temperature
Tstg
–30 to +150
°C
■Recommended Operating Conditions
Ratings
Parameter
Symbol
Motor Supply Voltage
min.
Unit
max.
VM
44
V
Remarks
Load Supply Voltage
VS
10
44
V
Logic Supply Voltage
VCC
3.0
5.5
V
The VCC surge voltage should be 0.5V or lower.
REF Input Voltage
VREF
0.1
1.0
V
The control current precision is degraded at 0.1V or lower.
Case Temperature
TC
100
°C
Temperature at pin-10 Lead (Without heatsink)
■Electrical Characteristics
(VCC = 5V, V S = 24V, Ta = 25°C, unless otherwise specified)
Ratings
Parameter
Symbol
SLA7050M
min.
typ.
ISS
Main Supply Current
Output MOSFET Breakdown
Voltage
Output MOSFET ON Resistance
Maximum Clock Frequency
Fclock
Logic Input Voltage
Logic Input Current
3
100
VS=44V, IDSS=1mA
0.85
0.5
ID=1A
0.27
ID=1A
ID=3A
1.2
1.1
ISD=1A
2.3
ISD=1A
ISD=3A
100
100
VCC·0.25
VCC·0.75
100
VCC·0.25
VCC·0.75
VCC·0.25
VCC·0.75
±1
±1
±1
IIH
±1
±1
±1
Conditions
VREFS
0
1.5
Normal-operation current control
2
VCC
Conditions
0
1.5
Normal-operation current control
2
VCC
mA
µA
mA
V
VS=44V, IDSS=1mA
IIL
VREF
REF Input Voltage
VS=44V, IDSS=1mA
VIL
VIH
3
100
VSD
100
Sleep mode
3
Conditions
Unit
max.
15
Sleep mode
100
typ.
100
Sleep mode
RDS (ON)
min.
Normal operation
100
Conditions
Conditions
SLA7052M
max.
Normal operation
ICC
Output MOSFET Diode Forward
Voltage
typ.
15
Normal operation
IS
VDSS
min.
15
Conditions
Conditions
Logic Supply Current
SLA7051M
max.
0
Ω
V
kHz
V
µA
1.5
Normal-operation current control
2
VCC
V
Output OFF (sleep)
Output OFF (sleep)
REF Input Current
IREF
±10
±10
±10
Sense Voltage
VRS
VREF
VREF
VREF
V
PWM OFF Time
TOFF
12
12
12
µS
PWM Minimum ON Time
Sleep - Enable Recovery Time
TON (min)
TSE
Conditions
TONC
Switching Time
Conditions
TOFFC
Conditions
98
ICs
5
100
Output OFF (sleep)
5
100
5
100
VREF : 2.0→1.5V, IO : 0.75A
VREF : 2.0→1.5V, IO : 1.5A
VREF : 2.0→1.5V, IO : 2.0A
2.5
2.5
2.5
Clock→Out
Clock→Out
Clock→Out
2.0
2.0
2.0
Clock→Out
Clock→Out
Clock→Out
µA
µS
µS
µS
SLA7050M/SLA7051M/SLA7052M
■Internal Block Diagram and Pin Assignment
15
NC
5
16
17
OutB
MIC
7
OutB/
14
GB
11 12
Vcc
Vs
4
Clock
3
Full/Half
CW/CCW
2
GA
NC
OutA/
OutA
1
18
Pin No.
Symbol
1
OutA
Phase A output
2
NC
No Connection
3
OutA/
Phase A output
4
GA
No Connection
5
VCC
Logic supply
6
SenseA
7
Clock
Step Clock input
8
Sync
Synchronous PWM control signal input
9
Ref
10
GND
11
CW/CCW
12
Full/Half
Full/Half Step control input
13
SenseB
Phase B current sense
14
VS
Load supply (motor supply)
15
GB
No Connection
16
OutB/
Phase B output
17
NC
No Connection
18
OutB
Phase B output
Function
Reg
GA
GB
Sequencer
GA/
GB/
OSC
OSC
PWM
Control
Synchro
Control
PWM
Control
Sleep
Circuit
10
13
SenseB
GND
8
Sync
9
REF
SenseA
6
Truth Table
L
H
CW/CCW
CW
CCW
Full/Half
Full
Half
REF
Enable
Disable
Sync
Asynchronous
Synchronous
Phase A current sense
Control current setting & output OFF
Device GND
Normal/reverse control input
Clock
* REF terminal turns into normal operation at VREF < 1.5V.
The output is disabled (Output OFF) at VREF > 2V.
■Typical Connection Diagram
.
Rs=0.1 to 2Ω (Power dissipation should be: P=.IO2 × RS)
R1=10kΩ
CA=100µF/50V
R2=5.1kΩ (VR) CB=10µF/10V
Q1:T.B.D
Vs=10~44V
CA
15
OutB
NC
14
OutB/
4
17
16 18
Vcc
* VCC line noise precaution:
The device may malfunction if the VCC line noise exceeds 0.5V.
* Be sure to connect the unused logic input terminals (CW/CCW, F/H, Sync) to VCC
or GND. If they are open, the device will malfunction.
* GND pattern precaution:
Separating the VCC system GND (S-GND) and VS system GND (P-GND) from the
device GND (10-Pin) helps to reduce noise.
r1
Q1
7
Microcomputer,
etc.
Vs
2
GB
3
GA
Disable
CB
5
NC
OutA/
OutA
1
Vcc=3.0~5.5V
SLA7050M
SLA7051M
SLA7052M
Clock
11
CW/CCW
12
Full/Half
8
Sync
9
REF
SenseB
10
GND
RsA
SenseA
6
r2
13
RsB
P-GND
S-GND
■External Dimensions (ZIP18 with Fin [SLA18Pin])
+0.2
1 –0.1
4±0.7
17×P1.68±0.4=28.56±1
+0.2
+0.2
0.65 –0.1
1 –0.1
+0.2
0.55 –0.1
2.2±0.6
6±0.6
7.5±0.6
0.55 –0.1
1.6 ±0.6
+0.2
0.65 –0.1
+0.2
+1
(3)
R-End
3 ±0.6
2.45±0.2
4.6 ±0.6
Part Number
Lot No.
4.8 ±0.2
1.7±0.1
6.7±0.5
9.9 ±0.2
16 ±0.2
13 ±0.2
φ 3.2±0.15×3.8
9.7 –0.5
31±0.2
24.4±0.2
16.4±0.2
φ 3.2±0.15
(Unit : mm)
17×P1.68±0.4=28.56±1
31.3±0.2
1 2 3 . . . . . . . 18
Forming No. No.871
123 . . . . . . . 18
Forming No. No.872
Product Mass : Approx.6g
ICs
99
1-2-1 2-Phase Stepper Motor Unipolar Driver ICs
SLA7070MR, MPR/7071MR, MPR/7072MR, MPR/7073MR, MPR 2-Phase/1-2 Phase Excitation Support, Built-in Sequencer
■Features
■Absolute Maximum Ratings
• Lineup of built-in current sense resistor and
built-in protection circuit-type
Parameter
Symbol
Ratings
Unit
Motor Supply Voltage
VM
VBB
VDD
Io
VIN
VREF
VRS
46
46
6
*1
V
V
V
A
V
V
V
• Power supply voltages, VBB: 46 V (max), 10 to
44 V normal operating range
Driver Supply Voltage
• Logic supply voltages, VDD: 3.0 to 5.5 V
Output Current
• Maximum output currents: 1 A, 1.5 A, 2 A, and
3A
Logic Input Voltage
• Built-in sequencer
Sense Voltage
• Self-excitation PWM current control with fixed
off-time
Power Dissipation
• Synchronous PWM chopping function
prevents motor noise in Hold mode
Junction Temperature
• Sleep mode for reducing the IC input current
in stand-by state
Storage Temperature
Logic Supply Voltage
REF Input Voltage
Operating Ambient Temperature
• ZIP type 23-pin molded package (SLA
package)
–0.3 to VDD+0.3
–0.3 to VDD+0.3
±2
4.7
17
+150
PD
Tj
Ta
Tstg
–20 to +85
–30 to +150
W
Remarks
Mode F
Excluding tw<1µs
When Ta = 25°C
When Tc = 25°C
°C
°C
°C
*1: Output current value may be limited for the SLA7070MR, MPR (1.0 A), SLA7071MR, MPR (1.5 A), SLA7072MR, MPR
(2.0 A), and SA7073MR, MPR (3.0 A), depending on the duty ratio, ambient temperature, and heating conditions.
Be sure that junction temperature of Tj is not exceeded under any circumstances.
■Recommended Operating Conditions
Parameter
Rating
Symbol
min.
max.
Unit
Remarks
Motor Supply Voltage
VM
44
V
Driver Supply Voltage
VS
10
44
V
Logic Supply Voltage
VCC
3.0
5.5
V
The VCC surge voltage should be 0.5 V or lower
Case Temperature
TC
90
°C
Temperature at Pin-12 Lead (without heatsink)
■Electrical Characteristics
Parameter
Main Supply Current
Logic Supply Current
Output MOSFET Breakdown Voltage
Output MOSFET ON Resistance
Output MOSFET Diode Forward Voltage
Maximum Clock Frequency
Logic Input Voltage
Logic Input Current
REF Input Voltage
REF Input Current
Sense Voltage
Sleep-Enable Recovery Time
Switching Time
Sense Resistance
Symbol
IBB
IBBS
Icc
V(BR)DSS
VREF
VREFS
IREF
VSENSE
TSE
tcon
tcoff
RS
Vocp
Overcurrent Sense Current
Iocp
Flag Output Current
Step Reference Current Ratio
PWM Minimum ON Time
PWM OFF Time
VFlagL
VFlagH
IFlagL
IFlagH
ModeF
Mode8
ton(min)
toff
0.7
0.45
0.25
0.18
0.85
1.0
0.95
0.95
ICs
0.85
0.6
0.4
0.24
1.1
1.25
1.2
2.1
250
0.75VDD
±1
±1
±10
VREF
Ω
V
2.0
1.5
0.305
0.305
0.205
0.155
0.7
2.3
3.5
4.6
0.314
0.314
0.211
0.160
0.75
1.25
1.25
100
70.7
3.2
12
V
Ω
V
A
1.25–VDD
–1.25
In operation
Sleep 1 and Sleep 2 modes
VBB=44V, ID=1mA
SLA7070M, ID=1.0A
SLA7071M, ID=1.5A
SLA7072M, ID=2.0A
SLA7073M, ID=3.0A
SLA7070M, ID=1.0A
SLA7071M, ID=1.5A
SLA7072M, ID=2.0A
SLA7073M, ID=3.0A
When Clock Duty = 50%
V
µA
V
µS
µS
µS
100
0.296
0.296
0.199
0.150
0.65
mA
µA
mA
V
µA
0.3
0.45
0.4
0.45
VDD
0.04
0.04
0.04
0.04
2
Conditions
Unit
kHz
0.25VDD
* The direction in which current flows out of the device is regarded as negative.
100
max.
100
VF
Fclock
VIL
VIH
IIL
IIH
Ratings
typ.
15
100
5
RDS(ON)
Overcurrent Sense Voltage
Flag Output Voltage
min.
V
mA
%
%
µs
µs
SLA7070MR/7070MPR, within the current setting range
SLA7071MR/7071MPR, within the current setting range
SLA7072MR/7072MPR, within the current setting range
SLA7073MR/7073MPR, within the current setting range
Output (OFF) Sleep 1
When step reference current ratio is 100%
Sleep1&Sleep2
Clock → Out ON
Clock → Out OFF
SLA7070MR/7070MPR, tolerance of ±3%
SLA7071MR/7071MPR, tolerance of ±3%
SLA7072MR/7072MPR, tolerance of ±3%
SLA7073MR/7073MPR, tolerance of ±3%
SLA7070MPR/7071MPR/7072MPR/7073MPR, when motor coil shorts out
SLA7070MPR/7071MPR
SLA7072MPR
SLA7073MPR
SLA7070MPR/7071MPR/7072MPR/7073MPR, IFlagL=1.25mA
SLA7070MPR/7071MPR/7072MPR/7073MPR, IFlagH=–1.25mA
SLA7070MPR/7071MPR/7072MPR/7073MPR
SLA7070MR, MPR/7071MR, MPR/7072MR, MPR/7073MR, MPR
■Internal Block Diagram
■Pin Assignment
Pin No.
OutB
PreDriver
Sequencer
&
Sleep Circuit
Protect
Protect
DAC
DAC
PWM
Control
PWM
Control
OSC
19
–
Synchro
Control
+
+
–
RS
20 21 22 23
Reg
PreDriver
5
OutB
11
OutB
9 16 10 15
MIC
SenseA
OutB
VBB
Clock
8
Reset
7
M3
6
CW/CCW
18
M2
15
M1
14
Flag
4
N.C.
Ref/Sleep1
VDD
3
OutA
2
OutA
OutA
OutA
1
17
SenseB
RS
OSC
12
The protect circuit is deleted and the flag pin is N.C. for SLA7070MR, 7071MR, 7072MR, and 7073MR.
■Typical Connection Diagram
Symbol
Function
1
Phase A output
OutA
2
3
Phase A output
OutA/
4
SenseA
Phase A current sense
5
6
N.C.
N.C.
M1
7
M2
Excitation mode/Sleep 2 setting input
8
9
M3
Clock
Step Clock input
10
VBB
Driver supply (motor supply)
11
12
Gnd
Device GND
Ref/Sleep1
Control current mode/Sleep 1 setting input
13
VDD
Logic supply
14
15
Reset
Internal logic reset input
CW/CCW
Normal/reverse control input
16
Sync
PWM control signal input
17
18
Protection circuit monitor output*1
Flag
SenseB
Phase B current sense
19
20
OutB/
Phase B current output
21
22
OutB
Phase B current output
23
*1: N.C. pin for SLA7070MR, 7071MR, 7072MR, and 7073MR.
■External Dimensions (ZIP23 with Fin[SLA23Pin])
31±0.2
Vs=10V to 44V
24.4±0.2
4.8±0.2
16.4±0.2
1.7±0.1
Gate burr
φ 3.2±0.15 × 3.8
OutB OutB
φ 3.2±0.15
9.9±0.2
Q1
Reset/Sleep1
Clock
M2
M3
SLA7070MR,MPR
SLA7071MR,MPR
SLA7072MR,MPR
SLA7073MR,MPR
4–(R1)
+1
M1
2.45±0.2
(Measured at
the root)
9.5 –0.5
CW/CCW
Microcomputer,
etc.
5±0.5
BB
12.9±0.2
CA
r1
OutA OutA
C1 VDD
16±0.2
+
Vcc=3.0V to 5.5V
R-end
Sync
N.C.
+0.2
Ref/Sleep
SenseA
r2
r3
Gnd
22 × P1.27±0.5 = 27.94±1
SenseB
31.3±0.2
(Including the resin burr)
C2
(4.3)
0.65 –0.1
Flag
+0.2
0.55 –0.1
±0.7
4.5
(Measured at the tip)
One-point
Gnd
Logic Gnd
Power Gnd
Forming No. No.2151
Product Mass : Approx.6g
* There is no Flag pin (Pin-18) for SLA7070MR, 7071MR, 7072MR, and 7073MR.
ICs
101
1-2-1 2-Phase Stepper Motor Unipolar Driver ICs
SLA7080MPR/7081MPR/7082MPR/7083MPR
■Features
2-Phase/1-2-Phase Excitation
■Absolute Maximum Ratings
• Lineup of built-in current sense resistor
and built-in protection circuit-type
Parameter
Motor Supply Voltage
Driver Supply Voltage
Logic Supply Voltage
Output Current
Logic Input Voltage
REF Input Voltage
Sense Voltage
• Power supply voltages, VBB: 46 V (max),
10 to 44 V normal operating range
• Logic supply voltages, VDD: 3.0 to 5.5 V
• Maximum output current Io: 1A, 1.5A, 2A,
and 3A
• Self-excitation PWM current control with
fixed off time
Symbol
VM
VBB
VDD
Io
VIN
VREF
VRS
Power Dissipation
• Synchronous PWM chopping function
prevents motor noise in Hold mode
PD
Junction Temperature
Operating Ambient Temperature
Storage Temperature
• Sleep mode for reducing the IC input
current in stand-by state
(Ta=25°C)
Ratings
46
46
6
*1
–0.3 to VDD+0.3
–0.3 to VDD+0.3
±2
4.7
17
+150
–20 to +85
–30 to +150
Tj
Ta
Tstg
Unit
V
V
V
A
V
V
V
W
Conditions
Excluding tw<1µs
When Ta = 25°C
When Tc = 25°C
°C
°C
°C
*1: Output current value may be limited for the SLA7080MPR(1.0A), SLA7081MPR(1.5A), SLA7082MPR(2.0A),
SLA7083MPR(3.0A), depending on the duty ratio, ambient temperature, and heating conditions.
Do not exceed junction temperature of Tj under any circumstances.
• ZIP type 23-pin molded package (SLA
package)
■Recommended Operating Conditions
Parameter
Ratings
Symbol
min.
Motor Supply Voltage
Driver Supply Voltage
Logic Supply Voltage
VM
VBB
VDD
10
3.0
REF Input Voltage
VREF
0.04
Case Temperature
Tc
Unit
max.
44
44
5.5
0.3
0.45
0.4
90
V
V
V
V
°C
■Electrical Characteristics
Parameter
Main Supply Current
Logic Supply Current
Output MOSFET Breakdown Voltage
Output MOSFET ON Resistance
Output MOSFET Diode Forward Voltage
Maximum Clock Frequency
Logic Input Voltage
Logic Input Current
REF Input Voltage
Symbol
V(BR)DSS
VREF
Rs
Overcurrent Sense Current
Vocp÷Rs
100
0.7
0.45
0.25
0.18
0.85
1.0
0.95
0.95
VF
Fclk
VIL
VIH
IIL
IIH
250
±1
±1
0.04
0.04
0.04
0.04
2.0
VREF–0.03
0.296
0.296
0.199
0.150
102
ICs
VREF+0.03
0.314
0.314
0.211
0.160
Iocp
Ω
V
1.5
1.0
0.7
2.3
3.5
4.5
2.0
140
In operation
Sleep Mode
VBB=44V, ID=1mA
SLA7080M, ID=1.0A
SLA7081M, ID=1.5A
SLA7082M, ID=2.0A
SLA7083M, ID=3.0A
SLA7080M, ID=1.0A
SLA7081M, ID=1.5A
SLA7082M, ID=2.0A
SLA7083M, ID=3.0A
When Duty = 50%
V
V
0.75
Ω
µs
µS
µS
µS
V
A
2.5
1.25
1.25
SLA7080M
SLA7081M
SLA7082M
SLA7083M
Sleep (“IBBS”, “output: OFF”)
µA
V
µs
100
0.65
mA
µA
mA
V
µA
0.3
0.45
0.4
0.45
VDD
±10
VREF
0.305
0.305
0.205
0.155
3.2
5.2
13
Conditions
Unit
kHz
0.25VDD
topp
1.5
Ttsd
VFlagL
Flag Output Voltage
VFlagH
1.25VDD
IFlagL
Flag Output Current
IFlagH
–1.25
*The direction in which current flows out of the device is regarded as negative.
Time Not Sensing Load Disconnection
Thermal Protection Temperature
0.85
0.6
0.4
0.24
1.1
1.25
1.2
2.1
0.75VDD
ton(min)
toff
TSE
tcon
tcoff
Vocp
max.
15
100
5
RDS(ON)
Sense Resistance
Overcurrent Sense Voltage
min.
Ratings
typ.
IBB
IBBS
IDD
REF Input Current
Sense Voltage
Switching Time
The VDD surge voltage should be 0.5V or lower.
When controlling the current for SLA7080M
When controlling the current for SLA7081M/SLA7083M
When controlling the current for SLA7082M
Rear center (without Fin)
(VDD=5V, VBB=24V, Ta=25°C, unless otherwise specified)
VREFS
IREF
VSENSE
PWM Minimum ON Time
(blanking time)
PWM OFF Time
Sleep-Enable Recovery Time
Conditions
µS
°C
V
mA
Including the resistance due to the product configuration (about 5 mΩ) for SLA7080M
Including the resistance due to the product configuration (about 5 mΩ) for SLA7081M
Including the resistance due to the product configuration (about 5 mΩ) for SLA7082M
Including the resistance due to the product configuration (about 5 mΩ) for SLA7083M
B_SEL: Low
B_SEL: High
Sleep
Phase IN → Out ON
Phase IN → Out OFF
When the motor coil shorts out
SLA7080MPR/7081MPR
SLA7082MPR
SLA7083MPR
Rear of case (at the saturation temperature)
IFlagL= 1.25mA
IFlagH= –1.25mA
SLA7080MPR/7081MPR/7082MPR/7083MPR
■Internal Block Diagram
■Pin Assignment
Pin No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
Function
Symbol
Out A
Phase A output
/Out A
Phase A output
Sense A
B_SEL
INA
/INA
INB
/INB
VBB
Gnd
Ref/Sleep
VDD
Gnd1
Gnd2
Sync
Flag
Sense B
Phase A current sense
Blanking time switching input
Phase A switching input
Phase B switching input
Driver supply (motor supply)
Device GND
Control current/Sleep setting input
Logic supply
Gnd1
Gnd2
PWM synchronous/asynchronous switching input
Protection circuit monitor output
Phase B current sense
/Out B
Phase B output
Out B
Phase B output
■Typical Connection Diagram
■External Dimensions (ZIP23 with Fin [SLA23Pin])
(Unit : mm)
31±0.2
24.4±0.2
φ3.2±0.15×3.8
4.8±0.2
16.4±0.2
5±0.5
12.9±0.2
9.9±0.2
φ3.2±0.15
16±0.2
1.7±0.1
2.45±0.2
(Measured at the root)
+1
9.5 –0.5
4–(R1)
R-end
22×P1.27±0.5=27.94±1
31.3±0.2
(Including the resin burr)
(4.3)
+0.2
0.65 –0.1
+0.2
0.55 –0.1
4.5±0.7
(Measured at the tip)
Forming No. No.2151
Product Mass : Approx.6g
ICs
103
1-2-1 2-Phase Stepper Motor Unipolar Driver ICs
SLA7065M/SLA7066M/SLA7067M 2-Phase to 2W 1-2 Phase Excitation Support, Built-in Sequencer
■Features
■Absolute Maximum Ratings
• Main supply voltage VBB: 46V (max), 10 to
44V recommended
• Logic supply voltage VDD: 3.0 to 5.5V support
• Lineup of output current IO: 1A, 2A, 3A
(maximum set current)
• Supporting the clock-input-method micro-step
drive (built-in sequencer)
• 2-phase excitation to 2W 1-2 phase excitation
support
• Self-excitation PWM current control method
• Built-in synchronous chopping function to
prevent the audible motor noise in the hold
state
• ZIP type 21-Pin mold package (SLA package)
Parameter
(Ta=25°C)
Ratings
Symbol
SLA7065M
SLA7066M
Unit
SLA7067M
Motor Supply Voltage
VM
46
V
Driver Supply Voltage
VBB
46
V
Logic Supply Voltage
VDD
7
1.0
V
Output Current
IO
2.0
3.0
Logic Input Voltage
VIN
–0.3 to VDD+0.3
A
V
REF Input Voltage
VREF
–0.3 to VDD+0.3
V
Sense Voltage
VRS
–2 to +2 (tw >1µs)
V
Power Dissipation
PD
3.5 (Without Heatsink)
W
Junction Temperature
Tj
+150
°C
Operating Ambient Temperature
Ta
–20 to +85
°C
Storage Temperature
Tstg
–30 to +150
°C
■Recommended Operating Conditions
Parameter
Ratings
Symbol
Motor Supply Voltage
Driver Supply Voltage
Logic Supply Voltage
REF Input Voltage
Case Temperature
min.
VM
VBB
VDD
VREF
TC
Unit
max.
Remarks
44
V
10
44
V
3.0
5.5
V
The VDD surge voltage should be 0.5V or lower.
0.1
1.0
V
The control current precision is degraded at 0.1V or lower.
90
°C
Temperature at pin-11 Lead (Without heatsink)
■Electrical Characteristics
Parameter
(VDD=5V, VBB=24V, Ta=25°C, unless otherwise specified)
Symbol
min.
Main Supply Current
Logic Supply Current
Output MOSFET Breakdown Voltage
Output MOSFET ON Resistance
Output MOSFET Diode Forward Voltage
Maximum Clock Frequency
Logic Input Voltage
Logic Input Current
REF Input Voltage
REF Input Current
Mo Output Voltage
Mo Output Current
Sense Terminal Inflow Current
Sense Voltage
Step Reference Current Ratio
Switching Time
PWM Minimum ON Time
Chopping OFF Time
IBB
Conditions
IBBS
Conditions
IDD
V (BR) DS
Conditions
RDS (ON)
Conditions
VF
Conditions
fclk
Conditions
VIL
VIH
IIL
IIH
Conditions
IILM
IIH
Conditions
VREF
Conditions
VREFS
Conditions
IREF
VMoL
Conditions
VMoH
Conditions
IMoL
IMoH
ISENSE
VSENSE
Conditions
Mode F
Mode E
Mode C
Mode A
Mode 8
Mode 6
Mode 4
Mode 2
Conditions
TONC
Conditions
TOFFC
Conditions
TON (min)
Conditions
tOFF1
Conditions
tOFF2
Conditions
tOFF3
Conditions
SLA7065M
typ.
ICs
min.
In operation
max.
15
min.
In operation
100
100
Sleep mode
4
100
VBB=44V, ID=1mA
0.7
ID=1A
0.85
IF=1A
250
When Clock Duty = 50%
VDD·0.25
VDD·0.75
±1
±1
Clock, Reset, CW/CCW, Sync
–50
±1
M1, M2
0
1.5
Normal-operation current control
2
VDD
Output OFF (sleep)
±10
1.25
IMOL=1.5mA
VDD–1.25
IMOH=–1.5mA
3
–3
±10
0.95
1.00
1.05
When VREF = 1V in Mode F
100
98.1
92.4
83.1
70.7
55.5
38.2
19.5
.
VREF=.VSENSE=100%, VREF=0.1 to 1.0V
2.0
Clock→OutON
1.5
Clock→OutOFF
1.8
Mode 2 to F
12
Mode 8 to F
9
Mode 4 to 6
7
Mode 2
Unit
max.
15
In operation
Sleep mode
4
100
SLA7067M
typ.
100
Sleep mode
* The direction in which current flows out of the device is regarded as negative.
104
max.
15
Ratings
SLA7066M
typ.
4
100
VBB=44V, ID=1mA
0.25
ID=2A
0.95
IF=2A
250
When Clock Duty = 50%
VDD·0.25
VDD·0.75
±1
±1
Clock, Reset, CW/CCW, Sync
–50
±1
M1, M2
0
1.5
Normal-operation current control
2
VDD
Output OFF (sleep)
±10
1.25
IMOL=1.5mA
VDD–1.25
IMOH=–1.5mA
3
–3
±10
0.95
1.00
1.05
When VREF = 1V in Mode F
100
98.1
92.4
83.1
70.7
55.5
38.2
19.5
.
VREF=.VSENSE=100%, VREF=0.1 to 1.0V
2.0
Clock→OutON
1.5
Clock→OutOFF
1.8
Mode 2 to F
12
Mode 8 to F
9
Mode 4 to 6
7
Mode 2
VBB=44V, ID=1mA
0.18
ID=3A
0.95
IF=3A
250
When Clock Duty = 50%
VDD·0.25
VDD·0.75
±1
±1
Clock, Reset, CW/CCW, Sync
–50
±1
M1, M2
0
1.5
Normal-operation current control
2
VDD
Output OFF (sleep)
±10
1.25
IMOL=1.5mA
VDD–1.25
IMOH=–1.5mA
3
–3
±10
0.95
1.00
1.05
When VREF = 1V in Mode F
100
98.1
92.4
83.1
70.7
55.5
38.2
19.5
.
VREF =.VSENSE=100%, VREF=0.1 to 1.0V
2.0
Clock→OutON
1.5
Clock→OutOFF
1.8
Mode 2 to F
12
Mode 8 to F
9
Mode 4 to 6
7
Mode 2
mA
µA
mA
V
Ω
V
kHz
V
µA
V
µA
V
mA
µA
V
%
µs
µs
µs
µs
SLA7065M/SLA7066M/SLA7067M
■Internal Block Diagram
18
19 20
Symbol
1
OutB
16
OutB
8
OutB/
OutB/
9 10
VBB
Clock
Reset
14 13 12
Pin No.
CW/CCW
6
M2
7
M1
4
MO
3
VDD
REF
2
OutA/
OutA/
OutA
OutA
1
■Pin Assignment
2
3
21
4
MIC
Reg
Sequencer
&
Sleep Circuit
PreDriver
PWM
Control
PWM
Control
OSC
VDD
Logic supply
7
REF
Control current setting & output OFF control input
8
Reset
9
CW/CCW
10
Clock
Step Clock input
–
11
GND
Device GND
+
12
M2
13
M1
OSC
5
17
15 Sync
SenseA
Phase A output
SenseA
Synchro
Control
+
OutA/
6
DAC
–
Phase A output
5
PreDriver
DAC
Function
OutA
GND 11
SenseB
Internal logic reset input
MO
15
Sync
16
VBB
17
SenseB
19
20
21
Normal/reverse control input
Excitation mode setting input
14
18
Phase A current sense
2-phase excitation state monitor output
PWM control signal input
Driver supply (motor supply)
Phase B current sense
OutB/
Phase B output
OutB
Phase B output
■Typical Connection Diagram
VBB=VM=10~44V
CA
16
1
2
OutB
Reset
3
4
18
OutB/
6
Q1
19
20
21
8
CW/CCW
CB
OutA
C1
OutA/
R1
Disable
VBB
VDD=3.0~5.5V
9
Clock
12
13
MO
* Be sure to connect the unused logic input terminals (CW/CCW, M1, M2,
Reset, Sync) to VDD or GND.
Otherwise, the device will malfunction.
SLA7060M
Series
10
MicroM2
computer,
M1
etc.
* VDD line noise precaution:
The device may malfunction if the VDD line noise exceeds 0.5V.
As a countermeasure, separating the VDD system GND (S-GND) and VBB
system GND (P-GND) from the device GND (Pin-11) helps to reduce noise.
14
Sync
15
RsB
SenseB
RsA
* Be sure to open the unused logic output terminal Mo.
17
GND
SenseA
R2
REF
R3
11
5
7
P-GND
S-GND
Component Values (Typical)
.
Rs=0.1 to 2Ω (Power dissipation should be: P=.IO2×Rs)
R1=10kΩ
CA=100µF/50V
R2=5.1kΩ (VR)
CB=10µF/10V
R3=10kΩ
C1=0.1µF
■External Dimensions (ZIP21 with Fin [SLA21Pin])
(Unit : mm)
31.0±0.2
31.0±0.2
φ 3.2±0.15×3.8
16.4±0.2
4.8±0.2
24.4±0.2
1.7±0.1
16.4±0.2
φ 3.2±0.15×3.8
4.8±0.2
1.7±0.1
2.45±0.2
[Measured
at the root]
3±0.5
[Measured at the tip]
[4.6]
9.9±0.2
17.9±0.6
φ 3.2±0.15
2.45±0.2
[Measured at the root]
5±0.5
16±0.2
[Heatsink]
12.9±0.2
9.9±0.2
φ 3.2±0.15
16±0.2
[Heatsink]
Gate burr
Gate burr
12.9±0.2
24.4±0.2
20×P1.43±0.5=28.6±1
[Measured at the tip]
+0.2
20×P1.43±0.5=28.6±0.7
[Measured at the tip]
+0.2
0.55 –0.1
6±0.6
0.55 –0.1
4.2MIN
+0.2
0.65 –0.1
7.5±0.6
4±0.7
[Measured at the tip]
31.3±0.2
[Including the resin burr]
1.6±0.5
[Measured at the tip]
4 –[R1]
R-end
31.3±0.2
[Including the resin burr]
+0.2
0.65 –0.1
1
3
2
5
4
7
6
9
8
11 13 15 17 19 21
10 12 14 16 18 20
Forming No. No.2102
1
3
2
5
4
7
6
9
8
11 13 15 17 19 21
10 12 14 16 18 20
Forming No. No.2104
Product Mass : Approx.6g
ICs
105
1-2-1 2-Phase Stepper Motor Unipolar Driver ICs
SI-7321M 2-Phase to 4W 1-2 Phase Excitation Support, Built-in Sequencer
■Features
• Power supply voltages, VBB: 46 V (max), 10
to 44 V normal operating range
• Logic supply voltages, VDD: 3.0 to 5.5 V
• Output Current Io: 1.5A
• Clock input method (built-in sequencer)
• Self-excitation PWM current control with fixed
off time
• Synchronous PWM chopping function
prevents motor noise in Hold mode
• Sleep mode for reducing the IC input current
in stand-by state
• Selectable blanking time (1.8 us or 3.6 us)
• Selectable clock input edge (POS or POS/
NEG)
• Selectable protection availability
■Absolute Maximum Ratings
Parameter
Motor Supply Voltage
Driver Supply Voltage
Logic Supply Voltage
Output Current
Logic Input Voltage
REF Input Voltage
Sense Voltage
Power Dissipation
Junction Temperature
Operating Ambient Temperature
Storage Temperature
Symbol
VM
VBB
VDD
Io
VIN
VREF
VRS
PD
Tj
Ta
Tstg
(Ta=25°C)
Ratings
46
46
6
1.5
–0.3 to VDD+0.3
–0.3 to VDD+0.3
±2
3.5
+150
–20 to +80
–30 to +150
Unit
V
V
V
A
V
V
V
W
℃
℃
℃
Conditions
Current ratio: Mode F
Excluding tw<1µs
When Ta = 25°C
*: Output current value may be limited, depending on the duty ratio, ambient temperature, and heating
conditions.
Do not exceed junction temperature of Tj under any circumstances.
• 44-pin surface-mount
■Recommended Operating Conditions
Parameter
Ratings
Symbol
min.
Motor Supply Voltage
Driver Supply Voltage
Logic Supply Voltage
VM
VBB
VDD
10
3.3
REF Input Voltage
VREF
0.04
Case Temperature
Tc
Unit
max.
44
44
5.5
1.0
0.5
85
V
V
V
V
℃
■Electrical Characteristics
Parameter
Driver Supply Current
Logic Supply Current
Output MOSFET Breakdown Voltage
Output MOSFET ON Resistance
Output MOSFET Diode Forward Voltage
Maximum Clock Frequency
Logic Input Voltage
Logic Input Current
REF Input Voltage
Symbol
V(BR)DSS
RDS(ON)
VF
Fclk
VIL
VIH
IIL
IIH
VREF
Switching Time
tpdon1
Logic Output Current
Sense Voltage
Overcurrent Sense Voltage
Step Reference Current Ratio
PWM Minimum ON Time
PWM OFF Time
Time Not Sensing Load Disconnection
min.
Ratings
typ.
IBB
IBBS
IDD
Sleep-Enable Recovery Time
Logic Output Voltage
100
0.25
0.95
ICs
0.4
1.2
250
0.25VDD
0.75VDD
±1
±1
0.04
0.04
2
1.25
VDD-1.25
1.25
–1.25
0.65
0.2
0.7
100
98.1
95.7
92.4
88.2
83.1
77.3
70.7
63.4
55.5
47.1
38.2
29.0
19.5
9.8
0.75
100
1.5
2.0
1.5
1.8
3.6
13
9.5
7.5
2
Unit
mA
µA
mA
V
Ω
V
kHz
Conditions
In operation
Sleep Mode
VBB=44V, ID=1mA
ID=1.5A
IF=1.5A
When Duty = 50%
V
µA
1.5
0.6
VDD
±10
ton(min)
toff1
toff2
toff3
topp
max.
15
100
5
The direction in which current flows out of the device is regarded as negative.
106
The VDD surge voltage should be 0.5V or lower.
When not using protection
When using protection
Temperature at the center of the package
(VDD=5V, VBB=24V, Ta=25°C, unless otherwise specified)
VREFS
IREF
VLOL
VLOH
ILOL
ILOH
VSENSE
Vocp
Mode F
Mode E
Mode D
Mode C
Mode B
Mode A
Mode 9
Mode 8
Mode 7
Mode 6
Mode 5
Mode 4
Mode 3
Mode 2
Mode 1
TSE
REF Input Current
Conditions
2.5
V
µA
V
V
mA
mA
V
V
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
µS
µS
µS
µs
µs
µs
µs
µs
µs
When not using protection
When using protection
Sleep1 Mode
VREF=0 to VDD
ILOL=1.25mA
ILOH=–1.25mA
VREF=0.2V, Mode F
against Vsence
VREF=0.04V to 1.5V
Sleep1&Sleep2
Clock → Out ON
Clock → Out OFF
B_SEL: L
B_SEL: H
Mode8 to F
Mode4 to 7
Mode1 to 3
Starts when the PWM is turned off.
SI-7321M
■Internal Block Diagram
■Pin Assignment
■Typical Connection Diagram
■External Dimensions (HSOP44)
(Unit : mm)
9.9±0.3
7.5±0.2
18.6±0.3
Pin No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
Symbol
Out/A
Out/A
N.C.
RsA
G/A
Gnd1
E_SEL
P_SEL
Sync
CW/CCW
Reset
Clock
M1
M2
M3
B_SEL
Gnd1
G/B
RsB
N.C.
Out /B
Out /B
OutB
OutB
N.C.
RsB
GB
Gnd1
Gnd2
Flag
Mo
VDD
Ref/Sleep1
Gnd3
N.C.
VBB
N.C.
Gnd4
Gnd1
GA
RsA
N.C.
Out A
Out A
Function
Phase A output
Phase A output
No connection
Connection terminal for phase A sense resistor
Phase A MOSFET gate
Device Gnd1
Edge selection input
Protection use selection input
PWM control signal input
Normal/reverse control input
Internal logic reset input
Step clock input
Excitation mode/Sleep 2 setting input
Blanking time selection input
Device Gnd1
Phase B MOSFET gate
Connection terminal for phase B sense resistor
No connection
Phase B output
Phase B output
Phase B output
Phase B output
No connection
Connection terminal for phase B sense resistor
Phase B MOSFET gate
Device Gnd1
Device Gnd2
Protection circuit monitor output
2-phase excitation state monitor output
Logic supply
Control current mode/Sleep 1 setting input
Device Gnd3
No connection
Driver supply (motor supply)
No connection
Device Gnd4
Device Gnd1
Phase A MOSFET gate
Connection terminal for phase A sense resistor
No connection
Phase A output
Phase A output
1.50 TYP
0.65
0.10
0.10±0.05
0.22±0.05
0 to 10°
0.15 +0.1
–0.05
2.2±0.1
2.17
0.5±0.2
0.12 M
ICs
107
1-2-1 2-Phase Stepper Motor Unipolar Driver ICs
SLA7060M/SLA7061M/SLA7062M 1-2 Phase to 4W 1-2 Phase Excitation Support, Built-in Sequencer
■Features
■Absolute Maximum Ratings
• Main supply voltage VBB: 46V (max), 10 to
44V recommended
• Logic supply voltage VDD: 3.0 to 5.5V support
• Lineup of output current IO: 1A, 2A, 3A
(maximum set current)
• Supporting the clock-input-method micro-step
drive (built-in sequencer)
• 1-2 phase excitation to 4W 1-2 phase
excitation support
• Self-excitation PWM current control method
• Built-in synchronous chopping function to
prevent the audible motor noise in the hold
state
• ZIP type 21-Pin mold package (SLA package)
Parameter
(Ta=25°C)
Ratings
Symbol
SLA7060M
SLA7061M
Unit
SLA7062M
Output Current
IO
Logic Input Voltage
VIN
REF Input Voltage
VREF
–0.3 to VDD+0.3
Sense Voltage
VRS
–2 to +2 (tw > 1µs)
Power Dissipation
PD
3.5 (Without Heatsink)
V
V
V
A
V
V
V
W
Junction Temperature
Tj
+150
°C
Operating Ambient Temperature
Ta
–20 to +85
°C
Storage Temperature
Tstg
–30 to +150
°C
Motor Supply Voltage
VM
46
Driver Supply Voltage
VBB
46
Logic Supply Voltage
VDD
7
1.0
2.0
3.0
–0.3 to VDD+0.3
■Recommended Operating Conditions
Parameter
Ratings
Symbol
min.
Unit
max.
Motor Supply Voltage
VM
44
V
Driver Supply Voltage
VBB
10
44
V
Logic Supply Voltage
VDD
3.0
5.5
V
REF Input Voltage
VREF
0.1
1.0
V
Case Temperature
TC
90
°C
Remarks
The VDD surge voltage should be 0.5V or lower.
The control current precision is degraded at 0.1V or lower.
Temperature at Pin-11 Lead (Without heatsink)
■Electrical Characteristics
Parameter
Main Supply Current
Logic Supply Current
Output MOSFET Breakdown Voltage
Output MOSFET ON Resistance
Output MOSFET Diode Forward Voltage
Maximum Clock Frequency
Logic Input Voltage
Logic Input Current
REF Input Voltage
REF Input Current
Mo Output Voltage
Mo Output Current
Sense Terminal Inflow Current
Sense Voltage
Step Reference Current Ratio
Switching Time
PWM Minimum ON Time
Chopping OFF Time
(VDD=5V, VBB=24V, Ta=25°C, unless otherwise specified)
Symbol
IBB
Conditions
IBBS
Conditions
IDD
V (BR )DS
Conditions
RDS (ON)
Conditions
VF
Conditions
fclk
Conditions
VIL
VIH
IIL
IIH
Conditions
IILM
IIH
Conditions
VREF
Conditions
VREFS
Conditions
IREF
VMoL
Conditions
VMoH
Conditions
IMoL
IMoH
ISENSE
VSENSE
Conditions
Mode F
Mode E
Mode D
Mode C
Mode B
Mode A
Mode 9
Mode 8
Mode 7
Mode 6
Mode 5
Mode 4
Mode 3
Mode 2
Mode 1
Conditions
TONC
Conditions
TOFFC
Conditions
TON (min)
Conditions
tOFF1
Conditions
tOFF2
Conditions
tOFF3
Conditions
min.
SLA7060M
typ.
ICs
min.
In operation
max.
15
min.
In operation
100
4
100
Sleep mode
4
100
VBB=44V, ID=1mA
0.25
ID=2A
0.95
IF=2A
250
When Clock Duty = 50%
VDD·0.25
4
100
VBB=44V, ID=1mA
0.7
ID=1A
0.85
IF=1A
250
max.
15
In operation
Sleep mode
100
SLA7062M
typ.
100
Sleep mode
VBB=44V, ID=1mA
0.18
ID=3A
0.95
IF=3A
250
When Clock Duty = 50%
VDD·0.25
When Clock Duty = 50%
VDD·0.25
VDD·0.75
VDD·0.75
VDD·0.75
±1
±1
Clock, Reset, CW/CCW, Sync
–50
±1
M1, M2
0
1.5
Normal-operation current control
2
VDD
Output OFF (sleep)
±10
1.25
IMOL=1.5mA
VDD–1.25
IMOH=–1.5mA
3
–3
±10
0.95
1.00
1.05
When VREF = 1V in Mode F
100
98.1
95.7
92.4
88.2
83.1
77.3
70.7
63.4
55.5
47.1
38.2
29
19.5
9.8
.
VREF=.VSENSE=100%, VREF=0.1 to 1.0V
2.0
Clock→OutON
1.5
Clock→OutOFF
1.8
Mode 1 to F
12
Mode 8 to F
9
Mode 4 to 7
7
Mode 1 to 3
±1
±1
Clock, Reset, CW/CCW, Sync
–50
±1
M1, M2
0
1.5
Normal-operation current control
2
VDD
Output OFF (sleep)
±10
1.25
IMOL=1.5mA
VDD–1.25
IMOH=–1.5mA
3
–3
±10
0.95
1.00
1.05
When VREF = 1V in Mode F
100
98.1
95.7
92.4
88.2
83.1
77.3
70.7
63.4
55.5
47.1
38.2
29
19.5
9.8
.
VREF =.VSENSE=100%, VREF=0.1 to 1.0V
2.0
Clock→OutON
1.5
Clock→OutOFF
1.8
Mode 1 to F
12
Mode 8 to F
9
Mode 4 to 7
7
Mode 1 to 3
±1
±1
Clock, Reset, CW/CCW, Sync
–50
±1
M1, M2
0
1.5
Normal-operation current control
2
VDD
Output OFF (sleep)
±10
1.25
IMOL=1.5mA
VDD–1.25
IMOH=–1.5mA
3
–3
±10
0.95
1.00
1.05
When VREF = 1V in Mode F
100
98.1
95.7
92.4
88.2
83.1
77.3
70.7
63.4
55.5
47.1
38.2
29
19.5
9.8
.
VREF=.VSENSE=100%, VREF=0.1 to 1.0V
2.0
Clock→OutON
1.5
Clock→OutOFF
1.8
Mode 1 to F
12
Mode 8 to F
9
Mode 4 to 7
7
Mode 1 to 3
* The direction in which current flows out of the product is regarded as negative.
108
max.
15
Ratings
SLA7061M
typ.
Unit
mA
µA
mA
V
Ω
V
kHz
V
µA
V
µA
V
mA
µA
V
%
µs
µs
µs
µs
SLA7060M/SLA7061M/SLA7062M
■Internal Block Diagram
18
19 20
Symbol
1
OutB
16
OutB
8
OutB/
OutB/
9 10
VBB
Clock
Reset
14 13 12
Pin No.
CW/CCW
6
M2
7
M1
4
MO
3
VDD
REF
2
OutA/
OutA/
OutA
OutA
1
■Pin Assignment
2
3
21
4
MIC
Reg
Sequencer
&
Sleep Circuit
PreDriver
PWM
Control
PWM
Control
OSC
VDD
Logic supply
7
REF
Control current setting & output OFF control input
8
Reset
9
CW/CCW
10
Clock
Step Clock input
–
11
GND
Device GND
+
12
M2
13
M1
OSC
5
17
15 Sync
SenseA
Phase A output
SenseA
Synchro
Control
+
OutA/
6
DAC
–
Phase A output
5
PreDriver
DAC
Function
OutA
GND 11
SenseB
Internal logic reset input
MO
15
Sync
16
VBB
17
SenseB
19
20
21
Normal/reverse control input
Excitation mode setting input
14
18
Phase A current sense
2-phase excitation state monitor output
PWM control signal input
Driver supply (motor supply)
Phase B current sense
OutB/
Phase B output
OutB
Phase B output
■Typical Connection Diagram
VBB=VM=10~44V
CA
16
1
2
OutB
Reset
3
4
18
OutB/
6
Q1
19
20
21
8
CW/CCW
CB
OutA
C1
OutA/
R1
Disable
VBB
VDD=3.0~5.5V
9
Clock
Microcomputer, M1
etc.
MO
* Be sure to connect the unused logic input terminals (CW/CCW, M1, M2,
Reset, Sync) to VDD or GND.
Otherwise, the device will malfunction.
SLA7060M
Series
10
M2
12
13
* VDD line noise precaution:
The device may malfunction if the VDD line noise exceeds 0.5V. As a countermeasure, separating the VDD system GND (S-GND) and VBB system
GND (P-GND) from the device GND (Pin-11) helps to reduce noise.
14
Sync
15
RsB
SenseB
RsA
* Be sure to open the unused logic output terminal Mo.
17
GND
SenseA
R2
REF
R3
11
5
7
P-GND
S-GND
Component Values (Typical)
.
Rs=0.1 to 2Ω (Power dissipation should be: P=.IO2×Rs)
R1=10kΩ
CA=100µF/50V
R2=5.1kΩ (VR)
CB=10µF/10V
R3=10kΩ
C1=0.1µF
■External Dimensions (ZIP21 with Fin [SLA21Pin])
(Unit : mm)
31.0±0.2
31.0±0.2
φ 3.2±0.15×3.8
16.4±0.2
4.8±0.2
24.4±0.2
1.7±0.1
16.4±0.2
Gate burr
φ 3.2±0.15×3.8
4.8±0.2
1.7±0.1
2.45±0.2
[Measured
at the root]
4 –[R1]
3±0.5
[Measured at the tip]
[4.6]
16±0.2
[Heatsink]
9.9±0.2
17.9±0.6
φ 3.2±0.15
2.45±0.2
[Measured at the root]
5±0.5
12.9±0.2
9.9±0.2
φ 3.2±0.15
16±0.2
[Heatsink]
Gate burr
12.9±0.2
24.4±0.2
+0.2
20×P1.43±0.5=28.6±0.7
[Measured at the tip]
0.55 –0.1
4±0.7
[Measured at the tip]
31.3±0.2
[Including the resin burr]
31.3±0.2
[Including the resin burr]
1
3
2
5
4
7
6
9
8
11 13 15 17 19 21
10 12 14 16 18 20
6±0.6
7.5±0.6
Forming No. No.2102
+0.2
0.65 –0.1
1
3
2
5
4
7
6
9
8
11 13 15 17 19 21
10 12 14 16 18 20
1.6±0.5
[Measured at the tip]
4.2MIN
+0.2
0.65 –0.1
20×P1.43±0.5=28.6±1
[Measured at the tip]
0.55 –0.1
+0.2
R-end
Forming No. No.2104
Product Mass : Approx.6g
ICs
109
1-2-1 2-Phase Stepper Motor Unipolar Driver ICs
SLA7075MR, MPR/7076MR, MPR/7077MR, MPR/7078MR, MPR 2-Phase/4 W1-2 Phase Excitation Support, Built-in Sequencer
■Features
■Absolute Maximum Ratings
• Lineup of built-in current sense resistor and
built-in protection circuit-type
• Power supply voltages, VBB: 46 V (max), 10 to
44 V normal operating range
• Logic supply voltages, VDD: 3.0 to 5.5 V
Parameter
Symbol
Ratings
Unit
Motor Supply Voltage
VM
VBB
VDD
Io
VIN
VREF
VRS
46
46
6
*1
V
V
V
A
V
V
V
Driver Supply Voltage
Logic Supply Voltage
Output Current
• Maximum output currents: 1 A, 1.5 A, 2 A, and
3A
Logic Input Voltage
• Built-in sequencer
Sense Voltage
• Self-excitation PWM current control with fixed
off-time
Power Dissipation
• Synchronous PWM chopping function
prevents motor noise in Hold mode
Junction Temperature
• Sleep mode for reducing the IC input current
in stand-by state
Storage Temperature
REF Input Voltage
Operating Ambient Temperature
• ZIP type 23-pin molded package (SLA
package)
–0.3 to VDD+0.3
–0.3 to VDD+0.3
±2
4.7
17
+150
PD
Tj
Ta
Tstg
–20 to +85
–30 to +150
Remarks
Vref=0.4V, Mode F
Excluding tw<1µs
When Ta = 25°C
W
When Tc = 25°C
°C
°C
°C
*1: Output current value may be limited for the SLA7075MR, MPR (1.0 A), SLA7076MR, MPR (1.5 A), SLA7077MR, MPR
(2.0 A), and SA7078MR, MPR (3.0 A), depending on the duty ratio, ambient temperature, and heating conditions.
Do not exceed junction temperature of Tj under any circumstances.
■Recommended Operating Conditions
Parameter
Rating
Symbol
min.
max.
Unit
Remarks
Motor Supply Voltage
VM
44
V
Driver Supply Voltage
VS
10
44
V
Logic Supply Voltage
VDD
3.0
5.5
V
REF Input Voltage
VREF
0.0
0.4
V
When operating current control
Case Temperature
TC
90
°C
Temperature at Pin-12 Lead (without heatsink)
The VCC surge voltage should be 0.5 V or lower
■Electrical Characteristics
Parameter
Main Supply Current
Logic Supply Current
Output MOSFET Breakdown Voltage
Output MOSFET ON Resistance
Output MOSFET Diode Forward Voltage
Maximum Clock Frequency
Logic Input Voltage
Logic Input Current
REF Input Voltage
REF Input Current
SENSE Sense Voltage
Sleep-Enable Recovery Time
Switching Time
Sense Resistance
Overcurrent Sense Voltage
Overcurrent Sense Current
Flag Output Voltage
Flag Output Current
Step Reference Current Ratio
Mo (Load) Output Voltage
Mo (Load) Output Current
PWM Minimum ON Time
PWM OFF Time
110
ICs
Symbol
min.
Ratings
typ.
V(BR)DSS
100
0.7
0.45
0.25
0.18
0.85
1.0
0.95
0.95
RDS(ON)
VF
Fclock
VIL
VIH
IIL
IIH
VREF
VREFS
IREF
VSENSE
TSE
tcon
tcoff
RS
Vocp
0.85
0.6
0.4
0.24
1.1
1.25
1.2
2.1
250
±1
±1
0.04
0.04
0.04
0.04
2
±10
VREF
Ω
V
0.314
0.314
0.211
0.160
0.75
VDD–1.25
1.25
–1.25
100
98.1
95.7
92.4
88.2
83.1
77.3
70.7
63.4
55.5
47.1
38.2
29.0
19.5
9.8
VBB=44V, ID=1mA
SLA7075M, ID=1.0A
SLA7076M, ID=1.5A
SLA7077M, ID=2.0A
SLA7078M, ID=3.0A
SLA7075M, ID=1.0A
SLA7076M, ID=1.5A
SLA7077M, ID=2.0A
SLA7078M, ID=3.0A
When Clock Duty = 50%
Ω
V
V
mA
SLA7075MR/7075MPR,
SLA7077MR/7076MPR,
SLA7077MR/7077MPR,
SLA7078MR/7078MPR,
Output (OFF) Sleep 1
1.25
1.25
V
the
the
the
the
specified
specified
specified
specified
current
current
current
current
SLA7075MPR/7076MPR/7077MPR/7078MPR
IMOL=1.25mA
IMOH=–1.25mA
mA
µS
µS
µS
µS
within
within
within
within
limit
limit
limit
limit
When step reference current ratio is 100%
Sleep1&Sleep2
Clock → Out ON
Clock → Out OFF
SLA7075MR/7075MPR, tolerance of ±3%
SLA7076MR/7076MPR, tolerance of ±3%
SLA7077MR/7077MPR, tolerance of ±3%
SLA7078MR/7078MPR, tolerance of ±3%
SLA7075MPR/7076MPR/7077MPR/7078MPR, when motor coil shorts out
SLA7075MPR/7076MPR
SLA7077MPR
SLA7078MPR
SLA70750MPR/7076MPR/7077MPR/7078MPR, IFlagL=1.25mA
SLA7075MPR/7076MPR/7077MPR/7078MPR, IFlagH=-1.25mA
%
%
%
%
%
%
%
%
%
%
%
%
%
%
%
VDD–1.25
1.7
12
9
7
V
A
1.25
–1.25
In operation
Sleep 1 and Sleep 2 modes
V
µA
V
µS
µS
µS
100
0.296
0.296
0.199
0.150
0.65
mA
µA
mA
V
µA
0.3
0.45
0.4
0.45
VDD
2.0
1.5
0.305
0.305
0.205
0.155
0.7
2.3
3.5
4.6
Conditions
Unit
kHz
0.25VDD
0.75VDD
Iocp
VFlagL
VFlagH
IFlagL
IFlagH
ModeF
ModeE
ModeD
ModeC
ModeB
ModeA
Mode9
Mode8
Mode7
Mode6
Mode5
Mode4
Mode3
Mode2
Mode1
VMOL
VMOH
IMOL
IMOH
ton(min)
toff1
toff2
toff3
max.
15
100
5
IBB
IBBS
Icc
Mode 8 to F
Mode 4 to 7
Mode 1 to 3
SLA7075MR, MPR/7076MR, MPR/7077MR, MPR/7078MR, MPR
■Internal Block Diagram
■Pin Assignment
Pin No.
OutB
PreDriver
Sequencer
&
Sleep Circuit
Protect
Protect
DAC
DAC
PWM
Control
PWM
Control
OSC
19
–
Synchro
Control
+
+
–
RS
20 21 22 23
Reg
PreDriver
SenseA
OutB
11
OutB
9 16 10 15
MIC
5
OutB
VBB
Clock
Reset
8
M3
7
CW/CCW
6
M2
18
M1
15
MO
14
Flag
4
Ref/Sleep1
VDD
3
OutA
2
OutA
OutA
OutA
1
RS
OSC
17
SenseB
12
Sync
Gnd
The protect circuit is deleted and the flag pin is N.C. for SLA7075MR, 7076MR, 7077MR, and 7078MR.
■Typical Connection Diagram
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
Symbol
Function
OutA
Phase A output
OutA/
Phase A output
Phase A current sense
SenseA
2 phase excitation state output monitor output
MO
M1
Excitation mode/Sleep 2 setting input
M2
M3
Step Clock input
Clock
VBB
Driver supply (motor supply)
Gnd
Device GND
Control current mode/Sleep 1 setting input
Ref/Sleep1
Logic supply
VDD
Internal logic reset input
Reset
Normal/reverse control input
CW/CCW
Sync
PWM control signal input
Flag*1
Protection circuit monitor output*1
SenseB
Phase B current sense
OutB/
Phase B current output
OutB
Phase B current output
*1: N.C. pin for SLA7075MR, 7076MR, 7077MR, and 7078MR.
■External Dimensions (ZIP23 with Fin [SLA23Pin])
Vs=10V to 44V
31±0.2
24.4±0.2
4.8±0.2
φ 3.2±0.15 × 3.8
16.4±0.2
1.7±0.1
Gate burr
+
OutB OutB
φ 3.2±0.15
9.9±0.2
Q1
Reset/Sleep1
Clock
M1
M2
M3
SLA7075MR,MPR
SLA7076MR,MPR
SLA7077MR,MPR
SLA7078MR,MPR
4–(R1)
+1
CW/CCW
Microcomputer,
etc.
2.45±0.2
(Measured at
the root)
9.5 –0.5
CB
5±0.5
BB
12.9±0.2
r1
OutA OutA
C1 VDD
16±0.2
CA
Vcc=3.0V to 5.5V
R-end
Sync
MO
+0.2
0.65 –0.1
Ref/Sleep
SenseA
r2
r3
Gnd
22P × 1.27±0.5=27.94±1
SenseB
31.3±0.2
(Including the resin burr)
C2
One-point
Gnd
Logic Gnd
+0.2
0.55 –0.1
(4.3)
Flag
±0.7
4.5
(Measured at the tip)
Forming No.
No.2151
Power Gnd
Product Mass : Approx.6g
* There is no Flag pin (pin 18) for SLA7075MR, 7076MR, 7077MR, and 7078MR.
ICs
111
1-2-2 3-Phase Stepper Motor Driver ICs
SLA7611M Star Connection/Delta Connection
■Absolute Maximum Ratings
Parameter
(Ta=25°C)
Symbol
Ratings
Unit
Main Supply Voltage
VBB
36
V
Logic Supply Voltage
VCC
7
V
IO (Ave)
3
A
IO (Peak)
6
A
Logic Input Voltage
VIN
–0.3 to VCC+0.3
V
REF Input Voltage
VREF
–0.3 to VCC+0.3
V
PFD Input Voltage
VPFD
–0.3 to VCC+0.3
V
Sense Voltage
VRs
–2 to 2
V
Power Dissipation
PD
4
W
Junction Temperature
Tj
150
°C
Output Current
Operating Ambient Temperature
Ta
–20 to 85
°C
Storage Temperature
Tstg
–30 to 150
°C
Remarks
tw < 1ms
Without heatsink
■Recommended Operating Conditions
Symbol
Ratings
Unit
Main Supply Voltage
Parameter
VBB
10 to 30
V
Remarks
Logic Supply Voltage
VCC
3 to 5.5
V
The VCC surge voltage should be 0.5V or lower.
REF Input Voltage
VREF
0.2 to VCC
V
The control current precision is degraded at 0.2V or lower.
Case Temperature
TC
110max
°C
Temperature at Pin-10 Lead (without heatsink)
■Electrical Characteristics
Parameter
Symbol
Main Supply Current
IBB
Logic Supply Current
Icc
Charge Pump Voltage
VB
Output Breakdown Voltage
VO
Output MOS FET ON Resistance
(total of the upper and lower values)
RDS (on)
Output MOS FET
Diode Forward Voltage
Logic Input Voltage
Logic Input Current
(Ta=25°C, VBB=24V, VCC=5V, unless otherwise specified)
Ratings
min.
typ.
Unit
20
mA
10
mA
Remarks
V
VBB+5
36
V
0.8
Ω
IDS=3A
VSD
1.5
V
ISD=3A
VIL
VCC×0.25
V
VIH
VCC×0.75
V
IIL
±1
µA
IIH
±1
µA
100
Maximum Clock Frequency
Fclock
PFD Input Current
IPFD
±10
RC Terminal Inflow Current
IRC
200
PFD Input Voltage
max.
Excluding Ena
kHz
µA
µA
VPFDS
1.7
VCC
V
Slow Decay
VPFDM
0.7
1.3
V
Mixed Decay
0.3
V
Fast Decay
V
Steady-state
VPFDF
Sense Voltage
VRs
REF Input Voltage
VREF
REF Input Current
IREF
±10
PWM OFF Time
TOFF
1.1×Rt×Ct
µs
Thermal Protection Circuit Activation Temperature
Tj
150
°C
Hysteresis of Thermal Protection
Circuit Activation Temperature
∆Tj
10
°C
TONC
2.5
µs
Clock→Out
TOFFC
2
µs
Clock→Out
Switching Time
112
ICs
VREF×0.2
VCC
0
V
µA
SLA7611M
■Internal Block Diagram
■Pin Assignment (Function Table)
CP1
CP2
16
VCC
3
TSD
UVLO
Reg
15
Pin No.
Symbol
VB
VBB
1
Sense
Current sense
18
9
2
Out U
Phase U output
3
VCC
Logic supply
4
RC
PWM OFF time setting
5
PFD
Mixed Decay ratio setting
6
REF
Control current setting
7
Reset
8
Ena
Output Enable/Disable control
9
VBB
Main supply (motor supply)
10
GND
Device GND
11
Out V
Phase V output
12
CW/CCW
13
Clock
14
Full/Half
15
CP2
Charge pump capacitor 2
10
16
CP1
Charge pump capacitor 1
GND
17
18
Out W
VB
Charge Pump
OUT Block
2
Clock 13
CW/CCW 12
F/H
Sequence
14
Logic
Ena
8
Reset
7
OUTU
Level
shift
&
Pri-Driver
11
OUTV
17
OUTW
1
Current
Control
PWM
Control
6
REF
5
S
+
_
4
PFD
RC
Function
Internal logic reset
Forward/reverse control
Step Clock
Full/half step control
Phase W output
Boost charge pump
■Typical Connection Diagram
C2
C1
16
5V
3
CB
+
18
15
VCC CP1
10 to 30V
CP2
+
9
CA
C5
VBB
VB
C4 C3
13
12
Microcomputer,
etc.
14
8
7
R4
OUTU
11
CW/CCW
6
3φ SPM
OUTV
SLA7611M
F/H
Ena
17
OUTW
Reset
S
R2
2
Clock
REF
PFD
RC
5
1
GND
4
10
Rs
Ct
R1
R5
Rt
R3
S-GND
P-GND
■External Dimensions (ZIP18 with Fin [SLA18Pin])
Part Number
Lot number
4.8 ±0.2
1.7±0.1
2.45±0.2
+1
(3)
R-End
9.7 –0.5
9.9 ±0.2
16 ±0.2
13 ±0.2
φ 3.2±0.15×3.8
6.7±0.5
31±0.2
24.4±0.2
16.4±0.2
φ 3.2±0.15
(Unit : mm)
+0.2
+0.2
0.65 –0.1
+0.2
1 –0.1
0.55 –0.1
4±0.7
17×P1.68±0.4=28.56±1
31.3±0.2
Other lead forming shapes are also available.
For details, contact our sales representative.
1 2 3 . . . . . . . . 18
Forming No.
No.871
Product Mass : Approx.6g
ICs
113
1-2-3 5-Phase Stepper Motor Driver ICs
SI-7510 New Pentagon Connection
■Absolute Maximum Ratings
Symbol
Ratings
Unit
Main Supply Voltage
Parameter
VCC1
44
V
Logic Supply Voltage
VCC2
7
V
VIN
–0.3 to VCC2
V
Logic Input Voltage
REF Input Voltage
SENCE Input Voltage
Charge Pump Output Voltage
VREF
–0.3 to VCC2
V
VSENCE
2
V
VMC3
48
V
Power Dissipation
PD
1.6
W
Operating Ambient Temperature
Ta
–10 to 80
°C
Storage Temperature
Tstg
–20 to 150
°C
Junction Temperature
Tj
150
°C
Remarks
Except when tw<1µs
■Recommended Operating Ranges
Symbol
Operating Ranges
Unit
Main Supply Voltage
Parameter
VCC1
10 to 42*
V
Logic Supply Voltage
VCC2
3 to 5.5
V
REF Input Voltage
VREF
0.1 to 1
V
*: Insert a 5V Zener diode between VCC1 and VMC3 when using with VCC1 of 35 V or more.
■Electrical Characteristics
Parameter
(Ta=25°C, Vcc1=24V, VCC2=5V, unless otherwise specified)
Ratings
Symbol
min.
typ.
Unit
Main Supply Current
ICC1
25
mA
Logic Supply Current
ICC2
10
mA
VIL
1.25
V
Logic Input Voltage
Conditions
max.
VIH
3.75
IIL
–20
20
µA
VIL=0V
IIH
–20
20
µA
VIH=5.5V
ENA Input Current
IENA
–100
20
µA
VENA=0V
REF Input Current
IREF
–20
20
µA
VREF=0 to 5.5V
SENCE Voltage
VSENCE
V
VREF=1V
SENCE Current
ISENCE
20
µA
VSENCE=0V, 2V
1
V
IMOL=1mA
V
IMOH=–1mA
Logic Input Current
MO Output Voltage
RC Pin Threshold Voltage
V
1
–20
VMOL
VMOH
4
VRCL
0.5
V
VRCH
1.5
V
RC Pin Outflow Current
IRC
300
µA
Charge Pump Output Voltage
VMC3
VCC1+9
V
High Side Output Voltage
VHGSL
(between gate sources)
VHGSH
Low Side Output Voltage
1
8.5
VLGL
7.5
V
V
Maximum CL Frequency
fck
Maximum Input CL Width (on)
TCON
Power-on Reset time
PTW
1.5
µs
Output Delay Time
TIO
2
µs
CW/CCW, F/H
Input Data Setup Time
CW/CCW, F/H
Input Data Hold Time
114
ICs
100
Without Zener diode
V
1
VLGH
V
VRC=0V
KHz
1
µs
TICS
500
µs
TICH
500
µs
Against CL ↑
SI-7510
■Internal Block Diagram
■Pin Assignment and Function Table
VCC1
VCC2
Oscillator
MC2 MC3 MC1
Charge Pump
OHGA
OHSA
OHGB
OHSB
OHGC
OHSC
OHGD
OHSD
OHGE
OHSE
Enable
MO
Highside Drive
CL
Sequencer
F/H
CW/CCW
OLA
OLB
OLC
OLD
OLE
Lowside Drive
Reset
RC
PWM
Control
Ref
Sense
Gnd
■Typical Connection Diagram
C2
C1
24V
5V
VCC2
MC1
6
MC2 MC3
1
3
4
30
29
28
27
26
25
24
23
22
21
R3
5
MO
7
CL
8
F/H
9
Logic Signal
Input and Output
CW/CCW
Reset
SI-7510
Enable
10
11
C4
R1Ref
4 5 10 15
3
9
1
7
14 SLA5073 8
12
13
2
6
11
OHGA
OHSA
OHGB
OHSB
OHGC
OHSC
OHGD
OHSD
OHGE
OHSE
20
19
18
OLA
OLB
OLC
4
3
9
7
13
12
15
RC
Ct
tOFF=1.1*Rt*Ct
5-phase SPM
New Pentagon
R2
C3
IO=VRS/RS
IOM=Io/2
*IOM : Motor Coil Current
VCC1
2
17
16
OLD
OLE
14
Sense
Pins 11 to 15: NC
SLA5074
R1=510Ω
R2=100Ω(VR)
R3=20KΩ
RS=0.33Ω(1 to 2W)
Rt=15 to 75KΩ
Ct=420 to 1100pF
C1=2200pF
C2=0.01µF
C3=0.1µF
C4=0.01µF
10
2
6
Gnd
5
8
1
Io
Rs
Rt
10
15
20
25
30
35
40
45
50
55
60
65
MC1
Capacitor Connection Terminal for Charge Pump (for MC2)
Function
2
MC3
Capacitor Connection Terminal for Charge Pump (for Gnd)
3
MC2
Capacitor Connection Terminal for Charge Pump (for MC1)
4
VCC1
Main Supply Voltage Input
5
Enable
6
VCC2
Logic Voltage Input
7
MO
Monitor to Detect Motor Position
8
CL
Clock
9
F/H
4-phase, 4-5 phase switching
10
CW/CCW
11
Reset
12
RC
RC Connection for Chopping Off Time Setting
13
Ref
Reference Voltage Input for Motor Current Setting
14
Sense
15
Gnd
16
VOLE
Low Side MOSFET Gate Connection Pin (E-phase)
17
VOLD
Low Side MOSFET Gate Connection Pin (D-phase)
18
VOLC
Low Side MOSFET Gate Connection Pin (C-phase)
19
VOLB
Low Side MOSFET Gate Connection Pin (B-phase)
20
VOLA
Low Side MOSFET Gate Connection Pin (A-phase)
21
VOHSE
High Side MOSFET Source Connection Pin (E-phase)
22
VOHGE
High Side MOSFET Gate Connection Pin (E-phase)
23
VOHSD
High Side MOSFET Source Connection Pin (D-phase)
24
VOHGD
High Side MOSFET Gate Connection Pin (D-phase)
25
VOHSC
High Side MOSFET Source Connection Pin (C-phase)
26
VOHGC
High Side MOSFET Gate Connection Pin (C-phase)
27
VOHSB
High Side MOSFET Source Connection Pin (B-phase)
28
VOHGB
High Side MOSFET Gate Connection Pin (B-phase)
29
VOHSA
High Side MOSFET Source Connection Pin (A-phase)
30
VOHGA
High Side MOSFET Gate Connection Terminal (A-phase)
Output OFF
Switching Between Forward and Backward Rotation
Reset
For Motor Current Detection
Gnd
Pin Name
Low Level
High Level
Positive Edge
Clock
■Input and Output Timing Chart
5
Symbol
1
■Truth Table
*Be especially careful of noise on the Vcc line. The product may malfunction if noise on the Vcc line is 0.5 V or more.
0
Pin No.
70
CW/CCW
Forward Rotation (CW)
Backward Rotation (CCW)
Full/Half
4-phase excitation
4-5 phase excitation
Enable
Disable
Enable
Reset
Enable
Reset
75
CL
■External Dimensions (DIP30)
Reset
Enable
(Unit : mm)
CW/CCW
F/H
8.8±0.2
OHA
OHB
OHC
OHD
OHE
OLA
OLB
OLC
OLD
OLE
MO
Reset
75
CW, Full
80
85
CCW, Full
90
95
100
CCW, Half
105
CW, Half
28.2±0.3
110
CL
CW/CCW
F/H
+ 0.3
1.0 – 0.06
4.3±0.3
3.61±0.1
Enable
7.1±0.5
Reset
10.16
* Condition to Switch Input Signals
OHA
OHB
OHC
CL
0.1
0.25 –+0.0
5
OHD
OHE
OLB
F/H
1.778
OLC
The range to Prohibit Switching
The range to
Prohibit Switching
500ns
500ns
Switchable Range
OLD
OLE
MO
2.8±0.2
CW/CCW
OLA
0° to 15°
1.654 TYP
0.46±0.1
CW, Half
CCW,Full
Disable
Disable
Reset
Product Mass : Approx.2g
ICs
115
1-2-4 Brush DC Motor Driver ICs
STA6940M
■Features
■Absolute Maximum Ratings
• Output current: 4A (peak: 8A)
Parameter
Driver Supply Voltage
Logic Supply Voltage
Output Current
Logic Input Voltage
PWM REF Input Voltage
OCP REF Input Voltage
Sense Voltage
• Power supply voltage: VBB = 10 to 40V
• Logic supply voltage: VDD = 3.0 to 5.5V
• Built-in UVLO, OCP, and TSD protection
• Built-in diag output function
• STA 18-pin package
Symbol
VBB
VDD
Io
VIN
VPREF
VOREF
VRS
Ratings
44
6
8
–0.3 to VDD+0.3
–0.3 to VDD+0.3
–0.3 to VDD+0.3
–1 to 2
2.7
3.0
3.2
150
–20 to 85
–30 to 150
PD
Power Dissipation
Junction Temperature
Operating Ambient Temperature
Storage Temperature
Tj
Ta
Tstg
Unit
V
V
A
V
V
V
V
W
W
W
°C
°C
°C
Conditions
100µs or less
DC control (Ta = 25°C)
PWM control (Ta = 25°C) at Slow Decay
PWM control (Ta = 25°C) at Fast Decay
*: Output current value may be limited, depending on the duty ratio, ambient temperature, and heating
conditions. Do not exceed junction temperature of Tj under any circumstances.
■Recommended Operating Conditions
Parameter
Main Supply Voltage
Output Current
Logic Supply Voltage
PWM REF Input Voltage
OCP REF Input Voltage
Case Temperature
Ratings
Symbol
min.
10
VBB
Io
VDD
VPREF
VOREF
Tc
Unit
max.
40
4.0
5.5
1
2
85
3.0
V
A
V
V
V
°C
■Electrical Characteristics
Parameter
Main Supply Current
Logic Supply Current
Charge Pump Voltage
Charge Pump Oscillation Frequency
Low Driver Supply Voltage Protection Voltage
Low Logic Supply Voltage Protection Voltage
Low Charge Pump Voltage Protection Voltage
Output MOSFET Breakdown Voltage
Output MOSFET ON Resistance
Output MOSFET Diode Forward Voltage
Logic Input Voltage
Logic Input Current
Maximum Logic Input Clock Frequency
PWM REF Input Voltage
PWM REF Input Current
OCP REF Input Voltage
OCP REF Input Current
Symbol
IBB
IDD
Vcp
Fcp
VUVBL
VUVBH
VUVDL
VUVDH
VUVCL
VUVCH
V(BR)DS
RDS(ON)
VF
VLIL
VLIH
ILIL
ILIH
fclk
VPREF
IPREF
VOREF
IOREF
VPSEN
Overcurrent Sense Voltage
VOSEN
Diag Output Current
Diag Output Frequency
PWM Minimum ON Time
PWM OFF Time
OCP Minimum ON Time
OCP OFF Time
Crossover Current Delay Time
Switching Time
Thermal Protection Activation Temperature
Thermal Protection Deactivation Temperature
116
ICs
When operating current control
When operating overcurrent control
Rear center (without Fin)
(VDD=5V, VBB=24V, Ta=25°C, unless otherwise specified)
PWM Sense Voltage
Sense Input Current
Diag Output Voltage
Conditions
ISENSE
VLOL
VLOH
ILOL
ILOH
fDIAG
tpon(min)
tPOFF
toon(min)
tOOFF
tCOCD
tcon
tcoff
Ttsdon
Ttsdoff
min.
Ratings
typ.
max.
20
5
VBB+5
360
7
7.8
2.3
2.5
3.8
4
60
0.1
0.95
0.13
2.1
0.25VDD
0.75VDD
±1
±1
100
0.1
VPREF
–0.045
VOREF
–0.045
kHz
V
V
µA
VPREF
+0.015
VOREF
+0.015
VBB=10V to 40V
against VBB
ID=250µA
ID=4.0A
IF=4.0A
duty=50%
When controlling the current
VREF=0 to VDD
When controlling the current
VREF=0 to VDD
V
V
µA
1.25
VDD–1.25
1.25
–1.25
90
5
35
5
142
V
V
mA
mA
kHz
µs
µs
µs
µs
750
3
2.7
140
115
V
V
V
µA
2
150
Ω
In operation
µA
±10
±10
VPREF
–0.015
VOREF
–0.015
±20
mA
mA
V
kHz
V
V
V
V
V
V
V
µA
1
0.1
Concitions
Unit
ILOL=1.25mA
ILOL=–1.25mA
VLOL=1.25V
VLOH=VDD-1.25
During PWM operation
During OCP operation
ns
µs
µs
°C
°C
IN→Out ON
IN→Out OFF
Temperature of rear of package (at saturation)
STA6940M
■Internal Block Diagram
CP1
VDD
7
13
■Pin Assignment
CP2
12
CP
14
Pin No.
1
2,3
4
5
6
7
8
9
10
11
12
13
14
15
16,17
18
VBB VBB
1
18
MIC
Charge
Pump
Reg
UVLO
IN1
IN2
Diag
PWM_REF
OCP_REF
2
6
Logic Block
Pre_Driver
9
OA
16
17
11
8
OA
3
5
OB
OB
Symbol
VBB
OA
Sense 1
IN1
IN2
VDD
PWM_REF
OCP_REF
Gnd
Diag
CP2
CP1
CP
Sense 2
OB
VBB
Function
Main supply
Output terminal A
Constant current sense terminal
Output setting terminal
Logic supply
Constant current setting input terminal
Overcurrent setting input terminal
Device Gnd
Monitor terminal
Capacitor connection terminal for
charge pump
Overcurrent sense terminal
Output terminal B
Driver supply
Comp
Comp
OSC
PWM
&
OCP
Control
Reg
15
10
GND
4
Sense2
Sense1
■Typical Connection Diagram
■External Dimensions (ZIP18 [STA18Pin])
4±0.2
25.25±0.3
(1)
3.3±0.5
Type No
(9±0.2)
Lot No
1.3±0.1
(6.9)
(Measured at the root)
R-end
17xP1.27±0.5=21.59±1
(Measured at the tip)
C1.5±0.5
(3.6)
0.55 +0.2
–0.1
)
R1
(4-
0.45 +0.2
–0.1
2.54±0.5
(Measured at the tip)
25.55
(Including the resin burr)
Forming No. No.434
ICs
117
1-2-5 Low Voltage 3-Phase Brushless Motor Driver ICs
SPI-6631M
■Features
■Absolute Maximum Ratings
• Power supply voltages, VBB: 13 V to 33 V
Parameter
Main Supply Voltage
MOSFET Output Breakdown Voltage
Output Current
Input Voltage
S Terminal Voltage
Alarm Terminal Voltage
Alarm Input Current
Power Dissipation
Junction Temperature
Storage Temperature
Operating Ambient Temperature
• Signal power supply configuration
• Output current Iout: 3 A (max)... repetitive
current (normal-operation current)
• Built-in current recirculation diode
• Built-in UVLO, TSD and OCP protection
• Built-in dead time function that prevents
through current upon phase switching
• Built-in error sense flag output
• HSOP16-pin package
Symbol
VBB
VDSS
Iout
VIN
Vsen
Valarm
Ialarm
PD
Tj
Tstg
Ta
Ratings
35
35
±3
–0.3 to 6.5
–2 to 2
6.5
1
2.67
150
–30 to 150
–20 to 85
Unit
V
V
A
V
V
V
mA
W
°C
°C
°C
Conditions
DutyCycle=100%*
When using a Sanken evaluation board
*: Output current value may be limited, depending on the duty ratio, ambient temperature, and heating
conditions. Do not exceed the rated current or maximum junction temperature (Tj = 150°C).
■Electrical Characteristics
Parameter
Main Supply Voltage
Main Supply Current
Maximum Clock Pulse Width
Input Voltage
Input Current
Crossover Dead Time
VB Terminal Breakdown Voltage
VB-OUT Breakdown Voltage
VB Terminal Current
Output Leakage Current
MOSFET ON Resistance
MOSFET Diode Forward Voltage
Overcurrent Sense Current
Overcurrent Protection Blank Time
Overcurrent Protection Delay Time
Thermal Protection Operation Temperature
Thermal Protection Hysteresis
Low Voltage Protection Operation Voltage
Low Voltage Protection Hysteresis
Alarm Output Voltage
118
ICs
(Ta=25°C, VBB=24V, unless otherwise specified)
Symbol
VBB
IBB
tw
VIL
VIH
IIL
IIH
Tdelay
VB
VB-OUT
IB
IDSS
RDS(ON)
VSD
IOCP
tblank
tocp
TJ
∆TJ
UVLO
∆UVLO
VAlarm
min.
13
–
–
–
2.0
–
–
100
–
–
–
–
–800
–
–
7
0.7
0.5
–
–
4.0
0.4
–
Ratings
typ.
–
–
–
–
–
±8
±20
500
VBB+5
5
–
–
–
0.4
–
–
1.2
1
170
15
4.5
0.45
–
max.
33
23
3
0.8
–
–
–
1200
–
–
3
800
–
0.7
2.2
–
4
2.2
–
–
5.0
0.5
0.5
Conditions
Unit
V
mA
µs
V
V
µA
µA
ns
V
V
mA
µA
µA
Ω
V
A
µs
ms
°C
°C
V
V
V
In operation
VIN(0), VIN=0.8V
VIN(1), VIN=2.0V
Breakdown voltage between VB and GND
VB-OUT=5V
VOUT=VBB=35V
VOUT=0V
IOUT=-1A, Between VBB and OUT IOUT=1A, Between OUT and S
ISD=1A
Short between Out and Out
VBB voltage
I=1mA
SPI-6631M
■Internal Block Diagram
■Pin Assignment
Pin No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
Symbol
CP2
CP1
OUTU
S
OUTV
OUTW
Alarm
GND
INLW
INHW
INLV
INHV
VBB
INLU
INHU
VB
Function
Capacitor terminal for charge pump 2
Capacitor terminal for charge pump 1
DMOSFET phase U output
Sense terminal (lower arm source output)
DMOSFET phase V output
DMOSFET phase W output
Alarm output
Ground
Phase W lower arm input
Phase W upper arm input
Phase V lower arm input
Phase V upper arm input
Driver supply terminal
Phase U lower arm input
Phase U upper arm input
Capacitor terminal for charging up charge pump
■External Dimensions (HSOP16)
(Unit : mm)
12.20 ± 0.20
(Gate remains: Not included in dimensions)
1
8
7.50 ± 0.20
9
4.30
16
10.50 ± 0.30
7.70
+0.15
1.27
0.4 –0.05
12.00 ± 0.05
(Cavity)
2.50 ± 0.05
2.75MAX
+0.15
0.25 –0.05
Product Mass : Approx.0.56g
ICs
119
1-2-6 High Voltage 3-Phase Brushless Motor Driver ICs
SX68000M Series Surface-Mount, Built-in Overcurrent Protection, Thermal Shutdown, and Overcurrent Limiting Circuits
■Features
■Absolute Maximum Ratings
• A package of 6 MOSFET units for 3-phase
bridge and pre-drive (HVIC, LVIC)
Parameter
• Best for driving the fan motor (built-in motor)
of air conditioner, etc.
Symbol
SX68001M
250
20
20
2.0
3.0
–0.5 to +7
3
15
41.7
–20 to +100
+150
–40 to +150
MOSFET Output Breakdown Voltage VDSS
Control Supply Voltage
VCC
Control Supply Voltage (Bootstrap)
VBS
Output Current (continuous)
Io
Output Current (pulse)
Iop
Input Voltage
VIN
Power Dissipation*1
PD
Thermal Resistance (Junction to Case)
θj-c
Thermal Resistance (Junction to Ambient Air)
θj-a
Operating Case Temperature
Top
Junction Temperature (Power part)
Tch
Storage Temperature
Tstg
• Built-in boot diode with limited resistance
• Built-in undervoltage lock out (UVLO) circuit
• Built-in overcurrent protection circuit (OCP)
• Built-in Thermal Shut Down (TSD) function
• Built-in current limiter function (OCL)
• Error (FO) terminal with shutdown input
function
• 7.5V regulator output function (35mA max.)
(Ta=25°C)
Ratings
SX68002M
500
20
20
1.5
2.25
–0.5 to +7
3
15
41.7
–20 to +100
+150
–40 to +150
SX68003M
500
20
20
2.5
3.75
–0.5 to +7
3
15
41.7
–20 to +100
+150
–40 to +150
Unit
V
V
V
A
A
V
W
°C/W
°C/W
°C
°C
°C
Conditions
Vcc=15V,VIN=0V
Between VCC and COM
Between VB and HS (U, V, W)
PW≤100µs, duty=1%
Ta=25℃
All element operation
All element operation
*1: When mounted on a board (1.6 mm, 35µm copper layer, CEM-3, moldless, natural air cooling)
■Recommended Operating Conditions
Parameter
Main Supply Voltage
Control Supply Voltage
Input Signal Dead Time
Minimum Input Pulse Width
Junction Temperature
Symbol
min.
–
13.5
1.5
0.5
–
VBB
Vcc
tdead
tw
Tj
SX68001M
typ.
150
–
–
–
–
max.
200
16.5
–
–
125
min.
–
13.5
1.5
0.5
–
Ratings
SX68002M
typ.
300
–
–
–
–
max.
400
16.5
–
–
125
min.
–
13.5
1.5
0.5
–
SX68003M
typ.
300
–
–
–
–
Unit
max.
400
16.5
–
–
125
V
V
µs
µs
°C
Condotions
Between VBB and LS
Between VCC and COM
■Electrical Characteristics
(Ta=25°C)
Regulator Output Voltage
MOSFET Output Breakdown Voltage
Icc
Ibs
VIH
VIL
VH
IIH
VUVHL
VUVHH
VUVLL
VUVLH
VFOL
VFOH
VOCLL
VOCLH
VLIM
VTRIP
tp
tbk(ocp)
tbk(ocl)
TDH
TDL
TDhys
VREG
VDSS
min.
–
–
–
1.0
–
–
9.0
9.5
10.0
10.5
–
4.8
–
4.5
0.6175
0.9
20
–
–
135
105
–
6.75
250
SX68001M
typ.
4.6
140
2.0
1.5
0.5
230
–
–
–
–
–
–
–
–
0.65
1.0
25
2
3.3
150
120
30
7.5
–
max.
7.4
280
2.5
–
–
500
11.0
11.5
12.0
12.5
0.5
–
0.5
5.5
0.6825
1.1
–
–
–
165
135
–
8.25
–
min.
–
–
–
1.0
–
–
9.0
9.5
10.0
10.5
–
4.8
–
4.5
0.6175
0.9
20
–
–
135
105
–
6.75
500
Ratings
SX68002M
typ.
4.6
140
2.0
1.5
0.5
230
–
–
–
–
–
–
–
–
0.65
1.0
25
2
3.3
150
120
30
7.5
–
MOSFET Output Leakage Current
IDSS
–
–
100
–
–
MOSFET DC ON Resistance RDS(ON)
–
1.25
1.5
–
Diode Forward Voltage
VSD
–
1.1
1.5
–
Boot Diode Leakage Current
Boot Diode Forward Voltage
Boot Diode Reverse Recovery Time
Boot Diode Series Resistance
IIB
VFB
trr
RB
td(on)
tr
trr
td(off)
tf
td(on)
tr
trr
td(off)
tf
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
1.0
70
60
800
45
75
720
40
750
55
70
660
20
10
1.3
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Parameter
Control Supply Current
Boot Supply Current
Input Voltage
Input Voltage Hysteresis Width
Input Current
Undervoltage Lock Out
(high side)
Undervoltage Lock Out
(low side)
FO Terminal Output
Voltage
OCL Output Voltage
Current Limiter Reference Voltage
Overcurrent Protection Trip Voltage
Overcurrent Protection Retention Time
OCP Blanking Time
SD Terminal Blanking Time
Thermal Protection and
Release Threshold
High Side Switching Time
Low Side Switching Time
120
ICs
Symbol
4.5
0.6175
0.9
20
–
–
135
105
–
6.75
500
SX68003M
typ.
4.6
140
2.0
1.5
0.5
230
–
–
–
–
–
–
–
–
0.65
1.0
25
2
3.3
150
120
30
7.5
–
max.
7.4
280
2.5
–
–
500
11.0
11.5
12.0
12.5
0.5
–
0.5
5.5
0.6825
1.1
–
–
–
165
135
–
8.25
–
100
–
–
100
µA
3.2
4.0
–
2.0
2.4
Ω
1.0
1.5
–
1.0
1.5
V
–
1.0
70
60
810
60
120
815
40
760
60
110
750
30
10
1.3
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
1.0
70
60
940
100
135
975
45
900
105
135
905
35
10
1.3
–
–
–
–
–
–
–
–
–
–
–
–
µA
V
ns
Ω
max.
7.4
280
2.5
–
–
500
11.0
11.5
12.0
12.5
0.5
–
0.5
5.5
0.6825
1.1
–
–
–
165
135
–
8.25
–
min.
–
–
–
1.0
–
–
9.0
9.5
10.0
10.5
–
4.8
Unit
mA
µA
V
V
µA
Condotions
Vcc1,2=15V
VB・HS=15V
Vcc=15V, Output:ON
Vcc=15V, Output:OFF
Vcc=15V
Vcc=15V, VIN=5V
V
Vcc=15V
V
V
Vcc=15V, VFO=5V, RFO=10kΩ
V
Vcc=15V
V
V
µs
µs
µs
Vcc=15V
Vcc=15V
Vcc=15V
Vcc=15V
Vcc=15V
°C
Vcc=15V
V
V
IREG=35mA
Vcc=15V, ID=100µA, VIN=0V
Vcc=15V, VDS=500V(250 V forSX68001M),
VIN=0V
Vcc=15V, ID=1A(0.75 A for SX68002M or
1.25 A for SX68003M), VIN=5V
Vcc=15V, ISD=1A(0.75 A for SX68002M or
1.25 A for SX68003M), VIN=0V
VR=500V(250 V for SX68001M)
IF=0.15A
IF/IRP=100mA/100mA
ns
V DC =300V(150V for SX68001M),
Vcc=15V, ID=1A(0.75 A for SX68002M
or 1.25 A for SX68003M), HIN=0 to 5V,
Inductive load
ns
SX68000M Series
■Internal Block Diagram
VB1
VB2
VB32
VB31
VCC1
VBB1
VBB2
UVLO
HIN1
HIN2
HIN3
UVLO
Input
Logic
UVLO
UVLO
High Side
Level Shift Drive
W1
W2
V
COM1
SD
V1
V2
VCC2
U
UVLO
REG
REG
LIN1
Input Logic
(OCP reset)
LIN2
LIN3
Low Side Driver
COM2
Thermal
Shutdown
OCP
OCP & OCL
FO
LS
OCL
■Typical Connection Diagram
VB1
VB2
VB32
VB31
15V
VCC1
VBB1
VBB2
UVLO
UVLO
UVLO
UVLO
Control IC
HIN1
HIN2
Input
Logic
HIN3
High Side
Level Shift Drive
W1
W2
V
V1
V2
U
COM1
SD
VCC2
REG
REG
LIN1
LIN2
LIN3
5V
BLDCM
UVLO
Input Logic
(OCP reset)
Low Side Driver
COM2
Thermal
Shutdown
FO
OCP
LS
OCP & OCL
OCL
■External Dimensions (SOP27)
(Unit : mm)
22± 0.2
(Including the resin burr)
0.25 +0.15
–0.05
0.4 +0.15
–0.05
1
14.1± 0.3
27
11.4± 0.2
(Excluding the resin burr)
18
17
1.2±0.2
2.1± 0.2
1.05±0.2
Product Mass : Approx.3.9g
ICs
121
1-2-6 High Voltage 3-Phase Brushless Motor Driver ICs
SMA/SLA6820MP Series Built-in Thermal Sensor and 7.5 V Regulator
■Features
■Absolute Maximum Ratings
• A package of 6 MOSFET units for 3-phase
bridge, pre-drive (HVIC, LVIC) and boot diode
Parameter
Symbol
MOSFET Output Withstand Voltage
• Best for fan motor inverter control
• High side drive of bootstrap method has been
employed.
(Ta=25°C)
Ratings
SMA6821MP/SLA6826M SMA6822MP/SLA6827M SMA6823MP/SLA6828M
Unit
Conditions
VDSS
250
500
500
V
Control Supply Voltage
Vcc
20
20
20
V
Vcc=15V,VIN=0V
Between VCC and COM
Control Supply Voltage (Bootstrap)
VBS
20
20
20
V
Between VB and HS (U, V, W)
Output Current (continuous)
Io
2.0
1.5
2.5
A
Output Current (pulse)
Iop
3
2.25
3.75
A
IREG
35
35
35
mA
PW 100µs, duty=1%
• Built-in undervoltage lock out (auto regression)
Regulator Output Current
• Built-in Thermal detection circuit (no stopping)
Input Voltage
VIN
–0.5 to +7
–0.5 to +7
–0.5 to +7
V
Power Dissipation
PD
28/32.8
28/32.8
28/32.8
W
• Built-in fail signal output function (for when the
overheat detection circuit and UVLO)
Thermal Resistance (Junction to Case)
θ j–c
4.46/3.8
4.46/3.8
4.46/3.8
C°/W
When all elements operating
Thermal Resistance (Junction to Ambient Air)
θ j–a
31.25/–
31.25/–
31.25/–
C°/W
When all elements operating
Operating Case Temperature
Top
–20 to +100
–20 to +100
–20 to +100
C°
• Built-in 7.5 V regulator output (35 mA, max.)
Junction Temperature (Power part)
Tch
+150
+150
+150
C°
Storage Temperature
Tstg
–40 to +150
–40 to +150
–40 to +150
C°
Tc=25°C
■Recommended Operating Conditions
Ratings
Parameter
Symbol
SMA6821MP/SLA6826M
min.
typ.
SMA6822MP/SLA6827M
max.
min.
typ.
max.
SMA6823MP/SLA6828M
min.
typ.
Unit
Conditions
max.
Main Supply Voltage
VBB
–
150
200
–
300
400
–
300
400
V
Between VBB and LS
Control Supply Voltage
Vcc
13.5
–
16.5
13.5
–
16.5
13.5
–
16.5
V
Between VCC and COM
Input Signal Dead Time
tdead
1.5
–
–
1.5
–
–
1.5
–
–
µs
Minimum Input Pulse Width
tw
0.5
–
–
0.5
–
–
0.5
–
–
µs
Junction Temperatur
Tj
–
–
125
–
–
125
–
–
125
°C
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Symbol
SMA6821MP/SLA6826M
min.
Control Supply Current
Input Voltage
Input Voltage Hysteresis Width
Input Current
Undevoltage Lock Out
(high side)
Undevoltage Lock Out
(low side)
typ.
SMA6822MP/SLA6827M
max.
min.
typ.
SMA6823MP/SLA6828M
max.
min.
typ.
Unit
Conditions
max.
Icc
–
4
6
–
4
6
–
4
6
VIH
–
2
2.5
–
2
2.5
–
2
2.5
VIL
1
1.5
–
1
1.5
–
1
1.5
–
VIhys
–
0.5
–
–
0.5
–
–
0.5
–
IIH
–
50
100
–
50
100
–
50
100
IIL
–
–
2
–
–
2
–
–
2
VUVHL
9.0
10.0
11.0
9.0
10.0
11.0
9.0
10.0
11.0
VUVHH
9.5
10.5
11.5
9.5
10.5
11.5
9.5
10.5
11.5
VUVhys
–
0.5
–
–
0.5
–
–
0.5
–
VUVLL
10.0
11.0
12.0
10.0
11.0
12.0
10.0
11.0
12.0
VUVLH
10.5
11.5
12.5
10.5
11.5
12.5
10.5
11.5
12.5
VUVhys
–
0.5
–
–
0.5
–
–
0.5
–
1.0
mA
V
V
µA
V
V
Vcc=15V
Vcc=15V, Output:ON
Vcc=15V, Output:OFF
Vcc=15V
Vcc=15V, VIN=5V
Vcc=15V, VIN=0V
Between VB and U (V, W)
Between VCC and COM
VFOL
0
–
1.0
0
–
1.0
0
–
VFOH
4.0
–
5.5
4.0
–
5.5
4.0
–
5.5
Overheat detection threshold
TDH
135
150
165
135
150
165
135
150
165
Overheat detection release threshold
TDL
105
120
135
105
120
135
105
120
135
Regulator output voltage
VREG
6.75
7.5
8.25
6.75
7.5
8.25
6.75
7.5
Boot Diode Forward Voltage
VFBD
–
1.1
1.3
–
1.1
1.3
–
1.1
Boot Diode Series Resistance
RBD
–
22
–
–
22
–
–
22
MOSFET Output Withstand Voltage
VDSS
250
–
–
500
–
–
500
–
–
V
Vcc=15V, ID=100µA, VIN=0V
MOSFET Output Leakage Current
IDSS
–
–
100
–
–
100
–
–
100
µA
Vcc=15V, VDS=500V (250V for SMA6821MP/SLA6826M), VIN=0V
MOSFET DC On Resistance
RDS(ON)
–
1.4
1.8
–
3.6
4.0
–
2.0
2.4
Ω
Vcc=15V, ID=1.0A (0.75A for SMA6822MP/SLA6827M,
1.25A for SMA6823MP/SLA6828M), VIN=5V
VSD
–
1.0
1.5
–
1.0
1.5
–
1.0
1.5
V
Vcc=15V, ID=1.0A (0.75A for SMA6822MP/SLA6827M,
1.25A for SMA6823MP/SLA6828M), VIN=0V
td(on)
–
450
–
–
550
–
–
640
–
tr
–
100
–
–
100
–
–
100
–
FO Pin Output Voltage
Diode Forward Voltage
High Side Switching Time
Low Side Switching Time
122
ICs
V
Vcc=15V
°C
Vcc=15V
8.25
V
IREG=35mA
1.3
V
IF=0.15A
–
Ω
trr
–
90
–
–
120
–
–
150
–
td(off)
–
350
–
–
420
–
–
520
–
tf
–
20
–
–
30
–
–
30
–
td(on)
–
550
–
–
570
–
–
650
–
tr
–
110
–
–
100
–
–
100
–
trr
–
90
–
–
120
–
–
150
–
td(off)
–
360
–
–
450
–
–
580
–
tf
–
20
–
–
30
–
–
30
–
ns
VBB=300V (150V for SMA6821M/SLA6826M),
Vcc=15V, I D =2A (1.5A for SMA6822M/
SLA6827M, 2.5A for SMA6823M/SLA6828M),
0V≤VIN≤5V
Inductive load
ns
SMA6820MP Series/SLA6820M Series
■Typical Connection Diagram
■Internal Block Diagram
1
2
4
11
10
3
5
VB1 VB2 VB3
VCC1
HO1
24
HS1
VB2
VB1
VB3
HO2
VD
9
VBB1
8
7
VCC1
VBB2
UVLO
UVLO
6
UVLO
UVLO
13
HS2
HIN2
HIN3
HO3
COM3
HS3
12
14
HVIC
HIN1
HIN2
HIN3
Input
Logic
High Side
Level Shift Driver
23
VCC2
COM1
Thermal
Detect
UVLO
MCU
7.5V
Reg.
LO1
U
V
W1
W2
VCC2
VREG
20
LIN1
19
LIN1
LIN2
LIN3
Input
Logic
M
HIN1
Low Side
Driver
18
16
LO2
17
LIN2
LIN3
LO3
VREG
15
LS2
COM2
LS1
22
FO
21
FO
COM2
LVIC
15V
The input pulldown resistor is built into an IC (about 100 kΩ). If the input
is expected to be unstable or fluctuate widely, however, it needs to be
reinforced with an external resistor.
Attach capacitors near IC. Attach a ceramic capacitor in parallel with the
electrolytic capacitor if too much noise is generated.
■External Dimensions (ZIP24 [SMA24Pin/SLA24Pin])
31±0.2
(Measured at the tip)
(Measured at the tip)
1.2±0.1
(Measured at the root)
9.5 +0.7
–0.5
(Measured at the tip)
(4.5)
R-end
(Measured at the tip)
0.6 +0.15
–0.05
0.5 +0.15
–0.05
)
(Measured at the root)
Lot No.
Part No.
5±0.5
JAPAN
(Measured at the root)
4-(
R1
Lot No.
Part No.
4±0.2
Gate burr
10.2±0.2
Gate burr
JAPAN
(Unit : mm)
23 X P1.27±0.5=29.21±0.6
(Measured at the tip)
4.5±0.5
31.3±0.2
(Measured at the tip)
(Including the resin burr)
1
3
2
Forming No.2451
5
4
7
6
9
8
11 13 15 17 19 21 23
10 12 14 16 18 20 22 24
Forming No.2452
Product Mass : Approx.3.9g
31±0.2
4.8±0.2
24.4±0.2
16.4±0.2
Gate burr
1.7±0.1
φ 3.2±0.15 X 3.8
31±0.2
φ 3.2±0.15
2
4
3
6
5
8
7
10
9
12
11
14
13
16
15
18
17
20
19
22
21
Forming No.2171
(4.4)
23xP1.27±0.2=29.21±0.5
(Measured at the tip)
0.5±0.1
+0.2
1
2.45±0.1
(Measured at the root)
4.5±0.7
(Measured at the tip)
0.6 –0.1
31.3±0.2
(Including the resin burr)
9.9±0.1
2.2±0.6
(Measured at the tip)
0.5 +0.15
–0.05
2.2±0.6
(Measured at the tip)
23 X P1.27±0.7=29.21±1
1.7±0.1
φ3.2±0.15x3.8
12.9±0.2
0.6 +0.15
–0.05
(4.5)
(10.5)
4-(R1)
R-end
φ3.2±0.15
16±0.2
2.45±0.2
(Measured at the root)
9.5 +0.7
–0.5
Lot No.
4.8±0.2
16.4±0.2
5±0.5
Part No.
16±0.2
9.9±0.2
JAPAN
12.9±0.2
24.4±0.2
3±0.3
(Measured at the tip)
24
23
Forming No.2175
Product Mass : Approx.6.2g
ICs
123
1-2-6 High Voltage 3-Phase Brushless Motor Driver ICs
SMA6850M Series
Supports 3 Shunt, Built-in Thermal Sensor and 7.5 V Regulator
■Features
■Absolute Maximum Ratings
• Built-in boot diode with limiting resistor
• Supports CMOS (3.3 and 5.0 V) input levels
• Built-in undervoltage lock out circuit
• Built-in thermal sensor (non-stop, Fo output)
Symbol
MOSFET Output Breakdown Voltage
VDSS
V
VCC=15V, ID=100uA, VIN=0V
Control Supply Voltage
VCC
20
V
Between VCC and COM
Control Supply Voltage (Bootstrap)
VBS
20
V
Between VB and HS (U, V, W)
Output Current (continuous)
• Built-in regulator output (7.5 V/35 mA)
Output Current (pulse)
• Current detection using 3 shunt resistors
(Ta=25°C)
Ratings
Parameter
SMA6853M
SMA6854M
500
Io
2.5
Iop
3.75
Unit
600
1.5
Conditions
A
2.25
A
PW≦100μs, duty=1%
Regulator Output Current
IREG
35
Input Voltage
VIN
–0.5 to +7
V
Power Dissipation
PD
28
W
Thermal Resistance (Junction to Case)
θ j-c
4.46
C°W
All elements operating
Thermal Resistance (Junction to Ambient Air)
θ j-a
31.25
C°/W
All elements operating
Operating Case Temperature
Top
–20 to +100
C°
Junction Temperature (Power part)
Storage Temperature
mA
Tj
150
C°
Tstg
–40 to +150
C°
TC=25C°
■Recommended Operating Conditions
Ratings
Parameter
Symbol
SMA6853M
min.
typ.
SMA6854M
max.
min.
typ.
Unit
Conditions
max.
Main Supply Voltage
VBB
–
300
400
–
300
450
V
Between VBB and LS
Control Supply Voltage
Vcc
13.5
–
16.5
13.5
–
16.5
V
Between VCC and COM
Minimum Input Pulse Width
Tw(min)
0.5
–
–
0.5
–
–
µs
Input Signal Dead Time
tdead
1.5
–
–
1.5
–
–
µs
Tj
–
–
125
–
–
125
°C
Junction Temperature
■Electrical Characteristics
(Ta=25°C)
Ratings
Parameter
Symbol
SMA6853M
min.
Control Supply Current
Input Voltage
Input Voltage Hysteresis Width
Input Current
Undervoltage Lock Out
Undervoltage Lock Out
typ.
SMA6854M
max.
min.
typ.
Unit
Conditions
max.
ICC
–
4
6
–
4
6
VIH
–
2.0
2.5
–
2.0
2.5
VIL
1.0
1.5
–
1.0
1.5
–
VIhys
–
0.5
–
–
0.5
–
IIH
–
50
100
–
50
100
IIL
–
–
2
–
–
2
VUVHL
9.0
10.0
11.0
9.0
10.0
11.0
VUVHH
9.5
10.5
11.5
9.5
10.5
11.5
VUVhys
–
0.5
–
–
0.5
–
VUVLL
10.0
11.0
12.0
10.0
11.0
12.0
VUVLH
10.5
11.5
12.5
10.5
11.5
12.5
VUVhys
–
0.5
–
–
0.5
–
mA
V
V
µA
VCC=15V, IREG=0A
VCC=15V, Output:ON
VCC=15V, Output:OFF
VCC=15V
VCC=15V, V IN=5V
VCC=15V, V IN=0V
Between VB and U (V, W)
V
Hysteresis
V
Between VCC and COM
Hysteresis
VFOL
0
–
1.0
0
–
1.0
VFOH
4.0
–
5.5
4.0
–
5.5
TDH
135
150
165
135
150
165
TDL
105
120
135
105
120
135
TDHYS
–
30
–
–
30
–
Regulator Output Voltage
VREG
6.75
7.5
8.25
6.75
7.5
8.25
V
IREG=35mA
Boot Diode Leakage Current
ILBD
–
–
10
–
–
10
µA
VR=500V (600V for the SMA6854M)
Boot Diode Forward Voltage
VFBD
–
1.1
1.3
–
1.1
1.3
V
IF=0.15A
Boot Diode Series Resistance
RBD
–
22
–
–
60
–
Ω
MOSFET Output Breakdown Voltage
VDSS
500
–
–
600
–
–
V
VCC=15V, I D=100uA, VIN=0V
MOSFET Output Leakage Current
IDSS
–
–
100
–
–
100
µA
VCC=15V, V DS=500V
(600V for the SMA6854M), V IN=0V
MOSFET DC On Resistance
RDS (ON)
–
2.0
2.4
–
2.8
3.5
Ω
VCC=15V, I D=1.25A
(0.75A for the SMA6854M), V IN=5V
MOSFET Diode Forward Voltage
VSD
–
1.0
1.5
–
1.0
1.5
V
VCC=15V, I SD=1.25A
(0.75A for the SMA6854M), V IN=0 V
td(on)
–
640
–
–
530
–
tr
–
100
–
–
55
–
trr
–
150
–
–
125
–
td(off)
–
520
–
–
510
–
FO Pin Output Voltage
Thermal Protection and
Release Threshold
High Side Switching Time
Low Side Switching Time
124
ICs
tf
–
30
–
–
50
–
td(on)
–
650
–
–
530
–
tr
–
100
–
–
60
–
trr
–
150
–
–
125
–
td(off)
–
580
–
–
540
–
tf
–
30
–
–
55
–
V
VCC=15V
°C
VCC=15V, No FIN
ns
VBB=300V, VCC=15V, I D=2.5A
(1.5A for the SMA6854M), V IN=0 to 5V
Inductive load
ns
SMA6850M Series
■Internal Block Diagram
VB1(1)
VB2(2)
VB3(3)
VCC1(4)
VBB1(9)
VBB2(10)
UVLO
HIN1(8)
HIN2(7)
HIN3(6)
UVLO
Input
Logic
UVLO
UVLO
High Side
Level Shift Driver
COM1(5)
U(24)
V(12)
W1(11)
W2(14)
VCC2(23)
VREG(16)
7.5V
Reg.
LIN1(20)
LIN2(19)
LIN3(18)
UVLO
Low Side
Driver
Input
Logic
COM2(21)
LS3(15)
LS2(13)
LS1(17)
Thermal
Detect
FO(22)
■Typical Connection Diagram
1
2
3
9
10
VB1 VB2 VB3
4
VCC1
HO1
24
HS1
HO2
8
7
6
5
12
HS2
HIN1
HIN2
HIN3
HO3
COM1
HS3
11
HVIC
23
M
14
VCC2
LO1
MCU
17
20
19
18
16
22
21
LIN1
LO2
13
LIN2
LIN3
LO3
VREG
15
FO
COM2
LVIC
15V
■External Dimensions (ZIP24 [SMA24Pin])
(Unit : mm)
31±0.2
Gate burr
5±0.5
1.2±0.1
(Measured at the root)
9.5 +0.7
–0.5
Lot No.
Part No.
23 X P1.27±0.5=29.21±0.6
(Measured at the tip)
31.3±0.2
(Including the resin burr)
1
3
2
5
4
7
6
9
8
R1
0.6 +0.15
–0.05
)
(4.5)
R-end
(Measured at the tip)
(Measured at the tip)
Forming No.2451
10.2±0.2
JAPAN
(Measured at the root)
4-(
(Measured at the root)
(Measured at the tip)
Lot No.
Part No.
(Measured at the tip)
JAPAN
4±0.2
Gate burr
0.5 +0.15
–0.05
4.5±0.5
(Measured at the tip)
11 13 15 17 19 21 23
10 12 14 16 18 20 22 24
Forming No.2452
Product Mass: Approx. 3.9 g
ICs
125
1-2-6 High Voltage 3-Phase Brushless Motor Driver ICs
SMA6860M Series
Built-in Overcurrent Protection, Thermal Shutdown, and Overcurrent Limiting Circuits
■Features
■Absolute Maximum Ratings
• Built-in boot diode with 210-Ω limiting resistor
Parameter
• Built-in overcurrent protection circuit (OCP)
Symbol
SMA6862M
MOSFET Output Breakdown Voltage VDSS
Control Supply Voltage (VCC) VCC
Control Supply Voltage (Bootstrap) VBS
Output Current (continuous)
Io
Output Current (pulse)
Iop
Input Voltage
VIN
Power Dissipation
PD
Thermal Resistance (Junction to Case) θj-c
Thermal Resistance (Junction to Ambient Air) θj-a
Operating Case Temperature
Tc
Junction Temperature (Power part)
Tj
Storage Temperature Tstg
• Overcurrent protection with off-time period
adjustable by an external capacitor
• Overcurrent limiting operation
• Built-in thermal shutdown (TSD) circuit
• Externally controllable shutdown operation
(Ta=25°C)
Ratings
SMA6863M
500
20
20
2.5
3.75
–0.5 to +7
28
4.46
31.25
–20 to +100
150
–40 to +150
1.5
2.25
SMA6865M
2.5
3.75
Unit
Conditions
V
V
V
A
A
V
W
℃/W
℃/W
℃
℃
℃
VCC=15V, ID=100uA, VIN=0V
Between VCC and COM
Between VB and HS (U, V, W)
PW≤100µs, duty=1%
HIN1 to HIN3, LIN1 to LIN3
TC=25℃
All elements operating
All elements operating
■Recommended Operating Conditions
Parameter
Main Supply Voltage
Control Supply Voltage
Input Signal Dead Time
Minimum Input Pulse Width
Junction Temperature
Symbol
min.
−
13.5
1.5
0.5
−
VBB
VCC
tdead
Tw
Tj
SMA6862M
typ.
300
−
−
−
−
max.
400
16.5
−
−
125
min.
−
13.5
1.5
0.5
−
Ratings
SMA6863M
typ.
300
−
−
−
−
max.
400
16.5
−
−
125
min.
−
13.5
1.5
0.5
−
SMA6865M
typ.
300
−
−
−
−
Unit
max.
400
16.5
−
−
125
V
V
µs
µs
℃
Conditions
Between VBB and LS
Between VCC and COM
Tj=–20℃ to +150℃
■Electrical Characteristics
(Ta=25°C)
min.
−
−
−
1.6
9.0
9.5
−
10.0
10.5
−
120
100
−
0.9
0.5035
−
−
−
−
−
500
−
SMA6862M
typ.
4.2
135
2.9
2.1
10.0
10.5
0.5
11.0
11.5
0.5
135
115
20
1.0
0.53
2
−
1.0
70
210
−
−
max.
7
380
3.4
−
11.0
11.5
−
12.0
12.5
−
150
130
−
1.1
0.5565
−
10
1.3
−
−
−
100
min.
−
−
−
1.6
9.0
9.5
−
10.0
10.5
−
120
100
−
0.9
0.5035
−
−
−
−
−
500
−
Ratings
SMA6863M
typ.
4.2
135
2.9
2.1
10.0
10.5
0.5
11.0
11.5
0.5
135
115
20
1.0
0.53
2
−
1.0
70
210
−
−
MOSFET DC ON Resistance RDS(ON)
−
3.6
4.0
−
2.0
2.4
−
MOSFET Diode Forward Voltage
−
1.0
1.5
−
1.0
1.5
−
1.0
1.5
−
−
−
−
−
−
−
−
−
−
720
40
110
670
20
600
40
120
555
20
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
790
60
115
725
20
680
70
120
605
20
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
750
60
100
680
20
640
65
100
560
20
−
−
−
−
−
−
−
−
−
−
Parameter
Control Supply Current
Boot Supply Current
Input Voltage
Undervoltage Lock Out
Undervoltage Lock Out
Termal Protection and
Release Threshold
Overcurrent Protection Trip Voltage
Current Limiting Reference Voltage
Overcurrent Protection Retention Time
Boot Diode Leakage Current
Boot Diode Forward Voltage
Boot Diode Reverse Recovery Time
Boot Diode Series Resistance
MOSFET Output Breakdown Voltage
MOSFET Output Leakage Current
Symbol
Icc
IB
VIH
VIL
UVHL
UVHH
UVhys
UVLL
UVLH
UVhys
TDH
TDL
TDHYS
VTRIP
VLIM
tp
ILBD
VFBD
Trrb
Rb
VDSS
IDSS
VSD
td(on)
tr
High Side Switching Time trr
td(off)
tf
td(on)
tr
Low Side Switching Time trr
td(off)
tf
126
ICs
max.
7
380
3.4
−
11.0
11.5
−
12.0
12.5
−
150
130
−
1.1
0.5565
−
10
1.3
−
−
−
100
min.
−
−
−
1.6
9.0
9.5
−
10.0
10.5
−
120
100
−
0.9
0.5035
−
−
−
−
−
500
−
SMA6865M
typ.
4.2
135
2.9
2.1
10.0
10.5
0.5
11.0
11.5
0.5
135
115
20
1.0
0.53
2
−
0.8
70
210
−
−
max.
7
380
3.4
−
11.0
11.5
−
12.0
12.5
−
150
130
−
1.1
0.5565
−
10
1.3
−
−
−
100
Unit
1.4
1.7
Ω
V
mA
uA
V
V
Conditions
Vcc=15V
VB=15V, HIN=5V,
VCC=15V
Between VB and U (V, W)
Hysteresis
V
Between VCC and COM
Hysteresis
℃
VCC=15V
V
V
ms
µA
V
ns
Ω
V
µA
VCC=15V
VCC=15V
VRC=5V, RR=360kΩ, CC=0.0047µF
VR=500V
IF=0.05A
IF/IRP=100mA/100mA
VCC=15V, ID=100uA, VIN=0V
VCC=15V, VDS=500V, VIN=0V
VCC=15V, ID=1.25A
(0.75A for the SMA6862M), VIN=5V
VCC=15V, ID=1.25A
(0.75A for the SMA6862M), VIN=0V
ns
VBB=300V, VCC=15V, ID=1.5A
(2.5A for the SMA6863M and SMA6865M),
VIN=0 to 5V
Inductive load
ns
SMA6860M Series
■Internal Block Diagram
■Typical Connection Diagram
■External Dimensions (ZIP24 [SMA24Pin])
(Unit : mm)
31±0.2
Gate burr
5±0.5
1.2±0.1
(Measured at the root)
9.5 +0.7
–0.5
Lot No.
Part No.
23 X P1.27±0.5=29.21±0.6
(Measured at the tip)
31.3±0.2
(Including the resin burr)
1
3
2
5
4
7
6
9
8
R1
0.6 +0.15
–0.05
)
(4.5)
R-end
(Measured at the tip)
(Measured at the tip)
Forming No.2451
10.2±0.2
JAPAN
(Measured at the root)
4-(
(Measured at the root)
(Measured at the tip)
Lot No.
Part No.
(Measured at the tip)
JAPAN
4±0.2
Gate burr
0.5 +0.15
–0.05
4.5±0.5
(Measured at the tip)
11 13 15 17 19 21 23
10 12 14 16 18 20 22 24
Forming No.2452
Product Mass: Approx. 3.9 g
ICs
127
1-2-6 High Voltage 3-Phase Brushless Motor Driver ICs
SLA6860M Series
Built-in Overcurrent Protection, Thermal Shutdown, and Overcurrent Limiting Circuits
■Features
■Absolute Maximum Ratings
• Built-in boot diode with 210-Ω limiting resistor
Parameter
• Built-in overcurrent protection circuit (OCP)
Symbol
SLA6866M
250
MOSFET Output Breakdown Voltage VDSS
Control Supply Voltage (VCC) VCC
Control Supply Voltage (Bootstrap) VBS
Output Current (continuous)
Io
Output Current (pulse)
Iop
Input Voltage
VIN
Power Dissipation
PD
Thermal Resistance (Junction to Case) θj-c
Operating Case Temperature
Tc
Junction Temperature (Power part)
Tj
Storage Temperature Tstg
• Overcurrent protection with off-time period
adjustable by an external capacitor
• Overcurrent limiting operation
• Built-in thermal shutdown (TSD) circuit
• Externally controllable shutdown operation
(Ta=25°C)
Ratings
SLA6868M
SLA6870M
500
20
20
2.5
3.75
–0.5 to +7
32.8
3.8
–20 to +100
150
–40 to +150
2.0
3
Unit
Conditions
V
VCC=15V, ID=100uA, VIN=0V
V
Between VCC and COM
V
Between VB and HS (U, V, W)
A
A
PW≤100µs, duty=1%
V
HIN1 to HIN3, LIN1 to LIN3
W
TC=25℃
℃/W
All elements operating
℃
℃
℃
3.0
4.5
■Recommended Operating Conditions
Parameter
Main Supply Voltage
Control Supply Voltage
Input Signal Dead Time
Minimum Input Pulse Width
Junction Temperature
Symbol
min.
−
13.5
1.5
0.5
−
VBB
VCC
tdead
Tw
Tj
SLA6866M
typ.
150
−
−
−
−
max.
200
16.5
−
−
125
min.
−
13.5
1.5
0.5
−
Ratings
SLA6868M
typ.
300
−
−
−
−
max.
400
16.5
−
−
125
min.
−
13.5
1.5
0.5
−
SLA6870M
typ.
300
−
−
−
−
Unit
max.
400
16.5
−
−
125
V
V
us
us
℃
Conditions
Between VBB and LS
Between VCC and COM
Tj=–20℃ to +150℃
■Electrical Characteristics
(Ta=25°C)
Overcurrent Protection Trip Voltage
Current Limiting Reference Voltage
Overcurrent Protection Retention Time
Boot Diode Leakage Current
Boot Diode Forward Voltage
Boot Diode Reverse Recovery Time
Boot Diode Series Resistance
MOSFET Output Breakdown Voltage
ICC
IB
VIH
VIL
UVHL
UVHH
UVhys
UVLL
UVLH
UVhys
TDH
TDL
TDHYS
VTRIP
VLIM
tp
ILBD
VFBD
Trrb
Rb
VDSS
min.
−
−
−
1.6
9.0
9.5
−
10.0
10.5
−
120
100
−
0.9
0.5035
−
−
−
−
−
250
SLA6866M
typ.
4.2
135
2.9
2.1
10.0
10.5
0.5
11.0
11.5
0.5
135
115
20
1.0
0.53
2
−
1.0
70
210
−
max.
7
380
3.4
−
11.0
11.5
−
12.0
12.5
−
150
130
−
1.1
0.5565
−
10
1.3
−
−
−
min.
−
−
−
1.6
9.0
9.5
−
10.0
10.5
−
120
100
−
0.9
0.5035
−
−
−
−
−
500
Ratings
SLA6868M
typ.
4.2
135
2.9
2.1
10.0
10.5
0.5
11.0
11.5
0.5
135
115
20
1.0
0.53
2
−
1.0
70
210
−
MOSFET Output Leakage Current
IDSS
−
−
100
−
−
100
−
−
100
µA
MOSFET DC ON Resistance RDS(ON)
−
1.25
1.5
−
2.0
2.4
−
1.4
1.7
Ω
MOSFET Diode Forward Voltage
−
1.1
1.5
−
1.0
1.5
−
1.0
1.5
V
−
−
−
−
−
−
−
−
−
−
665
20
45
580
10
520
20
40
480
15
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
790
60
115
725
20
680
70
120
605
20
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
755
65
100
680
15
645
70
105
560
20
−
−
−
−
−
−
−
−
−
−
Parameter
Control Supply Current
Boot Supply Current
Input Voltage
Undervoltage Lock Out
Undervoltage Lock Out
Thermal Protection and
Release Threshold
Symbol
VSD
td(on)
tr
High Side Switching Time trr
td(off)
tf
td(on)
tr
Low Side Switching Time trr
td(off)
tf
128
ICs
max.
7
380
3.4
−
11.0
11.5
−
12.0
12.5
−
150
130
−
1.1
0.5565
−
10
1.3
−
−
−
min.
−
−
−
1.6
9.0
9.5
−
10.0
10.5
−
120
100
−
0.9
0.5035
−
−
−
−
−
500
SLA6870M
typ.
4.2
135
2.9
2.1
10.0
10.5
0.5
11.0
11.5
0.5
135
115
20
1.0
0.53
2
−
0.8
70
210
−
max.
7
380
3.4
−
11.0
11.5
−
12.0
12.5
−
150
130
−
1.1
0.5565
−
10
1.3
−
−
−
Unit
mA
uA
V
V
Conditions
VCC=15V
VB=15V, HIN=5V,
VCC=15V
Between VB and U (V, W)
Hysteresis
V
Between VCC and COM
Hysteresis
℃
VCC=15V
V
V
ms
µA
V
ns
Ω
V
VCC=15V
VCC=15V
VRC=5V, RR=360kΩ, CC=0.0047uF
VR=500V (250V for the SMA6866M)
IF=0.05A
IF/IRP=100mA/100mA
VCC=15V, ID=100uA, VIN=0V
VCC=15V, VDS=500V
(250V for the SLA6866M), VIN=0V
VCC=15V, ID=1.0A (1.25A for the SLA6868M,
and 1.5A for the SLA6870M),V IN=5V
VCC=15V, ID=1.0A (1.25A for the SLA6868M,
and 1.5A for the SLA6870M), V IN=0V
ns
VBB=300V (150V for the SLA6866M), VCC=15V,
ID=2.0A (2.5A for the SLA6868M,
and 3.0A for the SLA6870M), VIN=0 to 5V
Inductive load
ns
SLA6860M Series
■Internal Block Diagram
■Typical Connection Diagram
■External Dimensions (ZIP24 with Fin [SLA24Pin])
(Unit : mm)
31±0.2
4.8±0.2
24.4±0.2
16.4±0.2
Gate burr
1.7±0.1
3.2±0.15 X 3.8
31±0.2
24.4±0.2
4.8±0.2
3.2±0.15
1
4
3
6
5
8
7
10
9
9.9±0.1
2.2±0.6
(Measured at the tip)
16±0.2
12.9±0.2
0.5±0.1
23xP1.27±0.2=29.21±0.5
2.2±0.6
+0.2
0.6 –0.1
(Measured at the tip)
4.5±0.7
(Measured at the tip)
(Measured at the tip)
2
2.45±0.1
(Measured at the root)
0.5 +0.15
–0.05
(4.4)
31.3±0.2
(Including the resin burr)
(4.5)
(10.5)
0.6 +0.15
–0.05
23 X P1.27±0.7=29.21±1
R-end
1.7±0.1
φ3.2±0.15x3.8
2.45±0.2
(Measured at the root)
4-(R1)
9.5 +0.7
–0.5
16±0.2
φ3.2±0.15
5±0.5
Lot No.
9.9±0.2
Part No.
12.9±0.2
16.4±0.2
JAPAN
3±0.3
(Measured at the tip)
12 14 16 18 20 22 24
11 13 15 17 19 21 23
Forming No.2171
Forming No.2175
Product Mass: Approx. 6.2 g
ICs
129
1-2-6 High Voltage 3-Phase Brushless Motor Driver ICs
SLA6805MP
IGBT Output Element, Built-in Overcurrent Protection Circuit
■Features
• A package including 6 units each of IGBT and
FRD for 3-phase bridge, and pre-drive (HVIC,
LVIC)
• Best for driving a refrigerator compressors and
dishwashing driers
• High side drive of bootstrap method has been
employed.
• Built-in undervoltage lock out (auto regression)
• Built-in overcurrent protection circuit
• Built-in fail signal output function (for when the
overcurrent protection circuit activates)
■Absolute Maximum Ratings
Parameter
(Ta=25°C)
Symbol
Ratings
IGBT Output Voltage
VCES
600
V
Vcc=15V, VIN=0V
Control Supply Voltage
Vcc
20
V
Between VCC and COM
Control Supply Voltage (bootstrap)
VBS
20
V
Between VB and HS (U, V, W)
Io
3
A
Output Current (continuous)
Unit
Conditions
Output Current (pulse)
Iop
6
A
Input Voltage
VIN
–0.5 to +7
V
Power Dissipation
PD
32.8
W
Thermal Resistance (Junction to Case)
θ j–c
3.8
°C/W
When all IGBT elements operating
5.4
°C/W
When all FRD elements operating
Operating Case Temperature
Top
–20 to +100
°C
Junction Temperature (Power part)
Tch
+150
°C
Storage Temperature
Tstg
–40 to +150
°C
PW≤100µs, duty=1%
Tc=25°C
■Recommended Operating Conditions
Parameter
Symbol
Ratings
min.
typ.
max.
Unit
Conditions
Main Supply Voltage
VBB
–
300
450
V
Between VBB and LS
Control Supply Voltage
Vcc
13.5
–
16.5
V
Between VCC and COM
Input Signal Dead Time
tdead
1.5
–
–
µs
Minimum Input Pulse Width
tw
0.5
–
–
µs
Junction Temperature
Tj
–
–
125
°C
■Electrical Characteristics
Parameter
Control Supply Current
Input Voltage
Input Voltage Hysteresis Width
Input Current
Undervoltage Lock Out
(High Side)
Undervoltage Lock Out
(Low Side)
Symbol
(Ta=25°C)
Ratings
max.
Unit
min.
typ.
Icc
–
4
6
VIH
–
2
2.5
VIL
1
1.5
–
VIhys
–
0.5
–
V
IIH
–
50
100
IIL
–
–
2
µA
VUVHL
9.0
10.0
11.0
VUVHH
9.5
10.5
11.5
VUVhys
–
0.5
–
VUVLL
10.0
11.0
12.0
VUVLH
10.5
11.5
12.5
VUVhys
–
0.5
–
mA
V
Conditions
Vcc=15V
Vcc=15V, Output:ON
Vcc=15V, Output:OFF
Vcc=15V
Vcc=15V, VIN=5V
Vcc=15V, VIN=0V
V
Between VB and U (V, W)
V
Between VCC and COM
VFOL
0
–
1.0
VFOH
4.0
–
5.5
V
Vcc=15V
VTRIP
0.45
0.5
0.55
V
Vcc=15V
tbk
–
2
–
us
Vcc=15V
IGBT Output Breakdown Voltage
VCES
600
–
–
V
IGBT Output Leakage Current
ICES
–
–
1
mA
IGBT Output Saturation Voltage
VCE(sat)
–
1.75
2.1
V
Vcc=15V, VIN=5V, IC=3A
VEC
–
1.65
2
V
Vcc=15V, VIN=0V, IF=3A
td(on)
–
365
–
tr
–
55
–
trr
–
80
–
td(off)
–
365
–
FO Pin Output Voltage
Overcurrent Protection Trip Voltage
Blanking Time
Diode Forward Voltage
High Side Switching Time
Low Side Switching Time
130
ICs
tf
–
170
–
td(on)
–
395
–
tr
–
60
–
trr
–
75
–
td(off)
–
395
–
tf
–
170
–
Vcc=15V, Ic=1mA, VIN=0V
Vcc=15V, VCES=600V, VIN=0V
ns
VBB=300V, Vcc=15V,
Ic=3A, VIN=0 to 5V,
inductive load
ns
SLA6805MP
■Typical Connection Diagram
Dboot
Rboot
5
2
3
4
VB1
VB2
VB3
11
10
+
VCC1
HO1
1
HS1
The input pulldown resistor is built in IC (about 100 kΩ).
However, if the input is expected to be unstable or very
fluctuant, it needs to be reinforced with external resistor.
+
HO2
9
8
7
6
HU HV HW
13
HS2
HIN1
HIN2
HIN3
COM1
Attach capacitors near IC. Attach a ceramic capacitor in
parallel with the electrolytic capacitor if too much noise
is generated.
DC
300V
+
0.1uF
HO3
+
Cs
12
HS3
HVIC
23
M
14
VCC2
LO1
Controller
RC
20
LU
19
LV
18
LW
16
CC
INT
22
21
COM
LIN1
LO2
LIN2
RS
17
LIN3
LO3
RCIN
15
FO
COM2
RS
LVIC
15V
+
0.1uF
■External Dimensions (ZIP23 with Fin [SLA23Pin])
31±0.2
31±0.2
4.8±0.2
φ3.2±0.15 x 3.8
24.4±0.2
1.7±0.1
(Measured at the tip)
22 x P1.27±0.5=27.94±1
(Measured at the tip)
(Measured at the tip)
+0.15
–0.05
3.1±0.7
(Measured at the tip)
31.3±0.2
(Including the resin burr)
0.5 +0.15
–0.05
0.6±0.1
22 x P1.27±0.1=(27.94)
(Measured at the root)
3.1±0.7
(Measured at the tip)
31.3±0.2
2 (R')
9.5±0.2
2.2±0.7
(Measured at the tip)
Lot No.
2.45±0.5
(Measured at the root)
3±0.5
(Measured at the tip)
(Including the resin burr)
1
Forming No. 2151
8.7 +1
–0.5
R-end
JAPAN
Part No.
1.7±0.1
0.5±0.1
0.6
2.45±0.2
(Measured at the tip)
4-(R1)
(3.7)
8.7±0.5
5±0.5
16±0.2
(Measured at the root)
Lot No.
12.9±0.2
9.9±0.2
Part No.
φ3.2±0.15
(Fin)
JAPAN
4.8±0.2
φ3.2±0.15 x 3.8
2.2±0.7
(Measured at the tip)
16.4±0.2
φ3.2±0.15
16±0.2
Gate burr
(4.4)
16.4±0.2
Gate burr
12.9±0.2
24.4±0.2
1
2
3
4
5
6
7
8
9
11 13 15 17 19 21 23
10 12 14 16 18 20 22
Forming No. 2152
2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23
Forming No. 2153
Product Mass: Approx. 6.2g
ICs
131
1-2-6 High Voltage 3-Phase Brushless Motor Driver ICs
SLA6845M Supports 3 Shunt, IGBT Output Element, Built-in Thermal Sensor and 7.5 V Regulator
■Features
■Absolute Maximum Ratings
• A package including 6 units each of IGBT and
FRD for 3-phase bridge, and pre-drive (HVIC,
LVIC)
• Best for driving a washing machine drying fan
motor
• High side drive of bootstrap method has been
employed.
• Built-in undervoltage lock out circuit (auto
regression)
• Built-in thermal sensor (non-stop)
• Built-in fail signal output function (when
operating the thermal sensor and undervoltage
lock out circuit)
Parameter
IGBT Output Breakdown Voltage
Main Supply Voltage
Control Supply Voltage
Control Supply Voltage (Bootstrap)
Output Current (continuous)
Output Current (pulse)
Regulator Output Current
Input Voltage
Power Dissipation
Thermal Resistance (IGBT Junction to Case)
Thermal Resistance (FRD Junction to Case)
Operating Case Temperature
Junction Temperature
Storage Temperature
Symbol
VCES
VBB
Vcc
VBS
Io
Iop
IREG
VIN
PD
Rj-c(I)
Rj-c(F)
TOP
Tj
Tstg
(Ta=25°C)
Ratings
600
450
20
20
3
6
35
–0.5 to +7
32.8
3.8
5.4
–20 to +100
150
–40 to +150
Unit
V
V
V
V
A
A
mA
V
W
°C/W
°C/W
°C
°C
Conditions
Between VBB and GND
Between VCC and COM
Between VB and HS (U, V, W)
Tc=25°C
PW<100µs
Tc=25°C, all IGBT elements in operation
All IGBT elements in operation
All FRD elements in operation
°C
• Support for 3-shunt current sense
• Built-in 7.5 V regulator output (35mA max.)
■Recommended Operating Conditions
Parameter
Main Supply Voltage
Control Supply Voltage
Input Signal Dead Time
Overcurrent Protection Time
Snubber Capacitor
Junction Temperature
Symbol
VBB
Vcc
tdead
tocp
Cs
Tj
min.
–
13.5
1.5
–
0.01
–
Ratings
typ.
300
–
–
–
–
–
max.
450
16.5
–
2.0
0.1
125
Unit
V
V
µs
µs
µF
°C
Conditions
Between VBB and LS
Between VCC and COM
Between LS1 to 3 and COM
Between VCC and COM
■Electrical Characteristics
Parameter
Control Supply Current
Input Voltage
Input Voltage Hysteresis Width
Input Current
Undervoltage Lock Out (high side)
Undervoltage Lock Out (low side)
FO Terminal Output Voltage
Thermal Protection and Release Threshold
Regulator Output Voltage
IGBT Output Breakdown Voltage
IGBT Output Leakage Current
IGBT Output Saturation Voltage
Diode Forward Voltage
Diode Reverse Recovery Time
High Side Switching Time
Low Side Switching Time
132
ICs
(Ta=25°C)
Symbol
Icc
VIH
VIL
VIhys
IIH
IIL
VUVHL
VUVHH
VUVhys
VUVLL
VUVLH
VUVhys
VFOL
VFOH
TDH
TDL
TDhys
VREG
VCES
ICES
VCE(sat)
VF
trr
td(on)
tr
td(off)
tf
td(on)
tr
td(off)
tf
min.
–
–
1
–
–
–
9.0
9.5
–
10.0
10.5
–
0
4.0
135
105
–
6.75
600
–
–
–
–
–
–
–
–
–
−
−
Ratings
typ.
4
2
1.5
0.5
50
–
10.0
10.5
0.5
11.0
11.5
0.5
–
–
150
120
30
7.5
–
–
1.75
1.65
50
315
50
375
165
325
60
400
165
max.
6
2.5
–
–
100
2
11.0
11.5
–
12.0
12.5
–
1.0
5.5
165
135
–
8.25
–
1
2.1
2.0
–
–
–
–
–
–
–
–
Unit
mA
V
V
µA
V
Conditions
Vcc=15V, VIN=5V
Vcc=15V, Output:ON
Vcc=15V, Output:OFF
Vcc=15V
Vcc=15V, VIN=5V
Vcc=15V, VIN=0V
Between VB and U (V, W)
Hystersis
V
V
Between VCC and COM
Hystersis
Vcc=15V, IFO=–1mA
Vcc=15V, IFO=1.6mA
°C
Vcc=15V, No Fin, IREG=0mA
V
V
mA
V
V
ns
IREG=35mA
Vcc=15V, Ic=1mA, VIN=0V
Vcc=15V, VCE=600V, VIN=0V
Vcc=15V, Ic=3A, VIN=5V
Vcc=15V, IF=3A, VIN=0V
IF=3A, di/dt=100A/µs
ns
VBB=300V, Vcc=15V, Ic=3A, VIN=0 to 5V,
Inductive load
ns
SLA6845M
■Internal Block Diagram
■Typical Connection Diagram
Dboot Rboot
3
4
VB1 VB2
VB3
VCC1
HO1
2
11
10
5
+
1
HS1
+
HO2
VB1
VB2
VB3
9
VCC1
UVLO
UVLO
UVLO
VBB1
8
7
VBB2
6
13
HS2
HIN2
HIN3
Input
Logic
UVLO
HIN2
HIN3
23
High Side
Level Shift Driver
Cs
12
HS3
COM1
+
+
HO3
14
HVIC
HIN1
M
HIN1
VCC2
LO1
COM1
U
V
W1
7.5V
Reg.
VREG
W2
Terminal
Detect
UVLO
24
Controller
VCC2
20
19
18
LIN1
Input
Logic
LIN2
LIN1
LO2
17
LIN2
LIN3
Low Side Driver
16
LIN3
LO3
VREG
15
CC
COM2
FO
LS3
LS2
22
LS1
21
FO
COM2
RS
LVIC
+ 15V
The input pulldown resistor is built into the IC (about 100 kΩ).
However, if the input is expected to be unstable or to fluctuate greatly,
it needs to be reinforced using an external resistor.
Attach capacitors near the IC. Attach a ceramic capacitor in parallel
with the electrolytic capacitor if too much noise is generated.
■External Dimensions (ZIP24 with Fin [SLA24Pin])
(Unit : mm)
31±0.2
31±0.2
4.8±0.2
2.2±0.6
23 X P1.27±0.7=29.21±1
0.5±0.1
(Measured at the tip)
(Measured at the tip)
+0.2
0.6 –0.1
3±0.3
(Measured at the tip)
4
3
6
5
8
7
10
9
12
11
14
13
16
15
18
17
20
19
22
21
24
0.5 +0.15
–0.05
4.5±0.7
(Measured at the tip)
16±0.2
31.3±0.2
(Including the resin burr)
2
2
1
5±0.5
R-end
9.5±0.5
2.45±0.1
(Measured at the root)
(3)
2.2±0.6
9.9±0.1
(Measured at the tip)
16±0.2
12.9±0.2
4.5±0.7
(Measured at the tip)
2.45±0.2
(Measured at the root)
4-(R1)
0.5 +0.15
–0.05
23xP1.27±0.2=29.21±0.5
31.3±0.2
(Including the resin burr)
Lot No.
0.6 +0.15
–0.05
(4.4)
(4.5)
(10.5)
0.6 +0.15
–0.05
23 X P1.27±0.7=29.21±1
JAPAN
Part No.
4-(R1)
R-end
φ3.2±0.15 X 3.8
φ3.2±0.15
φ3.2±0.15x3.8
2.45±0.2
(Measured at the root)
9.5 +0.7
–0.5
16±0.2
φ3.2±0.15
5±0.5
Lot No.
12.9±0.2
9.9±0.2
JAPAN
Part No.
1.7±0.1
1.7±0.1
16.4±0.2
Gate burr
4.8±0.2
16.4±0.2
3.2±0.15
4.8±0.2
24.4±0.2
24.4±0.2
12.9±0.2
1.7±0.1
3.2±0.15 X 3.8
9.9±0.2
31±0.2
24.4±0.2
16.4±0.2
Gate burr
1
4
3
6
5
8
7
10
9
12
11
14
13
16
15
18
17
20
19
22
21
24
23
23
Forming No. 2171
Forming No. 2175
Forming No. 2178
Product Mass: Approx. 6.2 g
ICs
133
1-2-6 High Voltage 3-Phase Brushless Motor Driver ICs
SCM1100M Series IGBT Output Element, Built-in Shoot Through Prevention and Overcurrent Protection Circuits
■Features
• Each half-bridge circuit consists of a pre-driver circuit that is completely independent from the others
• Protection against simultaneous high- and low-side turning on
• Bootstrap diodes with series resistors for suppressing inrush current are incorporated
• CMOS compatible input (3.3 to 5 V)
• Designed to minimize simultaneous current through both high- and low-side IGBTs by optimizing gate drive resistors
• UVLO protection with auto restart
• Overcurrent protection with off-time period adjustable by an external capacitor
• Fault (FO indicator) signal output at protection activation: UVLO (low side only), OCP, and STP
• Proprietary power DIP package
• UL Recognized Component (File No.: E118037)
■Absolute Maximum Ratings
Parameter
Symbol
Supply Voltage
VBB
Supply Voltage (Surge)
VDC(Surge)
IGBT Output Withstand Voltage
VCES
Control Supply Voltage
VCC
Control Supply Voltage (Bootstrap)
VBS
Output Current (continuous)
Io
Output Current (pulse)
Iop
Input Voltage
VIN
FO Pin Voltage
VFO
Power Dissipation
PD
Thermal Resistance (IGBT)
R(j-c)Q
Thermal Resistance (FRD)
R(j-c)F
Operating Case Temperature
TOP
Junction Temperature
Tj
Storage Temperature
Tstg
Insulation Withstand Voltage
Viso
SCM1101M
(SCM1101MF)
450
500
600
20
20
10
20
–0.5 to +7
7
20.8(33.7)
6(3.7)
6.5(4.2)
–20 to +100
150
–40 to +150
2000
(T
(Taa=25℃)
=25℃)
SCM1103M
450
500
600
20
20
5
10
–0.5 to +7
7
19.8
6.3
6.5
–20 to +100
150
–40 to +150
2000
Ratings
SCM1104M
SCM1105MF
(SCM1104MF)
450
450
500
500
600
600
20
20
20
20
8
15
16
30
–0.5 to +7
–0.5 to +7
7
7
20.1(32.8)
41.6
6.2(3.8)
3
6.5(4.2)
4
–20 to +100
–20 to +100
150
150
–40 to +150
–40 to +150
2000
2000
SCM1106M
(SCM1106MF)
450
500
600
20
20
10
20
–0.5 to +7
7
20.8(33.7)
6(3.7)
6.5(4.2)
–20 to +100
150
–40 to +150
2000
SCM1110MF
Unit
450
500
600
20
20
15
30
–0.5 to +7
7
41.6
3
4
–20 to +100
150
–40 to +150
2000
V
V
V
V
V
A
A
V
V
W
°C/W
°C/W
°C
°C
°C
V
Conditions
Between VBB and LS1 to LS3
Between VBB and LS1 to LS3
VCC=15V,IC=1mA,VIN=0V
VCC1 to 3 and COM1 to COM3
VB1 to VB3 and HS (U,V,W)
T≤1ms
HIN1 to HIN3 or LIN1 to LIN3 and COM1 to COM3
FO1 to FO3 and COM1 to COM3
Tc=25°C while one IGBT element operates
Per IGBT element
Per FRD element
Between rear and lead pins, AC one minute
■Recommended Operating Conditions
Parameter
Main Supply Voltage
Control Supply Voltage
Minimum Input Pulse Width
Input Signal Dead Time
FO Pull-up Resistor
CFO Capacitor Capacity
FO Pull-up Voltage
Boot Capacitor
PWM Carrier Frequency
Junction Temperature
134
ICs
Symbol
VDC
VCC,VBS
tINmin(on)
tINmin(off)
tdead
RFO
CFO
VFO
CBOOT
fc
Tj
min.
–
13.5
0.5
0.5
1.0
1
1
4.5
10
–
–
Ratings
SCM1100M Series
typ.
300
–
–
–
–
–
–
–
–
–
–
Unit
max.
400
16.5
–
–
–
22
10
5.5
220
20
125
V
V
µs
µs
µs
kΩ
nF
V
uF
kHz
°C
Conditions
Between VBB and LS
ON pulse
OFF pulse
For the SCM1101M (F) and SCM1105MF: 10
SCM1100M Series
rcuits
■Electrical Characteristics
Parameter
Control Supply Current
Bootstrap Supply Current
Input Voltage
Input Voltage Hysteresis Width
Input Current
Undervoltage Lock Out (high side)
Undervoltage Lock Out (low side)
FO Pin Output Voltage
Overcurrent Protection Trip Voltage
Overcurrent Protection Hold Time
Blanking Time
IGBT Output Breakdown Voltage
IGBT Output Leakage Current
IGBT Output Saturation Voltage
Boot Diode Forward Voltage
Boot Diode Leakage Current
Boot Diode Forward Voltage
Boot Diode Recovery Time
Boot Diode Series Resistance
High Side Switching Time
Low Side Switching Time
Symbol
ICC
Ibs
VIH
VIL
VH
IIH
IIL
VUVHL
VUVHH
VUVLL
VUVLH
VFOL
VFOH
VTRIP
tP
tbk
VCES
ICES
VCE(sat)
VF
IIB
VFB
trr
RB
td(on)
tr
trr
td(off)
tf
td(on)
tr
trr
td(off)
tf
(Ta=25℃)
SCM1101M/SCM1101MF
min.
typ.
max.
–
5
8
–
400
800
–
2
2.5
1
1.5
–
–
0.5
–
–
50
100
–
–
2
10
–
12
10.5
–
12.5
10.5
–
12.5
11
–
13
–
–
0.5
4.8
–
–
0.46
0.5
0.54
2
–
–
–
2
–
600
–
–
–
–
1
–
1.75
2.2
–
1.7
2.2
–
–
10
–
1.1
1.3
–
70
–
–
22
–
–
320
–
–
50
–
–
80
–
–
560
–
–
210
–
–
350
–
–
80
–
–
140
–
–
610
–
–
200
–
min.
–
–
–
1
–
–
–
10
10.5
10.5
11
–
4.8
0.46
2
–
600
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
Ratings
SCM1103M
typ.
5
400
2
1.5
0.5
50
–
–
–
–
–
–
–
0.5
–
2
–
–
1.7
1.4
–
1.1
70
22
340
60
80
430
240
380
90
100
500
220
max.
8
800
2.5
–
–
100
2
12
12.5
12.5
13
0.5
–
0.54
–
–
–
1
2.1
2
10
1.3
–
–
–
–
–
–
–
–
–
–
–
–
SCM1104M/SCM1104MF
min.
typ.
max.
–
5
8
–
400
800
–
2
2.5
1
1.5
–
–
0.5
–
–
50
100
–
–
2
10
–
12
10.5
–
12.5
10.5
–
12.5
11
–
13
–
–
0.5
4.8
–
–
0.46
0.5
0.54
2
–
–
–
2
–
600
–
–
–
–
1
–
1.75
2.2
–
1.6
2.2
–
–
10
–
1.1
1.3
–
70
–
–
22
–
–
360
–
–
70
–
–
80
–
–
560
–
–
210
–
–
420
–
–
110
–
–
140
–
–
630
–
–
210
–
Unit
Conditions
mA
uA
VCC=15V, 3 circuits total
VB-HS=15V, 1 circuit
VCC=15V, Output:ON
VCC=15V, Output:OFF
VCC=15V
VCC=15V, VIN=5V
VCC=15V, VIN=0V
V
µA
V
V
V
ms
µs
V
mA
V
V
µA
V
ns
Ω
VCC=15V
VCC=15V,VFO=5V
RFO=10kΩ
VCC=15V
VCC=15V, CFO=2.2nF
VCC=15V
VCC=15V, IC=1mA, VIN=0V
VCC=15V, VCE=600V, VIN=0V
VCC=15V, IC=rated output current (continuous) VIN=5V
VCC=15V, IF=rated output current (continuous), VIN=0V
VR=600V
IF=0.15A
IF/IRP=100mA/100mA
ns
VDC=300V, V CC=15V
IC=Rating of Output Current (Continuous)
HIN=0 to 5V
Inductive load
ns
(Ta=25℃)
Parameter
Control Supply Current
Bootstrap Supply Current
Input Voltage
Input Voltage Hysteresis Width
Input Current
Undervoltage Lock Out (high side)
Undervoltage Lock Out (low side)
FO Pin Output Voltage
Overcurrent Protection Trip Voltage
Overcurrent Protection Hold Time
Blanking Time
IGBT Output Breakdown Voltage
IGBT Output Leakage Current
IGBT Output Saturation Voltage
Boot Diode Forward Voltage
Boot Diode Leakage Current
Boot Diode Forward Voltage
Boot Diode Recovery Time
Boot Diode Series Resistance
High Side Switching Time
Low Side Switching Time
Symbol
ICC
Ibs
VIH
VIL
VH
IIH
IIL
VUVHL
VUVHH
VUVLL
VUVLH
VFOL
VFOH
VTRIP
tP
tbk
VCES
ICES
VCE(sat)
VF
IIB
VFB
trr
RB
td(on)
tr
trr
td(off)
tf
td(on)
tr
trr
td(off)
tf
min.
–
–
–
1
–
–
–
10
10.5
10.5
11
–
4.8
0.46
2
–
600
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
SCM1105MF
typ.
5
400
2
1.5
0.5
50
–
–
–
–
–
–
–
0.5
–
2
–
–
1.75
1.75
–
1.1
70
22
365
80
90
690
200
415
135
115
790
205
max.
8
800
2.5
–
–
100
2
12
12.5
12.5
13
0.5
–
0.54
–
–
–
1
2.2
2.2
10
1.3
–
–
–
–
–
–
–
–
–
–
–
–
Ratings
SCM1106M/SCM1106MF
min.
typ.
max.
–
5
8
–
400
800
–
2
2.5
1
1.5
–
–
0.5
–
–
50
100
–
–
2
10
–
12
10.5
–
12.5
10.5
–
12.5
11
–
13
–
–
0.5
4.8
–
–
0.46
0.5
0.54
2
–
–
–
2
–
600
–
–
–
–
1
–
2.2
2.6
–
1.7
2.2
–
–
10
–
1.1
1.3
–
70
–
–
22
–
–
320
–
–
50
–
–
80
–
–
490
–
–
80
–
–
350
–
–
80
–
–
140
–
–
540
–
–
80
–
min.
–
–
–
1
–
–
–
10
10.5
10.5
11
–
4.8
0.46
2
–
600
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
SCM1110MF
typ.
5
400
2
1.5
0.5
50
–
–
–
–
–
–
–
0.5
–
2
–
–
2.2
1.75
–
1.1
70
22
365
80
90
650
85
415
135
115
755
85
max.
8
800
2.5
–
–
100
2
12
12.5
12.5
13
0.5
–
0.54
–
–
–
1
2.6
2.2
10
1.3
–
–
–
–
–
–
–
–
–
–
–
–
Unit
Conditions
mA
uA
VCC=15V, 3 circuits total
VB-HS=15V, 1 circuit
VCC=15V, Output:ON
VCC=15V, Output:OFF
VCC=15V
VCC=15V, VIN=5V
VCC=15V, VIN=0V
V
µA
V
V
V
ms
µs
V
mA
V
V
µA
V
ns
Ω
VCC=15V
VCC=15V, VFO=5V
RFO=10kΩ
VCC=15V
VCC=15V,CFO=2.2nF
VCC=15V
VCC=15V, IC=1mA, VIN=0V
VCC=15V, VCE=600V, VIN=0V
VCC=15V, IC=rated output current (continuous) VIN=5V
VCC=15V, IF=rated output current (continuous), VIN=0V
VR=600V
IF=0.15A
IF/IRP=100mA/100mA
ns
VDC=300V, VCC=15V
IC=Rating of Output Current (Continuous)
HIN=0 to 5V
Inductive load
ns
ICs
135
1-2-6 High Voltage 3-Phase Brushless Motor Driver ICs
■Internal Block Diagram (One of three phases)
HS
VBB
VB
VB
VCC
VCC
HIN
HIN
LIN
LIN
UV
Detect
Input
Logic
&
Shoot
Through
Prevention
Level
Shift
FO
U,V,W
HS
UV
Detect
COM
COM
HO
Drive
Corcuit
Drive
Corcuit
O.C.
Protect
FO
LO
LS
LS
CFO
HVIC
CFO
■Typical Connection Diagram
8
31
7
CBOOT
VB
6
VCC
5
3
HIN
LIN
4
1
UV
Detect
Input
Logic
&
Shoot
Through
Prevention
Level
Shift
CFO
2
16
UV
Detect
Drive
Circuit LO
O.C.
Protect
28
15
Controller
Attach capacitors near IC. Attach a ceramic capacitor in
parallel with the electrolytic capacitor if too much noise is
generated.
33
LS
HVIC1
CBOOT
14
VCC
13
HIN
LIN
11
The input pulldown resistor is built in IC (about 100 kΩ).
However, if the input is expected to be unstable or very
fluctuant, it needs to be reinforced with external resistor.
32
HS
COM
FO
HO
Drive
Circuit
12
COM
9
FO
VB
UV
Detect
Input
Logic
&
Shoot
Through
Prevention
CFO
10
Level
Shift
HO
Drive
Circuit
29
M
HS
UV
Detect
Drive
Circuit LO
O.C.
Protect
30
LS
HVIC2
24
25
23
CBOOT
VB
22
VCC
21
Input
HIN
Logic
LIN
&
Shoot
Through
Prevention
19
VFO
RFO
20
COM
17
FO
18
VCC
CN
CFO
136
ICs
UV
Detect
CFO
Level
Shift
HO
Drive
Circuit
26
HS
UV
Detect
O.C.
Protect
Drive
Circuit LO
VBB
27
LS
HVIC3
RS
SCM1100M Series
■External Dimensions (SCM)
(Unit : mm)
Pitch tolerance by the lead root size: ±0.1
(lead center)
Planar state diagram
Pitch tolerance by the lead root size: ±0.1
(lead center)
Planar state diagram
Root
(lead center)
C lead cross-section (S=9)
Pitch tolerance by the lead root size: ±0.1
(lead center)
Part No.
JAPAN
Lot No.
B lead cross-section (S=9)
A lead cross-section (S=9) D lead cross-section (S=9)
(Size after solder dip)
(Size after solder dip)
C
MAX1.2
3.6±0.5
(lead center) (lead center)
17.25±0.5
(lead center)
12.25±0.5
(9.05)
5×P1.27=6.35
1.27
3.7
3.7
+0.2
0.5 -0.1
2
+0.2
-0.1
0.5
+0.2
-0.1
0.6 -0.1
+0.2
0.6 -0.1
Planar state diagram
Enlarged
view of A
Forming No. 2554
Product Mass: Approx. 13.5g
Without Fin
(SCM1100MF)
Enlarged
view of B
+0.2
0.7 -0.1
0.5
+0.2
-0.1
0.5
+0.2
0.5
A lead cross-section D lead cross-section
(Size after solder dip)
C lead cross-section B lead cross-section
0.5 -0.1
+0.2
1.2 -0.1
(0.6)
+0.2
0.5 -0.1
+0.2
+0.2
0.7 -0.1
Enlarged
view of B
0.5
3.7
3.24
11.45±0.5
15.95±0.5
3.45±0.5
+0.2
+0.2
-0.1
1.27
1.27
Planar state diagram
With Fin
(SCM1100M)
B
5×P1.27=6.35
2.57
(5°)
B
C lead cross-section B lead cross-section
0.5 -0.1
0.5
3.45±0.5
+0.2
2
0.5 -0.1
0.5 -0.1
(0.6)
Enlarged
view of A
(lead center)
19±0.3
12.25±0.5
11.45±0.5
5×P1.27=6.35
(5°)
A
2.08±0.2
3.7
+0.5
0
Root
43.3±0.3
(9.05)
2
A
φ 3.2±0.15
(5°)
B
5×P1.27=6.35
(0.65)
(11.6)
(38.6)
S=1/2
Enlarged view of fin (rear)
47±0.3
1.27
3.7
4.4±0.3
3.45±0.5
1.2±0.2
(0.65)
3.24
C
3.45±0.5
+0.2
3.7
(lead center) (lead center)
17.25±0.5
(lead center)
(lead center)
19±0.3
15.95±0.5
A
3.45±0.5
MAX1.2
1.27
1.27
(5°)
C
8×P5.1=40.8
B
5×P1.27=6.35
2.57
+0.5
0
Root
φ 3.2±0.15
5×P1.27=6.35
2
A
3.6±0.5
1.2±0.2
47±0.3
2.08±0.2
3.6±0.5
Forming No. 2552
Product Mass: Approx. 13.5g
3.45±0.5
43.3±0.3
3.45±0.5
With Fin
(SCM1100MF)
4.4±0.3
8×P5.1=40.8
3.6±0.5
3.45±0.5
Forming No. 2551
Product Mass: Approx. 12.6g
C
B lead cross-section (S=9)
C lead cross-section (S=9)
Pitch tolerance by the lead root size: ±0.1
(lead center)
A lead cross-section (S=9) D lead cross-section (S=9)
Without Fin
(SCM1100M)
(lead center) (lead center)
(lead center)
Lot No.
(lead center)
Part No.
JAPAN
(lead center) (lead center)
(lead center)
Root
+0.2
1.2 -0.1
A lead cross-section D lead cross-section
(Size after solder dip)
Forming No. 2556
Product Mass: Approx. 12.6g
ICs
137
1-2-6 High Voltage 3-Phase Brushless Motor Driver ICs
SCM1200M Series IGBT Output Element, Built-in Thermal Shutdown, Overcurrent Protection, and Shoot Through Prevention Circuits
■Features
• Six IGBTs and six FRDs for the 3-phase bridge, a pre-drive IC, and a boot diode are integrated into a single package
• Ideal for driving air conditioner compressors, washing machine drums, and refrigerator compressors
• Built-in shoot through prevention (STP) circuit (when the ON signal is input simultaneously)
• All IGBTs can be shut down when commonly connected to the FO pin.
• Three built-in bootstrap diodes
• Supports CMOS (3.3 and 5 V) input levels
• Built-in undervoltage lock out (UVLO) circuit (auto regression)
• Built-in overcurrent protection (OCP) circuit
• Built-in thermal shut down (TSD) circuit (auto regression)
• Fail signal output during operation of the UVLO (low side only), OCP, or STP circuit
■Absolute Maximum Ratings
Parameter
Symbol
Supply Voltage
VDC
Supply Voltage (Surge)
VDC(Surge)
IGBT Output Breakdown Voltage
VCES
Control Supply Voltage
VCC
Control Supply Voltage (Bootstrap)
VBS
Output Current (continuous)
Io
Output Current (pulse)
Iop
Input Voltage
VIN
FO Pin Voltage
VFO
Collector Dissipation
PD
Thermal Resistance
R(j-c)Q
(Junction to Case)
R(j-c)F
Operating Case Temperature
COP
Junction Temperature (Power part)
Tj
Storage Temperature
Tstg
Insulation Breakdown Voltage
Viso
S1221M
(SCM1221MF)
450
500
600
20
20
10
20
–0.5 to +7
7
20.8(33.7)
6.0(3.7)
6.5(4.2)
–20 to +100
150
–40 to +150
2000
(T
(Taa=25℃)
=25℃)
Ratings
SCM1224M
SCM1225MF
(SCM1224MF)
450
450
500
500
600
600
20
20
20
20
8
15
16
30
–0.5 to +7
–0.5 to +7
7
7
20.1(32.8)
41.6
6.2(3.8)
3.0
6.5(4.2)
4.0
–20 to +100
–20 to +100
150
150
–40 to +150
–40 to +150
2000
2000
SCM1223M
450
500
600
20
20
5
10
–0.5 to +7
7
19.8
6.3
6.5
–20 to +100
150
–40 to +150
2000
SCM1226M
(SCM1226MF)
450
500
600
20
20
10
20
–0.5 to +7
7
20.8(33.7)
6.0(3.7)
6.5(4.2)
–20 to +100
150
–40 to +150
2000
SCM1230MF
Unit
450
500
600
20
20
15
30
–0.5 to +7
7
41.6
3.0
4.0
–20 to +100
150
–40 to +150
2000
V
V
V
V
V
A
A
V
V
W
℃/W
℃/W
℃
℃
°
C
Vrms
Conditions
Between VBB and LS1 to LS3
Between VBB and LS1 to LS3
VCC=15V,IC=1mA,VIN=0V
Between VCC and COM
Between VB and HS (U, V, W)
Tc=25℃
PW<1ms
HIN,LIN,OCP
Between FO and COM
TC=25℃, per IGBT element
Per IGBT element
Per FWD element
Between rear and lead pins, AC one minute
■Recommended Operating Conditions
Parameter
Main Supply Voltage
Control Supply Voltage
Minimum Input Pulse Width
Input Signal Dead Time
FO Pull-up Resistance
CFO Capacitor Capacity
FO Pull-up Voltage
Boot Capacitor
PWM Carrier Frequency
Junction Temperature
138
ICs
VDC
VCC,VBS
tINmin(on)
min.
−
13.5
0.5
Ratings
SCM1200M Series
typ.
300
−
−
max.
400
16.5
−
V
V
µs
tINmin(off)
tdead
RFO
CFO
VFO
CBOOT
fc
Tj
0.5
1.0
1
1
4.5
10
−
−
−
−
−
−
−
−
−
−
−
−
22
10
5.5
220
20
125
µs
µs
kΩ
nF
V
uF
kHz
℃
Symbol
Unit
Conditions
Between VBB and LS
ON pulse
OFF pulse
For the SCM1221M (F) and SCM1225MF: 10
SCM1200M Series
Circuits
■Electrical Characteristics
Parameter
Control Supply Current
Boot Supply Current
Input Voltage
Input Voltage Hysteresis Width
Input Current
Undervoltage Lock Out (high side)
Undervoltage Lock Out (low side)
FO Pin Output Voltage
Overcurrent Protection Trip Voltage
Overcurrent Protection Retention Time
Blanking Time
Thermal Protection and
Release Threshold
IGBT Output Breakdown Voltage
IGBT Output Leakage Current
IGBT Output Saturation Voltage
Diode Forward Voltage
Boot Diode Leakage Current
Boot Diode Forward Voltage
Boot Diode Recovery Time
Boot Diode Series Resistance
Symbol
ICC
Ibs
VIH
VIL
VHYS
IIH
IIL
VUVHL
VUVHH
VUVLL
VUVLH
VFOL
VFOH
VTRIP
tP
tbk
TDH
TDL
TDHYS
VCES
ICES
VCE(sat)
VF
IIB
VFB
trr
RB
(Ta=25℃)
SCM1221M/SCM1221MF
min.
typ.
max.
−
6
−
−
140
−
−
2.0
2.5
1.0
1.5
−
−
0.5
−
−
230
500
−
−
2
10.0
11.0
12.0
10.5
11.5
12.5
10.0
11.0
12.0
10.5
11.5
12.5
−
−
0.5
4.8
−
−
0.46
0.50
0.54
20
25
−
−
1.65
−
135
150
165
105
120
135
−
30
−
600
−
−
−
−
1
−
1.75
2.2
−
1.7
2.2
−
−
10
−
1.1
1.3
−
70
−
−
22.0
−
min.
−
−
−
1.0
−
−
−
10.0
10.5
10.0
10.5
−
4.8
0.46
20
−
135
105
−
600
−
−
−
−
−
−
−
Ratings
SCM1223M
typ.
6
140
2.0
1.5
0.5
230
−
11.0
11.5
11.0
11.5
−
−
0.50
25
1.65
150
120
30
−
−
1.7
1.4
−
1.1
70
22.0
max.
−
−
2.5
−
−
500
2
12.0
12.5
12.0
12.5
0.5
−
0.54
−
−
165
135
−
−
1
2.1
2.0
10
1.3
−
−
SCM1224M/SCM1224MF
min.
typ.
max.
−
6
−
−
140
−
−
2.0
2.5
1.0
1.5
−
−
0.5
−
−
230
500
−
−
2
10.0
11.0
12.0
10.5
11.5
12.5
10.0
11.0
12.0
10.5
11.5
12.5
−
−
0.5
4.8
−
−
0.46
0.50
0.54
20
25
−
−
1.65
−
135
150
165
105
120
135
−
30
−
600
−
−
−
−
1
−
1.75
2.2
−
1.6
2.2
−
−
10
−
1.1
1.3
−
70
−
−
22.0
−
Unit
mA
µA
V
µA
V
Conditions
VCC=15V, 3 circuits total
VB-HS=15V, 1 circuit
VCC=15V, Output:ON
VCC=15V, Output:OFF
VCC=15V
VCC=15V, VIN=5V
VCC=15V, VIN=0V
VCC=15V
V
µs
µs
VCC=15V,VFO=5V
RFO=10kΩ
VCC=15V
VCC=15V
VCC=15V
℃
VCC=15V
V
mA
V
V
µA
V
ns
Ω
VCC=15V, IC=1mA, VIN=0V
VCC=15V, VCE=600V, VIN=0V
VCC=15V, IC=Rating of Output Current (Continuous), V IN=5V
VCC=15V, IF=Rating of Output Current (Continuous), V IN=0V
VR=600V
IF=0.15A
IF/IRP=100mA/100mA
V
(Ta=25℃)
Parameter
Control Supply Current
Boot Supply Current
Input Voltage
Input Voltage Hysteresis Width
Input Current
Undervoltage Lock Out (high side)
Undervoltage Lock Out (low side)
FO Pin Output Voltage
Overcurrent Protection Trip Voltage
Overcurrent Protection Retention Time
Blanking Time
Thermal Protection and
Release Threshold
IGBT Output Breakdown Voltage
IGBT Output Leakage Current
IGBT Output Saturation Voltage
Diode Forward Voltage
Boot Diode Leakage Current
Boot Diode Forward Voltage
Boot Diode Recovery Time
Boot Diode Series Resistance
Symbol
ICC
Ibs
VIH
VIL
VHYS
IIH
min.
−
−
−
1.0
−
−
SCM1225MF
typ.
6
140
2.0
1.5
0.5
230
max.
−
−
2.5
−
−
500
IIL
VUVHL
VUVHH
VUVLL
VUVLH
VFOL
VFOH
VTRIP
tP
tbk
TDH
TDL
TDHYS
VCES
ICES
VCE(sat)
VF
IIB
VFB
trr
RB
−
10.0
10.5
10.0
10.5
−
4.8
0.46
20
−
135
105
−
600
−
−
−
−
−
−
−
−
11.0
11.5
11.0
11.5
−
−
0.50
25
1.65
150
120
30
−
−
1.75
1.75
−
1.1
70
22.0
12.0
12.5
12.0
12.5
0.5
−
0.54
−
−
165
135
−
−
1
2.2
2.2
10
1.3
−
−
2
Ratings
SCM1226M/SCM1226MF
min.
typ.
max.
−
6
−
−
140
−
−
2.0
2.5
1.0
1.5
−
−
0.5
−
−
230
500
min.
−
−
−
1.0
−
−
SCM1230MF
typ.
6
140
2.0
1.5
0.5
230
max.
−
−
2.5
−
−
500
−
10.0
10.5
10.0
10.5
−
4.8
0.46
20
−
135
105
−
600
−
−
−
−
−
−
−
−
10.0
10.5
10.0
10.5
−
4.8
0.46
20
−
135
105
−
600
−
−
−
−
−
−
−
−
11.0
11.5
11.0
11.5
−
−
0.50
25
1.65
150
120
30
−
−
2.2
1.75
−
1.1
70
22.0
2
12.0
12.5
12.0
12.5
0.5
−
0.54
−
−
165
135
−
−
1
2.6
2.2
10
1.3
−
−
−
11.0
11.5
11.0
11.5
−
−
0.50
25
1.65
150
120
30
−
−
2.2
1.7
−
1.1
70
22.0
2
12.0
12.5
12.0
12.5
0.5
−
0.54
−
−
165
135
−
−
1
2.6
2.2
10
1.3
−
−
Unit
mA
µA
V
µA
V
Conditions
VCC=15V, 3 circuits total
VB-HS=15V, 1 circuit
VCC=15V, Output:ON
VCC=15V, Output:OFF
VCC=15V
VCC=15V, VIN=5V
VCC=15V, VIN=0V
VCC=15V
V
µs
µs
VCC=15V, VFO=5V
RFO=10kΩ
VCC=15V
VCC=15V
VCC=15V
℃
VCC=15V
V
mA
V
V
µA
V
ns
Ω
VCC=15V, IC=1mA, VIN=0V
VCC=15V, VCE=600V, VIN=0V
VCC=15V, IC=Rating of Output Current (Continuous), V IN=5V
VCC=15V, IF=Rating of Output Current (Continuous), VIN=0V
VR=600V
IF=0.15A
IF/IRP=100mA/100mA
V
ICs
139
1-2-6 High Voltage 3-Phase Brushless Motor Driver ICs
■Internal Block Diagram (One of three phases)
HS
VB
Rb
VBB
VB
Db
VCC
VCC
HIN
HIN
LIN
LIN
COM
COM
UV
UV
Detect Detect
Input
Logic
&
Shoot
Through
Prevention
HO
Drive
Circuit
Level
Shift
HS
U,V,W
FO
FO
Drive
Circuit
O.C.
Protect
RS
OCP
Thermal
Detect
LD
LS
HVIC
■Typical Connection Diagram
Cb
HS1
VB1
15V
VCC1
Ri
Rb
VCC
Input
Logic
LIN
&
Shoot
Through
COM
Prevention
HIN1
Ci
UV
UV
Detect Detect
HIN
LIN1
COM1
Cp
VB
Db
FO1
Level
Shift
HO
The input pulldown resistor is built in IC
(about 100 kΩ). However, if the input is
expected to be unstable or very fluctuant, it
needs to be reinforced with external resistor.
Drive
Circuit
U
HS
FO
Drive
Circuit LD
OCP1
RS
O.C.
Protect
Thermal
Detect
Cb
Attach capacitors near IC. Attach a ceramic
capacitor in parallel with the electrolytic
capacitor if too much noise is generated.
LS1
HVIC
HS2
VB2
Rb
Db
Input
Logic
&
Shoot
Through
COM
Prevention
HIN2
UV
UV
Detect Detect
HIN
LIN2
LIN
COM2
Controller
VB
VCC
VCC2
FO2
FO
OCP2
RS
Level
Shift
HO
Drive
Circuit
V
M
HS
Drive
Circuit LD
O.C.
Protect
Thermal
Detect
Cb
LS2
HVIC
HS2
Rb
VB3
VBB
Db
VCC3
HIN3
LIN3
COM3
FO3
INT
VB
VCC
Input
Logic
LIN
&
Shoot
Through
COM
Prevention
UV
UV
Detect Detect
HIN
Level
Shift
W
HS
FO
Drive
Circuit LD
Vf(3.3V,5V)
OCP3
Rf
HO
Drive
Circuit
RS
O.C.
Protect
Thermal
Detect
CS
LS3
HVIC
AD
Cf
COM
140
ICs
Co
Ro
RS
SCM1200M Series
■External Dimensions (SCM)
(Unit : mm)
Pitch tolerance by the lead root size: ±0.1
(lead center)
Planar state diagram
Pitch tolerance by the lead root size: ±0.1
(lead center)
Planar state diagram
Root
(lead center)
C lead cross-section (S=9)
Pitch tolerance by the lead root size: ±0.1
(lead center)
Part No.
JAPAN
Lot No.
B lead cross-section (S=9)
A lead cross-section (S=9) D lead cross-section (S=9)
(Size after solder dip)
(Size after solder dip)
C
MAX1.2
3.6±0.5
(lead center) (lead center)
17.25±0.5
(lead center)
12.25±0.5
(9.05)
5×P1.27=6.35
1.27
3.7
3.7
+0.2
0.5 -0.1
2
+0.2
-0.1
0.5
+0.2
-0.1
0.6 -0.1
+0.2
0.6 -0.1
Planar state diagram
Enlarged
view of A
Forming No. 2554
Product Mass: Approx. 13.5g
Without Fin
(SCM1200M)
Enlarged
view of B
+0.2
0.7 -0.1
0.5
+0.2
-0.1
0.5
+0.2
0.5
A lead cross-section D lead cross-section
(Size after solder dip)
C lead cross-section B lead cross-section
0.5 -0.1
+0.2
1.2 -0.1
(0.6)
+0.2
0.5 -0.1
+0.2
+0.2
0.7 -0.1
Enlarged
view of B
0.5
3.7
3.24
11.45±0.5
15.95±0.5
3.45±0.5
+0.2
+0.2
-0.1
1.27
1.27
Planar state diagram
With Fin
(SCM1200MF)
B
5×P1.27=6.35
2.57
(5°)
B
C lead cross-section B lead cross-section
0.5 -0.1
0.5
3.45±0.5
+0.2
2
0.5 -0.1
0.5 -0.1
(0.6)
Enlarged
view of A
(lead center)
19±0.3
12.25±0.5
11.45±0.5
5×P1.27=6.35
(5°)
A
2.08±0.2
3.7
+0.5
0
Root
43.3±0.3
(9.05)
2
A
φ 3.2±0.15
(5°)
B
5×P1.27=6.35
(0.65)
(11.6)
(38.6)
S=1/2
Enlarged view of fin (rear)
47±0.3
1.27
3.7
4.4±0.3
3.45±0.5
1.2±0.2
(0.65)
3.24
C
3.45±0.5
+0.2
3.7
(lead center) (lead center)
17.25±0.5
(lead center)
(lead center)
19±0.3
15.95±0.5
A
3.45±0.5
MAX1.2
1.27
1.27
(5°)
C
8×P5.1=40.8
B
5×P1.27=6.35
2.57
+0.5
0
Root
φ 3.2±0.15
5×P1.27=6.35
2
A
3.6±0.5
1.2±0.2
47±0.3
2.08±0.2
3.6±0.5
Forming No. 2552
Product Mass: Approx. 13.5g
3.45±0.5
43.3±0.3
3.45±0.5
With Fin
(SCM1200MF)
4.4±0.3
8×P5.1=40.8
3.6±0.5
3.45±0.5
Forming No. 2551
Product Mass: Approx. 12.6g
C
B lead cross-section (S=9)
C lead cross-section (S=9)
Pitch tolerance by the lead root size: ±0.1
(lead center)
A lead cross-section (S=9) D lead cross-section (S=9)
Without Fin
(SCM1200M)
(lead center) (lead center)
(lead center)
Lot No.
(lead center)
Part No.
JAPAN
(lead center) (lead center)
(lead center)
Root
+0.2
1.2 -0.1
A lead cross-section D lead cross-section
(Size after solder dip)
Forming No. 2556
Product Mass: Approx. 12.6g
ICs
141
1-3 Lighting ICs
1-3-1 LED Lighting ICs
LC5200 Series LED Driver ICs
■Features
■Absolute Maximum Ratings
• AC rectification voltage can be applied directly
• Output current IO: Two types available: 0.5 A
(LC5205D) and 1 A (LC5210D)
• Self-excitation PWM current control method
• Undervoltage lockout (UVLO)
• Overcurrent protection (OCP)
• Thermal shutdown (TSD)
Parameter
Symbol
Main Supply Voltage
Output MOSFET Breakdown Voltage
Output current*1
REF Input Voltage
Sense Voltage
Power Dissipation*2
Junction Temperature
VBB
Vo
Io
VRef
VSen
PD
Tj
θj-a
θc-a
Ta
Tstg
Thermal Resistance
• DIP-8 type mold package
Operating Ambient Temperature
Storage Temperature
• Supports driving without input electrolytic
capacitor
Ratings
LC5205D
Unit
LC5210D
450
450
0.5
V
V
A
V
V
W
℃
1.0
–0.3 to VREG + 0.3
–0.3 to + 4
1.73
150
72
60
–40 to + 105
–40 to + 150
℃/W
Conditions
Excluding when tw is less than 1µs
Excluding when tw is less than 1µs
When using a Sanken evaluation board
When using a Sanken evaluation board
℃
℃
*1: The output current value may be limited depending on the duty ratio, ambient temperature, and heating condi-
• Power factor correction (PFC) application circuit
• Triac dimmer control application circuit
tions. Do not exceed the junction temperature Tj under any circumstances.
*2: The power dissipation PD depends on the pattern layout of the circuit board used.
■Applications
• LED light bulbs
• LED lighting equipment
■Recommended Operating Conditions
Ratings
Parameter
Main Supply Voltage
Output Current (Average)
REF Input Voltage
Case temperature*
Symbol
VBB
Io
VRef
Tc
LC5205D
min.
25
LC5210D
max.
400
0.4
0.8
105
min.
25
Unit
max.
400
0.8
0.8
105
V
A
V
℃
*: At the center of the marking (when there is no fin)
■Electrical Characteristics
Ratings
Parameter
Symbol
min.
Main Supply Current
Output MOSFET
Breakdown Voltage
Output MOSFET
ON Resistance
Output MOSFET Diode
Forward Voltage
Reg Output Voltage
Reg Maximum Output Current
Maximum Input
Response Frequency
REF Input Voltage
REF Input Current
Sense Voltage
Sense Input Current
Overcurrent
Sense Voltage
UVLO Release
Voltage
UVLO Operation
Voltage
TSD Operating
Temperature
TSD Temperature
Hysteresis
Blanking Time
142
ICs
IBB
Conditions
IBBs
Conditions
VDS(BR)
Conditions
RDS(on)
Conditions
VF
Conditions
VReg
Conditions
IReg
fclk
Conditions
VRef
IRef
VSen
ISen
Vocp
Conditions
VUVLOon
Conditions
VUVLOoff
Conditions
TTSD
Conditions
TTSDhys
Conditions
tBLK
LC5205D
typ.
2.0
During operation
0.8
When the output is off
max.
1.2
450
11.5
min.
LC5210D
typ.
2.0
During operation
0.8
When the output is off
mA
1.2
mA
450
ID=1mA
3.5
ID=0.5A
0.8
ID=0.5A
12.0
IReg=0.1mA
12.5
11.5
ID=1mA
1.7
ID=1.0A
0.88
ID=1.0A
12.0
IReg=0.1mA
2
200
V
Ω
V
12.5
V
2
mA
200
duty=50%
0
VRef –30
Unit
max.
±10
VRef
±10
3
At the Sen pin
14
At the VBB voltage
13
At the VBB voltage
150
Control IC chip temperature
55
Control IC chip temperature
400
kHz
duty=50%
1
VRef +30
0
VRef –30
1
±10
VRef
±10
3
At the Sen pin
14
At the VBB voltage
13
At the VBB voltage
150
Control IC chip temperature
55
Control IC chip temperature
400
VRef +30
V
µA
mV
µA
V
V
V
℃
℃
ns
LC5200 Series
■External Dimensions (DIP8)
(Unit : mm)
Pin No.
1
2
3
4
5
6
7
8
9.4±0.3
5
1
4
1.52 +0.3
-0.05
6.5±0.2
8
+0.3
1.0 -0.05
■Pin Assignment
Symbol
Reg
PWM
Ref
Sen
OUT
VBB
NC
GND
Function
12-V Reg output pin
CR connection pin for setting PWM
Reference voltage input pin for controlling PWM
Load current sense pin
Load output pin
Main power supply pin
Pin removed
Device ground pin
3.3±0.2
4.2±0.3
7.5±0.5
3.4±0.1
7.6TYP
0.25 +0.1
-0.05
2.54TYP
0~15°
0.89TYP
0~15°
0.5±0.1
■Ta-PD Characteristics
■Block Diagram
Control IC
PWM
Allowable Package Power
Dissipation PD in Watts
OUT
Ambient Temperature Ta [°C]
■Typical Connection Diagram
ICs
143
1-3-1 LED Lighting ICs
LC5500 Series LED Driver ICs
■Features
• Two type of packages available: DIP8 (LC551xD/LC552xD) and TO-220F-7L (LC552xF)
• Built-in startup circuit: eliminates need for external component for startup, reducing the number of components
• Backup possible by using a ceramic capacitor
• Built-in soft start function: reduces load on the power MOSFET and output diodes at power-on
• Built-in leading edge blanking timer: eliminates the need for an external filter, reducing the number of components
• Built-in maximum ON time limiting circuit
• Built-in ON width control circuit
• Protection functions
Overcurrent protection (OCP): Pulse by pulse
Overvoltage protection (OVP): Intermittent oscillation
Overload protection (OLP):
Intermittent oscillation
Thermal shutdown (TSD):
Latch off*
*: Latch off is an operation in which protection is performed while oscillation is stopped.
• Avalanche energy capacity guaranteed by 2-chip structure, simplifying the surge absorption circuit
■Applications
• LED light bulbs
• LED lighting equipment
■Lineup
Part Number
LC5511D
LC5513D
LC5521D
LC5523D
LC5523F
MOS FET
VDSS(min.)
RDS(ON)
(max.)
3.95Ω
1.9Ω
3.95Ω
650V
Isolated/Non-isolated
Package
Non-isolated
DIP8
Isolated
1.9Ω
T0220F-7L
POUT*
230 VAC/Universal
13W/10W
20W/16W
13W/10W
20W/16W
60W/40W
*: The output power values in the table above are those at the rated temperature. Output at 120 to 140% of the rated temperature is possible for the maximum output
power.
Note, however, that the output power may be limited by a low output voltage and by the ON duty specified during transformer design.
■Electrical Characteristics
Parameter
min.
Ratings
typ.
13.8
8.4
15.1
9.4
ICC(STARTUP)
Vcc(BIAS)1
Vcc(BIAS)2
42
–5.5
9.5
14.4
fosc
TON(max.)
VFB(min.)
IFB(max.)
TBW
VBD(TH1)
VBD(TH2)
VOCP
IOCP
Symbol
max.
Unit
Remarks
1.Control
Power Supply Startup Operation Operation Startup Voltage
Operation Stop Voltage
Circuit Current During Operation
Startup Circuit Operation Voltage
Startup Current
Startup Current Supply Threshold Voltage 1
Startup Current Supply Threshold Voltage 2
Normal Operation Minimum Oscillation Frequency
Maximum ON Time
FB Pin Control Lower Voltage
Maximum Feedback Current
Leading Edge Blanking Time
Quasi-Resonant Operation Threshold Voltage 1
Quasi-Resonant Operation Threshold Voltage 2
Protection Operation Overcurrent Detection Threshold Voltage
OCP Pin Outflow Current
OCP Pin OVP Operation Voltage
OLP Threshold Voltage 1
OLP Threshold Voltage 2
OVP Pin Threshold Voltage
Vcc Pin OVP Operation Voltage
Thermal Shutdown Temperature
Vcc(ON)
Vcc(OFF)
Icc(ON)
VSTARTUP
VBD(OVP)
VFB(OLP)1
VFB(OLP)2
VOVP
Vcc(OVP)
Tj(TSD)
57
–3.0
11.0
16.6
17.3
10.7
3.7
72
–1.0
12.5
18.8
V
V
mA
V
mA
V
V
11.0
30.0
0.55
–10
―
0.14
0.12
14.0
40.0
0.90
–25
500
0.24
0.17
18.0
50.0
1.25
–40
―
0.34
0.22
kHz
µs
V
µA
ns
V
V
–0.54
–120
2.2
5.0
4.1
1.6
28.5
135
–0.60
–40
2.6
5.5
4.5
2.0
31.5
―
–0.66
–10
3.0
6.0
4.9
2.4
34.0
―
V
µA
V
V
V
V
V
℃
300
3.95
1.9
250
400
42
35.5
3.1
V
µA
Ω
Ω
ns
ns
℃/W
℃/W
℃/W
2.MOSFET
Drain-Source Voltage Drain Leakage Current
ON Resistance
Switching Time
Thermal Resistance
144
ICs
VDSS
IDSS
RDS(ON)
RDS(ON)
tf
tf
θch-c
θch-c
θch-F
650
LC5511D/LC5521D
LC5513D/LC5523D, F
LC5511D/LC5521D
LC5513D/LC5523D, F
Between channel and case for the LC5511D and LC5521D
Between channel and case for the LC5513D and LC5523D
Between channel and internal frame for the LC5523F
LC5500 Series
■Pin Assignment
LC5511D/LC5513D
Pin No.
1
2
3
4
5
6
8
Symbol
S/GND
VCC
OCP
COMP
NF
ISENSE
D/ST
LC5521D/LC5523D/LC5523F
Pin No.
LC5521D/LC5523D LC5523F
1
2
2
4
3
5
4
6
5
3
6
7
8
1
Function
MOSFET source/GND for control
Control circuit power input
Overcurrent protection/Quasi-Resonant signal input
Feedback phase compensation
−
Feedback current detection
MOSFET drain/startup current input
Pin Symbol
S/GND
VCC
OCP
FB
NF(NC)
OVP
D/ST
Function
MOSFET source/GND for control
Control circuit power input
Overcurrent protection/Quasi-Resonant signal input
Feedback signal input/overload protection signal input
−
Overvoltage protection signal input
MOSFET drain/startup current input
■Typical Connection Diagram
LC5511D/LC5513D
LC5521D/LC5523D/LC5523F
■External Dimensions (DIP8/TO220F-7L)
(Unit : mm)
TO220F-7L
9.4±0.3
Gate burr
5
4.2±0.2
2.6±0.2
LC
(1.1)
a
b
2.6±0.1
1.3
3.3±0.2
2.54TYP
5×P1.17±0.15
=5.85±0.15
2±0.15
0.25 +0.1
0.45 +0.2
–0.1
(Measured at the root)
-0.05
0~15°
0.89TYP
7-0.62±0.15
7-0.55 +0.2
–0.1
4.2±0.3
7.5±0.5
3.4±0.1
7.6TYP
13.5±0.5
+0.3
1.0 -0.05
2.8
(Measured
at the root)
4
+0.3
1.52 -0.05
1
φ 3.2±0.2
15±0.3
6.5±0.2
(14)
8
2.8±0.2
DIP8
10.1±0.2
0~15°
0.5±0.1
1
2 3 4 5 6 7
ICs
145
1-3-2 Household HID Lamp Driver ICs
SLA2601M/SLA2602M H Bridge, Enable Pin, Built-in Thermal Shutdown Circuit
■Features
• Full-bridge MOSFETs and a pre-drive IC are integrated into a single package
• Supports CMOS (3.3 and 5 V) input levels
• Built-in undervoltage lock out (UVLO) circuit (auto regression)
• Built-in thermal shutdown (TSD) circuit
• Built-in dead time function
• SIP power package
■Absolute Maximum Ratings
Parameter
Symbol
MOSFET Breakdown Voltage
Control Supply Voltage
Control Supply Voltage
Output Current (continuous)
Output Current (pulse)
FO Output Current
Input Voltage
Power Dissipation
Thermal Resistance (Junction to Ambient Air)
Operating Case Temperature
Junction Temperature (Power part)
Storage Temperature
VDSS
Vcc
VBS
Io
IOP
IFO
VIN
PD
θj-c
TOP
Tj
Tstg
(T
(Taa=25℃)
=25℃)
Ratings
SLA2601M
Unit
SLA2602M
250
20
20
14
21
V
V
V
A
A
mA
V
W
℃/W
℃
℃
℃
7
10.5
8
–0.5 to +7
41.6
3.0
–20 to +100
150
–40 to +150
Conditions
ID=100uA
Between VCC and COM
Between VB and VM1, VM2
Tc=25℃
PW≤100µs, duty=1%
EN, IN, FO
TC=25℃, all elements operating
All elements operating
■Recommended Operating Conditions
Ratings
Parameter
Main Supply Voltage
Control Supply Voltage
Boot Strap Capacitor Capacity
FO Pull-up Resistance
FO Capacitor Capacity
IN Pin Frequency
Junction Temperature
Symbol
SLA2601M
min.
−
13.5
10
0.68
0.001
−
−
VBB
Vcc
Cboot
RFO
CFO
FIN
Tj
SLA2602M
max.
200
17.5
−
10
0.01
150
125
min.
−
13.5
10
0.68
0.001
−
−
Unit
max.
200
17.5
−
10
0.01
150
125
V
V
uF
kΩ
uF
kHz
℃
Conditions
Between VBB and LS/COM
Between VCC and COM
■Electrical Characteristics
(Ta=25℃)
Ratings
Parameter
min.
−
−
−
1
−
9
9.5
10
10.5
0
3.6
135
105
−
250
−
SLA2601M
typ.
2
135
2
1.5
230
−
−
−
−
−
−
150
120
430
−
−
max.
−
−
2.5
−
500
11
11.5
12
12.5
1
5
165
135
−
−
100
min.
−
−
−
1
−
9
9.5
10
10.5
0
3.6
135
105
−
250
−
SLA2602M
typ.
2
135
2
1.5
230
−
−
−
−
−
−
150
120
430
−
−
max.
−
−
2.5
−
500
11
11.5
12
12.5
1
5
165
135
−
−
100
MOSFET DC ON Resistance RDS(on)
−
0.11
0.14
−
0.14
0.185
Ω
MOSFET Diode Forward Voltage
−
−
−
−
−
−
−
−
−
1
1290
100
900
30
1270
80
880
30
1.5
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
−
1
1260
40
850
15
1240
40
830
25
1.5
−
−
−
−
−
−
−
−
V
Control Supply Current
Boot Supply Current
Input Voltage (EN, IN, FO)
Input Current (EN, IN)
Undervoltage Lock Out (VB)
Undervoltage Lock Out (VCC)
FO Pin Output Voltage
Thermal Protection and
Release Threshold
Internal Dead Time
MOSFET Output Breakdown Voltage
MOSFET Output Leakage Current
High Side Switching Time
Low Side Switching Time
146
ICs
Symbol
Icc
IB
VIH
VIL
IIH
VUVHL
VUVHH
VUVLL
VUVLH
VFO(L)
VFO(H)
TDH
TDL
Tdead
VDSS
IDSS
VSD
td(on)
tr
td(off)
tf
td(on)
tr
td(off)
tf
Unit
mA
uA
Conditions
uA
Vcc=15V, FO=OPEN
VB=15V
Vcc=15V
Vcc=15V
Vcc=15V, EN,IN=5V
V
Between VB and VM1, VM2
V
Between VCC and COM
V
Vcc=15V, FO=OPEN
V
℃
Vcc=15V
ns
V
uA
Vcc=15V
ID=100uA
VDS=250V
VCC=15V, ID=7A
(3.5A for the SLA2602M),EN=5V
ISD=7A (3.5A for the SLA2602M)
ns
ns
VBB=200V, VCC=15V, ID=7A
(3.5A for the SLA2602M), EN=5V, R load
VBB=200V, VCC=15V, ID=7A
(3.5A for the SLA2602M), EN=5V, R load
SLA2601M/SLA2602M
■Typical Connection Diagram
The input pull-down resistor is built in IC (about 22
kΩ). However, if the input is expected to be unstable
or to fluctuate greatly, it needs to be reinforced using
an external resistor.
Attach capacitors near the IC. Attach a ceramic
capacitor in parallel with the electrolytic capacitor if
too much noise is generated.
When inserting a current sense resistor between
LS1/LS2 and COM, make sure to specify the
resistance so that the voltage between LS1/LS2 and
COM is 1 V or less.
■Pin Assignment
Pin No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
Symbol
LSI
VM1
VM1
(LG1)
(LG1)
VBB1
VB1
(LG1)
(LG1)
EN
IN
COM
COM
VCC
FO
(LG2)
(LG2)
VB2
VBB2
(LG2)
(LG2)
VM2
VM2
LS2
■Truth Table
Function
MOSFET L1 source pin/MOSFET L2 source pin
MOSFET H1 source pin/MOSFET L1 drain pin
Same as above
Cut pin (MOSFET L1 gate pin)
Same as above
MOSFET H1 drain pin/MOSFET H2 drain pin
High side floating power supply pin 1
Cut pin (MOSFET L1 gate pin)
Same as above
Input pin for enabling output
Input pin for switching output
Pre-drive IC ground pin
Same as above
Pre-drive IC power supply pin
Fo signal output pin
Cut pin (MOSFET L2 gate drive pin)
Same as above
High side floating power supply pin 2
MOSFET H1 drain pin/MOSFET H2 drain pin
Cut pin (L2 gate drive pin)
Same as above
MOSFET H2 source pin/MOSFET L2 source pin
Same as above
MOSFET L1 source pin/MOSFET L2 source pin
EN
IN
FO
H1
H2
L1
L2
L
X
H
H
X
X
H
L
X
H
L
L
OFF
OFF
ON
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
ON
OFF
OFF
ON
OFF
■External Dimensions (ZIP24 with Fin [SLA24Pin])
(Unit : mm)
31±0.2
31±0.2
24.4±0.2
16.4±0.2
Gate burr
4.8±0.2
24.4±0.2
1.7±0.1
16.4±0.2
Gate burr
φ3.2±0.15 X 3.8
1.7±0.1
23 X P1.27±0.7=29.21±1
(Measured at the tip)
31.3±0.2
(Including the resin burr)
0.6 +0.15
-0.05
0.5 +0.15
-0.05
23 X P1.27±0.7=29.21±1
(Measured at the tip)
4.5±0.7
(Measured at the tip)
31.3±0.2
(Including the resin burr)
Pins 4, 5, 8, 9, 16, 17, 20, and 21 are
cut pins.
4
3
6
5
8
7
10
9
12
11
14
13
16
15
18
17
20
19
22
21
(10.4)
2-(R1)
0.5 +0.15
-0.05
(6.3)
16±0.2
Pins 4, 5, 8, 9, 16, 17, 20, and 21 are
cut pins.
Forming No. 2179
24
23
R-end
2.45±0.2
(Measured at the root)
2.5±0.6
(Measured at the tip)
Forming No. 2176
2
1
12.9±0.2
B
3±0.5
0.6 +0.15
-0.05
(4.5)
R-end
A
9.3±0.5
4-(R1)
9.9±0.2
JAPAN
2.45±0.2
(Measured at the root)
2MAX
B
9.5 +0.7
-0.5
MAX
A
5±0.5
9.9±0.2
JAPAN
16±0.2
φ3.2±0.15
12.9±0.2
φ3.2±0.15
4.8±0.2
φ3.2±0.15 X 3.8
2
1
4
3
6
5
8
7
10
9
12
11
14
13
16
15
18
17
20
19
22
21
24
23
Product Mass: Approx. 6.2 g
ICs
147
148
ICs
Transistors
2
○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○
Ordering Information & Standard Packing Quantities .............. 150
Application Note ............................................................................... 152
2-1
Transistors ............................................................................. 153
Selection Guide .................................................................... 153
• VCEO -IC ............................................................................. 153
• Audio Transistors ............................................................ 154
• Switching Transistors ..................................................... 155
Specifications List by Part Number .................................. 156
2-2
MOS FETs .............................................................................. 163
Selection Guide .................................................................... 163
• By VDSS ............................................................................ 163
Specifications List by Part Number .................................. 164
2-3
IGBT ........................................................................................ 167
Selection Guide .................................................................... 167
• By VCES ............................................................................ 167
Specifications List by Part Number .................................. 168
2-4
Transistor and MOS FET Arrays ....................................... 170
Specifications List by Part Number .................................. 170
Specifications List by Application .................................... 172
• Sink Driver Arrays ........................................................... 172
• Source Driver Arrays ...................................................... 174
• Motor Driver Arrays ........................................................ 176
• Partial switching PFC Arrays ......................................... 180
Package Type (Dimensions) ........................................................... 185
○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○
2 Transistors
Ordering Information
All products listed must be ordered in standard packing increments.
Series Name/
Product Name
Standard Packing Quantities
Package
Series Name/
Product Name
Standard Packing Quantities
Package
Bulk
Taping
Bulk
Taping
2SA1186
TO3P
500(Box)/1080(Stick)
–
2SC3284
TO3P
500(Box)/1080(Stick)
–
2SA1215
MT200
250(Box)
–
2SC3519
TO3P
500(Box)/1080(Stick)
–
2SA1216
MT200
250(Box)
–
2SC3519A
TO3P
500(Box)/1080(Stick)
–
2SA1294
TO3P
500(Box)/1080(Stick)
–
2SC3835
TO3P
500(Box)/1080(Stick)
–
2SA1295
MT200
250(Box)
–
2SC3851
TO220F
1000(Box)/3750(Stick)
–
2SA1303
TO3P
500(Box)/1080(Stick)
–
2SC3851A
TO220F
1000(Box)/3750(Stick)
–
2SA1386
TO3P
500(Box)/1080(Stick)
–
2SC3852
TO220F
1000(Box)/3750(Stick)
–
2SA1386A
TO3P
500(Box)/1080(Stick)
–
2SC3852A
TO220F
1000(Box)/3750(Stick)
–
2SA1488
TO220F
1000(Box)/3750(Stick)
–
2SC3856
TO3P
500(Box)/1080(Stick)
–
2SA1488A
TO220F
1000(Box)/3750(Stick)
–
2SC3857
MT200
250(Box)
–
2SA1492
TO3P
500(Box)/1080(Stick)
–
2SC3858
MT200
250(Box)
–
2SA1493
MT200
250(Box)
–
2SC3927
TO3P
500(Box)/1080(Stick)
–
–
2SA1494
MT200
250(Box)
–
2SC4024
TO220F
1000(Box)/3750(Stick)
2SA1567
TO220F
1000(Box)/3750(Stick)
–
2SC4131
TO3PF
500(Box)/1080(Stick)
–
2SA1568
TO220F
1000(Box)/3750(Stick)
–
2SC4138
TO3P
500(Box)/1080(Stick)
–
2SA1667
TO220F
1000(Box)/3750(Stick)
–
2SC4140
TO3P
500(Box)/1080(Stick)
–
2SA1668
TO220F
1000(Box)/3750(Stick)
–
2SC4153
TO220F
1000(Box)/3750(Stick)
–
2SA1673
TO3PF
500(Box)/1080(Stick)
–
2SC4300
TO3PF
500(Box)/1080(Stick)
–
2SA1693
TO3P
500(Box)/1080(Stick)
–
2SC4301
TO3PF
500(Box)/1080(Stick)
–
2SA1694
TO3P
500(Box)/1080(Stick)
–
2SC4304
TO220F
1000(Box)/3750(Stick)
–
2SA1695
TO3P
500(Box)/1080(Stick)
–
2SC4381
TO220F
1000(Box)/3750(Stick)
–
2SA1725
TO220F
1000(Box)/3750(Stick)
–
2SC4382
TO220F
1000(Box)/3750(Stick)
–
–
2SA1746
TO3PF
500(Box)/1080(Stick)
–
2SC4388
TO3PF
500(Box)/1080(Stick)
2SA1859
TO220F
1000(Box)/3750(Stick)
–
2SC4445
TO3PF
500(Box)/1080(Stick)
–
2SA1859A
TO220F
1000(Box)/3750(Stick)
–
2SC4466
TO3P
500(Box)/1080(Stick)
–
2SA1860
TO3PF
500(Box)/1080(Stick)
2SC4467
TO3P
500(Box)/1080(Stick)
–
2SA1907
TO3PF
500(Box)/1080(Stick)
–
2SC4468
TO3P
500(Box)/1080(Stick)
–
2SA1908
TO3PF
500(Box)/1080(Stick)
–
2SC4495
TO220F
1000(Box)/3750(Stick)
–
2SA1909
TO3PF
500(Box)/1080(Stick)
–
2SC4511
TO220F
1000(Box)/3750(Stick)
–
2SA2151
TO3P
500(Box)/1080(Stick)
–
2SC4518
TO220F
1000(Box)/3750(Stick)
–
2SA2151A
TO3P
500(Box)/1080(Stick)
–
2SC4518A
TO220F
1000(Box)/3750(Stick)
–
2SA2223
TO3P
500(Box)/1080(Stick)
–
2SC4546
TO220F
1000(Box)/3750(Stick)
–
2SB1257
TO220F
1000(Box)/3750(Stick)
–
2SC4706
TO3P
500(Box)/1080(Stick)
–
2SB1258
TO220F
1000(Box)/3750(Stick)
–
2SC4883
TO220F
1000(Box)/3750(Stick)
–
2SB1259
TO220F
1000(Box)/3750(Stick)
–
2SC4883A
TO220F
1000(Box)/3750(Stick)
–
2SB1351
TO220F
1000(Box)/3750(Stick)
–
2SC4886
TO3PF
500(Box)/1080(Stick)
–
2SB1382
TO3PF
500(Box)/1080(Stick)
–
2SC5071
TO3P
500(Box)/1080(Stick)
–
2SB1383
TO3P
500(Box)/1080(Stick)
–
2SC5099
TO3PF
500(Box)/1080(Stick)
–
2SB1420
TO3P
500(Box)/1080(Stick)
–
2SC5100
TO3PF
500(Box)/1080(Stick)
–
2SB1559
TO3P
500(Box)/1080(Stick)
–
2SC5101
TO3PF
500(Box)/1080(Stick)
–
2SB1560
TO3P
500(Box)/1080(Stick)
–
2SC5130
TO220F
1000(Box)/3750(Stick)
–
2SB1570
MT200
250(Box)
–
2SC5287
TO3P
500(Box)/1080(Stick)
–
2SB1587
TO3PF
500(Box)/1080(Stick)
–
2SC6011
TO3P
500(Box)/1080(Stick)
–
2SB1588
TO3PF
500(Box)/1080(Stick)
–
2SC6011A
TO3P
500(Box)/1080(Stick)
–
2SB1647
TO3P
500(Box)/1080(Stick)
–
2SC6145
TO3P
500(Box)/1080(Stick)
–
2SB1648
MT200
250(Box)
–
2SD1785
TO220F
1000(Box)/3750(Stick)
–
2SB1649
TO3PF
500(Box)/1080(Stick)
–
2SD1796
TO220F
1000(Box)/3750(Stick)
–
2SC2837
TO3P
500(Box)/1080(Stick)
–
2SD2014
TO220F
1000(Box)/3750(Stick)
–
2SC2921
MT200
250(Box)
–
2SD2015
TO220F
1000(Box)/3750(Stick)
–
2SC2922
MT200
250(Box)
–
2SD2016
TO220F
1000(Box)/3750(Stick)
–
2SC3263
TO3P
500(Box)/1080(Stick)
–
2SD2017
TO220F
1000(Box)/3750(Stick)
–
2SC3264
MT200
250(Box)
–
2SD2045
TO3PF
500(Box)/1080(Stick)
–
150
Transistors
2 Transistors
Standard Packing Quantities
Series Name/
Product Name
Package
2SD2081
TO220F
1000(Box)/3750(Stick)
2SD2082
TO3PF
Standard Packing Quantities
Series Name/
Product Name
Package
Bulk
Taping
–
SDC06
PS16Pin
–
1200
500(Box)/1080(Stick)
–
SDC07
PS16Pin
–
1200
Bulk
Taping
2SD2083
TO3P
500(Box)/1080(Stick)
–
SDH02
PS16Pin
–
1200
2SD2141
TO220F
1000(Box)/3750(Stick)
–
SKP202
TO263(Surface-mount)
–
800
2SD2389
TO3P
500(Box)/1080(Stick)
–
SKP253
TO263(Surface-mount)
–
800
2SD2390
TO3P
500(Box)/1080(Stick)
–
SLA4xxx
SLA12Pin
250(Box)/1080(Stick)
–
2SD2401
MT200
250(Box)
–
SLA4xxx
SLA21Pin
250(Box)/1080(Stick)
–
2SD2438
TO220F
1000(Box)/3750(Stick)
–
SLA5xxx
SLA12Pin
250(Box)/1080(Stick)
–
2SD2439
TO3PF
500(Box)/1080(Stick)
–
SLA5xxx
SLA15Pin
250(Box)/1080(Stick)
–
2SD2560
TO3P
500(Box)/1080(Stick)
–
SLA6xxx
SLA12Pin
250(Box)/1080(Stick)
–
2SD2561
MT200
250(Box)
–
SMA4xxx
SMA12Pin
1440(Stick)
–
2SD2562
TO3PF
500(Box)/1080(Stick)
–
SMA5xxx
SMA12Pin
1440(Stick)
–
–
2SD2641
TO3P
500(Box)/1080(Stick)
–
SMA5xxx
SMA15Pin
1440(Stick)
2SD2642
TO220F
1000(Box)/3750(Stick)
–
SMA6xxx
SMA12Pin
1440(Stick)
–
2SD2643
TO3PF
500(Box)/1080(Stick)
–
STAxxx
STA8Pin
1000(Box)/4050(Stick)
–
2SK2420
TO220F
3750(Stick)
–
STAxxx
STA10Pin
3200(Box)/3300(Stick)
–
2SK2701A
TO220F
3750(Stick)
–
STD01N
TO3P-5
500(Box)/1080(Stick)
–
2SK2778
TO220F
3750(Stick)
–
STD01P
TO3P-5
500(Box)/1080(Stick)
–
2SK2779
TO220F
3750(Stick)
–
STD03N
TO3P-5
500(Box)/1080(Stick)
–
2SK2803
TO220F
3750(Stick)
–
STD03P
TO3P-5
500(Box)/1080(Stick)
–
2SK2848
TO220F
3750(Stick)
–
2SK2943
TO220F
3750(Stick)
–
2SK3003
TO220F
3750(Stick)
–
2SK3004
TO220F
3750(Stick)
–
2SK3199
TO220F
3750(Stick)
–
1000
2SK3710A
TO220S(Surface-mount)
–
2SK3711
TO3P
1080(Stick)
–
2SK3800
TO220S(Surface-mount)
–
1000
2SK3801
TO3P
1080(Stick)
–
EKV550
TO220
1000(Stick)
–
FGT312
TO220F
3750(Stick)
–
FGT313
TO220F
3750(Stick)
–
FGT412
TO220F
3750(Stick)
–
FGT612
TO220F
3750(Stick)
–
FGM603
TO3PF
1080(Stick)
–
FKP202
TO220F
3750(Stick)
–
FKP250A
TO3PF
1080(Stick)
–
FKP252
TO220F
3750(Stick)
–
FKP253
TO220F
3750(Stick)
–
FKP280A
TO3PF
1080(Stick)
–
FKP300A
TO3PF
1080(Stick)
–
FKP330C
TO3PF
1080(Stick)
–
FKV460S
TO220S(Surface-mount)
–
1000
FKV550N
TO220F
3750(Stick)
–
FKV550T
TO220F
3750(Stick)
–
TO220F
3750(Stick)
–
TO220S(Surface-mount)
–
1000
FKV575
FKV660S
MGD623N
TO3P
1080(Stick)
–
MGD623S
TO3P
1080(Stick)
–
SDA05
PS16Pin
–
1200
SDC03
PS16Pin
–
1200
SDC04
PS16Pin
–
1200
Transistors
151
2 Transistors
Application Note
Since reliability can be affected adversely by improper storage environment or handling methods during Characteristic tests, please observe the
following cautions.
■ Cautions for Storage
●Ensure that storage conditions comply with the normal temperature (5 to
35°C) and the normal relative humidity (around 40 to 75%), and avoid
storage locations that experience high temperature and humidity, or
extreme changes in temperature or humidity.
●Avoid locations where dust or harmful gases are present, and avoid
direct sunlight.
●Reinspect the devices for rust in leads and solderability after stored for a
long time.
■ Cautions for Characteristic Tests and Handling
On characteristics test at incoming inspection, etc, take good care to avoid
the surge voltages from the test equipment, the short circuit at terminals,
or the wrong connection.
■ Silicone Grease
When using a heatsink, please coat thinly and evenly the back surface of
the device and both surfaces of the insulating plate with silicone grease to
lower the thermal resistance between the device and the heatsink.
Please select proper silicone grease carefully since the oil in some grease
products may penetrate the device and result in an extremely short device
life.
Recommended Silicone Grease
• G-746 (Shin-Etsu Chemical)
• YG6260 (Momentive Performance Materials Inc.)
• SC102 (Dow Corning Toray Silicone)
■ Mounting Torque
When mounting torque is insufficient, thermal resistance increases, and so
heat radiation effect is decreased. When the torque is excessive, the
screw may be broken, the heatsink may be deformed, and the device
frame may be distorted, resulting in the device damage. Recommended
mounting torque per package is as follows:
● Mounting Torque Table
Package
TO-220 (MT-25)
TO-220F (FM20)
TO-3P (MT-100)
TO-3PF(FM100 )
MT-200 (fixed at two points)
SIP with Fin (SLA)
Screw Torque
0.490 to 0.686 N•m (5 to 7kgf•cm)
0.686 to 0.882 N•m (7 to 9kgf•cm)
0.588 to 0.784 N•m (6 to 8kgf•cm)
* When the surface of a heatsink where Full Mold package is to be
mounted is not flat due to the burred metal bracket for screwing around
the mounting hole of the heatsink, the resin of the package might be
cracked even if the torque is lower than the recommended value.
* When a screw is fastened with an air driver for the Full Mold package, a
large impact is generated at the time of stop, and the resin may crack
even if the torque is lower than the recommended value. An electric
driver, therefore, should be used instead of an air driver.
152
Transistors
■ Heatsink
A larger contact area between the device and the heatsink is required for
more effective heat radiation. To ensure a larger contact area, minimize
mounting holes. And select a heatsink with a surface smooth enough and
free from burrs and slivers.
■ Soldering Temperature
In general, the device mounted on a printed circuit board is subjected to
high temperatures from flow solder in a solder bath, or, from a soldering
iron at hand soldering.
The testing method and test conditions (JIS-C-7021 standards) for a
device's heat resistance to soldering are:
At a distance of 1.5mm from the device's main body, apply 260°C for 10
seconds, and 350°C for 3 seconds.
Please observe these limits and finish soldering in as short a time as
possible.
■ Antistatic Measure for Power MOS FET Arrays
●When handling the device, body grounding is necessary. Wear a wrist
strap with a 1 MΩ resistor close to the body in the wrist strap to prevent
electric shock.
●Use a conductive tablemat and a floor mat at the device-handling
workbench and ground them properly.
●When using a curve tracer or other measuring equipment, ground them
as well.
●In soldering, ground the soldering iron tip and the solder bath to prevent
a leakage voltage from damaging the device.
●As an antistatic measure for device containers, use Sanken shipping
containers or a conductive containers, or use aluminum foils.
Since reliability can be affected adversely by improper storage
environment or handling methods during Characteristic tests, please
observe the following cautions.
2-1 Transistors
Selection Guide
V CEO-I C
C4304
C4445
800
C4300
600
550
C4706
C4518
C4518A
C5287
400
380
250
230
Collector–Emitter Voltage VCEO(V)
C4301
C3927
C5130
C4138
C4546
C4140
C5071
D2141
D2017
200
A1668
C4382
180
A1859A
C4883A
D2016
160
150
A1667
A1859
C4381
C4883
B1559
B1587
D2389
D2438
140
120
D2015
D1785
D2045
C3852A
A1488A
C3851A
D2014
60
C3852
A1488
B1257
C3851
D1796
50
C4495
2
3
A1694
A1908
C4467
C5100
A1303
A1860
C3284
C4886
A1494
C3858
A1216
C2922
B1648
D2561
B1382
B1420
D2082
B1383
D2083
A1568
B1351
C4024
4
B1570
D2401
A1295
C3264
D2641
D2642
D2643
B1258
A1693
A1725
A1907
C4466
C4511
C5099
110
100
80
C3835
C4153
A1186
B1560
B1588
C2837
D2390
D2439
A1695
A1909
C4468
C5101
B1259
D2081
A1294
C3263
A2151A
C6011A
2SA2223
2SC6145
A1493
C3857
A2151
C6011
A1386A
A1492
A1673
C3519A
C3856
C4388
A1215
A1386
C2921
C3519
B1647
B1649
D2560
D2562
5
6
7
8
10
A1567
A1746
12
C4131
14
15
16
17
18
25
Collector Current IC(A)
Transistors
153
2-1 Transistors
Audio Transistors
■Output Transistors
Chip
Pc
Ic
VCEO
(W)
(A)
(V)
30
60
75
80
85
100
125
130
150
160
200
Single Transistors
Package
General
Darlington
LAPT
6
80
2SA1725
2SC4511
TO-220F (FM20)
6
80
2SA1693
2SC4466
TO-3P (MT-100)
6
80
2SA1907
2SC5099
TO-3PF (FM100)
8
120
2SA1908
2SC5100
8
150
8
120
2SA1694
2SC4467
10
140
2SA1909
2SC5101
8
150
2SB1559
2SD2389
TO-3P (MT-100)
10
150
2SB1588
2SD2439
TO-3PF (FM100)
14
150
15
150
2SB1649
2SD2562
15
180
2SA1673
2SC4388
10
140
2SA1695
2SC4468
10
150
10
150
14
150
15
150
15
160
15
180
15
TO-3PF (FM100)
2SB1587
2SD2438
TO-3PF (FM100)
TO-3P (MT-100)
TO-3PF (FM100)
2SA1860
2SC4886
TO-3PF (FM100)
TO-3PF (FM100)
TO-3PF (FM100)
TO-3P (MT-100)
2SA1186
2SC2837
2SA1303
TO-3P (MT-100)
2SB1560
2SD2390
2SB1647
2SD2560
TO-3P (MT-100)
2SC3284
TO-3P (MT-100)
TO-3P (MT-100)
2SA1386
2SC3519
180
2SA1386A
2SC3519A
15
230
2SA1294
2SC3263
12
150
15
160
15
200
2SA1493
2SC3857
MT-200 (fixed at two points)
15
200
2SA2151
2SC6011
TO-3P (MT-100)
15
230
2SA2151A
2SC6011A
TO-3P (MT-100)
15
230
2SA2223
2SC6145
17
150
17
180
17
200
17
230
2SA1492
TO-3P (MT-100)
2SC3856
TO-3P (MT-100)
TO-3P (MT-100)
TO-3P (MT-100)
2SB1570
2SA1215
2SD2401
MT-200 (fixed at two points)
TO-3P (MT-100)
2SB1648
2SA1494
MT-200 (fixed at two points)
2SC2921
2SA1216
2SC2922
2SA1295
2SC3264
2SD2561
MT-200 (fixed at two points)
MT-200 (fixed at two points)
2SC3858
MT-200 (fixed at two points)
MT-200 (fixed at two points)
LAPT: Multi-Emitter for High Frequency
■Output Transistors with Temperature Compensating Function (Refer to our Web site for applications)
Pc (W)
IC (A)
VCEO (V)
Package
STD01P
Part Number
STD01N
100
10
150
TO3P-5pin
STD03P
STD03N
160
15
160
TO3P-5pin
■Driver and Temperature Compensating Transistors
Part Number
Pc (W)
fT (MHz)
Package
Remarks
2SC4495
25
VCEO (V)
50
Ic (A)
3
hFE (min)
500
40
TO-220F (FM20)
For temperature compensation
2SA1859
2SC4883
20
150
2
60
60/120
TO-220F (FM20)
Driver
2SA1859A
2SC4883A
20
180
2
60
60/120
TO-220F (FM20)
Driver
2SA1667
2SC4381
25
150
2
60
20/15
TO-220F (FM20)
Driver
2SA1668
2SC4382
25
200
2
60
20/15
TO-220F (FM20)
Driver
Refer to our Web site for the hFE ranks.
154
Transistors
2-1 Transistors
Switching Transistors
■DC-DC Converter
Part Number
VCBO
VCEO
IC
PC
(V)
(V)
(A)
(W)
50
10
35
TO-220F
100
15
60
TO-3PF
200
120
30
TO-220F
70
TO-3P
2SC4024
2SC4131
2SC4153
7
2SC3835
Package
■For AC100V Input
VCBO
VCEO
IC
PC
(V)
(V)
(A)
(W)
10
80
TO-3P
500
400
12
100
TO-3P
2SC4140
18
130
TO-3P
2SC5130
5
30
TO-220F
7
30
TO-220F
Part Number
2SC4138
2SC5071
600
400
2SC4546
Package
■For AC200V Input
Part Number
VCBO
VCEO
IC
PC
(V)
(V)
(A)
(W)
2SC4518
TO-220F
80
TO-3P
10
120
TO-3P
14
130
TO-3P
550
2SC3927
2SC4706
35
5
2SC5287
900
600
2SC4304
3
2SC4445
Package
800
35
TO-220F
60
TO-3PF
2SC4300
5
75
TO-3PF
2SC4301
7
80
TO-3PF
5
35
TO-220F
2SC4518A
1000
550
Transistors
155
2-1 Transistors
Specifications List by Part Number
Absolute Maximum Ratings
Part Number
Applications
VCBO
VCEO
Ic
Pc
(V)
(V)
(A)
(W)
ICBO
Conditions
VCB
(µA)
(V)
hFE
min
max
Conditions
VCE
Ic
(V)
(A)
2SA1186
Audio, general-purpose
–150
–150
–10
100
–100
–150
50
180
–4
–3
2SA1215
Audio, general-purpose
–160
–160
–15
150
–100
–160
50
180
–4
–5
2SA1216
Audio, general-purpose
–180
–180
–17
200
–100
–180
30
180
–4
–8
2SA1294
Audio, general-purpose
–230
–230
–15
130
–100
–230
50
140
–4
–5
2SA1295
Audio, general-purpose
–230
–230
–17
200
–100
–230
50
140
–4
–5
2SA1303
Audio, general-purpose
–150
–150
–14
125
–100
–150
50
180
–4
–5
2SA1386
Audio, general-purpose
–160
–160
–15
130
–100
–160
50
180
–4
–5
2SA1386A
Audio, general-purpose
–180
–180
–15
130
–100
–180
50
180
–4
–5
2SA1488
Audio, general-purpose
–60
–60
–4
25
–100
–60
40
–4
–1
2SA1488A
Audio, general-purpose
–80
–80
–4
25
–100
–80
40
–4
–1
2SA1492
Audio, general-purpose
–180
–180
–15
130
–100
–180
50
180
–4
–3
2SA1493
Audio, general-purpose
–200
–200
–15
150
–100
–200
50
180
–4
–5
2SA1494
Audio, general-purpose
–200
–200
–17
200
–100
–200
50
180
–4
–8
2SA1567
DC motor driver, chopper regulator, general-purpose
–50
–50
–12
35
–100
–50
50
–1
–6
2SA1568
DC motor driver, chopper regulator, general-purpose
–60
–60
±12
35
–100
–60
50
–1
–6
2SA1667
TV vertical output, audio output driver, general-purpose
–150
–150
–2
25
–10
–150
60
–10
–0.7
2SA1668
TV vertical output, audio output driver, general-purpose
–200
–200
–2
25
–10
–200
60
–10
–0.7
2SA1673
Audio, general-purpose
–180
–180
–15
85
–10
–180
50
180
–4
–3
2SA1693
Audio, general-purpose
–80
–80
–6
60
–10
–80
50
180
–4
–2
2SA1694
Audio, general-purpose
–120
–120
–8
80
–10
–120
50
180
–4
–3
2SA1695
Audio, general-purpose
–140
–140
–10
100
–10
–140
50
180
–4
–3
2SA1725
Audio, general-purpose
–80
–80
–6
30
–10
–80
50
180
–4
–2
2SA1746
Chopper regulator, switch, general-purpose
–70
–50
–12 (Pulse –20)
60
–10
–70
50
–1
–5
2SA1859
Audio output driver, TV velocity modulation
–150
–150
–2
20
–10
–150
60
240
–10
–0.7
2SA1859A
Audio output driver, TV velocity modulation
–180
–180
–2
20
–10
–180
60
240
–10
–0.7
2SA1860
Audio, general-purpose
–150
–150
–14
80
–100
–150
50
180
–4
–5
2SA1907
Audio, general-purpose
–80
–80
–6
60
–10
–80
50
180
–4
–2
2SA1908
Audio, general-purpose
–120
–120
–8
75
–10
–120
50
180
–4
–3
2SA1909
Audio, general-purpose
–140
–140
–10
80
–10
–140
50
180
–4
–3
2SA2151
Audio, general-purpose
–200
–200
–15
160
–10
–200
50
180
–4
–3
2SA2151A
Audio, general-purpose
–230
–230
–15
160
–10
–230
50
180
–4
–3
2SA2223
Audio, general-purpose
–230
–230
–15
160
–10
–230
40
140
–4
–5
2SB1257
Solenoid/relay/motor driver, general-purpose
–60
–60
–4 (Pulse –6)
25
–10
–60
2000
–4
–3
2SB1258
Solenoid/relay/motor driver, general-purpose
–100
–100
–6 (Pulse –10)
30
–10
–100
1000
–2
–3
2SB1259
Solenoid/relay/motor driver, general-purpose
–120
–120
–10 (Pulse –15)
30
–10
–120
2000
–4
–5
2SB1351
Printer head/solenoid/relay/motor driver, general-purpose
–60
–60
–12 (Pulse –20)
30
–10
–60
2000
–4
–10
2SB1382
Chopper regulator, DC motor driver, general-purpose
–120
–120
–16 (Pulse –26)
75
–10
–120
2000
–4
–8
2SB1383
Chopper regulator, DC motor driver, general-purpose
–120
–120
–25 (Pulse –40)
120
–10
–120
2000
–4
–12
2SB1420
Chopper regulator, DC motor driver, general-purpose
–120
–120
–16 (Pulse –26)
80
–10
–120
2000
–4
–8
2SB1559
Audio, series regulator, general-purpose
–160
–150
–8
80
–100
–160
5000
30000
–4
–6
2SB1560
Audio, series regulator, general-purpose
–160
–150
–10
100
–100
–160
5000
30000
–4
–7
2SB1570
Audio, series regulator, general-purpose
–160
–150
–12
150
–100
–160
5000
30000
–4
–7
2SB1587
Audio, series regulator, general-purpose
–160
–150
–8
75
–100
–160
5000
30000
–4
–6
2SB1588
Audio, series regulator, general-purpose
–160
–150
–10
80
–100
–160
5000
30000
–4
–7
2SB1647
Audio, series regulator, general-purpose
–150
–150
–15
130
–100
–150
5000
30000
–4
–10
2SB1648
Audio, series regulator, general-purpose
–150
–150
–17
200
–100
–150
5000
30000
–4
–10
2SB1649
Audio, series regulator, general-purpose
–150
–150
–15
85
–100
–150
5000
30000
–4
–10
156
Transistors
2-1 Transistors
Electrical Characteristics
VBE (sat)
Conditions
(V)
(V)
Ic
IB
max
max
(A)
(A)
VCE (sat)
MHz
fT
Conditions
VCE
IE
(V)
(A)
Mass
ton
Switching Time
tstg
tf
(µS)
(µS)
(µS)
Cob
Complementary
Package
(g)
(pF)
–2.0
–5
–0.5
60
–12
1
0.25typ
0.8typ
0.2typ
110typ
2SC2837
TO-3P (MT-100)
6.0
–2.0
–5
–0.5
50
–12
2
0.25typ
0.85typ
0.2typ
400typ
2SC2921
MT-200
18.4
–2.0
–8
–0.8
40
–12
2
0.3typ
0.7typ
0.2typ
500typ
2SC2922
MT-200
18.4
–2.0
–5
–0.5
35
–12
2
0.35typ
1.5typ
0.3typ
500typ
2SC3263
TO-3P (MT-100)
6.0
–2.0
–5
–0.5
35
–12
2
0.35typ
1.5typ
0.3typ
500typ
2SC3264
MT-200
18.4
–2.0
–5
–0.5
50
–12
2
0.25typ
0.85typ
0.2typ
400typ
2SC3284
TO-3P (MT-100)
6.0
–2.0
–5
–0.5
40
–12
2
0.3typ
0.7typ
0.2typ
500typ
2SC3519
TO-3P (MT-100)
6.0
–2.0
–5
–0.5
40
–12
2
0.3typ
0.7typ
0.2typ
500typ
2SC3519A
TO-3P (MT-100)
6.0
–0.5
–2
–0.2
15
–12
0.2
0.25typ
0.75typ
0.25typ
90typ
2SC3851
TO-220F (FM20)
2.0
–0.5
–2
–0.2
15
–12
0.2
0.25typ
0.75typ
0.25typ
90typ
2SC3851A
TO-220F (FM20)
2.0
–2.0
–5
–0.5
20
–12
0.5
0.6typ
0.9typ
0.2typ
500typ
2SC3856
TO-3P (MT-100)
6.0
–3.0
–10
–1
20
–12
0.5
0.3typ
0.9typ
0.2typ
400typ
2SC3857
MT-200
18.4
2SC3858
–2.5
–10
–1
20
–12
1
0.6typ
0.9typ
0.2typ
500typ
MT-200
18.4
–0.35
–6
–0.3
40
–12
0.5
0.4typ
0.4typ
0.2typ
330typ
TO-220F (FM20)
2.0
–0.35
–6
–0.3
40
–12
0.5
0.4typ
0.4typ
0.2typ
330typ
TO-220F (FM20)
2.0
–1.0
–0.7
–0.07
20
–12
0.2
0.4typ
1.5typ
0.5typ
60typ
2SC4381
TO-220F (FM20)
2.0
–1.0
–0.7
–0.07
20
–12
0.2
0.4typ
1.5typ
0.5typ
60typ
2SC4382
TO-220F (FM20)
2.0
–2.0
–5
–0.5
20
–12
0.5
0.6typ
0.9typ
0.2typ
500typ
2SC4388
TO-3PF (FM100)
6.5
–1.5
–2
–0.2
20
–12
0.5
0.18typ
1.1typ
0.21typ
150typ
2SC4466
TO-3P (MT-100)
6.0
–1.5
–3
–0.3
20
–12
0.5
0.14typ
1.4typ
0.21typ
300typ
2SC4467
TO-3P (MT-100)
6.0
–0.5
–5
–0.5
20
–12
0.5
0.17typ
1.86typ
0.27typ
400typ
2SC4468
TO-3P (MT-100)
6.0
–0.5
–2
–0.2
20
–12
0.5
0.18typ
1.1typ
0.21typ
150typ
2SC4511
TO-220F (FM20)
2.0
–5
–0.08
25
–12
1
0.5typ
0.6typ
0.3typ
400typ
TO-3PF (FM100)
6.5
–1.0
–0.7
–0.07
60
–12
0.7
0.5typ
1typ
0.5typ
30typ
2SC4883
TO-220F (FM20)
2.0
–1.0
–0.7
–0.07
60
–12
0.7
0.5typ
1typ
0.5typ
30typ
2SC4883A
TO-220F (FM20)
2.0
–2.0
–5
–0.5
50
–12
2
0.25typ
0.85typ
0.2typ
400typ
2SC4886
TO-3PF (FM100)
6.5
–0.5
–12
–0.2
20
–12
0.5
0.18typ
1.1typ
0.21typ
150typ
2SC5099
TO-3PF (FM100)
6.5
–0.5
–3
–0.3
20
–12
0.5
0.14typ
1.4typ
0.21typ
300typ
2SC5100
TO-3PF (FM100)
6.5
–0.5
–5
–0.5
20
–12
0.5
0.17typ
1.86typ
0.27typ
400typ
2SC5101
TO-3PF (FM100)
6.5
–0.5
–5
–0.5
20
–12
–0.5
–
–
–
450typ
2SC6011
TO-3P (MT-100)
6.0
–0.5
–5
–0.5
20
–12
–0.5
–
–
–
450typ
2SC6011A
TO-3P (MT-100)
6.0
–0.5
–5
–0.5
35
–12
2
–
–
–
500typ
2SC6145
TP-3P (MT-100)
6.0
–0.5
–1.2
–1.5
–2.0
–3
–0.006
200
–12
0.2
0.4typ
0.8typ
0.6typ
75typ
2SD2014
TO-220F (FM20)
2.0
–1.5
–2.0
–3
–0.006
100
–12
0.2
0.6typ
1.6typ
0.5typ
100typ
2SD1785
TO-220F (FM20)
2.0
–1.5
–2.0
–5
–0.01
100
–12
0.2
0.6typ
1.6typ
0.5typ
145typ
2SD2081
TO-220F (FM20)
2.0
–1.5
–2.0
–10
–0.02
130
–12
1
0.7typ
1.5typ
0.6typ
170typ
TO-220F (FM20)
2.0
–1.5
–2.5
–8
–0.016
50
–12
1
0.8typ
1.8typ
1typ
350typ
2SD2082
TO-3PF (FM100)
6.5
–1.8
–2.5
–12
–0.024
50
–12
1
1typ
3typ
1typ
230typ
2SD2083
TO-3P (MT-100)
6.0
–1.5
–2.5
–8
–0.016
50
–12
1
1typ
3typ
1typ
350typ
TO-3P (MT-100)
6.0
–2.5
–3.0
–6
–0.006
65
–12
1
0.7typ
3.6typ
0.9typ
160typ
2SD2389
TO-3P (MT-100)
6.0
–2.5
–3.0
–7
–0.007
50
–12
2
0.8typ
3typ
1.2typ
230typ
2SD2390
TO-3P (MT-100)
6.0
–2.5
–3.0
–7
–0.007
50
–12
2
0.8typ
3typ
1.2typ
230typ
2SD2401
MT-200
18.4
–2.5
–3.0
–6
–0.006
65
–12
1
0.7typ
3.6typ
0.9typ
160typ
2SD2438
TO-3PF (FM100)
6.5
–2.5
–3.0
–7
–0.007
50
–12
2
0.8typ
3typ
1.2typ
230typ
2SD2439
TO-3PF (FM100)
6.5
–2.5
–3.0
–10
–0.01
45
–12
2
0.7typ
1.6typ
1.1typ
320typ
2SD2560
TO-3P (MT-100)
6.0
–2.5
–3.0
–10
–0.01
45
–12
2
0.7typ
1.6typ
1.1typ
320typ
2SD2561
MT-200
18.4
–2.5
–3.0
–10
–0.01
45
–12
2
0.7typ
1.6typ
1.1typ
320typ
2SD2562
TO-3PF (FM100)
6.5
Transistors
157
2-1 Transistors
Absolute Maximum Ratings
Part Number
Applications
VCBO
VCEO
Ic
Pc
(V)
(V)
(A)
(W)
ICBO
Conditions
VCB
(µA)
(V)
hFE
min
Conditions
VCE
Ic
(V)
(A)
max
2SC2837
Audio, general-purpose
150
150
10
100
100
150
50
180
4
3
2SC2921
Audio, general-purpose
160
160
15
150
100
160
50
180
4
5
2SC2922
Audio, general-purpose
180
180
17
200
100
180
30
180
4
8
2SC3263
Audio, general-purpose
230
230
15
130
100
230
50
140
4
5
2SC3264
Audio, general-purpose
230
230
17
200
100
230
50
140
4
5
2SC3284
Audio, general-purpose
150
150
14
125
100
150
50
180
4
5
2SC3519
Audio, general-purpose
160
160
15
130
100
160
50
180
4
5
2SC3519A
Audio, general-purpose
180
180
15
130
100
180
50
180
4
5
2SC3835
Humidifier, DC-DC converter, general-purpose
200
120
7 (Pulse 14)
70
100
200
70
220
4
3
2SC3851
Audio, PPC high voltage power supply, general-purpose
80
60
4
25
100
80
40
320
4
1
320
4
1
4
0.5
2SC3851A
Audio, PPC high voltage power supply, general-purpose
100
80
4
25
100
100
40
2SC3852
Solenoid/motor driver/series regulator, general-purpose
80
60
3
25
10
80
500
2SC3852A
Solenoid/motor driver/series regulator, general-purpose
100
80
3
25
10
100
500
4
0.5
2SC3856
Audio, general-purpose
200
180
15
130
100
200
80
180
4
3
2SC3857
Audio, general-purpose
200
200
15
150
100
200
50
180
4
5
2SC3858
Audio, general-purpose
200
200
17
200
100
200
50
180
4
8
2SC3927
Switching regulator, general-purpose
900
550
10 (Pulse 15)
120
100
800
10
28
4
5
2SC4024
DC-DC converter, emergency lamp inverter, general-purpose
100
50
10
35
100
100
300
1600
4
1
2SC4131
DC-DC converter, emergency lamp inverter, general-purpose
100
50
15 (Pulse 20)
60
10
100
60
360
1
5
2SC4138
Switching regulator, general-purpose
500
400
10 (Pulse 20)
80
100
500
10
30
4
6
2SC4140
Switching regulator, general-purpose
500
400
18 (Pulse 36)
130
100
500
10
30
4
10
2SC4153
Humidifier, DC-DC converter, general-purpose
200
120
7 (Pulse 14)
30
100
200
70
220
4
3
2SC4300
Switching regulator, general-purpose
900
800
5 (Pulse 10)
75
100
800
10
30
4
2
2SC4301
Switching regulator, lighting inverter, general-purpose
900
800
7 (Pulse 14)
80
100
800
10
30
4
3
30
2SC4304
Switching regulator, general-purpose
900
800
3 (Pulse 6)
35
100
800
10
2SC4381
TV vertical output, audio output driver, general-purpose
150
150
2
25
10
150
60
4
0.7
10
0.7
10
0.7
2SC4382
TV vertical output, audio output driver, general-purpose
200
200
2
25
10
200
60
2SC4388
Audio, general-purpose
200
180
15
85
10
200
50
180
4
3
2SC4445
Switching regulator, general-purpose
900
800
3 (Pulse 6)
60
100
800
10
30
4
0.7
2SC4466
Audio, general-purpose
120
80
6
60
10
120
50
180
4
2
2SC4467
Audio, general-purpose
160
120
8
80
10
160
50
180
4
3
2SC4468
Audio, general-purpose
200
140
10
100
10
200
50
180
2SC4495
For audio temperature compensation, general-purpose
80
50
3
25
10
80
500
4
3
4
0.5
2SC4511
Audio, general-purpose
120
80
6
30
10
120
50
180
4
2
2SC4518
Switching regulator, lighting inverter, general-purpose
900
550
5 (Pulse 10)
35
100
800
10
25
4
1.8
2SC4518A
Switching regulator, lighting inverter, general-purpose
1000
550
5 (Pulse 10)
35
100
800
10
25
4
1.8
2SC4546
Switching regulator, lighting inverter, general-purpose
600
400
7 (Pulse 14)
30
100
600
10
25
4
3
2SC4706
Switching regulator, general-purpose
900
600
14 (Pulse 28)
130
100
800
10
25
4
7
2SC4883
Audio output driver, TV velocity modulation
150
150
2
20
10
150
60
240
10
0.7
2SC4883A
Audio output driver, TV velocity modulation
180
180
2
20
10
180
60
240
10
0.7
2SC4886
Audio, general-purpose
150
150
14
80
100
150
50
180
4
5
2SC5071
Switching regulator, general-purpose
500
400
12 (Pulse 24)
100
100
500
10
30
4
7
2SC5099
Audio, general-purpose
120
80
6
60
10
120
50
180
4
2
2SC5100
Audio, general-purpose
160
120
8
75
10
160
50
180
4
3
2SC5101
Audio, general-purpose
200
140
10
80
10
200
50
180
4
3
2SC5130
Switching regulator, general-purpose
600
400
5 (Pulse 10)
30
100
500
10
30
4
1.5
2SC5287
Switching regulator, general-purpose
900
550
5 (Pulse 10)
80
100
800
10
25
4
1.8
2SC6011
Audio, general-purpose
200
200
15
160
10
200
50
180
4
3
2SC6011A
Audio, general-purpose
230
230
15
160
10
230
50
180
4
3
2SC6145
Audio, general-purpose
230
230
15
160
10
230
40
140
4
5
158
Transistors
2-1 Transistors
Electrical Characteristics
VBE (sat)
Conditions
(V)
(V)
Ic
IB
max
max
(A)
(A)
VCE (sat)
MHz
fT
Conditions
VCE
IE
(V)
(A)
Mass
ton
Switching Time
tstg
tf
(µS)
(µS)
(µS)
Cob
Complementary
Package
(g)
(pF)
2.0
5
0.5
70
12
–1
0.2typ
1.4typ
0.35typ
60typ
2SA1186
TO-3P (MT-100)
6.0
2.0
5
0.5
60
12
–2
0.2typ
1.5typ
0.35typ
200typ
2SA1215
MT-200
18.4
2.0
8
0.8
50
12
–2
0.2typ
1.3typ
0.45typ
250typ
2SA1216
MT-200
18.4
2.0
5
0.5
60
12
–2
0.3typ
2.4typ
0.5typ
250typ
2SA1294
TO-3P (MT-100)
6.0
2.0
5
0.5
60
12
–2
0.3typ
2.4typ
0.5typ
250typ
2SA1295
MT-200
18.4
2.0
5
0.5
60
12
–2
0.2typ
1.5typ
0.35typ
200typ
2SA1303
TO-3P (MT-100)
6.0
2.0
5
0.5
50
12
–2
0.2typ
1.3typ
0.45typ
250typ
2SA1386
TO-3P (MT-100)
6.0
2.0
5
0.5
50
12
–2
0.2typ
1.3typ
0.45typ
250typ
2SA1386A
TO-3P (MT-100)
6.0
3
0.3
30
12
–0.5
0.5max
3max
0.5max
110typ
TO-3P (MT-100)
6.0
0.5
2
0.2
15
12
–0.2
0.2typ
1typ
0.3typ
60typ
2SA1488
TO-220F (FM20)
2.0
0.5
2
0.2
15
12
–0.2
0.2typ
1typ
0.3typ
60typ
2SA1488A
TO-220F (FM20)
2.0
0.5
2
0.05
15
12
–0.2
0.8typ
3typ
1.2typ
50typ
TO-220F (FM20)
2.0
0.5
2
0.05
15
12
–0.2
0.8typ
3typ
1.2typ
50typ
TO-220F (FM20)
2.0
2.0
5
0.5
20
12
–0.5
0.5typ
1.8typ
0.6typ
300typ
2SA1492
TO-3P (MT-100)
6.0
3.0
10
1
20
12
–0.5
0.3typ
2.4typ
0.4typ
250typ
2SA1493
MT-200
18.4
10
1
20
12
–1
0.5typ
1.8typ
0.6typ
300typ
2SA1494
MT-200
18.4
5
1
6
12
–1
1max
5max
0.5max
105typ
TO-3P (MT-100)
6.0
5
0.1
24
12
–0.5
0.5typ
2typ
0.5typ
150typ
TO-220F (FM20)
2.0
0.5
1.2
2.5
0.5
1.2
0.5
0.5
1.2
5
0.08
18
12
–1
0.5typ
2typ
0.4typ
210typ
TO-3PF (FM100)
6.5
0.5
1.3
6
1.2
10
12
–0.7
1max
3max
0.5max
85typ
TO-3P (MT-100)
6.0
0.5
1.3
10
2
10
12
–2.0
1max
3max
0.5max
165typ
TO-3P (MT-100)
6.0
0.5
1.2
3
0.3
30
12
–0.5
0.5max
3max
0.5max
110typ
TO-220F (FM20)
2.0
0.5
1.2
2
0.4
6
12
–0.5
1max
5max
1max
75typ
TO-3PF (FM100)
6.5
0.5
1.2
3
0.6
6
12
–1
1max
5max
1max
105typ
TO-3PF (FM100)
6.5
0.5
1.2
7
0.14
15
12
–0.3
0.7max
4max
0.7max
50typ
TO-220F (FM20)
2.0
1.0
7
0.07
15
12
–0.2
1typ
3typ
1.5typ
35
2SA1667
TO-220F (FM20)
2.0
1.0
7
0.07
15
12
–0.2
1typ
3typ
1.5typ
35
2SA1668
TO-220F (FM20)
2.0
2.0
5
0.5
20
12
–0.5
0.5max
1.8max
0.6max
300
2SA1673
TO-3PF (FM100)
6.5
0.7
0.14
15
12
–0.3
0.7max
4max
0.7max
50
TO-3PF (FM100)
6.5
1.5
2
0.2
20
12
–0.5
0.16typ
2.6typ
0.34typ
110
2SA1693
TO-3P (MT-100)
6.0
1.5
3
0.3
20
12
–0.5
0.13typ
3.5typ
0.32typ
200
2SA1694
TO-3P (MT-100)
6.0
0.5
5
0.5
20
12
–0.5
0.24typ
4.32typ
0.4typ
250
2SA1695
0.5
4
0.02
40
12
–0.1
0.45typ
1.6typ
0.85typ
30
0.5
2
0.2
20
12
–0.5
0.16typ
2.6typ
0.34typ
110
0.5
1.2
2SA1725
TO-3P (MT-100)
6.0
TO-220F (FM20)
2.0
TO-220F (FM20)
2.0
0.5
1.2
1.8
0.36
6
12
–0.35
0.7max
4max
0.5max
50
TO-220F (FM20)
2.0
0.5
1.2
1.8
0.36
6
12
–0.35
0.7max
4max
0.5max
50
TO-220F (FM20)
2.0
0.7
1.3
3
0.6
10
12
–0.5
0.5max
2max
0.15max
55
TO-220F (FM20)
2.0
0.5
1.2
7
1.4
6
12
–1.5
1max
5max
0.7max
160
TO-3P (MT-100)
6.0
1.0
0.7
0.07
120
12
–0.7
0.5typ
1.5typ
0.5typ
30
2SA1859
TO-220F (FM20)
2.0
1.0
0.7
0.07
120
12
–0.7
0.5typ
1.5typ
0.5typ
30
2SA1859A
TO-220F (FM20)
2.0
2.0
5
0.5
60
12
–2
0.26typ
1.5typ
0.35typ
200
2SA1860
TO-3PF (FM100)
6.5
7
1.4
10
12
–1
1max
3max
0.5max
105
TO-3P (MT-100)
6.0
0.5
2
0.2
20
12
–0.5
0.16typ
2.6typ
0.34typ
110
2SA1907
TO-3PF (FM100)
6.5
0.5
3
0.3
20
12
–0.5
0.13typ
3.5typ
0.32typ
200
2SA1908
TO-3PF (FM100)
6.5
0.5
5
0.5
20
12
–0.5
0.24typ
4.32typ
0.4typ
250
2SA1909
TO-3PF (FM100)
6.5
0.5
1.3
0.5
1.3
1.5
0.3
20
12
–0.3
1max
2max
0.3max
30
TO-220F (FM20)
2.0
0.5
1.2
1.8
0.36
6
12
–0.35
0.7max
4max
0.5max
50
TO-3P (MT-100)
6.0
0.5
5
0.5
20
12
–0.5
–
–
–
270
2SA2151
TO-3P (MT-100)
6.0
0.5
5
0.5
20
12
–0.5
–
–
–
270
2SA2151A
TO-3P (MT-100)
6.0
0.5
5
0.5
60
12
–2
–
–
–
250
2SA2223
TP-3P (MT-100)
6.0
Transistors
159
2-1 Transistors
Absolute Maximum Ratings
Part Number
Applications
VCBO
VCEO
Ic
Pc
(V)
(V)
(A)
(W)
ICBO
Conditions
VCB
(µA)
(V)
hFE
min
max
Conditions
VCE
Ic
(V)
(A)
2SD1785
Solenoid/relay/motor driver/series regulator, general-purpose
120
120
6 (Pulse 10)
30
10
120
2000
2SD1796
Solenoid/relay/motor driver, general-purpose
2
3
60±10
60±10
4
25
10
50
2000
4
3
2SD2014
Solenoid/relay/motor driver/series regulator, general-purpose
120
80
4
25
10
120
2000
2
3
2SD2015
Solenoid/relay/motor driver, general-purpose
150
120
4
25
10
150
2000
2
2
2SD2016
Igniter, relay, general-purpose
200
200
3
25
10
200
1000
4
1
2SD2017
Solenoid/relay/motor driver, general-purpose
300
250
6
35
100
300
2000
2
2
2SD2045
Solenoid/motor driver, general-purpose
120
120
6 (Pulse 10)
50
10
120
2000
2
3
2SD2081
Solenoid/motor driver, general-purpose
120
120
10 (Pulse 15)
30
10
120
2000
4
5
2SD2082
Solenoid/motor driver, general-purpose
120
120
16 (Pulse 26)
75
10
120
2000
4
8
2SD2083
Solenoid/motor driver, general-purpose
12
2SD2141
Igniter, solenoid, motor driver, general-purpose
2SD2389
15000
120
120
25 (Pulse 40)
120
10
120
2000
4
380±50
380±50
6 (Pulse 10)
35
10
330
1500
2
3
Audio, series regulator, general-purpose
160
150
8
80
100
160
5000
30000
4
6
2SD2390
Audio, series regulator, general-purpose
160
150
10
100
100
160
5000
30000
4
7
2SD2401
Audio, series regulator, general-purpose
160
150
12
150
100
160
5000
30000
4
7
2SD2438
Audio, series regulator, general-purpose
160
150
8
75
100
160
5000
30000
4
6
2SD2439
Audio, series regulator, general-purpose
160
150
10
80
100
160
5000
30000
4
7
2SD2560
Audio, series regulator, general-purpose
150
150
15
130
100
150
5000
30000
4
10
2SD2561
Audio, series regulator, general-purpose
150
150
17
200
100
150
5000
30000
4
10
2SD2562
Audio, series regulator, general-purpose
150
150
15
85
100
150
5000
30000
4
10
2SD2641
Series regulator, general-purpose
110
110
6
60
100
110
5000
30000
4
5
2SD2642
Series regulator, general-purpose
110
110
6
30
100
110
5000
30000
4
5
2SD2643
Series regulator, general-purpose
110
110
6
60
100
110
5000
30000
4
5
STD01N
Audio
150
150
10
100
100
150
5000
20000
4
6
STD01P
Audio
–150
–150
–10
100
–100
–150
5000
20000
–4
–6
STD03N
Audio
160
160
15
160
100
160
5000
20000
4
10
STD03P
Audio
–160
–160
–15
160
–100
–160
5000
20000
–4
–10
160
Transistors
2-1 Transistors
Electrical Characteristics
VBE (sat)
Conditions
(V)
(V)
Ic
IB
max
max
(A)
(A)
VCE (sat)
MHz
fT
Conditions
VCE
IE
(V)
(A)
Mass
ton
Switching Time
tstg
tf
(µS)
(µS)
(µS)
Cob
Complementary
Package
(g)
(pF)
1.5
2
3mA
100
12
–0.1
0.5typ
5.5typ
1.5typ
70
1.5
3
10mA
60
12
–0.2
1typ
4typ
1.5typ
45
2SB1258
2.0
2.0
1.5
2.0
3
3mA
75
12
–0.1
1typ
4typ
1.5typ
45
TO-220F (FM20)
2.0
1.5
2.0
2
2mA
40
12
–0.1
0.6typ
5typ
2typ
40
TO-220F (FM20)
2.0
1.5
2.0
1
1.5mA
90
12
–0.1
40
TO-220F (FM20)
2.0
1.5
2.0
2
2mA
20
12
–1
0.6typ
16typ
3typ
65
TO-220F (FM20)
2.0
1.5
2.0
3
3mA
50
12
–1
0.5typ
5.5typ
1.5typ
70
TO-3PF (FM100)
6.5
1.5
2.0
5
5mA
60
12
–0.5
1.5
2.5
8
16mA
20
12
–1
0.6typ
7typ
1.8
2.5
12
24mA
20
12
–1
1typ
6typ
4
20mA
20
12
–0.5
1.5
2SB1257
TO-220F (FM20)
TO-220F (FM20)
95
2SB1259
TO-220F (FM20)
2.0
1.5typ
210
2SB1382
TO-3PF (FM100)
6.5
1typ
340
2SB1383
95
TO-3P (MT-100)
6.0
TO-220F (FM20)
2.0
6.0
2.5
3.0
6
6mA
80
12
–1
0.6typ
10typ
0.9typ
85
2SB1559
TO-3P (MT-100)
2.5
3.0
7
7mA
55
12
–2
0.5typ
10typ
1.1typ
95
2SB1560
TO-3P (MT-100)
6.0
2.5
3.0
7
7mA
55
12
–2
0.5typ
10typ
1.1typ
95
2SB1570
MT-200
18.4
2.5
3.0
6
6mA
80
12
–1
0.6typ
10typ
0.9typ
85
2SB1587
TO-3PF (FM100)
6.5
2.5
3.0
7
7mA
55
12
–2
0.5typ
10typ
1.1typ
95
2SB1588
TO-3PF (FM100)
6.5
2.5
3.0
10
10mA
70
12
–2
0.8typ
4typ
1.2typ
120
2SB1647
TO-3P (MT-100)
6.0
2.5
3.0
10
10mA
70
12
–2
0.8typ
4typ
1.2typ
120
2SB1648
MT-200
18.4
2.5
3.0
10
10mA
70
12
–2
0.8typ
4typ
1.2typ
120
2SB1649
TO-3PF (FM100)
6.5
2.5
3.0
5
5mA
60
12
–2
0.8typ
6.2typ
1.1typ
55
TO-3P (MT-100)
6.0
2.5
3.0
5
5mA
60
12
–0.5
0.8typ
6.2typ
1.1typ
55
TO-220F (FM20)
2.0
2.5
3.0
5
5mA
60
12
–0.5
0.8typ
6.2typ
1.1typ
55
TO-3PF (FM100)
6.5
2.0
2.5
6
6mA
STD01P
TO3P-5Pin
6.2
–2.0
–2.5
–6
–6mA
STD01N
TO3P-5Pin
6.2
2.0
2.5
10
10mA
STD03P
TO-3P-5pin
6.2
–2.0
–2.5
–10
–10mA
STD03N
TO-3P-5pin
6.2
Transistors
161
162
Transistors
2-2 MOS FETs
Selection Guide
By VDSS
VDSS
RDS (ON)
ID
PD
(V)
(Ω) max
(A)
(W)
Package
Part Number
6.0m
±70
80
2SK3800
TO220S (Surface-mount)
6.0m
±70
100
2SK3801
TO3P(MT100)
9m
±60
60
FKV460S
TO220S (Surface-mount)
10m
±75
40
FKV575
TO220F(FM20)
13m
±50
35
FKV550T
TO220F(FM20)
15m
±50
35
FKV550N
TO220F(FM20)
15m
±50
85
EKV550
TO220
6.0m
±70
90
2SK3710A
TO220S (Surface-mount)
6.0m
±70
130
2SK3711
TO3P(MT100)
14m
±60
60
FKV660S
TO220S (Surface-mount)
28m
±30
40
2SK2420
TO220F(FM20)
80m
±20
35
2SK2779
TO220F(FM20)
0.175
±12
30
2SK2778
TO220F(FM20)
53m
±45
40
FKP202
TO220F(FM20)
53m
±45
95
SKP202
TO263 (Surface-mount)
0.175
±18
35
2SK3003
TO220F(FM20)
43m
±50
85
FKP250A
TO3PF(FM100)
75m
±25
40
FKP252
TO220F(FM20)
95m
±20
40
FKP253
TO220F(FM20)
95m
±20
40
SKP253
TO263 (Surface-mount)
0.25
±18
35
2SK3004
TO220F(FM20)
280
53m
±40
85
FKP280A
TO3PF(FM100)
300
65m
±30
85
FKP300A
TO3PF(FM100)
330
63m
±30
85
FKP330C
TO3PF(FM100)
1.1
±7
35
2SK2701A
TO220F(FM20)
2.8
±3
30
2SK2803
TO220F(FM20)
500
1.5
±5
30
2SK3199
TO220F(FM20)
600
3.8
±2
30
2SK2848
TO220F(FM20)
900
5.0
±3
30
2SK2943
TO220F(FM20)
40
50
60
100
200
250
450
Transistors
163
2-2 MOS FETs
Specifications List by Part Number
Absolute Maximum Ratings
Part
Number
2SK2420
VDSS
VGSS
ID
ID (pulse)
PD
(V)
(V)
(A)
(A)
(W)
IGSS
EAS
(mJ)
(nA)
max
VTH
IDSS
Conditions
VGS
(V)
(µA)
min
max
Conditions
VDS
(V)
(V)
min
max
Conditions
VDS
ID
(V)
(µA)
60
±20
±30
±120
40
38
±100
±20
100
60
2.0
4.0
10
2SK2701A
450
±30
±7
±28
35
130
±100
±30
100
450
2.0
4.0
10
250
1m
2SK2778
100
±20
±12
±48
30
70
±100
±20
100
100
1.0
2.0
10
250
250
2SK2779
100
±20
±20
±80
35
200
±100
±20
100
100
1.0
2.0
10
2SK2803
450
±30
±3
±12
30
30
±100
±30
100
450
2.0
4.0
10
1m
2SK2848
600
±30
±2
±8
30
10
±100
±30
100
600
2.0
4.0
10
250
2SK2943
900
±30
±3
±12
30
60
±100
±30
100
900
2.0
4.0
10
1m
2SK3003
200
±20
±18
±72
35
120
±100
±20
100
200
2.0
4.0
10
1m
2SK3004
250
±20
±18
±72
35
120
±100
±20
100
250
2.0
4.0
10
1m
2SK3199
500
±30
±5
±20
30
35
±100
±30
100
500
2.0
4.0
10
1m
2SK3710A
60
±20
±70
±140
90
468
±10µ
±15
100
60
2.0
4.0
10
1m
2SK3711
60
±20
±70
±140
130
±10µ
+15
100
60
2.0
4.0
10
1m
2SK3800
40
±20
±70
±140
80
400
±10
±15
100
40
2.0
4.0
10
1m
2SK3801
40
±20
±70
±140
100
400
±10
±15
100
40
2.0
4.0
10
1m
250
EKV550
50
±20
±50
±150
85
150
±10µ
±20
100
50
3.0
4.2
10
FKP202
200
±30
±45
±180
40
200
±100
±30
100
200
3.0
4.5
10
1m
FKP250A
250
±30
±50
±200
85
400
±100
±30
100
250
3.0
4.5
10
1m
FKP252
250
±30
±25
±100
40
200
±100
±30
100
250
3.0
4.5
10
1m
FKP253
250
±30
±20
± 80
40
160
±100
±30
100
250
3.0
4.5
10
1m
FKP280A
280
±30
±40
±160
85
400
±100
±30
100
280
3.0
4.5
10
1m
FKP300A
300
±30
±30
±120
85
400
±100
±30
100
300
3.0
4.5
10
1m
FKP330C
330
±30
±30
±120
85
500
±100
±30
100
330
3.0
4.5
10
1m
FKV460S
40
+20, –10
±60
±180
60
+10, –5µ
+20, –10
100
40
1.0
2.5
10
250
FKV550T
50
±20
±50
±150
35
150
±10µ
±20
100
50
1.0
2.5
10
250
FKV550N
50
±20
±50
±150
35
150
±10µ
±20
100
50
3.0
4.2
10
250
300
FKV575
50
±20
±75
±200
40
FKV660S
60
+20, –10
±60
±180
60
SKP202
200
±30
±45
±180
95
SKP253
250
±30
±20
± 80
40
164
Transistors
±100
±20
100
50
3.0
4.5
10
250
+10, –5µ
+20, –10
100
60
1.0
2.5
10
250
200
±100
±30
100
200
3.0
4.5
10
1m
160
±100
±30
100
250
3.0
4.5
10
1m
2-2 MOS FETs
Electrical Characteristics
Re (yfs)
Conditions
(S)
ID
VDS
typ
(V)
(A)
min
13
Ciss
(pF)
typ
20
10
15
2200
3.5
5
20
3.5
720
7
11
10
6
740
12
20
10
10
1.5
2.1
20
1.2
1.7
1.8
7
Crss
(pF)
typ
Mass
RDS (ON)
Conditions
VDS
VGS
(V)
(V)
Conditions
VGS
ID
(V)
(A)
(Ω)
typ
max
0
25
62
0
10
0.84
75
0
10
105m
1630
180
0
10
60m
1.5
340
26
0
10
20
1
290
30
0
2.8
20
1.5
600
40
11
10
9
850
250
21m
28m
(Ω)
typ
max
Conditions
VGS
ID
(V)
(A)
Package
(g)
TO220F(FM20)
2.0
TO220F(FM20)
2.0
6 TO220F(FM20)
2.0
10
15
1.1
10
3.5
175m
10
6
130m
220m
4
80m
10
10
75m
95m
4
10 TO220F(FM20)
2.0
2.1
2.8
10
1.5
TO220F(FM20)
2.0
10
3
3.8
10
1
TO220F(FM20)
2.0
0
10
4
5
10
1.5
TO220F(FM20)
2.0
0
10
130m
175m
10
9
TO220F(FM20)
2.0
7
11
10
9
850
250
0
10
0.2
0.25
10
9
TO220F(FM20)
2.0
3.5
5.2
20
2.5
650
110
0
10
1.2
1.5
10
2.5
TO220F(FM20)
2.0
30
80
10
35
8000
1000
0
10
5m
6m
10
35
TO220S(Surface-mount) 1.5
30
80
10
35
8000
1000
0
10
5m
6m
10
35
TO3P(MT100)
30
50
10
35
5100
860
0
10
5m
6m
10
35
TO220S(Surface-mount) 1.5
30
50
10
35
5100
860
0
10
5m
6m
10
35
TO3P(MT100)
6.0
10
25
2000
500
0
10
12m
15m
10
25
TO220
2.0
17
6.0
18
28
10
22
2000
80
0
25
45m
53m
10
22
TO220F(FM20)
2.0
30
42
10
25
3800
210
0
25
37m
43m
10
25
TO3PF(FM100)
6.5
13
21
10
12
2000
70
0
25
68m
75m
10
12
TO220F(FM20)
2.0
8
17
10
10
1600
50
0
25
86m
95m
10
10
TO220F(FM20)
2.0
25
38
10
20
3800
190
0
25
46m
53m
10
20
TO3PF(FM100)
6.5
20
33
10
15
3800
180
0
25
57m
65m
10
15
TO3PF(FM100)
6.5
23
37
10
15
4600
220
0
25
50m
63m
10
15
TO3PF(FM100)
6.5
20
10
25
2800
600
0
10
7m
9m
10
25
TO220S(Surface-mount) 1.5
20
10
25
2700
500
0
10
10m
13m
10
25
TO220F(FM20)
2.0
17
10
25
2000
500
0
10
12m
15m
10
25
TO220F(FM20)
2.0
30
10
37
3200
750
0
10
7m
10m
10
37
TO220F(FM20)
2.0
20
10
25
2500
150
0
10
11m
14m
10
25
TO220S(Surface-mount) 1.5
18
28
10
22
2000
80
0
25
45m
53m
10
22
TO263(Surface-mount)
1.5
8
17
10
10
1600
50
0
25
86m
95m
10
10
TO263(Surface-mount)
1.5
Transistors
165
166
Transistors
2-3 IGBT
Selection Guide
By VCES
VCES
(V)
330
330
400
600
600
600
600
600
IC
(A)
20
30
20
20
30
30
50
50
PC
(W)
35
35
35
35
60
60
150
150
Part Number
Package
FGT312
FGT313
FGT412
FGT612
FGM603
FGM623S
MGD623N
MGD623S
TO220F(FM20)
TO220F(FM20)
TO220F(FM20)
TO220F(FM20)
TO3PF(FM100)
TO3PF(FM100)
TO3P(MT100)
TO3P(MT100)
Transistors
167
2-3 IGBT
Specifications List by Part Number
Absolute Maximum Ratings (Ta=25°C)
Part
Number
VCES
VGE
IC
IC(pulse)
PC
(Ta=25°C)
(V)
(V)
(A)
(A)
(W)
IGES
ICES
VGE(th)
Conditions
Conditions
Conditions
(nA)
(V)
VGE (µA)
VCE
IC
VCE
max
min
max (mA) (V)
(V) max
(V)
VCE(sat)
Conditions
(V)
IC
VGE
typ
max
(A)
(V)
Cies Coes Cres
(pF)
typ
(pF)
typ
(pF)
typ
Conditions
VGE
VCE
(V)
(V)
FGM603
600
±20
30
90
60
±100
±20
100
600
4
7
1
10
1.6
2.0
30
15
4600
110
80
20
0
FGM623S
600
±30
30
100
60
±500
±30
100
600
3
6
1
10
1.5
1.7
30
15
2500
150
80
20
0
FGT312
330
±30
20
120
35
±100
±30
100
330
3
6
1
10
1.3
1.7
20
15
1200
130
65
20
0
FGT313
330
±30
30
200
35
±100
±30
100
330
3
6
1
10
1.3
1.7
30
15
2400
110
60
30
0
FGT412
400
±30
20
120
35
±100
±30
100
400
3
6
1
10
1.4
1.8
20
15
1200
120
65
20
0
FGT612
600
±30
20
120
35
±100
±30
100
600
3
6
1
10
1.6
2.0
20
15
1200
80
40
20
0
MGD623N
600
±30
50
100
150
±100
±30
100
600
3
6
1
10
1.7
2.3
50
15
2500
150
80
20
0
MGD623S
600
±30
50
100
150
±100
±30
100
600
3
6
1
10
1.8
2.4
50
15
2500
150
80
20
0
168
Transistors
2-3 IGBT
Electrical Characteristics (Ta=25°C)
td(off)
tr
tf
td(on)
(ns)
typ
(ns)
typ
(ns)
typ
(ns)
typ
Qg
IC
(A)
Conditions
VCE
(V)
(nC)
typ
Qge
(nC)
typ
Qgc
(nC)
typ
VF
IC
(A)
Conditions
VCE
VGE
(V)
(V)
(V)
typ
Mass
trr
Conditions
IF
(µs)
(A)
typ
max
Conditions
IF
di/dt
(A) (A/µs)
Package
(g)
130
70
340
200
30
300 L Load
120
30
30
30
300
15
TO3PF(FM100) 6.5
100
80
300
120
30
300 L Load
65
20
20
30
300
15
TO3PF(FM100) 6.5
15
30
55
210
20
150 R Load
35
8
10
20
150
15
TO220F(FM20) 2.0
20
90
90
180
60
250 R Load
65
10
20
60
250
15
TO220F(FM20) 2.0
15
35
55
220
20
200 R Load
35
8
10
20
200
15
TO220F(FM20) 2.0
25
60
70
190
20
300 R Load
35
6
9
20
300
15
75
70
250
200
50
300 L Load
65
15
20
50
300
15
1.2
1.6
30
0.3
30
100 TO3P(MT100)
6.0 Built-in Di
75
70
250
120
50
300 L Load
65
15
20
50
300
15
1.2
1.6
30
0.3
30
100 TO3P(MT100)
6.0 Built-in Di
TO220F(FM20) 2.0
Transistors
169
2-4 Transistor and MOS FET Arrays
Specifications List by Part Number
Part Number
Category
Circuit Count
VCEO · VDSS · VCES (V)
IC · ID (A)
hFE (min)
RDS (ON) max(Ω)
Package
Mass (g)
SDA05
For 3-phase motor driver
3
–60
–4
2000
PS16 (Surface-Mount)
1.1
SDC03
For sink driver
4
60±10
1.5
2000
PS16 (Surface-Mount)
1.1
SDC04
For sink driver
4
100±15
1.5
2000
PS16 (Surface-Mount)
1.1
SDC06
For sink driver
4
30 to 45
2
400
PS16 (Surface-Mount)
1.1
SDC07
For 3-phase motor driver
3
60
4
2000
PS16 (Surface-Mount)
1.1
SDH02
For sink driver
4
100
1.5
2000
PS16 (Surface-Mount)
1.1
SLA4030
For sink driver
4
100
4
2000
SIP12 with Fin (SLA12Pin)
6.0
SLA4031
For sink driver
4
120
4
2000
SIP12 with Fin (SLA12Pin)
6.0
SLA4036
For sink driver
6
120
2
2000
SIP15 with Fin (SLA15Pin)
6.0
SLA4041
For sink driver
4
200
3
1000
SIP12 with Fin (SLA15Pin)
6.0
SLA4051
For sink driver
9
120
2
2000
SIP21 with Fin (SLA21Pin)
6.0
SLA4052
For sink driver
9
120
3
2000
SIP21 with Fin (SLA21Pin)
6.0
SLA4060
For sink driver
4
120
5
2000
SIP12 with Fin (SLA12Pin)
6.0
SLA4061
For sink driver
4
120
5
2000
SIP12 with Fin (SLA12Pin)
6.0
SLA4070
For source driver
4
–100
–5
1000
SIP12 with Fin (SLA12Pin)
6.0
SLA4071
For source driver
4
–100
–5
2000
SIP12 with Fin (SLA12Pin)
6.0
SLA4390
H bridge
4
±100
±5
2000
SIP12 with Fin (SLA12Pin)
6.0
SLA5022
For 3-phase motor driver
6
±60
±6
2000
0.22
SIP12 with Fin (SLA12Pin)
6.0
SLA5037
For sink driver
4
100
10
0.08
SIP12 with Fin (SLA12Pin)
6.0
SLA5041
For sink driver
4
200
10
0.175
SIP12 with Fin (SLA12Pin)
6.0
SLA5059
For 3-phase motor driver
6
±60
±4
0.55
SIP12 with Fin (SLA12Pin)
6.0
SLA5060
For 3-phase motor driver
6
±60
±6
0.22
SIP12 with Fin (SLA12Pin)
6.0
SLA5061
For 3-phase motor driver
6
±60
±10
0.14
SIP12 with Fin (SLA12Pin)
6.0
SLA5064
For 3-phase motor driver
6
±60
±10
0.14
SIP12 with Fin (SLA12Pin)
6.0
SLA5065
For 5-phase motor driver
4
60
7
0.1
SIP15 with Fin (SLA15Pin)
6.0
SLA5068
For 5-phase motor driver
6
60
7
0.1
SIP15 with Fin (SLA15Pin)
6.0
SLA5073
For 5-phase motor driver
6
60
5
0.3
SIP15 with Fin (SLA15Pin)
6.0
SLA5074
For 5-phase motor driver
4
60
5
0.3
SIP15 with Fin (SLA15Pin)
6.0
SLA5075
For 3-phase motor driver
6
500
±5
1.4
SIP15 with Fin (SLA15Pin)
6.0
SLA5085
For sink driver
5
60
5
0.22
SIP12 with Fin (SLA12Pin)
6.0
SLA5086
For source driver
5
–60
–5
0.22
SIP12 with Fin (SLA12Pin)
6.0
SLA5096
For 3-phase motor driver
6
55
8
0.08
SIP15 with Fin (SLA15Pin)
6.0
SLA5201
For 3-phase motor driver
6
600
7
1.85typ(VCE(sat))
SIP15 with Fin (SLA15Pin)
6.0
SLA5212
For 3-phase motor driver
6
35
±8
0.07
SIP15 with Fin (SLA15Pin)
6.0
SLA5222
For Partial switching PFC
1+Di×4
600
30
1.3typ(VCE(sat))
SIP12 with Fin (SLA12Pin)
6.0
SLA5227
For Partial switching PFC
1+Di×4
600
30
1.3typ(VCE(sat))
SIP12 with Fin (SLA12Pin)
6.0
SLA6012
For 3-phase motor driver
6
±60
±4
2000
SIP12 with Fin (SLA12Pin)
6.0
SLA6020
For 3-phase motor driver
6
±100
±5
2000
SIP12 with Fin (SLA12Pin)
6.0
SLA6022
For 3-phase motor driver
6
±80
±5
2000
SIP12 with Fin (SLA12Pin)
6.0
SLA6023
For 3-phase motor driver
6
±60
±6
2000
SIP12 with Fin (SLA12Pin)
6.0
SLA6024
For 3-phase motor driver
6
±60
±8
2000
SIP12 with Fin (SLA12Pin)
6.0
SLA6026
For 3-phase motor driver
6
±60
±10
2000
SIP12 with Fin (SLA12Pin)
6.0
170
Transistors
2-4 Transistor and MOS FET Arrays
Part Number
Category
Circuit Count
VCEO · VDSS · VCES (V)
IC · ID (A)
hFE (min)
RDS (ON) max(Ω)
Package
Mass (g)
SMA4020
For source driver
4
–60
–4
2000
SIP12 (SMA12Pin)
4.0
SMA4021
For source driver
4
–60
–3
2000
SIP12 (SMA12Pin)
4.0
SMA4030
For sink driver
4
100
3
2000
SIP12 (SMA12Pin)
4.0
SMA4032
For sink driver
4
100
3
2000
SIP12 (SMA12Pin)
4.0
SMA4033
For sink driver
4
100
2
2000
SIP12 (SMA12Pin)
4.0
SMA4036
For sink driver
6
120
2
2000
SIP15 (SMA15Pin)
4.0
SMA4038
For sink driver
6
120
3
2000
SIP15 (SMA15Pin)
4.0
SMA5106
For sink driver
4
100
4
0.55
SIP12 (SMA12Pin)
4.0
SMA5112
For 3-phase motor driver
6
250
7
0.5
SIP12 (SMA12Pin)
4.0
SMA5117
For 3-phase motor driver
6
250
7
0.25
SIP12 (SMA12Pin)
4.0
SMA5118
For 3-phase motor driver
6
500
±5
1.4
SIP12 (SMA12Pin)
4.0
SMA5125
For 3-phase motor driver
6
±60
±10
0.14
SIP12 (SMA12Pin)
4.0
SMA5127
For 3-phase motor driver
6
±60
±4
0.55
SIP12 (SMA12Pin)
4.0
SMA5130
For 3-phase motor driver
6
250
2.5
0.9
SIP15 (SMA15Pin)
4.0
SMA5131
For 3-phase motor driver
6
250
2
1.8
SIP12 (SMA12Pin)
4.0
SMA5132
For 3-phase motor driver
6
500
1.5
4
SIP12 (SMA12Pin)
4.0
SMA5133
For 3-phase motor driver
6
500
2.5
2
SIP12 (SMA12Pin)
4.0
SMA6010
For 3-phase motor driver
6
±60
±4
2000
SIP12 (SMA12Pin)
4.0
SMA6080
For 3-phase motor driver
6
±60
±2
2000
SIP12 (SMA12Pin)
4.0
SMA6511
For driving stepping motor with two supplies
5
100±15/–60
1.5/–3
2000
SIP12 (SMA12Pin)
4.0
STA301A
For sink driver
3
60±10
4
1000
SIP8 (STA8Pin)
2.0
STA302A
For source driver/3-phase motor driver
3
–50
–4
1000
SIP8 (STA8Pin)
2.0
STA303A
For sink driver/3-phase motor driver
3
100
4
1000
SIP8 (STA8Pin)
2.0
STA322A
For source driver
3
–50
–3
100
SIP8 (STA8Pin)
2.0
STA401A
For sink driver
4
60±10
4
1000
SIP10 (STA10Pin)
2.6
STA402A
For source driver
4
–50
–4
1000
SIP10 (STA10Pin)
2.6
STA403A
For sink driver
4
100
4
1000
SIP10 (STA10Pin)
2.6
STA404A
For sink driver
4
200
3
1000
SIP10 (STA10Pin)
2.6
STA406A
For sink driver
4
60±10
6
2000
SIP10 (STA10Pin)
2.6
STA408A
For source driver
4
–120
–4
2000
SIP10 (STA10Pin)
2.6
STA412A
For sink driver
4
60
3
300
SIP10 (STA10Pin)
2.6
STA413A
For sink driver
4
35±5
3
500
SIP10 (STA10Pin)
2.6
STA421A
For source driver
4
–60
–3
40
SIP10 (STA10Pin)
2.6
STA431A
H bridge
4
±60
±3
40
SIP10 (STA10Pin)
2.6
STA434A
H bridge
4
±60
±4
1000
SIP10 (STA10Pin)
2.6
STA457C
H bridge
4
±60
±4
2000
SIP10 (STA10Pin)
2.6
STA460C
For sink driver
2
60±10
6
700
SIP10 (STA10Pin)
2.6
STA471A
For sink driver
4
60±10
2
2000
SIP10 (STA10Pin)
2.6
STA472A
For source driver
4
–60
–2
2000
SIP10 (STA10Pin)
2.6
STA473A
For sink driver
4
100
2
2000
SIP10 (STA10Pin)
2.6
STA475A
For sink driver
4
100±15
2
2000
SIP10 (STA10Pin)
2.6
STA481A
For sink driver
4
60±10
1
2000
SIP10 (STA10Pin)
2.6
STA485A
For sink driver
4
100±15
1
2000
SIP10 (STA10Pin)
2.6
2000
Transistors
171
2-4 Transistor and MOS FET Arrays
Specifications List by Application Sink Driver Arrays
●Built-in Avalanche Diodes, between Collector and Base
Part Number
Circuit Count
VCEO (V)/ VDSS (V)
IC (A)/ ID (A)
60±10
6
700
1
SIP10 (STA10Pin)
3
60±10
4
1000
2
SIP8 (STA8Pin)
4
30 to 45
2
400
3
PS16 (Surface-Mount)
STA413A
4
35±5
3
500
4
SIP10 (STA10Pin)
STA481A
4
60±10
1
2000
5
SIP10 (STA10Pin)
SDC03
4
60±10
1.5
2000
6
PS16 (Surface-Mount)
STA471A
4
60±10
2
2000
5
SIP10 (STA10Pin)
STA401A
4
60±10
4
1000
5
SIP10 (STA10Pin)
STA406A
4
60±10
6
2000
5
SIP10 (STA10Pin)
STA485A
4
100±15
1
2000
5
SIP10 (STA10Pin)
SDC04
4
100±15
1.5
2000
6
PS16 (Surface-Mount)
STA475A
4
100±15
2
2000
5
SIP10 (STA10Pin)
STA460C
2
STA301A
SDC06
hFE (min)
RDS(ON)max (Ω)
Equivalent Circuit
Package
●Built-in Flywheel Diodes
VCEO (V)/ VDSS (V)
IC (A)/ ID (A)
SDH02
Part Number
Circuit Count
4
100
1.5
hFE (min)
2000
RDS(ON)max (Ω)
8
PS16 (Surface-Mount)
SMA4033
4
100
2
2000
9
SIP12 (SMA12Pin)
SMA4032
4
100
3
2000
9
SIP12 (SMA12Pin)
SMA5106
4
100
4
7
SIP12 (SMA12Pin)
SLA4031
4
120
4
2000
9
SIP12 with Fin (SLA12Pin)
SLA4061
4
120
5
2000
9
SIP12 with Fin (SLA12Pin)
SLA4041
4
200
3
1000
9
SIP12 with Fin (SLA12Pin)
SMA4036
6
120
2
2000
10
SIP15 (SMA15Pin)
SLA4036
6
120
2
2000
10
SIP15 with Fin (SLA15Pin)
SMA4038
6
120
3
2000
10
SIP15 (SMA15Pin)
SLA4051
9
120
2
2000
11
SIP12 with Fin (SLA12Pin)
SLA4052
9
120
3
2000
11
SIP12 with Fin (SLA12Pin)
0.55
Equivalent Circuit
Package
●General-Purpose
VCEO (V)/ VDSS (V)
IC (A)/ ID (A)
STA303A
Part Number
3
100
4
100
12
SIP8 (STA8Pin)
STA412A
4
60
3
300
13
SIP10 (STA10Pin)
STA473A
4
100
2
2000
17
SIP10 (STA10Pin)
SMA4030
4
100
3
2000
15
SIP12 (SMA12Pin)
STA403A
4
100
4
1000
17
SIP10 (STA10Pin)
SLA4030
4
100
4
2000
15
SIP12 with Fin (SLA12Pin)
SLA5037
4
100
10
14
SIP12 with Fin (SLA12Pin)
SLA4060
4
120
5
2000
15
SIP12 with Fin (SLA12Pin)
STA404A
4
200
3
1000
17
SIP10 (STA10Pin)
SLA5041
4
200
10
0.175
14
SIP12 with Fin (SLA12Pin)
SLA5085
5
60
5
0.22
16
SIP12 with Fin (SLA12Pin)
172
Circuit Count
Transistors
hFE (min)
RDS(ON)max (Ω)
0.08
Equivalent Circuit
Package
2-4 Transistor and MOS FET Arrays
●Equivalent Circuit (for Sink Driver)
1
7
C
2
8
D
3
9
E
4
0
F
5
A
G
21
3
2
5
4
7
6
9
8
11
10
13
12
15
14
17
16
19
18
1, 20
6
B
Transistors
173
2-4 Transistor and MOS FET Arrays
Specifications List by Application Source Driver Arrays
●Built-in Flywheel Diodes
Part Number
Circuit Count VCEO (V)/ VDSS (V)
IC (A)/ ID (A)
hFE (min)
RDS(ON)max (Ω)
Equivalent Circuit
Package
SMA4021
4
–60
–3
2000
1
SIP12 (SMA12Pin)
SLA4071
4
–100
–5
2000
1
SIP12 with Fin (SLA12Pin)
●General-Purpose
VCEO (V)/ VDSS (V)
IC (A)/ ID (A)
STA322A
Part Number
3
–50
–3
100
2
SIP8 (STA8Pin)
STA302A
3
–50
–4
1000
3
SIP8 (STA8Pin)
STA402A
4
–50
–4
1000
4
SIP10 (STA10Pin)
STA472A
4
–60
–2
2000
4
SIP10 (STA10Pin)
STA421A
4
–60
–3
40
6
SIP10 (STA10Pin)
SMA4020
4
–60
–4
2000
5
SIP12 (SMA12Pin)
SLA4070
4
–100
–5
1000
5
SIP12 with Fin (SLA12Pin)
STA408A
4
–120
–4
2000
7
SIP10 (STA10Pin)
SLA5086
5
–60
–5
8
SIP12 with Fin (SLA12Pin)
174
Circuit Count
Transistors
hFE (min)
RDS(ON)max (Ω)
0.22
Equivalent Circuit
Package
2-4 Transistor and MOS FET Arrays
●Equivalent Circuit (for Source Driver)
1
6
7
2
3
8
4
5
Transistors
175
2-4 Transistor and MOS FET Arrays
Specifications List by Application Motor Driver Arrays
●H Bridge
Part Number
Circuit Count
VCEO (V)/ VDSS (V)
IC (A)/ ID (A)
hFE (min)
RDS(ON)max (Ω)
Equivalent Circuit
Package
STA431A
4
±60
±3
40
1
SIP10 (STA10Pin)
STA434A
4
±60
±4
1000
2
SIP10 (STA10Pin)
STA457C
4
±60
±4
2000
3
SIP10 (STA10Pin)
SLA4390
4
±100
±5
2000
2
SIP12 with Fin (SLA12Pin)
176
Transistors
2-4 Transistor and MOS FET Arrays
●Equivalent Circuit (for Motor Driver)
1
2
3
4
Transistors
177
2-4 Transistor and MOS FET Arrays
●For 3-Phase Motor Drivers
Part Number
Circuit Count VCEO (V)/ VDSS (V)/ VCES (V) IC (A)/ ID (A)
SDC07
3
60
STA303A
3
STA302A
3
SDA05
hFE (min)
RDS(ON)max (Ω)
Equivalent Circuit
Package
4
2000
6
PS16 (Surface-Mount)
100
4
1000
7
SIP8 (STA8Pin)
–50
–4
1000
8
SIP8 (STA8Pin)
3
–60
–4
2000
9
PS16 (Surface-Mount)
SLA5212
6
35
±8
70m
18
SIP15 with Fin (SLA15Pin)
SLA5096
6
55
±8
80m
18
SIP15 with Fin (SLA15Pin)
SLA5059
6
60
±4
0.55
10
SIP12 with Fin (SLA12Pin)
SLA5060
6
60
±6
0.22
10
SIP12 with Fin (SLA12Pin)
SLA5061
6
60
±10
0.14
10
SIP12 with Fin (SLA12Pin)
SLA5064
6
60
±10
0.14
11
SIP12 with Fin (SLA12Pin)
SMA6080
6
±60
±2
2000
13
SIP12 (SMA12Pin)
SMA6010
6
±60
±4
2000
13
SIP12 (SMA12Pin)
SLA6012
6
±60
±4
2000
SMA5127
6
±60
±4
SLA5022
6
±60
±6
2000
SLA6023
6
±60
±6
SLA6024
6
±60
±8
SLA6026
6
±60
±10
SMA5125
6
±60
±10
SLA6022
6
±80
±5
SLA6020
6
±100
±5
SMA5130
6
±250
±2.5
2000
SMA5131
6
250
SMA5112
6
250
SMA5117
6
SMA5132
12
SIP12 with Fin (SLA12Pin)
0.55
14
SIP12 (SMA12Pin)
0.22
15
SIP12 with Fin (SLA12Pin)
2000
12
SIP12 with Fin (SLA12Pin)
2000
12
SIP12 with Fin (SLA12Pin)
2000
12
SIP12 with Fin (SLA12Pin)
11
SIP12 (SMA12Pin)
2000
12
SIP12 with Fin (SLA12Pin)
2000
13
SIP12 with Fin (SLA12Pin)
0.9
20
SIP15 (SMA15Pin)
2
1.8
17
SIP12 (SMA12Pin)
7
0.5
17
SIP12 (SMA12Pin)
250
7
0.25
17
SIP12 (SMA12Pin)
6
500
1.5
4
17
SIP12 (SMA12Pin)
SMA5133
6
500
2.5
2
17
SIP12 (SMA12Pin)
SLA5075
6
500
±5
1.4
16
SIP15 with Fin (SLA15Pin)
SMA5118
6
500
±5
1.4
17
SIP12 (SMA12Pin)
SLA5201
6
600
7
19
SIP15 with Fin (SLA15Pin)
0.14
●For Driving Stepping Motor with Two Supplies
Part Number
Circuit Count
SMA6511
5
VCEO (V)/ VDSS (V)
IC (A)/ ID (A)
100±15/–60
1.5/–3
hFE (min)
RDS(ON)max (Ω)
2000
Equivalent Circuit
27
Package
SIP12 (SMA12Pin)
●For 5-Phase Motor Drive
Part Number
Circuit Count
VCEO (V)/ VDSS (V)
IC (A)/ ID (A)
hFE (min)
RDS(ON)max (Ω)
Equivalent Circuit
Package
SLA5074
4
60
5
0.3
22
SIP15 with Fin (SLA15Pin)
SLA5065
4
60
7
0.1
22
SIP15 with Fin (SLA15Pin)
SLA5073
6
60
5
0.3
18
SIP15 with Fin (SLA15Pin)
SLA5068
6
60
7
0.1
16
SIP15 with Fin (SLA15Pin)
178
Transistors
2-4 Transistor and MOS FET Arrays
●Equivalent Circuit (for Motor Driver)
6
B
H
7
C
I
D
J
E
K
8
9
:
F
A
G
L
Transistors
179
2-4 Transistor and MOS FET Arrays
Specification List by Application
Partial switching PFC Arrays
●For Partial switching PFC
Part Number
Circuit Count
VCES(V)
IC(A)
VCE(sat)(V)
RDS(ON) max(Ω)
Equivalent Circuit
Package
SLA5222
1+Di X 4
600
30
1.3typ
1
SIP12 with Fin (SLA12Pin)
SLA5227
1+Di X 4
600
30
1.3typ
2
SIP12 with Fin (SLA12Pin)
180
Transistors
2-4 Transistor and MOS FET Arrays
●Equivalent Circuit (for Partial switching PFC)
1
2
Transistors
181
2-4 Transistor and MOS FET Arrays
Specifications List by Application
Part Number
Applications
Typical Connection Diagram
Transistors
Darlington
●Solenoid
●Relay
STA301A
Single
MOS FETs
STA460C
STA401A
STA413A
STA406A
SDC06
STA471A
STA475A
STA481A
STA485A
SDC04
SDC03
SLA4031
SMA5106
SLA4041
SLA4060
SMA4032
SMA4033
SMA4036
SDH02
SLA4071
SMA4021
STA302A
STA322A
STA402A
STA421A
STA408A
STA472A
SLA4070
SMA4020
182
Transistors
2-4 Transistor and MOS FET Arrays
Part Number
Applications
Typical Connection Diagram
Transistors
Darlington
●DC Motor
Normal/Reverse
Rotation Control
●3-Phase
AC100V Direct Driver
DC Brushless
Motor
STA434A
STA457C
STA4390
MOS FETs
STA431A
STA474A
STA302A+STA303A
SMA6010
SLA6020
SDA05+SDC07
SMA6080
SLA5075
SMA5112
SMA5117
SMA5118
SMA5131
SMA5132
SMA5133
AC200V Direct Driver
PWM Control
Single
SLA6012
SLA6022
SLA6023
SLA6024
SLA6026
SLA5022
SMA5130
SLA5059
SLA5060
SLA5061
SLA5064
SMA5125
SMA5127
Transistors
183
2-4 Transistor and MOS FET Arrays
Part Number
Applications
Typical Connection Diagram
Transistors
Darlington
●Stepping
Motor
Constant Voltage
Driver
Two Supplies Driver
Bipolar Driver
MOS FETs
Single
STA401A
STA406A
STA435A
STA471A
STA475A
STA481A
STA485A
SLA4010
SDC04
SDC03
SMA6511
STA460C
STA413A
SDC06
STA473A
STA472A
STA408A
STA404A
STA403A
STA402A
SMA4030
SMA4020
SLA4070
SLA4060
SLA4030
STA421A
STA412A
SDC01
Part Number
Applications
●5-Phase
Motor
184
Transistors
Typical Connection Diagram
N-CH
SLA5065+SLA5068
SLA5073+SLA5074
SLA5085
P-CH
SLA5086
Package Type (Dimensions)
• TO-220F (FM20)
• TO-220 (MT-25)
• TO-3P (MT-100)
φ 3.2 ±0.1
2.0
19.9±0.3
4.0
13.1±0.5
2.4±0.2
2 +0.2
−0.1
20.0min
3.5
±0.2
0.5 −0.1
2.54±0.2
0.45+0.2
−0.1
3 +0.2
−0.1
1.05+0.2
−0.1
5.45 ±0.1
B
10±0.2
5.45 ±0.1
E
C
2.2±0.2
(1) (2) (3)
• TO-3PF (FM100)
• MT-200
• TO-220S
±0.2
10.2±0.3
9
5.45±0.1
4.4
0.65+0.2
−0.1
1.05 +0.2
−0.1
5.45 ±0.1
5.45 ±0.1
B
1.5
C
0.6 +0.2
−0.1
1.2±0.2
3.0 +0.3
−0.1
(1.5)
a: Part Number
b: Polarity
c: Lot No.
2.54±0.5
q
w
e
10.2+0.3
E
2
3
• TO3P-5Pin
1.30 +0.10
–0.05
PNP
(Including pulling
out the burr)
Gate burr
(Measured at the root)
(Measured at the root)
(Including the solder drip)
2.40±0.20
(R0.30)
2.54±0.30
4.90±0.20
0.80±0.10
2.54±0.20
(Including pulling
out the burr)
Gate burr
0.10±0.15
(0.75) 2.00±0.10
9.20±0.20
1.20±0.20
NPN
4.50±0.20
15.30±0.30
(0.40)
1.40±0.20
(1)
(2) (3)
10.00±0.20
0.4±0.1
a: Part Number
b: Lot No.
• TO-263
2.54±0.20
+0.3
+0.2
0.86 –0.1
3
+0.3
4.1max
20.0min
1.27±0.2
2
2.54±0.5
3.35±0.2
+0.2
0.1 –0.1
2.59±0.2
1
1.27±0.10
(1.5)
8.6±0.3
c
3.0 –0.5
21.4±0.3
b
b
a: Part Number
b: Lot No.
9.90±0.20
1.3±0.2
0.50 +0.10
–0.05
(Including the solder drip)
1.5
a
a
3.0
1.6
0.8
1.75±0.15
2.15±0.15
1.05+0.2
−0.1
5.45±0.1
4.44±0.2
7
5.5
0.8
2.1
2-φ 3.2 ±0.1
φ 3.3±0.2
a
b
3.3
23.0 ±0.3
9.5 ±0.2
24.4 ±0.2
5.5±0.2
3.45±0.2
a: Part Number
b: Lot No.
6.0 ±0.2
36.4 ±0.3
15.6±0.2
1.7 +0.2
−0.1
(1.4)
a: Part Number
b: Lot No.
0.65+0.2
−0.1
10.0 –0.5
2.54
2.0 ±0.1
a
b
±0.15
3.9
13.0min
2.54
4.8 ±0.2
2.4
1.35±0.15
1.35±0.15
0.85+0.2
−0.1
9.6 ±0.2
±0.2
(3)
0.8 ±0.2
a
b
4.5±0.2
1.3±0.2
5.0 ±0.7
2.8±0.2
9.2±0.3
φ 3.6±0.2
φ 3.3±0.2
15.9±0.3
9.9±0.3
(8.7)
18.95MAX
(1.7)
4.0 ±0.3
16.0 ±0.3
8.4 ±0.2
(1.3)
15.6 ±0.3
4.2±0.2
C
2.8±0.2 0.5
10.0±0.2
(Measured at the root)
(Measured at the root)
(Measured at the root)
(Measured at the root)
(Unit : mm)
Transistors
185
Package Type (Dimensions)
• SIP 8 (STA8Pin)
• SIP 10 (STA10Pin)
9.0±0.2
b
a
0.5±0.15
0.5±0.15
0.5±0.15
a: Part Number
b: Lot No.
9 × 2.54 = 22.86±0.25
7 × P2.54 = 17.78
C1.5±0.5
C1.5±0.5
4.0±0.2
1.2±0.2
(2.54)
0.5±0.15
(2.54)
1
2
3
4
5
6
7
1
E
8
2 3 4 5 6 7
B C B C B C
4.0±0.2
1.0±0.25
1.0±0.25
1.2±0.2
4.7±0.5
4.7±0.5
2.3±0.2
11.3±0.2
25.25±0.2
9.0±0.2
11.3±0.2
2.5 max
20.4 max
8 9 10
B C E
Pin No.
• PS 16 (Surface-Mount)
• SIP 12 (SMA12Pin)
0.89±0.15
2.54±0.25
4.0±0.2
31.0±0.2
+0.15
0.75–0.05
2.5±0.2
9
6.8max
16
a
1
19.56±0.2
+0.15
0.3–0.05
0.25
3.0±0.2
1.2±0.1
a: Part Number
b: Lot No.
a: Part Number
b: Lot No.
• SIP 15 (SMA15Pin)
• SIP 12 with Fin (SLA12Pin)
4.0±0.2
±0.2
2.5±0.2
31.5max
Ellipse
3.2±0.15 × 3.8
31.0±0.2
φ 3.2±0.15
4.8±0.2
24.4±0.2
b
10.2±0.2
+0.2
0.55–0.1
27.94
9.8±0.3
31.0
2.4
+0.2
0.85–0.1
2.54
3.6±0.2
1.4±0.2
0 to 0.1
1.46±0.15
4.0max
6.3
1.0±0.3
(10.4)
±0.2
a
8
20.0max
8.0±0.5
b
10.2±0.2
b
1.7±0.1
13.0±0.2
+1.0
16.0±0.2
R-End
9.7–0.5
(3.0) 6.7±0.5
a
a
b
+0.2
+0.2
*
* 4.0±0.7
1.15–0.1
*
2.7
+0.2
0.65–0.1
9.5min
0.55–0.1
Pin1
12
14 × P2.03±0.7= 28.42±1.0
+0.2
0.85–0.1
1.2±0.15
+0.2
0.55–0.1
1.45±0.15
11 × P2.54
±0.7
= 27.94
±1.0
2.2±0.7
a: Part Number
b: Lot No.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
• SIP 15 with Fin (SLA15Pin)
• SIP 21 with Fin (SLA21Pin)
31.0±0.2
24.4±0.2
16.4±0.2
±0.2
31.3
24.4±0.2
±0.2
4.8
1.7±0.1
0.65
*
*
14 × P2.03±0.7=28.42±1.0
1.15
b
12.9±0.2
a
2.45±0.2
2.45±0.2
+0.2
0.65–0.1
20 × P1.43±0.5=28.6±1.0
+0.2
–0.1
0.55
+0.2
3±0.5
+1.0
9.7–0.5
(3.0) 6.7±0.5
4–(R1)
R-End
+0.2
–0.1
9.9±0.2
16.0±0.2
±0.2
9.9
13.0±0.2
φ 3.2±0.15
+0.2
–0.1
4.8±0.2
Gate burr
1.7±0.1
16.4±0.2
φ 3.2±0.15 × 3.8
17.9±0.6
(5)
φ 3.2±0.15 × 3.8
31.0±0.2
16±0.2
φ 3.2±0.15
31.3±0.2
0.55–0.1
4±0.7
* 4.0±0.7
a: Part Number
b: Lot No.
1
3
2
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
186
Transistors
5
4
7
6
9 11 13 15 17 19 21
8 10 12 14 16 18 20
(Unit:mm)
Thyristors
3
○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○
Ordering Information & Standard Packing Quantities .............. 188
Application Note ............................................................................... 189
3-1
Thyristors ............................................................................... 190
3-2
Triacs ...................................................................................... 192
Package Type (Dimensions) ........................................................... 194
○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○
3 Thyristors
Ordering Information
All products listed must be ordered in standard packing increments.
Product Name
Package
Standard Packing Quantities (Bulk)
SLA0201
SLA12Pin
1080(Stick)
STA203A
STA8Pin
1000(Box)/4050(Stick)
TFC563D
TO220S(Straight)
600(Stick)
TF361H-A
TO220F-A
4000(Stick)
TF541S-A
TO220F
1000(Box)/3750(Stick)
TF561S-A
TO220F
1000(Box)/3750(Stick)
TFA37S
TO220F
1000(Box)/3750(Stick)
TFA38S
TO220F
1000(Box)/3750(Stick)
TFA57S
TO220F
1000(Box)/3750(Stick)
TFA58S
TO220F
1000(Box)/3750(Stick)
TFA87S
TO220F
1000(Box)/3750(Stick)
TFA88S
TO220F
1000(Box)/3750(Stick)
TFA107S
TO220F
1000(Box)/3750(Stick)
TFA108S
TO220F
1000(Box)/3750(Stick)
TMA104S-L
TO220F
1000(Box)/3750(Stick)
TMA106G-L
TO220
4000(Stick)
TMA106H-L
TO220F-A
4000(Stick)
TMA106S-L
TO220F
1000(Box)/3750(Stick)
TMA124S-L
TO220F
1000(Box)/3750(Stick)
TMA126G-L
TO220
4000(Stick)
TMA126H-L
TO220F-A
4000(Stick)
TMA126S-L
TO220F
1000(Box)/3750(Stick)
TMA164B-L
TO3PF
500(Box)/1080(Stick)
TMA164P-L
TO3P
500(Box)/1080(Stick)
TMA164S-L
TO220F
1000(Box)/3750(Stick)
TMA166B-L
TO3PF
500(Box)/1080(Stick)
TMA166G-L
TO220
4000(Stick)
TMA166H-L
TO220F-A
4000(Stick)
TMA166P-L
TO3P
500(Box)/1080(Stick)
TMA166S-L
TO220F
1000(Box)/3750(Stick)
TMA204S-L
TO220F
1000(Box)/3750(Stick)
TMA206S-L
TO220F
1000(Box)/3750(Stick)
TMA254B-L
TO3PF
500(Box)/1080(Stick)
TMA256B-L
TO3PF
500(Box)/1080(Stick)
TMA34S-L
TO220F
1000(Box)/3750(Stick)
TMA36G-L
TO220
4000(Stick)
TMA36H-L
TO220F-A
4000(Stick)
TMA36S-L
TO220F
1000(Box)/3750(Stick)
TMA54S-L
TO220F
1000(Box)/3750(Stick)
TMA56G-L
TO220
4000(Stick)
TMA56H-L
TO220F-A
4000(Stick)
TMA56S-L
TO220F
1000(Box)/3750(Stick)
TMA84S-L
TO220F
1000(Box)/3750(Stick)
TMA86G-L
TO220
4000(Stick)
TMA86H-L
TO220F-A
4000(Stick)
TMA86S-L
TO220F
1000(Box)/3750(Stick)
TMB166S-L
TO220F
1000(Box)/3750(Stick)
TMB206S-L
TO220F
1000(Box)/3750(Stick)
188
Thyristors
3 Thyristors
Application Note
Since reliability can be affected adversely by improper storage environment or handling methods during Characteristic tests, please observe the
following cautions.
■ Cautions for Storage
●Ensure that storage conditions comply with the normal temperature (5 to
35°C) and the normal relative humidity (around 40 to 75%), and avoid
storage locations that experience high temperature and humidity, or
extreme changes in temperature or humidity.
●Avoid locations where dust or harmful gases are present, and avoid
direct sunlight.
●Reinspect the devices for rust in leads and solderability after stored for a
long time.
■ Cautions for Characteristic Tests and Handling
On characteristics test at incoming inspection, etc, take good care to avoid
the surge voltages from the test equipment, the short circuit at terminals,
or the wrong connection.
■ Heatsink
A larger contact area between the device and the heatsink is required for
more effective heat radiation. To ensure a larger contact area, minimize
mounting holes. And select a heatsink with a surface smooth enough and
free from burrs and slivers.
■ Soldering Temperature
In general, the device mounted on a printed circuit board is subjected to
high temperatures from flow solder in a solder bath, or, from a soldering
iron at hand soldering.
The testing method and test conditions (JIS-C-7021 standards) for a
device’s heat resistance to soldering are:
At a distance of 1.5mm from the device's main body, apply 260°C for 10
seconds, and 350°C for 3 seconds.
Please observe these limits and finish soldering in as short a time as
possible.
Since reliability can be affected adversely by improper storage environment or handling methods during Characteristic tests, please observe the
following cautions.
■ Silicone Grease
When using a heatsink, please coat thinly and evenly the back surface of
the device and both surfaces of the insulating plate with silicone grease to
lower the thermal resistance between the device and the heatsink.
Please select proper silicone grease carefully since the oil in some grease
products may penetrate the device and result in an extremely short device
life.
Recommended Silicone Grease
• G-746 (Shin-Etsu Chemical)
• YG6260 (Momentive Performance Materials Inc.)
• SC102 (Dow Corning Toray Silicone)
■ Mounting Torque
When mounting torque is insufficient, thermal resistance increases, and so
heat radiation effect is decreased. When the torque is excessive, the
screw may be broken, the heatsink may be deformed, and the device
frame may be distorted, resulting in the device damage. Recommended
mounting torque per package is as follows:
● Mounting Torque Table
Package
TO220
TO220F-A, TO220F (FM20)
TO3P (MT100)
TO3PF (FM100)
SLA (SIP with Fin)
Screw Torque
0.490 to 0.686 N•m (5 to 7kgf•cm)
0.686 to 0.882 N•m (7 to 9kgf•cm)
0.588 to 0.784 N•m (6 to 8kgf•cm)
* When the surface of a heatsink where Full Mold package is to be
mounted is not flat due to the burred metal bracket for screwing around
the mounting hole of the heatsink, the resin of the package might be
cracked even if the torque is lower than the recommended value.
* When a screw is fastened with an air driver for the Full Mold package, a
large impact is generated at the time of stop, and the resin may crack
even if the torque is lower than the recommended value. An electric
driver, therefore, should be used instead of an air driver.
Thyristors
189
3-1 Thyristors
Thyristors
Absolute Maximum Ratings
Part Number
V RSM
V DSM
V RRM
V DRM
IT (AV)
(V)
(V)
(A)
I T (RMS)
(50Hz)
Conditions
Tc
(°C)
(A)
TF541S-A
500
400
5.0
88
SLA0201
650
600
5× 4
TF361H-A
700
600
3.0
83
4.7
TF561S-A
700
600
5.0
88
7.8
TFA37S
–
700
3.0
127
4.7
TFA57S
–
700
5.0
115
TFA87S
–
700
8.0
98
TFA107S
–
700
10
86
TFA38S
–
800
3.0
50
TFA58S
–
800
5.0
50
TFA88S
–
800
8.0
50
TFA108S
–
800
10
50
15.7
ITSM
50Hz Single
Half Sine
Wave, Default
T j =125°C (A)
P GM
P G (AV)
V RGM
IFGM
Tj
T stg
(W)
(W)
(V)
(A)
(°C)
(°C)
I RRM
I DRM Conditions
Tj
(mA)
(°C)
max
7.8
80
5.0
0.5
5.0
2.0
–40 to +125
2.0
125
7.8
80
5.0
0.5
5.0
2.0
–40 to +125
2.0
125
60
5.0
0.5
5.0
2.0 −40∼+110 −40∼+125
2.0
125
80
5.0
0.5
5.0
2.0
–40 to +125
2.0
125
60
5.0
0.5
5.0
2.0
–40 to +150
2.0
150
7.8
80
5.0
0.5
5.0
2.0
–40 to +150
2.0
150
12.6
120
5.0
0.5
5.0
2.0
–40 to +150
2.0
150
15.7
160
5.0
0.5
5.0
2.0
–40 to +150
2.0
150
4.7
60
5.0
0.5
5.0
2.0
–40 to +150
2.0
150
7.8
80
5.0
0.5
5.0
2.0
–40 to +150
2.0
150
12.6
120
5.0
0.5
5.0
2.0
–40 to +150
2.0
150
160
5.0
0.5
5.0
2.0
–40 to +150
2.0
150
*1
*1:Default Tj=110°C
3-Pin Reverse Conducting Thyristors for HID Lamp Ignition
Absolute Maximum Ratings
VDRM
I TRM*1
di/dt*1
P GM
PG (AV)
V RGM
I FGM*2
I FRM
Tj
Tstg
I DRM
Part Number
(V)
TFC563D
600
(A)
500
(A/µs)
1500
(W)
5.0
(W)
(V)
0.5
*1: TC≤100°C, VD≤430V, Wp≤1.0µs, IG≥70mA, dig/dt≥0.5A/µs, 100kcycles
*2: TC≤100°C, VD≤430V, Wp≤1.0µs, 100kcycles
190
Thyristors
5.0
(A)
2.0
(A)
450
(°C)
(°C)
–40 to +125
(mA)
max
1.0
VTM
Conditions
Tj
(°C)
125
(V)
max
1.4
Conditions
Tc
I TM
(°C)
(A)
25
10
3-1 Thyristors
Electrical Characteristics
V TM
IGT
V GT
(V)
max
1.4
1.4
Conditions
I TM
Tc
(°C)
(A)
(V)
typ
25
25
10
max
1.5
10
0.7
1.5
typ
VGD
(mA)
max
0.03
5.0
0.2
10
Conditions
Tc
(°C)
25
25
(V)
min
0.1
0.1
Tj
(°C)
125
125
dv/d t
Conditions
Conditions
VD
Tj
(V)
(V/µ s) (°C)
typ
1/2V DRM
1/2V DRM
20
50
125
125
IH
Mass
Rth
Package
VD
(V)
1/2V DRM
1/2V DRM
(mA)
typ
4.0
g
(°C/W)
max
4.0
TO220F
SIP12 with Fin
4.0
2.0
6.0
(SLA12Pin)
1.4
25
5.0
1.5
−
0.1
25
0.1
125
1/2VDRM
50
110
1/2VDRM
−
5
1.4
25
10
1.5
0.03
0.2
25
0.1
125
1/2V DRM
20
125
1/2V DRM
4.0
4.0
TO220F
2.0
1.5
25
10
−
1.0
7.0
15
25
0.2
125
1/2VDRM
300
125
1/2VDRM
15
4.1
TO220F
2.0
1.5
25
15
−
1.0
7.0
15
25
0.2
125
1/2VDRM
300
125
1/2VDRM
15
3.8
TO220F
2.0
1.4
25
20
−
1.0
7.0
15
25
0.2
125
1/2VDRM
300
125
1/2VDRM
20
3.5
TO220F
2.0
1.35
25
20
−
1.0
7.0
15
25
0.2
125
1/2VDRM
300
125
1/2VDRM
20
3.4
TO220F
2.0
1.5
25
10
−
1.0
−
15
25
0.2
125
1/2VDRM
300
125
1/2VDRM
15
4.1
TO220F
2.0
1.5
25
15
−
1.0
−
15
25
0.2
125
1/2VDRM
300
125
1/2VDRM
15
3.8
TO220F
2.0
1.5
25
20
−
1.0
−
15
25
0.2
125
1/2VDRM
300
125
1/2VDRM
20
3.5
TO220F
2.0
1.35
25
20
−
1.0
−
15
25
0.2
125
1/2VDRM
300
125
1/2VDRM
20
3.4
TO220F
2.0
IH
Rth
Thyristors
191
TO220F-A
2.0
Electrical Characteristics
V GT
I GT
(V)
typ
max
1.5
typ
VGD
(mA)
max
30
Conditions
Tc
(°C)
25
(V)
min
0.1
Tj
(°C)
125
VD
(V)
480
(mA)
typ
12
(°C/W)
max
4.0
Mass
VF
Conditions
(V)
max
1.4
Conditions
IF
(A)
10
Package
(g)
TO-220S
1.5
3-2 Triacs
Triacs
V DRM
IT (RMS)
Part Number
(V)
(A)
Absolute Maximum Ratings
ITSM
PGM PG (AV)
Conditions
Conditions
Tc
(°C)
(A)
(W)
(W)
I GM
Tj
T stg
I DRM1
IDRM2
V TM
Conditions
(A)
(°C)
(°C)
(mA)
max
Conditions
(mA)
max
(V)
max
Conditions
I TM
(A)
TMA34S-L
400
3
109
30
125
3
0.3
0.5
–40 to +125
0.1
2
1.5
TMA54S-L
400
5
102
50
125
5
0.5
2
–40 to +125
0.1
2
1.5
4.5
7
TMA84S-L
400
8
92
80
125
5
0.5
2
–40 to +125
0.1
2
1.5
12
TMA104S-L
400
10
85
100
125
5
0.5
2
–40 to +125
0.1
2
1.5
14
TMA124S-L
400
12
77
120
125
5
0.5
2
–40 to +125
0.1
2
1.5
17
TMA164S-L
400
16
66
160
125
5
0.5
2
–40 to +125
0.1
2
1.45
20
TMA164P-L
400
16
108
160
125
5
0.5
2
–40 to +125
0.1
2
1.4
20
TMA164B-L
400
16
98
160
125
5
0.5
2
–40 to +125
0.1
2
1.4
20
53
190
125
5
0.5
2
–40 to +125
0.1
2
1.4
20
TMA204S-L
400
20
TMA254B-L
400
25
83
250
125
5
0.5
2
–40 to +125
0.1
2
1.3
20
STA203A
400
1.2×3
97
10
125
1.2
0.1
0.5
–40 to +125
0.1
1
1.6
1.6
TMA36S-L
600
3
109
30
125
3
0.3
0.5
–40 to +125
0.1
2
1.5
4.5
TMA36G-L
600
3
115
30
25
3
0.5
0.5
–40 to +125
0.1
2
1.5
4.5
TMA36H-L
600
3
109
30
25
3
0.5
0.5
–40 to +125
0.1
2
1.5
4.5
TMA56S-L
600
5
102
50
125
5
0.5
2
–40 to +125
0.1
2
1.5
7
TMA56G-L
600
5
111
50
25
5
0.5
2
–40 to +125
0.1
2
1.5
7
TMA56H-L
600
5
101
50
25
5
0.5
2
–40 to +125
0.1
2
1.5
7
TMA86S-L
600
8
92
80
125
5
0.5
2
–40 to +125
0.1
1.5
12
TMA86G-L
600
8
107
80
25
5
0.5
2
–40 to +125
0.1
2
1.5
12
TMA86H-L
600
8
91
80
25
5
0.5
2
–40 to +125
0.1
2
1.5
12
TMA106S-L
600
10
85
100
125
5
0.5
2
–40 to +125
0.1
2
1.5
14
TMA106G-L
600
10
105
100
25
5
0.5
2
–40 to +125
0.1
2
1.5
14
TMA106H-L
600
10
83
100
25
5
0.5
2
–40 to +125
0.1
2
1.5
14
25°C
2
125°C
TMA126S-L
600
12
77
120
125
5
0.5
2
–40 to +125
0.1
2
1.5
17
TMA126G-L
600
12
103
120
25
5
0.5
2
–40 to +125
0.1
2
1.5
17
TMA126H-L
600
12
78
120
25
5
0.5
2
–40 to +125
0.1
2
1.5
17
TMA166S-L
600
16
66
160
125
5
0.5
2
–40 to +125
0.1
2
1.45
20
20
TMA166G-L
600
16
100
160
25
5
0.5
2
–40 to +125
0.1
2
1.45
TMA166H-L
600
16
65
160
25
5
0.5
2
–40 to +125
0.1
2
1.45
20
TMA166P-L
600
16
108
160
125
5
0.5
2
–40 to +125
0.1
2
1.4
20
TMA166B-L
600
16
98
160
125
5
0.5
2
–40 to +125
0.1
2
1.4
20
TMB166S-L
600
16
94
160
125
5
0.5
2
–40 to +150
0.1
2
1.45
20
TMA206S-L
600
20
53
190
125
5
0.5
2
–40 to +125
0.1
2
1.4
20
TMB206S-L
600
20
85
200
125
5
0.5
2
–40 to +150
0.1
2
1.4
20
TMA256B-L
600
25
83
250
125
5
0.5
2
–40 to +125
0.1
2
1.3
20
192
Thyristors
3-2 Triacs
Electrical Characteristics (T j = 25°C, unless otherwise specified)
V GT
IGT
V GD
Mode I
Mode II
Mode III Conditions Mode I
Mode III Conditions
Mode II
Conditions
(T2+, G+) (T2+, G–) (T2–, G–) V D RL (T2+, G+) (T2+, G–) (T2–, G–) VD R L
VO
Tj
(V) (Ω)
(V) (Ω)
(V)
(V)
(V)
(mA)
(mA)
(mA)
(°C)
(V)
max
max
max
max
max
max
(dv/dt) c
R th (j-c)
Conditions
Package
(dv/dt) c T j
(V/us) (–A/ms) (°C) (°C/W)
max
min
Mass
(g)
1.5
1.5
1.5
12
20
20
20
20
12
20
0.2 125 1/2VDRM
5
1.5 125
4.5
TO220F
2.0
1.5
1.5
1.5
12
20
20
20
20
12
20
0.2 125 1/2VDRM
5
2.5 125
4
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
4 125
3.7
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
5 125
3.6
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.1 125 1/2VDRM
10
6 125
3.5
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
8 125
3.3
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
8 125
1.2
TO3P
6.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
8 125
1.8
TO3PF
6.5
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
10 125
3.2
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
12 125
1.6
TO3PF
6.5
3.5
1.2
1.2
6
10
3
3
3
6
10
0.2 125 1/2VDRM
1
125
20
STA8pin
2.0
1.5
1.5
1.5
12
20
15/20
15/20
15/20
12
20
0.2 125 1/2VDRM
5
1.5 125
4.5
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
5
1.5 125
3
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
5
1.5 125
4.6
1.5
1.5
1.5
12
20
15/20
15/20
15/20
12
20
0.2 125 1/2VDRM
5
2.5 125
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
5
2.5 125
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
5
2.5 125
1.5
1.5
1.5
12
20
20/30
20/30
20/30
12
20
0.2 125 1/2VDRM
10
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
TO220
2.5
TO220F-A
2.0
4
TO220F
2.0
2.5
TO220
2.5
4.2
TO220F-A
2.0
4 125
3.7
TO220F
2.0
4 125
2
TO220
2.5
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
4 125
3.8
TO220F-A
1.5
1.5
1.5
12
20
20/30
20/30
20/30
12
20
0.2 125 1/2VDRM
10
5 125
3.6
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
5 125
1.8
TO220
2.5
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
5 125
3.7
TO220F-A
2.0
1.5
1.5
1.5
12
20
20/30
20/30
20/30
12
20
0.2 125 1/2VDRM
10
6 125
3.5
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
6 125
1.6
TO220
2.5
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
6 125
3.5
TO220F-A
1.5
1.5
1.5
12
20
20/30
20/30
20/30
12
20
0.2 125 1/2VDRM
10
8 125
3.3
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
8 125
1.4
TO220
2.5
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
8 125
3.3
TO220F-A
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
8 125
1.2
TO3P
6.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
8 125
1.8
TO3PF
6.5
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
10 125
3.0
TO220F
2.0
1.5
1.5
1.5
12
20
20/30
20/30
20/30
12
20
0.2 125 1/2VDRM
10
10 125
3.2
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
10 125
2.7
TO220F
2.0
1.5
1.5
1.5
12
20
30
30
30
12
20
0.2 125 1/2VDRM
10
12 125
1.6
TO3PF
6.5
Thyristors
193
Package Type (Dimensions)
2.76±0.2
±0.2
2.54
2.54±0.2
±0.2
10
3.9
±0.2
13.0min
0.8
9.75±0.5
13.1±0.5
0.5 ±0.1
±0.1
4.0 ±0.2
φ 3.3±0.2
a
b
±0.15
0.5 −0.1
4.2±0.2
C
2.8±0.2 0.5
8.4 ±0.2
15.8±0.2
2.4±0.2
(3)
9.2±0.3
15.9±0.3
18.95MAX
φ 3.2±0.2
φ 3.6±0.2
10.0±0.2
2.54±0.2
0.8 ±0.2
10.16±0.3
16.9 ±0.3
4.5±0.2
1.3±0.2
6.68±0.2
9.9±0.3
(8.7)
• TO-220F
15.87±0.3
2.8±0.2
• TO-220F-A
(1.3)
(1.7)
• TO-220
1.35±0.15
1.35±0.15
0.85+0.2
−0.1
0.45+0.2
−0.1
2.54
2.54
4.7±0.2
2.4±0.2
±0.2
2.2
(1) (2) (3)
a: Part Number
b: Lot No.
(1) (2) (3)
(1)(2)(3)
Pin No.
(1)
(2)
(3)
+0.2
3 +0.2
−0.1
1.05+0.2
−0.1
5.45 ±0.1
1.75 –0.1
+0.2
2.15 –0.1
0.65+0.2
−0.1
a: Part Number
b: Lot No.
(1) (2) (3)
(1.4)
5.45±0.1
(Measured
at the root)
+0.2
1.05 –0.1
5.45±0.1
15.6±0.2
1.5 4.4 1.5
0.86 -0.1
+0.2
1.3±0.2
0.65 –0.1
(Measured
at the root)
10.5
9.1±0.3
(0.45)
+0.2
1.34 -0.1
+0.2
1.7 +0.2
−0.1
5.45 ±0.1
3.35±0.2
(Measured
at the root)
4.44±0.2
2.6±0.2
(Measured
at the root)
11±0.5
20.0min
3.5
2 +0.2
−0.1
(5)
(2.69) (1.8)
a
b
1.6
3.3
a
b
23±0.3
φ 3.2 ±0.1
9.5±0.2
2.0 ±0.1
(16.2)
5.0 ±0.7
1.8
2.0
19.9±0.3
4.0
3.2±0.2
4.8 ±0.2
• TO-220S Straight
5.5±0.2
3.45±0.2
+0.3
-0.5
• TO-3PF
15.6 ±0.3
13.6 ±0.2
9.6 ±0.2
5.5±0.2
• TO-3P
Cathode (T1)
Anode (T2)
Gate (G)
( ): Triacs
0.76±0.1
a: Part Number
b: Lot No.
0.4±0.1
2.54±0.1
2.54±0.1
(Measured
at the root)
(Measured
at the root)
(1) (2) (3)
10.2±0.3
(1) Terminal 1 (T1)
(2) Terminal 2 (T2)
(3) Gate (G)
1
3
• SLA12Pin
4.7 ±0.2
11.3 ±0.2
9.0 ±0.2
2.3 ±0.2
b
a
2.54
C1.5±0.5
a: Part Number
b: Lot No.
4.8±0.2
1.7±0.1
a
b
Thy1
12
+0.2
0.85 −0.1
+0.2
1.45±0.15 0.55 −0.1
Pin 1
0.5±0.15
1.0±0.25
±0.25
17.78
Ellipse 3.2±0.15×3.8
31.0±0.2
24.4±0.2
16.4±0.2
φ 3.2±0.15
0.8max
40±0.2±0.2
20.2 ±0.2
9.5min (10.4) 16.0±0.2
13.0±0.2
2.7
9.9±0.2
8.5max
• STA8Pin
2
1.2±0.15
31.5max
4
5
6
7
8
T1 G T2 G T2 G T2 T1
3
TR1
2
1
5
7
TR2
4
1.2 ±0.2
3
0.5 ±0.15
2
1
2.2 ±0.7
11×P2.54±0.7=27.94±0.1
Thy2
Thy3
Thy4
1 2 3 4 1 5 6 7 8 9 10 11
a: Part Number
b: Lot No.
1 2 3 4 5 6 7 8 9 10 11 12
G K A G K A G K A G K A
TR3
6
8
(Unit: mm)
194
Thyristors
Diodes
4
○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○
Ordering Information & Standard Packing Quantities .............. 196
Taping Specifications ...................................................................... 198
Application Note ............................................................................... 201
Marking Guide ................................................................................... 202
4-1
Rectifier Diodes .................................................................... 203
Surface-Mount ........................................................................ 203
Thru-Hole ................................................................................ 203
4-2
Fast Recovery Diodes ......................................................... 204
Thru-Hole ................................................................................ 204
4-3
Ultrafast Recovery Diodes .................................................. 206
Surface-Mount ........................................................................ 206
Thru-Hole ................................................................................ 206
4-4
Schottky Barrier Diodes ...................................................... 209
Standard .................................................................................. 209
• Surface-Mount ................................................................. 209
• Thru-Hole ......................................................................... 209
Low VF “A Series” .................................................................. 210
• Surface-Mount ................................................................. 210
• Thru-Hole ......................................................................... 210
Low IR “E Series” ................................................................... 211
• Surface-Mount ................................................................. 211
• Thru-Hole ......................................................................... 211
Low VF/Low IR Balance “J Series” ....................................... 211
• Surface-Mount ................................................................. 211
• Thru-Hole ......................................................................... 211
4-5
Power Zener Diodes ............................................................. 212
4-6
Silicon Varistors ................................................................... 213
Package Type (Dimensions) ........................................................... 214
○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○○
4 Diodes
Ordering Information
All products listed must be ordered in standard packing increments.
Series Name/Product Name
Standard Packing Quantities
Package
Bulk
Taping
AG01x
Axial(φ2.4 body/φ0.6 lead)
–
V:5000(Reel)
V1:3000(Box)
V0:3000(Box)
WS:2500(Box)
WK:2500(Box)
AK0x
Axial(φ2.4 body/φ0.6 lead)
–
V:5000(Reel)
V1:3000(Box)
V0:3000(Box)
WS:2500(Box)
WK:2500(Box)
AL01x
Axial(φ2.4 body/φ0.6 lead)
–
V:5000(Reel)
V1:3000(Box)
V0:3000(Box)
WS:2500(Box)
WK:2500(Box)
AM01x
Axial(φ2.4 body/φ0.6 lead)
–
V:5000(Reel)
V1:3000(Box)
V0:3000(Box)
WS:2500(Box)
WK:2500(Box)
AP01x
Axial(φ2.4 body/φ0.6 lead)
–
V:5000(Reel)
V1:3000(Box)
V0:3000(Box)
WS:2500(Box)
WK:2500(Box)
AS01x
Axial(φ2.4 body/φ0.6 lead)
–
V:5000(Reel)
V1:3000(Box)
V0:3000(Box)
WS:2500(Box)
WK:2500(Box)
AU01x
Axial(φ2.4 body/φ0.6 lead)
–
V:5000(Reel)
V1:3000(Box)
V0:3000(Box)
WS:2500(Box)
WK:2500(Box)
AU02x
Axial(φ2.4 body/φ0.6 lead)
–
V:5000(Reel)
V1:3000(Box)
V0:3000(Box)
WS:2500(Box)
WK:2500(Box)
EG01x
Axial(φ2.7 body/φ0.6 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
W:4000(Box)
EK0x
Axial(φ2.7 body/φ0.6 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
W:4000(Box)
EL02x
Axial(φ2.7 body/φ0.6 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
W:4000(Box)
EM01x
Axial(φ2.7 body/φ0.6 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
W:4000(Box)
EN01x
Axial(φ2.7 body/φ0.6 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
W:4000(Box)
EP01x
Axial(φ2.7 body/φ0.6 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
W:4000(Box)
ES01x
Axial(φ2.7 body/φ0.6 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
W:4000(Box)
EU01x
Axial(φ2.7 body/φ0.6 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
W:4000(Box)
EU02x
Axial(φ2.7 body/φ0.6 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
W:4000(Box)
SVxx
Axial(φ2.7 body/φ0.6 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
W:4000(Box)
VR-xx
Axial(φ2.7 body/φ0.6 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
W:4000(Box)
EG1x
Axial(φ2.7 body/φ0.78 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
EH1x
Axial(φ2.7 body/φ0.78 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
EK1x
Axial(φ2.7 body/φ0.78 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
EL1x
Axial(φ2.7 body/φ0.78 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
EM1x
Axial(φ2.7 body/φ0.78 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
EM2x
Axial(φ2.7 body/φ0.78 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
ES1x
Axial(φ2.7 body/φ0.78 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
EU1x
Axial(φ2.7 body/φ0.78 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
EU2x
Axial(φ2.7 body/φ0.78 lead)
–
V:5000(Reel)
V1:2000(Box)
V0:2000(Box)
RA1x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RC2
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RF1x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RG10x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RG1x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RH1x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RK1x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RL10x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RM10x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RM11x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RM1x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RN1x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RP1x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RS1x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RU1x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RU20x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RU2x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RX10x
Axial(φ4.0 body/φ0.78 lead)
–
V:3000(Reel)
V1:1000(Box)
RD2x
Axial(φ4.0 body/φ0.98 lead)
–
V:3000(Reel)
V1:1000(Box)
RG2x
Axial(φ4.0 body/φ0.98 lead)
–
V:3000(Reel)
V1:1000(Box)
RH2x
Axial(φ4.0 body/φ0.98 lead)
–
V:3000(Reel)
V1:1000(Box)
RK3x
Axial(φ4.0 body/φ0.98 lead)
–
V:3000(Reel)
V1:1000(Box)
RL2x
Axial(φ4.0 body/φ0.98 lead)
–
V:3000(Reel)
V1:1000(Box)
RM2x
Axial(φ4.0 body/φ0.98 lead)
–
V:3000(Reel)
V1:1000(Box)
RN2x
Axial(φ4.0 body/φ0.98 lead)
–
V:3000(Reel)
V1:1000(Box)
RO2x
Axial(φ4.0 body/φ0.98 lead)
–
V:3000(Reel)
V1:1000(Box)
RU3x
Axial(φ4.0 body/φ0.98 lead)
–
V:3000(Reel)
V1:1000(Box)
RG4x
Axial(φ6.5 body/φ1.4 lead)
500
–
RH4x
Axial(φ6.5 body/φ1.4 lead)
500
–
RJ4x
Axial(φ6.5 body/φ1.4 lead)
500
–
RK4x
Axial(φ6.5 body/φ1.4 lead)
500
–
RL4x
Axial(φ6.5 body/φ1.4 lead)
500
–
RM4x
Axial(φ6.5 body/φ1.4 lead)
500
–
RN4x
Axial(φ6.5 body/φ1.4 lead)
500
–
RS4x
Axial(φ6.5 body/φ1.4 lead)
500
–
RU4x
Axial(φ6.5 body/φ1.4 lead)
500
–
RW5x
Axial(φ6.5 body/φ1.4 lead)
500
–
196
Diodes
4 Diodes
Series Name/Product Name
SPB-x
Standard Packing Quantities
Package
Bulk
Taping
D pack(Surface-mount)
–
VL:3000(Reel)
VR:3000(Reel)
SPX-xxx
D pack(Surface-mount)
–
VL:3000(Reel)
VR:3000(Reel)
SJPA-xx
SJP
–
V:1800(Reel)
SJPB-xx
SJP
–
V:1800(Reel)
SJPE-xx
SJP
–
V:1800(Reel)
SJPJ-xx
SJP
–
V:1800(Reel)
SJPL-xx
SJP
–
V:1800(Reel)
SJPM-xx
SJP
–
V:1800(Reel)
SJPW-xx
SJP
–
V:1800(Reel)
SJPX-xx
SJP
–
V:1800(Reel)
SJPZ-xx
SJP
–
V:1800(Reel)
SZ-10xx
SZ-10(Surface-mount)
–
VL:750(Reel)
FMC-2xU
TO220F(2-element)
500
–
FM2-2202
TO220F(Center-tap)
500
–
FMB-2x
TO220F(Center-tap)
500
–
FME-2x
TO220F(Center-tap)
500
–
FMEN-2x
TO220F(Center-tap)
500
–
FMG-1x
TO220F(Center-tap)
500
–
FMG-2x
TO220F(Center-tap)
500
–
FMJ-2x
TO220F(Center-tap)
500
–
FML-1x
TO220F(Center-tap)
500
–
FML-2x
TO220F(Center-tap)
500
–
FMM-2x
TO220F(Center-tap)
500
–
FMU-1x
TO220F(Center-tap)
500
–
FMU-2x
TO220F(Center-tap)
500
–
FMW-2x
TO220F(Center-tap)
500
–
FMX-1x
TO220F(Center-tap)
500
–
FMX-2x
TO220F(Center-tap)
500
–
FMXA-2x
TO220F(Center-tap)
500
–
FMXB-2x
TO220F(Center-tap)
500
–
FMXJ-2x
TO220F(Center-tap)
500
–
FMB-G1x
TO220F-2Pin
500
–
FMB-G2x
TO220F-2Pin
500
–
FMC-G2x
TO220F-2Pin
500
–
FMD-G2x
TO220F-2Pin
500
–
FMG-G2x
TO220F-2Pin
500
–
FML-G1x
TO220F-2Pin
500
–
FML-G2x
TO220F-2Pin
500
–
FMN-G1x
TO220F-2Pin
500
–
FMP-G1x
TO220F-2Pin
500
–
FMQ-G1x
TO220F-2Pin
500
–
FMQ-G2x
TO220F-2Pin
500
–
FMU-G1x
TO220F-2Pin
500
–
FMU-G2x
TO220F-2Pin
500
–
FMXA-1x
TO220F-2Pin
500
–
FMX-G1x
TO220F-2Pin
500
–
VR:750(Reel)
FMX-G2x
TO220F-2Pin
500
–
FMC-2xUA
TO220F-2Pin(2-element)
500
–
MPE-2x
TO220S(Surface-mount)
–
VR:1000(Reel)
MPL-102S
TO220S(Surface-mount)
–
VR:1000(Reel)
MPEN-2x
TO263(Surface-mount)
–
VL:800(Reel)
VR:800(Reel)
MPL-1036S
TO220S(Surface-mount)
–
VL:800(Reel)
VR:800(Reel)
FMD-4x
TO3PF(Center-tap)
500
–
FMXA-4x
TO3PF(Center-tap)
500
–
FML-4x
TO3PF(Center-tap)
500
–
FMP-G5x
TO3PF-2Pin
500
–
FMQ-G5x
TO3PF-2Pin
500
–
FMR-G5x
TO3PF-2Pin
500
–
FMV-G5x
TO3PF-2Pin
500
–
Diodes
197
4 Diodes
Taping Specifications
Taping Type, Dimensions (mm)
Packing Dimensions (mm) and Packing Note
Axial taping
V
Part No., Lot No.,
Quantity
±2
6.0
+ 0.5
0
52.0
(White)
+1
6.0
0
83 ±2
5.08 + 0.38
(Blue)
5,000 pcs/reel
Core Flange
+ 0.5
0
25 ±0.1
0.5max
Axial taping
75 ±2
+ 0.5
0.5
max
+ 0.5
0
77max
5.08 + 0.38
Broken lines:
perforation
(White)
52.0
+1
6.0
0
0
255max
Axial taping
a
77m
Part No., Lot No., Quantity
Ammunition (Ammo) pack
+ 0.5
(Blue)
6.0
+ 0.5
0
0.5
max
95max
5.08 + 0.38
Broken lines:
perforation
(White)
26.0
+1
0
6.0
ax
+ 0.5
0
0.5max
Diodes
3,000 pcs/box
(2.4φ body)
1.0 ---1.0
0.5max
V0
198
2,000 pcs/box
(2.7φ body)
1,000 pcs/box
(4φ body)
x
+ 0.5
0.5max
To specify the
taping type, add
a suffix [V0]
(4φ body)
Ammunition (Ammo) pack
(Blue)
6.0
3,000 pcs/reel
81±2
Holddown clip
1.0 ---1.0
0.5max
V1
To specify the
taping type, add
a suffix [V1]
2.7φ body
2.4φ body
29 ±1
75 ±1
15
0.5
max
To specify the
taping type, add
a suffix [V]
Quantity
Reel
+ 0.5
1.0 ---1.0
0.5max
340 ±2
Taping Name
255max
51m
Part No., Lot No., Quantity
2,000 pcs/box
(2.7φ body)
3,000 pcs/box
(2.4φ body)
4 Diodes
Taping Type, Dimensions (mm)
0.7 ±0.2
4.0 ±0.2
140max
Part No., Lot No.,
Quantity
150max
+0.8
5.0 –0.2
12.7 ±0.3
0 ±2.0
+1.0
18.0 –0.5
12.5min 1.0 max
9.0 ±0.5
+0.5
ANODE
0 +--- 1
φ 4.0 +--- 0.2
φ 3.0 +--- 0.2
12.5min
9 +--- 0.5
18 +--- 10.5
5+--- 0.8
0.2
45m
1.5
22.2 +--- 1
2.75+--- 0.5
0 +--- 1
2,500 pcs/box
(2.4φ body)
ax
1max
(30°)
(5.5)
11max
+ 1.0
19.8 +--- 1.0
340max
Ammunition (Ammo) pack
3.85±0.7
16.5 --- 0.5
2.7φ body
0.6φ lead only
340max
3.85+--- 0.7
12.7+--- 0.3
12.7+--- 1
0.52 +--- 0.2
To specify the
taping type, add
a suffix [WK]
4,000 pcs/box
Part No., Lot No., Quantity
6.35 ±1.3 12.7 ±1.0
Radial taping
(for A0 series)
WK
+1.0
4.0 ±0.2
18.0 –0
11max
To specify the
taping type, add
a suffix [WS]
0.7±0.2
5.0 ±0.5
12.7 ±0.3
ANODE
18.0 –0.5
±1.0
±1.0
1.0 max
3.85 ±0.7
Radial taping
(for A0 series)
Broken lines:
perforation
9.0±0.5
12.5min
4.2
max
12.7
12.7
0 ±2.0
3.0 max
27.5 ±0.5
16.0 ±0.5 (11.5)
To specify the
taping type, add
a suffix [W]
WS
Ammunition (Ammo) pack
6.35 ±1.3 12.7 ±1.0
2.6max
E
CATHOD
W
Quantity
55m
ax
Radial taping
Packing Dimensions (mm) and Packing Note
ODE
CATH
Taping Name
Diodes
199
4 Diodes
Surface-Mount Taping Specifications
Taping Type, Dimensions (mm)
1.75±0.1
5.0 +0.4
–0.1
φ R1.0
φ 21±0.8
VL VR
1.5±0.2
4±0.1
φ 60±2
5.6±0.1
12 +0.3
–0.1
0.05 +0.1
–0.05
2.0±0.5
φ 13±0.5
1800 pcs/reel
2.4±0.1
2.9±0.1
(1) Device is placed in the embossed pocket with the mounting electrode down.
(2) 150 to 200mm leader tape is attached to the tip of the tape.
(3) 10 or more blank pockets are provided at both the beginning and
the end of the tape.
φ 180 +0
–3
13±1.5
1.2±0.5
Part Number
Feeding Direction
Quantity
Taping Name
(Type)
To specify the
taping type, add
a suffix [VR]
5 ±1
°)
(40
(1
Material
Disc: Double-sided White Cardboard
Core: Styrofoam
20 °
)
R40±1
4±0.5
3000 pcs/reel
(6.0)
0.3±0.1
φ 1.6 +−0.1
0
6.8 ±0.1
R9
Lot No.
23 max
Feeding Direction
3.4 max
(2.0)
8.0
−0.1
±0.5
2±0.5 17.5
2±0.5
4.0 ±0.1
1.75±0.1
2.0±0.1
φ 1.5 +−0.1
0
13.5±0.1
10.6±0.1
D Pack
2±0.05
1.3±0.4
To specify the
taping type, add
a suffix [VL]
VR
Feeding Direction
4±0.1
7.5 ±0.1
VL
1.3±0.4
Quantity
Reel
φ1.5 +0.1
–0
16.0 ±0.3
To specify the
taping type, add
a suffix [VL] or
[VR]
2.6±0.2
VL
VR
4.5±0.2
2.15±0.2
SJP
Emboss Taping
Packing Dimensions (mm) and Packing Note
5.5±0.05
Taping Name
3000 pcs/reel
φ 13±1
φ 80±1
φ 330 ±2
(R
13
0)
°)
(40
R50±1
(R5)
(6.0)
1000 pcs/reel
0.4±0.1
φ 3.0 max
31 max
4.9 max
±0.5 ±0.5
2±0.5 25.5
2
10.8 ±0.1
(R5)
20 °
)
4±0.5
1.75±0.1
13.9±0.1
11.5±0.1
φ 1.5 +−0.1
0
To specify the
taping type, add
a suffix [VR]
12.0 ±0.1
24.0 ±0.3
2.0±0.1
4.0 ±0.1
(1
(2.0)
VR
21.05 ±0.1
TO-220S
Feeding Direction
φ13±0.5
φ100 ±1
φ 330 ±2
Power Zener Surface-Mount Taping Specifications
Taping Name
Taping Type, Dimensions (mm)
Packing Dimensions (mm) and Packing Note
Quantity
Feeding Direction
VL
4°
φ 10
16.00±0.1
φ 1.50±0.25
8°
750 pcs/reel
9±0.5
8°
2±0.5
φ 21
±0.8
2
±0.
φ13
5
±0.
13±0.5
200
Diodes
φ13±0.2
0.40±0.05
10.80±0.1
7 ±0.5
L TYPE
φ 100±1
25.5±1
29.5±1
4°
R TYPE
φ 330±2
22
40
120°
R135
Feeding Direction
B
20
60
80
16.00±0.1
11.50±0.1
5.64±0.1
+0.3
4.00±0.1
2.00±0.1
24.00–0.1
φ 1.50±0.1
1.75±0.1
750 pcs/reel
5
To specify the
taping type,
add a suffix
[VR]
1 3 B
φ 10
VR
1 3 B
35°
To specify the
taping type,
add a suffix
[VL]
Label the Part No., Quantity,
Lot No. and seal it on the reel
4 Diodes
Application Note
■ Surface-Mount Diodes
Hold
Axial type
Bend
Hold
Frame type
Bend
(2) Mounting
To mount a frame-type diode on a heatsink, use its screw hole. Do not
fix its resin body as the silicon chip may get broken.
(3) Temperature Measurement
For an axial type diode, measure the temperature of the lead wire on
the main body side. The thermocouple to be used must be as thin as
possible (approximately φ0.125mm).
Soldering (common to flow and reflow)
i) Use rosin based flux. Never use acidic fluxes.
ii) To prevent a large thermal stress, preheat within 1 to 2 minutes at
150°C and solder within the usable range shown below.
300
280
260
240
220
200
180
160
0
10
20
30
40
50
60
70
80
Time (sec)
iii) For using a soldering iron, use the following references:
Temperature of soldering iron tip:
Lower than 300ºC
(Power of the soldering
iron: 30W or lower)
The soldering tip must
be as thin as possible.
Soldering time: Less than 10 seconds
Reference SJP Series Copper Laminate Pattern
(Unit : mm)
2.0
2.0
2.0
(4) Temperature Rise Consideration
A diode’s temperature increases due to losses from forward current,
reverse current and reverse recovery time.
In normal use, losses are mainly attributable to forward current and
voltage. However, in high frequency circuits such as switching power
supplies, losses due to reverse recovery time also occurs. Moreover, in
diodes having large reverse currents like Schottky barrier diode losses
due to reverse current cannot be disregarded.
Forward loss tends to decrease at high temperatures. However,
reverse loss tends to increase at high temperatures. Therefore, it is
necessary to consider the ambient temperature when verifying
operation.
(Part Number Type: SJP)
Usable Range
(1) Lead Forming
When forming leads, hold the lead wire on the main body's side so as
to prevent stress from being applied to the main body.
Soldering Temperature (°C)
■ General Description
(5) Inrush Current
In a capacitor-input type rectifier circuit, inrush current flows when the
power supply is switched on. The peak value of this inrush current
shall be set less than peak forward surge current IFSM (I2t can also be
obtained but set the minimum pulse width to 1 msec). The value of
IFSM is guaranteed for a single shot only. If the inrush current is
repeated within a short period of time, the derating has to be taken into
account.
4.0 to 4.2
(6) Peak Value Current
Considering normal use, limit of the peak value current must be set to
10 times of the average current IF (AV). If the peak value increases.
the diode's forward loss also increases. In this case, check the
temperature rise.
● Carefully study the mounting method when the usage environment is prone to
creeping discharge.
Contact us if there is any unclear point.
Diodes
201
4 Diodes
Marking Guide
5 TO-3PF, FM100 type
■
1 Axial (A0)
■
qPart Number (abbreviation)
The AM01 is indicated as “M.”
wClass
Z: 200V None: 400V A: 600V
B: 800V C: 1000V
eManufacturing date
First letter: Year (Last digit of year)
Second letter: Month (1 to 9, O, N, D)
rCathode band: Continuous band
Color of the band: White(Yellow for AU02 series)
M A
9
D
➃
➀ ➁
➂
➀
➁
➂
➃
Cathode band
Color: White
qPart Number (abbreviation)
EM01, EM2, EM1 are indicated as MO, M2
and M1, respectively.
wClass
Z: 200V None: 400V A: 600V
B: 800V C: 1000V F: 1500V
But EU02A is indicated as A2 and EU2YX as Y.
eManufacturing date
First letter: Year (Last digit of year)
Second letter: Month (1 to 9, O, N, D)
rManufacturing period
• First 10 days of month
•• Middle 10 days of month
••• Last 10 days of month
3 Axial (R1, R2, R3, R4)
■
RK44
➂
➀
96
➁
4 TO-220F type
■
FMU12S
8512
➀
➁
➂
(1-chip type)
FMLG12
➁
S
0125
5905
➀
➂
➃
qPart Number: 2 set marking
wManufacturing date and period: 2 set marking
First letter: Year (Last digit of year)
Second letter: Month (1 to 9, O, N, D)
• First 10 days of month
•• Middle 10 days of month
••• Last 10 days of month
eCathode band
White: For Power Supply and SBD
Color of
Yellow: For Medium speed
the band:
Red: For Fast and ultrafast
➀
➁
➂
(1-chip type)
FMQ-G5GS
2 Axial (E0, E1)
■
MO
C
87
FMXA4203
qPart Number: Full name
wPolarity: Rectifier Symbol
eLot No.
First letter: Year (Last digit of year)
Second letter: Month (1 to 9, O, N, D)
Third and fourth letters: Day
Laser marking or White ink marking
6905
➀
➁
➂
6 Surface-Mount (SJP)
■
qPart Number
wPolarity: Rectifier Symbol
eLot No.
First letter: Year (Last digit of year)
Second letter: Month (1 to 9, O, N, and D)
Third and fourth letters: Day
7 Surface-Mount (D pack)
■
B 64S
A
6H
➀
➁
➂
qPart Number
wPolarity: Rectifier Symbol
eLot No.
First letter: Lot code
Second letter: Year (Last digit of year)
Third letter: Month (A to M except I)
8 Surface-Mount (TO-220S)
■
E 29G
➀
➁
➂
qPart Number
wPolarity: Rectifier Symbol
eLot No.
First letter: Year (Last digit of year)
Second letter: Month (A to M except I)
Third letter: Week
qPart Number
FMU-12S is indicated as “FMU12S.”
wPolarity: Rectifier Symbol
eLot No.
First letter: Year (Last digit of year)
Second letter: Month (1 to 9, O, N, D)
Third and fourth letters: Day
Laser marking or White ink marking
9 SZ-10 Series
■
qPart Number: Excluding last letter
FML-G12S is indicated as “FML-G12.”
wLast letter of Part Number
ePolarity: Rectifier Symbol
rLot No.
First letter: Year (Last digit of year)
Second letter: Month (1 to 9, O, N, D)
Third and fourth letters: Day
Laser marking or White ink marking
10 Silicon Varistors
■
9C1
qPart Number
wLot No.
First letter: Year (Last digit of year)
Second letter: Month (1 to 9, O, N, and D)
Third letter: Day
Refer to P213
202
Diodes
4-1 Rectifier Diodes
●Surface-Mount
VRM
(V)
400
IF (AV)
(A)
Values in parentheses
are for the products
with heatsinks
2.0
Package
Surface-Mount (SJP)
Part Number
SJPM-H4
IFSM
(A)
50Hz
Single Half Sine Wave
45
Tj
(°C)
Tstg
(°C)
-40 to +150
VF
(V)
max
1.1
IF
(A)
2.0
IR
(µA)
VR=VRM
max
IR(H)
(µA)
VR=VRM
max
Tj
(°C)
10
50
150
IR
(µA)
VR=VRM
max
IR(H)
(µA)
VR=VRM
max
Tj
(°C)
Rth(j-l)
Rth(j-c)
(°C/W)
20
Mass
(g)
0.072
●Thru-Hole
VRM
(V)
100
200
400
600
800
1000
IF (AV)
(A)
Package
Axial
Values in parentheses
are for the products (Body Diameter/Lead Diameter)
with heatsinks
Part Number
IFSM
(A)
50Hz
Single Half Sine Wave
Tj
(°C)
Tstg
(°C)
VF
(V)
max
IF
(A)
Rth(j-l)
Rth(j-c)
(°C/W)
Mass
(g)
1.0
Axial(φ2.7/φ0.78)
EM 1Y
45
-40 to +150
0.97
1.0
10
500
150
17
3.0
Axial(φ6.5/φ1.4)
RM 4Y
200
-40 to +150
0.95
3.0
10
50
150
8.0
1.2
1.0
Axial(φ2.4/φ0.6)
AM01Z
35
-40 to +150
0.98
1.0
10
50 100(Ta)
22
0.13
1.0
Axial(φ2.7/φ0.6)
EM01Z
45
-40 to +150
0.97
1.0
10
50
100
20
0.2
1.0
Axial(φ2.7/φ0.78)
EM 1Z
45
-40 to +150
0.97
1.0
10
500
150
17
0.3
1.0
Axial(φ4.0/φ0.78)
RM 1Z
50
-40 to +150
0.95
1.0
5
50
100
15
0.4
1.2
Axial(φ4.0/φ0.98)
RO 2Z
80
-40 to +150
0.92
1.5
10
50 100(Ta)
12
0.61
1.2
Axial(φ4.0/φ0.98)
RM 2Z
100
-40 to +150
0.91
1.5
10
50
12
0.6
1.5
Axial(φ4.0/φ0.78)
RM 10Z
120
-40 to +150
0.91
1.5
10
50 100(Ta)
15
0.4
3.0
Axial(φ6.5/φ1.4)
RM 4Z
200
-40 to +150
0.95
3.0
10
50 100(Ta)
8.0
1.2
10
TO-220F(Center-tap)
FMM-22S, R
100
-40 to +150
1.1
5.0
10
1.0
Axial(φ2.4/φ0.6)
AM01
35
-40 to +150
0.98
1.0
10
1.0
Axial(φ2.7/φ0.6)
EM01
45
-40 to +150
0.97
1.0
10
1.0
Axial(φ2.7/φ0.78)
EM 1
45
-40 to +150
0.97
1.0
10
1.0
Axial(φ4.0/φ0.78)
RM 1
50
-40 to +150
0.95
1.0
5.0
1.2
Axial(φ2.7/φ0.78)
EM 2
80
-40 to +150
0.92
1.2
10
1.2
Axial(φ4.0/φ0.98)
RO 2
80
-40 to +150
0.92
1.5
10
1.2
Axial(φ4.0/φ0.98)
RM 2
100
-40 to +150
0.91
1.5
1.2
Axial(φ4.0/φ0.78)
RM 10
150
-40 to +150
0.91
1.5
3.0
Axial(φ6.5/φ1.4)
RM 4
200
-40 to +150
0.95
10
TO-220F(Center-tap)
FMM-24S, R
100
-40 to +150
1.0
Axial(φ2.4/φ0.6)
AM01A
35
1.0
Axial(φ2.7/φ0.6)
EM01A
1.0
Axial(φ2.7/φ0.78)
EM 1A
1.0
Axial(φ4.0/φ0.78)
1.2
100
100
4.0
2.1
50 100(Ta)
22
0.13
50 100(Ta)
20
0.2
17
0.3
15
0.4
500
150
0.3
150
50 100(Ta)
500
150
17
0.3
50 100(Ta)
12
0.61
10
50
100
12
0.6
10
50
100
15
0.4
3.0
10
50
150
8.0
1.2
1.1
5.0
10
100
150
4.0
2.1
-40 to +150
0.98
1.0
10
50 100(Ta)
22
0.13
45
-40 to +150
0.97
1.0
10
50 100(Ta)
20
0.2
45
-40 to +150
0.97
1.0
10
500
150
17
0.3
RM 1A
50
-40 to +150
0.95
1.0
5.0
50
100
15
0.4
Axial(φ2.7/φ0.78)
EM 2A
80
-40 to +150
0.92
1.2
10
50
100
17
0.3
1.2
Axial(φ4.0/φ0.78)
RM 11A
100
-40 to +150
0.92
1.5
10
50
100
15
0.4
1.2
Axial(φ4.0/φ0.98)
RM 2A
100
-40 to +150
0.91
1.5
10
50
100
12
0.6
1.2
Axial(φ4.0/φ0.78)
RM 10A
150
-40 to +150
0.91
1.5
10
50
100
15
0.4
3.0
Axial(φ6.5/φ1.4)
RM 4A
200
-40 to +150
0.95
3.0
10
50
150
8.0
1.2
3.2
Axial(φ6.5/φ1.4)
RM 4AM
350
-40 to +150
0.92
3.5
10
50
100
8.0
1.2
FMM-26S, R
100
150
4.0
2.1
15
0.4
0.3
10
TO-220F(Center-tap)
100
-40 to +150
1.1
5.0
10
0.8
Axial(φ4.0/φ0.78)
RM 1B
40
-40 to +150
1.2
1.0
5
1.0
Axial(φ2.7/φ0.78)
EM 1B
35
-40 to +150
1.05
1.0
20
200
150
17
1.2
Axial(φ2.7/φ0.78)
EM 2B
80
-40 to +150
0.92
1.2
10
500
150
17
0.3
1.2
Axial(φ4.0/φ0.98)
RO 2B
80
-40 to +150
0.92
1.5
10
50 100(Ta)
12
0.61
1.2
Axial(φ4.0/φ0.78)
RM 11B
100
-40 to +150
0.92
1.5
10
50 100(Ta)
15
0.4
1.2
Axial(φ4.0/φ0.98)
RM 2B
100
-40 to +150
0.91
1.5
10
50
12
0.6
1.2
Axial(φ4.0/φ0.78)
RM 10B
150
-40 to +150
0.91
1.5
10
50 100(Ta)
15
0.4
0.8
Axial(φ4.0/φ0.78)
RM 1C
40
-40 to +150
1.2
1.0
5.0
100 100(Ta)
15
0.4
1.0
Axial(φ2.7/φ0.78)
EM 1C
35
-40 to +150
1.05
1.0
20
200
17
0.3
1.2
Axial(φ4.0/φ0.98)
RO 2C
80
-40 to +150
0.92
1.5
10
50 100(Ta)
12
0.61
1.2
Axial(φ4.0/φ0.78)
RM 11C
100
-40 to +150
0.92
1.5
10
50
100
15
0.4
1.2
Axial(φ4.0/φ0.98)
RM 2C
100
-40 to +150
0.91
1.5
10
50
100
12
0.6
3.0
Axial(φ6.5/φ1.4)
RM 4C
150
-40 to +150
0.97
3.0
10
50
100
8.0
1.2
Diodes
203
50 100(Ta)
100
150
4-2 Fast Recovery Diodes
●Thru-Hole
VRM
(V)
200
400
IF (AV)
(A)
Values in parentheses
are for the products
with heatsinks (Body Diameter/Lead Diameter)
Part
Number
IFSM
(A)
Tj
(°C)
50Hz
Single Half Sine Wave
Tstg
(°C)
VF
(V)
max
IF
(A)
IR
IR(H)
(µA)
(µA)
VR=VRM VR=VRM
max
max
Tj
(°C)
trrq
(µs)
IF/IRP
(mA)
trrw
(µs)
IF/IRP
(mA)
Rth(j-l)
Rth(j-c)
(°C/W)
Mass
(g)
0.2
0.5
Axial(φ2.7/φ0.6)
EU01Z
15
-40 to +150
1.0
0.5
10
150 100(Ta)
0.4
10/10 0.18
10/20
20
0.5
Axial(φ2.7/φ0.78)
EU 1Z
15
-40 to +150
1.0
0.5
10
150 100(Ta)
0.4
10/10 0.18
10/20
17
0.3
0.5
Axial(φ2.4/φ0.6)
AU01Z
15
-40 to +150
1.7
0.5
10
150 100(Ta)
0.4
10/10 0.18
10/20
22
0.13
0.6
Axial(φ4.0/φ0.78)
RH 1Z
35
-40 to +150
1.3
0.6
5.0
70 150(Ta)
4.0
10/10
1.3
10/20
15
0.4
0.7
Axial(φ2.7/φ0.78)
ES 1Z
30
-40 to +150
2.5
0.8
10
200 100(Ta)
1.5
10/10
0.6
10/20
17
0.3
0.8
Axial(φ2.4/φ0.6)
AU02Z
25
-40 to +150
1.3
0.8
10
250
100
0.4
10/10 0.18
10/20
22
0.13
1.0
Axial(φ2.7/φ0.6)
EU02Z
15
-40 to +150
1.4
1.0
10
300
100
0.4
10/10 0.18
10/20
20
0.2
1.0
Axial(φ2.7/φ0.78)
EU 2Z
15
-40 to +150
1.4
1.0
10
3000
150
0.4
10/10 0.18
10/20
17
0.3
1.0
Axial(φ4.0/φ0.78)
RU 2Z
20
-40 to +150
1.5
1.0
10
300 100(Ta)
0.4
10/10 0.18
10/20
15
0.4
3.5
Axial(φ6.5/φ1.4)
RU 4Z
70
-40 to +150
1.3
3.5
10
300
0.4
10/10 0.18
10/20
8.0
1.2
5.0 TO-220F(Center-tap) FMU-12S, R
30
-40 to +150
1.5
2.5
50
500 100(Ta)
0.4 100/100 0.18 100/200
4.0
2.1
10 TO-220F(Center-tap) FMU-22S, R
40
-40 to +150
1.5
5.0
50
0.4 100/100 0.18 100/200
4.0
2.1
3000
100
150
0.25
Axial(φ2.7/φ0.6)
EU01
15
-40 to +150
2.5
0.25
10
150 100(Ta)
0.4
10/10 0.18
10/20
20
0.2
0.25
Axial(φ2.7/φ0.78)
EU 1
15
-40 to +150
2.5
0.25
10
150 100(Ta)
0.4
10/10 0.18
10/20
17
0.3
0.25
Axial(φ4.0/φ0.78)
RU 1
15
-40 to +150
2.5
0.25
10
200 100(Ta)
0.4
10/10 0.18
10/20
15
0.4
0.5
Axial(φ2.4/φ0.6)
AU01
15
-40 to +150
1.7
0.5
10
150 100(Ta)
0.4
10/10 0.18
10/20
22
0.13
0.6
Axial(φ2.4/φ0.6)
AS01
20
-40 to +150
1.5
0.6
10
100
1.5
10/10
0.6
10/20
22
0.13
0.6
Axial(φ2.7/φ0.78)
EH 1
30
-40 to +150
1.35
0.6
10
200 100(Ta)
4.0
10/10
1.3
10/20
17
0.3
0.7
Axial(φ2.7/φ0.78)
ES 1
30
-40 to +150
2.5
0.8
10
200 100(Ta)
1.5
10/10
0.6
10/20
20
0.2
0.8
Axial(φ2.4/φ0.6)
AU02
25
-40 to +150
1.3
0.8
10
250
100
0.4
10/10 0.18
10/20
22
0.13
1.0
Axial(φ2.7/φ0.6)
EU02
15
-40 to +150
1.4
1.0
10
300
100
0.4
10/10 0.18
10/20
20
0.2
1.0
Axial(φ2.7/φ0.78)
EU 2
15
-40 to +150
1.4
1.0
10
300
100
0.4
10/10 0.18
10/20
17
0.3
1.1
Axial(φ4.0/φ0.78)
RU 2M
20
-40 to +150
1.2
1.1
10
300
100
0.4
10/10 0.18
10/20
15
0.4
1.5
Axial(φ4.0/φ0.98)
RU 3
20
-40 to +150
1.5
1.5
10
400
100
0.4
10/10 0.18
10/20
12
0.6
1.5
Axial(φ4.0/φ0.98)
RU 3M
50
-40 to +150
1.1
1.5
10
350
100
0.4
10/10 0.18
10/20
12
0.6
1.5(3.0)
Axial(φ6.5/φ1.4)
RU 4
50
-40 to +150
1.5
3.0
10
300 100(Ta)
0.4
10/10 0.18
10/20
8.0
1.2
2.0(3.5)
Axial(φ6.5/φ1.4)
RU 4M
70
-40 to +150
1.3
3.5
10
300
100
0.4 100/100 0.18 100/200
8.0
1.2
5.0 TO-220F(Center-tap) FMU-14S, R
30
-40 to +150
1.5
2.5
50
500 100(Ta)
0.4 100/100 0.18 100/200
4.0
2.1
10 TO-220F(Center-tap) FMU-24S, R
40
-40 to +150
1.5
5.0
50
3000
150
0.4 100/100 0.18 100/200
4.0
2.1
0.25
600
Package
Axial
50
Axial(φ4.0/φ0.78)
RU 1A
15
-40 to +150
2.5
0.25
10
150
100
0.4
10/10 0.18
10/20
15
0.4
0.5
Axial(φ2.4/φ0.6)
AU01A
15
-40 to +150
1.7
0.5
10
150 100(Ta)
0.4
10/10 0.18
10/20
22
0.13
0.6
Axial(φ4.0/φ0.78)
RF 1A
15
-40 to +150
2.0
0.6
10
200 100(Ta)
0.4
10/10 0.18
10/20
15
0.4
0.6
Axial(φ2.4/φ0.6)
AS01A
20
-40 to +150
1.5
0.6
10
100
1.5
10/10
0.6
10/20
22
0.13
0.6
Axial(φ4.0/φ0.78)
RH 1A
35
-40 to +150
1.3
0.6
5.0
70 150(Ta)
4.0
10/10
1.3
10/20
15
0.4
0.7
Axial(φ2.7/φ0.6)
ES01A
20
-40 to +150
3.0
0.8
10
200 100(Ta)
1.5
10/10
0.6
10/20
20
0.2
0.7
Axial(φ4.0/φ0.78)
RS 1A
30
-40 to +150
2.5
0.8
10
150
1.5
10/10
0.6
10/20
15
0.4
0.8
Axial(φ2.4/φ0.6)
AU02A
25
-40 to +150
1.3
0.8
10
250 100(Ta)
0.4
10/10 0.18
10/20
22
0.13
1.0
Axial(φ2.7/φ0.6)
EU02A
15
-40 to +150
1.4
1.0
10
300
100
0.4
10/10 0.18
10/20
20
0.2
1.0
Axial(φ2.7/φ0.78)
EU 2A
15
-40 to +150
1.4
1.0
10
300 100(Ta)
0.4
10/10 0.18
10/20
17
0.3
1.0
Axial(φ4.0/φ0.78)
RU 2
20
-40 to +150
1.5
1.0
10
300 100(Ta)
0.4
10/10 0.18
10/20
15
0.4
1.1
Axial(φ4.0/φ0.78)
RU 2AM
20
-40 to +150
1.2
1.1
10
300
100
0.4
10/10 0.18
10/20
15
0.4
1.5
Axial(φ4.0/φ0.98)
RU 3A
20
-40 to +150
1.5
1.5
10
400
100
0.4
10/10 0.18
10/20
12
0.6
1.5
Axial(φ4.0/φ0.78)
RU 20A
50
-40 to +150
1.1
1.5
10
350
100
0.4
10/10 0.18
10/20
15
0.4
1.5
Axial(φ4.0/φ0.98)
RU 3AM
50
-40 to +150
1.1
1.5
10
350
100
0.4
10/10 0.18
10/20
12
0.6
1.5(3.0)
Axial(φ6.5/φ1.4)
RU 4A
50
-40 to +150
1.5
3.0
10
300 100(Ta)
0.4
10/10 0.18
10/20
8
1.2
3.0
Axial(φ4.0/φ0.98)
RY2A
50
-40 to +150
1.15
3.0
10
1000
150
0.2 100/100
0.1
100/200
12
0.6
3.0
TO-220F2Pin
FMY-1036S
50
-40 to +150
1.15
3
10
1000
150
0.2 100/100
0.1
100/200
4.0
2.1
5.0
TO-220F2Pin
FMU-G16S
30
-40 to +150
1.25
5.0
50
500 100(Ta)
0.4 100/100 0.18
100/200
4.0
2.1
5.0
TO-220F(Center-tap)
FMU-16S, R
30
-40 to +150
1.5
2.5
50
500 100(Ta)
0.4 100/100 0.18
100/200
4.0
2.1
10
TO-220F(Center-tap)
FMU-26S, R
40
-40 to +150
1.5
5.0
50
3000
150
0.4 100/100 0.18
100/200
4.0
2.1
10
TO-220F2Pin
FMU-G26S
40
-40 to +150
1.35
10
50
500
150
0.4 100/100 0.18
100/200
4.0
2.1
10
TO-220F2Pin
FMY-1106S
180
-40 to +150
1.15
10
30
3000
150
0.2 100/100
0.1
100/200
4.0
2.1
20
TO-220F(Center-tap)
FMY-2206S*
180
-40 to +150
1.15
10
30
3000
150
0.2 100/100
0.1
100/200
4.0
2.1
50
2000
*Under development
204
Diodes
4-2 Fast Recovery Diodes
VRM
(V)
800
1000
1300
1500
2000
IF (AV)
(A)
Package
Axial
Values in parentheses
are for the products
with heatsinks (Body Diameter/Lead Diameter)
Part
Number
IFSM
Tj
(A)
(°C)
50Hz
Single Half Sine Wave
Tstg
(°C)
VF
(V)
max
IF
(A)
0.25
Axial(φ4.0/φ0.78)
RU 1B
15
-40 to +150
2.5
0.25
0.6
Axial(φ4.0/φ0.78)
RF 1B
15
-40 to +150
2.0
0.6
Axial(φ4.0/φ0.78)
RH 1B
35
-40 to +150
1.3
0.7
Axial(φ4.0/φ0.78)
RS 1B
30
-40 to +150
1.0
Axial(φ4.0/φ0.78)
RU 2B
20
1.1
Axial(φ4.0/φ0.98)
RU 3B
1.5(3.0)
Axial(φ6.5/φ1.4)
0.2
IR
IR(H)
(µA)
(µA)
VR=VRM VR=VRM
max
max
Tj
(°C)
trrq
(µs)
IF/IRP
(mA)
trrw
(µs)
IF/IRP
(mA)
Rth(j-l)
Rth(j-c)
(°C/W)
Mass
(g)
10
200 100(Ta)
0.4
10/10 0.18
10/20
15
0.4
1.0
10
200
100
0.4
10/10 0.18
10/20
15
0.4
0.6
5.0
70 150(Ta)
4.0
10/10
1.3
10/20
15
0.4
2.5
0.8
10
2000
150
1.5
10/10
0.6
10/20
15
0.4
-40 to +150
1.5
1.0
10
300
100
0.4
10/10 0.18
10/20
15
0.4
20
-40 to +150
1.5
1.0
10
400
100
0.4
10/10 0.18
10/20
12
0.6
RU 4B
50
-40 to +150
1.6
3.0
10
500 100(Ta)
0.4
10/10 0.18
10/20
8.0
1.2
Axial(φ4.0/φ0.78)
RU 1C
15
-40 to +150
3.0
0.25
10
250
100
0.4
10/10 0.18
10/20
15
0.4
0.6
Axial(φ4.0/φ0.78)
RH 1C
35
-40 to +150
1.3
0.6
5.0
70 150(Ta)
4.0
10/10
1.3
10/20
15
0.4
0.8
Axial(φ4.0/φ0.78)
RU 2C
20
-40 to +150
1.5
1.0
10
300 100(Ta)
0.4
10/10 0.18
10/20
15
0.4
1.5
Axial(φ4.0/φ0.98)
RU 3C
20
-40 to +150
2.5
1.5
10
400
100
0.4
10/10 0.18
10/20
12
0.6
1.5(2.5)
Axial(φ6.5/φ1.4)
RU 4C
50
-40 to +150
1.6
3.0
50
500
100
0.4 100/100 0.18
100/200
8.0
1.2
1.0
Axial(φ4.0/φ0.98)
RH 2D
60
-40 to +150
1.0
1.0
10
500 100(Ta)
4.0
100/200
12
0.6
1.5
Axial(φ6.5/φ1.4)
RU 4D
50
-40 to +150
1.8
1.5
50
500
100
0.4 500/500 0.18 500/1000
8.0
1.2
1.5(2.5)
Axial(φ6.5/φ1.4)
RU 4DS
50
-40 to +150
1.6
3.0
10
500
100
0.4 500/500 0.18 500/1000
8.0
1.2
0.5
Axial(φ2.7/φ0.6)
ES01F
15
-40 to +150
2.0
0.5
10
200 100(Ta)
1.5
10/10
0.6
10/20
20
0.2
0.5
Axial(φ2.7/φ0.78)
ES 1F
20
-40 to +150
2.0
0.5
10
200 100(Ta)
1.5
10/10
0.6
10/20
17
0.3
0.8
Axial(φ4.0/φ0.98)
RH 2F
60
-40 to +150
1.0
1.0
10
500 100(Ta)
4.2
10/10
1.4
100/200
12
0.6
1.5(2.5)
Axial(φ6.5/φ1.4)
RS 4FS
50
-40 to +150
1.5
3.0
50
500
100
1.0 100/100
0.4
100/200
8.0
1.2
2.5
Axial(φ6.5/φ1.4)
RH 4F
50
-40 to +150
1.5
2.5
10
350
100
4.0 100/100
1.3
100/200
8.0
1.2
5.0
TO-220F2Pin
FMQ-G1FS
50
-40 to +150
2.0
5.0
50
500
150
0.7 500/500
0.3 500/1000
4.0
2.1
10
TO-220F2Pin
FMQ-G2FS
50
-40 to +150
2.8
10
50
500
150
0.5 500/500
0.2 500/1000
4.0
2.1
10
TO-220F2Pin
FMU-G2FS
50
-40 to +150
1.6
10
50
10000
150
0.6 500/500 0.25 500/1000
4.0
2.1
10
TO-220F2Pin
FMQ-G2FLS
50
-40 to +150
1.8
10
50
500
150
1.2 500/500
0.4 500/1000
4.0
2.1
10
TO-220F2Pin
FMQ-G2FMS
50
-40 to +150
2.4
10
50
500
150
0.5 500/500 0.25 500/1000
4.0
2.1
10
TO-3PF2Pin
FMV-G5FS
50
-40 to +150
1.5
10
50
700 100(Ta)
2.0 500/500
0.8 500/1000
2.0
6.5
0.2
Axial(φ4.0/φ0.78)
RC 2
20
-40 to +150
2.0
0.2
10
300
4.0
1.3
15
0.4
100
10/10
10/10
1.3
10/20
Diodes
205
4-3 Ultrafast Recovery Diodes
●Surface-Mount
1.0
1.5
2.0
Surface-Mount (SJP)
Surface-Mount (SJP)
Surface-Mount (SJP)
SJPL-D2
SJPX-F2
3.0
3.0
Surface-Mount (SJP)
Surface-Mount (D pack)
SJPL-L2
SPX-G32S
SPX-62S
60
80
-40 to +150
-40 to +150
0.98
0.98
IR(H)
IR
trrq
trrw
(mA)
(ns) IF/IRP (ns) IF/IRP
(µA)
Tj
(mA)
(mA)
VR=VRM VR=VRM (°C)
max
max
1.0
25
1.0 150
50 100/100
35 100/200
1.5
10
2.0 150
30 100/100
25 100/200
2.0
50
0.2 150
50 100/100
35 100/200
3.0
50
0.3 150
50 100/100
35 100/200
50
10 100(Ta)
3.0
30 100/100
25 100/200
6.0 Surface-Mount (D pack)Center-tap
10 Surface-Mount (TO220S) MPL-102S
80
65
-40 to +150
-40 to +150
0.98
0.98
3.0
5.0
50
100
10
0.2
150
150(Ta)
30 100/100
40 100/100
2.0
1.5
Surface-Mount (SJP)
Surface-Mount(SJP)
SJPX-H3
SJPL-F4
20
25
-40 to +150
-40 to +150
1.3
1.3
2.0
1.5
50
10
3.0
0.05
150
150(Ta)
3.0
Surface-Mount(SJP)
SJPL-L4
30
-40 to +150
1.3
3.0
50
0.1
500
1.0
3.0
Surface-Mount(SJP)
Surface-Mount(SJP)
20
50
-40 to +150
-40 to +150
1.4
1.4
0.1
0.15
30
20
-40 to +150
-40 to +150
-40 to +150
1.5
1.5
1.75
50
600
Surface-Mount (SJP)
Surface-Mount (SJP)
Surface-Mount (TO220S) MPL-1036S
1.0
3.0
2.0
2.0
3.0
10
15
2.0
2.0
3.0
SJPD-D5*
SJPD-L5
SJPL-H6
SJPX-H6
0.1
3.0
0.1
VRM
(V)
200
300
400
IF (AV)
(A)
Values in parentheses
are for the products
with heatsinks
Package
Part
Number
SJPL-H2
IFSM
Tj
(A)
(°C)
50Hz
Single Half Sine Wave
Tstg
(°C)
VF
(V)
max
25
30
25
-40 to +150
-40 to +150
-40 to +150
0.98
0.98
0.98
50
IF
(A)
10
50
Rth(j-l)
(°C/W)
Mass
(g)
20
20
20
0.072
0.072
0.072
20
5.0
0.072
0.41
25 100/200
30 100/200
5.0
2.5
0.41
1.4
30 100/100
50 100/100
25 100/200
35 100/200
20
20
0.072
0.072
150
50 100/100
35 100/200
20
0.072
150
40 100/100
50 100/100
30 100/200
35 100/200
20
20
0.072
0.072
50 100/100
30 100/100
50 100/100
35 100/200
20 100/200
–
–
20
20
2.5
0.072
0.072
150
150
150
150
1.4
*Under development
●Thru-Hole
VRM
(V)
200
IF (AV)
(A)
Values in parentheses
are for the products
with heatsinks
Package
Axial
(Body Diameter/Lead Diameter)
Part
Number
Tstg
(°C)
VF
(V)
max
IF
(A)
IR
IR(H)
(µA)
(mA)
VR=VRM VR=VRM
max
max
Tj
(°C)
trrq
(ns)
IF/IRP
(mA)
trrw
(ns)
IF/IRP
(mA)
Rth(j-l)
(°C/W)
Mass
(g)
1.0
Axial( φ 2.4/ φ 0.6)
AL01Z
25
−40 to +150
0.98
1.0
50
0.1
100
50 100/100
35 100/200
22
0.13
1.5
Axial( φ 2.7/ φ 0.6)
EN 01Z
50
−40 to +150
0.92
1.5
10
2.0
150
100 100/100
50 100/200
20
0.2
1.5
φ 2.7/ φ 0.78) EL 1Z
Axial( 25
−40 to +150
0.98
1.5
50
0.1
100
50 100/100
35 100/200
17
0.3
1.5
Axial( φ 2.7/ φ 0.6)
EL02Z
25
−40 to +150
0.98
1.5
50
0.1
100
40 100/100
30 100/200
20
0.2
1.5
Axial( φ 4.0/ φ 0.78) RN 1Z
60
−40 to +150
0.92
1.5
20
3.0
150
100 100/100
50 100/200
15
0.4
2.0
Axial( φ 4.0/ φ 0.78) RX 10Z
30
−40 to +150
0.98
2.0
50
3.0
150
30 100/100
25 100/200
15
0.4
2.0
Axial( φ 4.0/ φ 0.78) RL 10Z
30
−40 to +150
0.98
2.0
50
0.1 100(Ta)
50 100/100
35 100/200
15
0.4
2.0
φ 4.0/ φ 0.98) RL 2Z
Axial( 30
−40 to +150
0.98
2.0
50
0.1
150
50 100/100
35 100/200
12
0.6
2.0
φ 4.0/ φ 0.98) RN 2Z
Axial( 70
−40 to +150
0.92
2.0
50
4.0
150
100 100/100
50 100/200
12
0.6
3.5
φ 6.5/ φ 1.4)
Axial( RL 4Z
80
−40 to +150
0.95
3.5
150
0.5
150
50 100/100
35 100/200
8.0
1.2
3.5
φ 6.5/ φ 1.4)
Axial( RN 4Z
120
−40 to +150
0.92
3.5
50
6.0
150
100 100/100
50 100/200
8.0
1.2
5.0 TO-220F(Center-tap) FML-12S
35
−40 to +150
0.98
2.5
50
0.1
150
40 100/100
30 100/200
4.0
2.1
5.0 TO-220F(Center-tap) FMX-12S
35
−40 to +150
0.98
2.5
50
10
150
30 100/100
25 100/200
4.0
2.1
5.0
TO-220F2Pin
FML-G12S
65
−40 to +150
0.98
5.0
100
0.2
150
40 100/100
30 100/200
4.0
2.1
5.0
TO-220F2Pin
FMX-G12S
65
−40 to +150
0.98
5.0
100
20
150
30 100/100
25 100/200
4.0
2.1
5.0
TO-220F2Pin
FMN-G12S
100
−40 to +150
0.92
5.0
100
10 150(Ta)
100 100/100
50 100/200
4.0
2.1
100
−40 to +150
1.2
5.0
100
20
150
25 500/500
−
−
4.0
2.1
10 TO-220F(Center-tap) FML-22S
65
−40 to +150
0.98
5.0
100
0.2
150
40 100/100
30 100/200
4.0
2.1
10 TO-220F(Center-tap) FMX-22S
65
−40 to +150
0.98
5.0
100
20 100(Ta)
30 100/100
25 100/200
4.0
2.1
10 TO-220F(Center-tap) FMXA-2102ST
10
TO-220F2Pin
FML-G22S
150
−40 to +150
0.98
10
200
0.4
150
40 500/500
30 500/1000
4.0
2.1
10
TO-220F2Pin
FMX-G22S
150
−40 to +150
0.98
10
200
50 100(Ta)
30 500/500
25 500/1000
4.0
2.1
15 TO-220F(Center-tap) FMX-22SL
100
−40 to +150
0.98
7.5
150
30
150
30 500/500
25 500/1000
4.0
2.1
20 TO-220F(Center-tap) FM2-2202
110
−40 to +150
0.98
10
200
0.4
150
50 100/100
35 100/200
4.0
2.1
4.0
2.1
20
TO-220F(Center-tap) FMXA-2202S
100
−40 to +150
1.2
10
100
30
150
25 500/500
−
20
TO-3PF(Center-tap ) FML-4202S
150
−40 to +150
0.98
10
10
0.4
150
40 500/500
30 500/1000
2.0
6.5
20
TO-3PF(Center-tap ) FMX-4202S
150
−40 to +150
0.98
10
200
50
150
30 500/500
25 500/1000
2.0
6.5
20
TO-3PF(Center-tap ) FMXA-4202S*
100
−40 to +150
1.2
10
100
30
150
25 500/500
−
2.0
6.5
40
−40 to +150
1.3
2.5
50
0.25 100(Ta)
50 100/100
35 100/200
4.0
2.1
70
−40 to +150
1.3
5.0
100
0.2 100(Ta)
50 100/100
35 100/200
4.0
2.1
10 TO-220F(Center-tap) FML-23S
75
−40 to +150
1.3
5.0
100
0.2
150
50 100/100
30 100/200
4.0
2.1
10 TO-220F(Center-tap) FMX-23S
65
−40 to +150
1.3
5.0
50
15
150
30 100/100
25 100/200
4.0
2.1
15 TO-220F(Center-tap) FMXA-2153S
75
−40 to +150
1.3
7.5
75
23
150
25 500/500
−
4.0
2.1
20 TO-220F(Center-tap) FMX-2203
100
−40 to +150
1.3
10
100
30 150(Ta)
30 500/500
25 500/1000
4.0
2.1
20
100
−40 to +150
1.3
10
100
30
150
30 500/500
25 500/1000
2.0
6.5
20 TO-220F(Center-tap) FMXA-2203S
100
−40 to +150
1.3
10
100
30
150
25 500/500
−
−
4.0
2.1
TO-3PF(Center-tap ) FMXA-4203S
100
−40 to +150
1.3
10
100
30
150
25 500/500
−
−
2.0
6.5
5.0 TO-220F(Center-tap) FML-13S
5.0
300
IFSM
Tj
(A)
(°C)
50Hz
Single Half Sine Wave
20
TO-220F2Pin
FML-G13S
TO-3PF(Center-tap ) FMX-4203S
−
−
−
*Under development
206
Diodes
4-3 Ultrafast Recovery Diodes
VRM
(V)
IF (AV)
(A)
Values in parentheses
are for the products
with heatsinks
600
IFSM
(A)
50Hz
Tj
(°C)
Tstg
(°C)
VF
(V)
max
Single Half Sine Wave
IF
(A)
IR
IR(H)
(mA)
(µA)
VR=VRM VR=VRM
max
max
Tj
(°C)
trrq
(ns)
IF/IRP
(mA)
trrw
(ns)
IF/IRP
(mA)
Rth(j-l)
(°C/W)
Mass
(g)
φ 2.4/ φ 0.6)
Axial( AG01
15
−40 to +150
1.8
0.7
100
0.5 100(Ta)
100 100/100
50 100/200
22
0.13
0.7
φ 2.7/ φ 0.6)
Axial( EG01
15
−40 to +150
2.0
0.7
50
0.3
100
100 100/100
50 100/200
20
0.2
0.8
Axial( φ 2.7/ φ 0.78) EG 1
15
−40 to +150
1.8
0.8
50
0.3
100
100 100/100
50 100/200
17
0.3
1.0
φ 2.4/ φ 0.6)
Axial( 20
−40 to +150
1.4
1.0
10
0.05
150
50 100/100
35 100/200
22
0.13
1.2
φ 4.0/ φ 0.78) RG 10
Axial( 50
−40 to +150
1.8
1.5
500
2.5
150
100 100/100
50 100/200
15
0.4
1.2
φ 4.0/ φ 0.98) RG 2
Axial( 50
−40 to +150
1.8
1.5
500
2.5
150
100 100/100
50 100/200
12
0.6
1.5
φ 2.7/ φ 0.78) EL 1
Axial( 40
−40 to +150
1.3
1.5
10
0.05
150
50 100/100
35 100/200
17
0.3
2.0
φ 4.0/ φ 0.98) RL 2
Axial( AL01
40
−40 to +150
1.3
2.0
10
0.1
150
50 100/100
35 100/200
50
−40 to +150
1.5
5.0
50
15
150
20 500/500
−
5.0 TO-220F(Center-tap) FMG-14S, R
35
−40 to +150
2.0
2.5
500
1.5
100
100 100/100
5.0 TO-220F(Center-tap) FML-14S
40
−40 to +150
1.3
2.5
50
0.1 100(Ta)
50 100/100
TO-220F2Pin
FMXA-1054S
12
0.6
4.0
2.1
50 100/200
4.0
2.1
35 100/200
4.0
2.1
−
5.0
TO-220F2Pin
FMX-G14S
70
−40 to +150
1.3
5.0
50
15
150
30 100/100
25 100/200
4.0
2.1
5.0
TO-220F2Pin
FML-G14S
70
−40 to +150
1.3
5.0
100
0.2
150
50 100/100
35 100/200
4.0
2.1
5.0
TO-220F2Pin
FMN-G14S
70
−40 to +150
1.0
5.0
50
10
150
100 100/100
50 100/200
4.0
2.1
8.0 TO-220F(Center-tap) FMG-24S, R
65
−40 to +150
2.0
5.0
500
2.5
150
100 100/100
50 100/200
4.0
2.1
10 TO-220F(Center-tap) FML-24S
70
−40 to +150
1.3
5.0
100
0.2 100(Ta)
50 100/100
35 100/200
4.0
2.1
100
−40 to +150
1.50
10
100
30
150
25 500/500
−
4.0
2.1
2.0
6.5
10
500
Part
Number
0.7
5.0
400
Package
Axial
(Body Diameter/Lead Diameter)
TO-220F2Pin
FMXA-1104S
−
20
TO-3PF(Center-tap) FML-4204S
100
−40 to +150
1.3
10
50
0.4
150
50 500/500
35 500/1000
20
TO-3PF(Center-tap) FMXA-4204S*
100
−40 to +150
1.5
10
100
30
150
25 500/500
−
20
TO-3PF(Center-tap) FMD-4204S*
100
−40 to +150
1.4
10
20
0.2
150
50 500/500
30 500/1000
−
2.0
6.5
2.0
6.5
0.4
1.0
φ 4.0/ φ 0.78) RD1105*
Axial( 20
−40 to +150
1.4
1.0
10
0.1
150
40 100/100
30 100/200
15
0.5
φ 2.7/ φ 0.6)
Axial( EG01A
10
−40 to +150
2.0
0.5
100
0.5
100
100 100/100
50 100/200
20
0.2
0.5
φ 2.4/ φ 0.6)
Axial( AG01A
15
−40 to +150
1.8
0.5
100
0.5 100(Ta)
100 100/100
50 100/200
22
0.13
0.6
φ 2.7/ φ 0.78) EG 1A
Axial( 10
−40 to +150
2.0
0.6
100
0.5
100
100 100/100
50 100/200
17
0.3
1.0
φ 4.0/ φ 0.78) RG 10A
Axial( 50
−40 to +150
2.0
1.0
500
1.0
150
100 100/100
50 100/200
15
0.4
1.0
φ 4.0/ φ 0.98) RG 2A
Axial( 50
−40 to +150
2.0
1.0
500
1.0
150
100 100/100
50 100/200
12
0.6
1.2
φ 4.0/ φ 0.98) RD 2A
Axial( 30
−40 to +150
1.55
1.2
50
0.1
150
50 100/100
35 100/200
12
0.6
3.0
TO-220F(Two elements) FMC-26U
50
−40 to +150
2.0
3.0
500
3.0
150
70 500/500
35 500/1000
4.0
2.1
1.2
3.0
Axial( φ 6.5/ φ 1.4)
RL 4A
80
−40 to +150
1.5
3.0
50
0.1
150
50 500/500
35 500/1000
8.0
3.0
Axial( φ 6.5/ φ 1.4)
RN4A
50
−40 to +150
1.3
3.0
50
5.0
150
100 100/100
50 100/200
8.0
1.2
4.0
TO-220F2Pin
FMG-G26S
50
−40 to +150
2.5
4.0
500
3.0 100(Ta)
100 100/100
50 100/200
4.0
2.1
5.0
TO-220F2Pin
FMX-G16S
50
−40 to +150
1.5
5.0
50
15
150
30 100/100
25 100/200
4.0
2.1
5.0
TO-220F2Pin
FML-G16S
50
−40 to +150
1.5
5.0
100
0.5
150
50 500/500
35 500/1000
4.0
2.1
5.0
TO-220F2Pin
FMN-G16S
50
−40 to +150
1.2
5.0
50
10
150
100 100/100
50 100/200
4.0
2.1
5.0
TO-220F2Pin
FMN-1056S
60
−40 to +150
1.3
5.0
50
5.0
150
100 100/100
50 100/200
4.0
2.1
5.0
TO-220F2Pin
FMD-1056S*
90
−40 to +150
1.7
5.0
10
0.1
150
50 500/500
35 500/1000
4.0
2.1
6.0 TO-220F(Center-tap) FMG-26S, R
50
−40 to +150
2.2
3.0
500
3.0
150
100 100/100
50 100/200
4.0
2.1
100
−40 to +150
1.75
8.0
30
6.0
150
27 500/500
−
4.0
2.1
15
8.0
TO-220F2Pin
10
TO-220F2Pin
FMX-1106S
50
−40 to +150
1.5
5.0
50
150
30 100/100
25 100/200
4.0
2.1
10
TO-220F2Pin
FMX-G26S
100
−40 to +150
1.5
10
100
20 150(Ta)
30 100/100
25 100/200
4.0
2.1
10
TO-220F2Pin
FMD-G26S
100
−40 to +150
1.7
10
100
0.3 100(Ta)
50 500/500
30 500/1000
4.0
2.1
10
TO-220F2Pin
FMXA-1106S
100
−40 to +150
1.98
10
100
30
150
28 500/500
ー 4.0
2.1
10
TO-220F2Pin
FMNS-1106S
100
−40 to +150
1.3
10
100
10
150
100 100/100
50 100/200
4.0
2.1
10
TO-220F2Pin
FMN-1106S
150
−40 to +150
1.3
10
100
10
150
100 100/100
50 100/200
4.0
2.1
10
TO-220F2Pin
FMD-1106S*
180
−40 to +150
1.7
10
20
0.2
150
50 500/500
35 500/1000
4.0
2.1
10
TO-220F2Pin
FMXK-1106S
100
−40 to +150
1.75
10
100
10
150
27 500/500
ー
4.0
2.1
50 100/200
4.0
2.1
4.0
2.1
6.5
FMXK-1086S
ー
−
ー
20
TO-220F(Center-tap) FMN-2206S
150
−40 to +150
1.3
10
100
10
150
100 100/100
20
TO-220F(Center-tap) FMXK-2206S
100
−40 to +150
1.75
10
100
10
150
27 500/500
ー
20
TO-3PF(Center-tap) FMD-4206S
100
−40 to +150
1.7
10
100
0.3
150
50 500/500
30 500/1000
2.0
20
TO-3PF(Center-tap) FMX-4206S*
100
−40 to +150
1.5
10
100
20
150
30 500/500
ー
ー 2.0
6.5
20
TO-3PF(Center-tap) FMXA-4206S*
100
−40 to +150
1.98
10
100
30
150
28 500/500
ー
ー 2.0
6.5
20
TO-3PF(Center-tap) FMN-4206S
150
−40 to +150
1.5
10
100
20
150
100 100/100
50 100/200
2.0
6.5
ー
*Under development
Diodes
207
4-3 Ultrafast Recovery Diodes
VRM
(V)
IF (AV)
(A)
Values in parentheses
are for the products
with heatsinks
Package
Axial
(Body Diameter/Lead Diameter)
φ 2.4/ φ 0.6)
Axial( Part
Number
IFSM
(A)
50Hz
Tj
(°C)
Tstg
(°C)
VF
(V)
max
Single Half Sine Wave
IF
(A)
IR
IR(H)
(mA)
(µA)
VR=VRM VR=VRM
max
max
Tj
(°C)
trrq
(ns)
IF/IRP
(mA)
trrw
(ns)
IF/IRP
(mA)
Rth(j-l)
(°C/W)
Mass
(g)
10
−40 to +150
2.0
0.5
10
0.2
150
200 100/100
80 100/200
22
0.13
3.0 TO-220F(Two elements) FMC-28U
50
−40 to +150
3.0
3.0
100
0.5
150
70 500/500
35 500/1000
4.0
2.1
3.0
TO-220F2Pin
FMC-G28S
50
−40 to +150
3.0
3.0
100
1.0
150
70 500/500
35 500/1000
4.0
2.1
5.0
TO-220F2Pin
FMC-G28SL
60
−40 to +150
3.0
5.0
200
2.0
150
70 500/500
35 500/1000
4.0
2.1
0.2
Axial( φ 2.4/ φ 0.6)
AP01C
5.0
−40 to +150
4.0
0.2
100
0.5
100
200 100/100
80 100/200
22
0.13
0.2
Axial( φ 2.7/ φ 0.6)
EP01C
5.0
−40 to +150
4.0
0.2
5
0.05 100(Ta)
0.4
Axial( φ 4.0/ φ 0.78) RU 1P
10
−40 to +150
4.0
0.4
5.0
0.5
φ 2.7/ φ 0.6)
Axial( EG01C
10
−40 to +150
3.3
0.5
50
0.7
Axial( φ 4.0/ φ 0.78) RG 1C
10
−40 to +150
3.3
0.7
20
0.25
150
2.0
Axial( φ 6.5/ φ 1.4)
RG 4C
60
−40 to +150
3.0
2.0
500
2.5
3.0
TO-220F2Pin
FMG-G2CS
30
−40 to +150
4.0
3.0
50
1200
3.0 TO-220F2Pin(Two elements) FMC-26UA
50
−40 to +150
4.0
3.0
1600
3.0 TO-220F2Pin(Two elements) FMC-28UA
50
−40 to +150
6.0
2000
0.1
5.0
−40 to +150
7.0
0.5
800
1000
208
Diodes
Axial( φ 4.0/ φ 0.78)
AB01B
RP 1H
200 100/100
80 100/200
20
0.2
150
100 100/100
50 100/200
15
0.4
0.5 100(Ta)
100 100/100
50 100/200
20
0.2
100 100/100
50 100/200
15
0.4
100
100 500/500
50 500/1000
8.0
1.2
0.3
100
100 500/500
50 500/1000
4.0
2.1
500
3
150
70 500/500
35 500/1000
4.0
2.1
3.0
100
0.5
150
70 500/500
35 500/1000
4.0
2.1
0.1
2.0
0.01
100
50
15
0.4
0.5
100
10/20
10/20
4-4 Schottky Barrier Diodes
Standard
●Surface-Mount
VRM
(V)
40
60
90
IF (AV)
(A)
Package
Part Number
IFSM
(A)
50Hz
Single Half Sine Wave
Tj
(°C)
Tstg
(°C)
VF
(V)
max
IF
(A)
IR
(mA)
VR=VRM
max
IR(H)
(mA)
VR=VRM
max
Tj
(°C)
Rth(j-l)
Rth(j-c)
(°C/W)
Mass
(g)
1.0
Surface-Mount (SJP)
SJPB-D4
30
-40 to +150
0.55
1.0
0.1
35
150
20
2.0
Surface-Mount (SJP)
SJPB-H4
50
-40 to +150
0.55
2.0
0.2
70
150
20
0.072
3.0
Surface-Mount (SJP)
SJPB-L4
60
-40 to +150
0.55
3.0
0.3
100
150
20
0.072
3.0
Surface-Mount (D pack)
SPB-G34S
50
-40 to +150
0.55
3.0
3.5
100
150
5.0
0.29
5.0
Surface-Mount (D pack)
SPB-G54S
60
-40 to +150
0.55
5.0
5.0
175
150
5.0
0.29
6.0 Surface-Mount (D pack)Center-tap SPB-64S
50
-40 to +150
0.55
3.0
3.5
100
150
5.0
0.29
1.0
Surface-Mount (SJP)
SJPB-D6
20
-40 to +150
0.68
1.0
0.1
30
150
20
0.072
1.5
Surface-Mount (SJP)
SJPW-F6
25
-40 to +150
0.70
1.5
1.0
70
150
20
0.072
2.0
Surface-Mount (SJP)
SJPB-H6
40
-40 to +150
0.69
2.0
0.2
55
150
20
0.072
3.0
Surface-Mount (SJP)
SJPB-L6
50
-40 to +150
0.70
3.0
0.3
70
150
20
0.072
5.0
Surface-Mount (D pack)
SPB-G56S
60
-40 to +150
0.70
5.0
3.0
125
150
5.0
0.29
1.0
Surface-Mount (SJP)
SJPB-D9
20
-40 to +150
0.85
1.0
0.1
30
150
20
0.072
2.0
Surface-Mount (SJP)
SJPB-H9
40
-40 to +150
0.85
2.0
0.2
55
150
20
0.072
120
-40 to +150
0.85
10
1.0
100
150
2.5
1.04
IR(H)
(mA)
VR=VRM
max
35
20 Surface-Mount (TO220S)Center-tap MPE-220A
100
0.072
●Thru-Hole
VRM
(V)
40
1.0
Axial(φ 2.4/φ 0.6)
AK 04
25
-40 to +150
0.55
1.0
IR
(mA)
VR=VRM
max
5.0
150
22
0.13
1.0
Axial(φ 2.7/φ 0.6)
EK 04
40
-40 to +150
0.55
1.0
5.0
35
150
20
0.3
1.5
Axial(φ 2.7/φ 0.78)
EK 14
40
-40 to +150
0.55
1.5
5.0
50
150
17
0.3
1.7
Axial(φ 4.0/φ 0.78)
RK 14
60
-40 to +150
0.55
2.0
5.0
70
150
15
0.45
2.5
Axial(φ 4.0/φ 0.98)
RK 34
50
-40 to +150
0.55
2.5
5.0
12
0.6
3.0
TO-220F2Pin
FMB-G14
60
-40 to +150
0.60
3.0
2.0
70
150
4.0
2.1
3.0
Axial(φ 6.5/φ 1.4)
RK 44
80
-40 to +150
0.55
3.0
5.0
100
150
8.0
1.2
4.0
TO-220F(Center-tap)
FMB-24
50
-40 to +150
0.55
2.0
5.0
250
150
4.0
2.1
5.0
Axial(φ 6.5/φ 1.4)
120
-40 to +150
0.55
5.0
1.0
150
150
8.0
1.2
4.0
2.1
4.0
2.1
IF (AV)
(A)
Package
Axial
(Body Diameter/Lead Diameter)
Part Number
RW 54
IFSM
(A)
50Hz
Single Half Sine Wave
Tj
(°C)
Tstg
(°C)
VF
(V)
max
IF
(A)
Tj
(°C)
100 150(Ta)
Rth(j-l)
Rth(j-c)
(°C/W)
Mass
(g)
5.0
TO-220F2Pin
FMB-G14L
60
-40 to +150
0.55
5.0
5.0
175 150(Ta)
6.0
TO-220F(Center-tap)
FMB-24M
60
-40 to +150
0.55
3.0
5.0
100 150(Ta)
10
TO-220F(Center-tap)
FMB-24L
60
-40 to +150
0.55
5.0
5.0
175
150
4.0
2.1
10
TO-220F(Center-tap)
FMW-24L
100
-40 to +150
0.55
5.0
0.5
175
150
4.0
2.1
10
TO-220F2Pin
FMB-G24H
150
-40 to +150
0.55
10
10
350
150
4.0
2.1
15
TO-220F(Center-tap)
FMB-24H
100
-40 to +150
0.55
7.5
7.5
250
150
4.0
2.1
15
TO-220F(Center-tap)
FMW-24H
120
-40 to +150
0.55
7.5
7.5
250 150(Ta)
4.0
2.1
20
TO-220F(Center-tap)
FMB-2204
150
-40 to +150
0.55
10
10
350
150
4.0
2.1
20
TO-220F(Center-tap)
FMW-2204
120
-40 to +150
0.55
10
1.0
350
150
4.0
2.1
30
TO-220F(Center-tap)
FMB-2304
150
-40 to +150
0.55
15
15
500
150
4.0
2.1
Diodes
209
4-4 Schottky Barrier Diodes
VRM
(V)
60
90
IF (AV)
(A)
Package
Axial
(Body Diameter/Lead Diameter)
Part Number
IFSM
(A)
50Hz
Single Half Sine Wave
Tj
(°C)
Tstg
(°C)
VF
(V)
max
IF
(A)
IR
(mA)
VR=VRM
max
IR(H)
(mA)
VR=VRM
max
Tj
(°C)
Rth(j-l)
Rth(j-c)
(°C/W)
Mass
(g)
0.7
Axial(φ 2.4/ φ 0.6)
AK 06
10
-40 to +150
0.62
0.7
1.0
30
150
22
0.13
0.7
Axial(φ 2.7/ φ 0.6)
EK 06
10
-40 to +150
0.62
0.7
1.0
30
150
20
0.3
1.5
Axial(φ 2.7/ φ 0.78)
EK 16
25
-40 to +150
0.62
1.5
1.0
55
150
17
0.3
1.5
Axial(φ 4.0/ φ 0.78)
RK 16
25
-40 to +150
0.62
1.5
1.0
55
150
15
0.45
2.0
Axial(φ 4.0/ φ 0.98)
RK 36
40
-40 to +150
0.62
2.0
2.0
12
0.6
3.5
Axial( φ 6.5/ φ 1.4)
RK 46
70
-40 to +150
0.62
3.5
3.0
125
150
8.0
1.2
4.0
TO-220F(Center-tap)
FMB-26
40
-40 to +150
0.62
2.0
2.0
70
150
4.0
2.1
6.0
TO-220F2Pin
FMB-G16L
50
-40 to +150
0.72
6.0
5.0
200
150
4.0
2.1
10
TO-220F(Center-tap)
FMW-2106
100
-40 to +150
0.70
5.0
3.0
125
150
4.0
2.1
15
TO-220F(Center-tap)
FMW-2156
100
-40 to +150
0.70
7.5
5.0
175
150
4.0
2.1
20
TO-220F(Center-tap)
FMW-2206
120
-40 to +150
0.70
10
1.0
250
150
4.0
2.1
30
TO-220F(Center-tap)
FMB-2306
150
-40 to +150
0.70
15
8.0
400
150
4.0
2.1
30
TO-3PF(Center-tap)
FMW-4306
150
-40 to +150
0.70
15
3.0
350
150
2.0
6.5
70 150(Ta)
0.7
Axial(φ 2.4/ φ 0.6)
AK 09
10
-40 to +150
0.81
0.7
1.0
30
150
22
0.13
0.7
Axial(φ 2.7/ φ 0.6)
EK 09
10
-40 to +150
0.81
0.7
1.0
30
150
20
0.3
1.5
Axial(φ 2.7/ φ 0.78)
EK 19
40
-40 to +150
0.81
1.5
2.0
55
150
17
0.3
1.5
Axial(φ 4.0/ φ0.78)
RK 19
40
-40 to +150
0.81
1.5
2.0
55
150
15
0.45
2.0
Axial(φ 4.0/ φ 0.98)
RK 39
50
-40 to +150
0.81
2.0
3.0
12
0.6
3.5
Axial(φ 6.5/ φ 1.4)
RK 49
60
-40 to +150
0.81
3.5
5.0
125
150
8.0
1.2
FMB-29
50
-40 to +150
0.81
2.0
3.0
55
150
4.0
2.1
FMB-G19L
60
-40 to +150
0.81
4.0
5.0
125
150
4.0
2.1
FMB-29L
60
-40 to +150
0.81
4.0
5.0
125 150(Ta)
4.0
2.1
4.0
TO-220F(Center-tap)
4.0
TO-220F2Pin
8.0
TO-220F(Center-tap)
70 150(Ta)
Low VF “A Series”
●Surface-Mount
VRM
(V)
30
IF (AV)
(A)
Package
Part Number
IFSM
(A)
50Hz
Single Half Sine Wave
Tj
(°C)
Tstg
(°C)
VF
(V)
max
IF
(A)
IR
(mA)
VR=VRM
max
IR(H)
(mA)
VR=VRM
max
Tj
(°C)
30
210
Mass
(g)
1.0
Surface-Mount (SJP)
SJPA-D3
30
-40 to +125
0.36
1.0
1.5
70
100(Ta)
20
0.072
2.0
Surface-Mount (SJP)
SJPA-H3*
40
-40 to +125
0.36
2.0
3.0
140
100(Ta)
20
0.072
3.0
Surface-Mount (SJP)
SJPA-L3
70
-40 to +125
0.36
3.0
4.5
210
100
20
0.072
*Under development
●Thru-Hole
VRM
(V)
Rth(j-l)
Rth(j-c)
(°C/W)
IF (AV)
(A)
2.0
Diodes
Package
Axial
(Body Diameter/Lead Diameter)
Axial(φ4.0/φ0.78)
Part Number
RA 13
IFSM
(A)
50Hz
Single Half Sine Wave
50
Tj
(°C)
Tstg
(°C)
-40 to +125
VF
(V)
max
0.36
IF
(A)
2.0
IR
(mA)
VR=VRM
max
IR(H)
(mA)
VR=VRM
max
Tj
(°C)
3.0
140
100
Rth(j-l)
Rth(j-c)
(°C/W)
15
Mass
(g)
0.45
4-4 Schottky Barrier Diodes
Low IR “E Series”
●Surface-Mount
VRM
(V)
IF (AV)
(A)
Package
Axial
(Body Diameter/Lead Diameter)
Part Number
IFSM
(A)
50Hz
Single Half Sine Wave
Tj
(°C)
Tstg
(°C)
VF
(V)
max
IF
(A)
IR
(mA)
VR=VRM
max
IR(H)
(mA)
VR=VRM
max
Tj
(°C)
Rth(j-l)
Rth(j-c)
(°C/W)
Mass
(g)
30
2.0
Surface-Mount (SJP)
SJPE-H3*
40
-40 to +150
0.55
2.0
0.2
70
150(Ta)
20
0.072
40
2.0
Surface-Mount (SJP)
SJPE-H4
40
-40 to +150
0.6
2.0
0.05
20
150
20
0.072
*Under development
●Thru-Hole
VRM
(V)
IF (AV)
(A)
Package
Part Number
IFSM
(A)
50Hz
Single Half Sine Wave
Tj
(°C)
Tstg
(°C)
VF
(V)
max
IF
(A)
IR
(mA)
VR=VRM
max
IR(H)
(mA)
VR=VRM
max
Tj
(°C)
Rth(j-l)
Rth(j-c)
(°C/W)
Mass
(g)
40
15
TO-220F(Center-tap)
FME-24H
100
-40 to +150
0.60
7.5
0.75
50
150
4.0
2.1
60
10
TO-220F(Center-tap)
FME-2106
60
-40 to +150
0.72
5.0
1.0
35
150
4.0
2.1
10
TO-220F(Center-tap)
FMEN-210A
100
-40 to +150
0.85
5.0
0.1
50
150
4.0
2.1
15
TO-220F(Center-tap)
FMEN-215A*
100
-40 to +150
0.85
7.5
0.15
75
150
4.0
2.1
20
TO-220F(Center-tap)
FMEN-220A
120
-40 to +150
0.85
10
0.2
100
150
4.0
2.1
20
TO-3PF(Center-tap)
FMEN-420A
120
-40 to +150
0.85
10
0.2
100
150
2.0
6.5
30
TO-220F(Center-tap)
FMEN-230A
150
-40 to +150
0.85
15
0.3
150
150
4.0
2.1
30
TO-262
MPEN-230AF
150
-40 to +150
0.90
15
0.25
125
150
1.5
1.55
100
150
30
TO-3PF(Center-tap)
FMEN-430A
150
-40 to +150
0.85
15
0.3
150
150
2.0
6.5
10
TO-220F(Center-tap)
FMEN-210B
100
-40 to +150
0.92
5.0
0.1
25
150
4.0
2.1
20
TO-220F(Center-tap)
FMEN-220B
120
-40 to +150
0.92
10
0.2
50
150
4.0
2.1
20
TO-3PF(Center-tap)
FMEN-420B
120
-40 to +150
0.85
10
0.2
100
150
2.0
6.5
30
TO-220F(Center-tap)
FMEN-230B
150
-40 to +150
0.92
15
0.3
75
150(Ta)
4.0
2.1
*Under development
Low VF/Low IR Balance “J Series”
●Surface-Mount
VRM
(V)
30
IF (AV)
(A)
Package
Part Number
IFSM
(A)
50Hz
Single Half Sine Wave
Tj
(°C)
Tstg
(°C)
VF
(V)
max
IF
(A)
IR
(mA)
VR=VRM
max
IR(H)
(mA)
VR=VRM
max
Tj
(°C)
Rth(j-l)
Rth(j-c)
(°C/W)
Mass
(g)
1.0
Surface-Mount (SJP)
SJPJ-D3
30
-40 to +150
0.45
1.0
0.1
35
150
20
0.072
2.0
Surface-Mount (SJP)
SJPJ-H3*
50
-40 to +150
0.45
2.0
0.2
70
150
20
0.072
3.0
Surface-Mount (SJP)
SJPJ-L3
60
-40 to +150
0.45
3.0
0.3
150
150
20
0.072
*Under development
●Thru-Hole
VRM
(V)
30
IF (AV)
(A)
Package
Axial
(Body Diameter/Lead Diameter)
Part Number
RJ 43
IFSM
(A)
50Hz
Single Half Sine Wave
Tj
(°C)
Tstg
(°C)
VF
(V)
max
IF
(A)
IR
(mA)
VR=VRM
max
IR(H)
(mA)
VR=VRM
max
Tj
(°C)
Rth(j-l)
Rth(j-c)
(°C/W)
Mass
(g)
3.0
Axial(φ6.5/φ1.4)
50
-40 to +150
0.45
3.0
3.0
100
150
8.0
1.2
10
TO-220F(Center-tap)
FMJ-23L
100
-40 to +150
0.45
5.0
5.0
175
150(Ta)
4.0
2.1
30
TO-220F(Center-tap)
FMJ-2303
150
-40 to +150
0.48
15
15
500
150
4.0
2.1
Diodes
211
4-5 Power Zener Diodes
VZ
1mA
(V)
PR
(W)
Package
1
28±3
50 (5ms)
Surface-Mount(SJP)
1
18.8 to 21.2
Surface-Mount(SJP)
1
31.0 to 35.0
2
P
(W)
IR
( µ A)
max
Mass(g)
10
0.07
10
0.07
-55 to +150
10
0.07
–
-55 to +150
10
0.07
–
–
-55 to +150
10
0.07
25
–
–
-55 to +150
10
0.07
SJPZ-N40
30
–
–
-55 to +150
10
0.07
Surface-Mount(SZ-10)
SZ-10N27
22
70
Fig.1
-55 to +175
10
2.55
–
Surface-Mount(SZ-10)
SZ-10N40
22
40
Fig.1
-55 to +175
10
2.55
24 to 30
–
Surface-Mount(SZ-10)
SZ-10NN27
22
90
Fig.1
-55 to +175
10
2.55
36 to 44
–
Surface-Mount(SZ-10)
SZ-10NN40
22
55
Fig.1
-55 to +175
10
2.55
Tj
Tstg
(°C)
VDC
(V)
IZSM
(A)
SJPZ-K28
20
–
SJPZ-E20
15
–
–
-55 to +150
Surface-Mount(SJP)
SJPZ-E33
25
–
–
16.8 to 19.1
Surface-Mount(SJP)
SJPZ-N18
13
–
2
25.1 to 28.9
Surface-Mount(SJP)
SJPZ-N27
20
2
31.0 to 35.0
Surface-Mount(SJP)
SJPZ-N33
2
37.8 to 42.2
Surface-Mount(SJP)
5
24 to 30
–
5
36 to 44
6
6
95 (500 µs)
500 (500 µs)
Figure1
IZSM Condition
IRSM
IRSM
2
0
212
Diodes
10ms
Time
Part Number
Conditions
5mA rectangular wave -55 to +150
4-6 Silicon Varistors
●Symmetrical
VF
(V)
1.5max
IF
(mA)
1000 VR-60SS
2.3±0.25
VF
(V)
20
ITSM
(A)
50Hz
Single Half Sine Wave
0.2
Tj
(°C)
Tstg
(°C)
Rth(j-l)
(°C/W)
Mass
(g)
Package
15
-40 to +100
20
0.3
Axial(φ2.7/φ0.6)
7.5
-40 to +100
20
0.3
Axial(φ2.7/φ0.6)
1
2.75±0.25
10 VR-61SS
3.1±0.25
70
2.0max
IF
(µA)
max
Part Number
100 SV-3SS
1.8±0.2
50
0.6
-40 to +100
20
0.3
Axial(φ2.7/φ0.6)
50
0.9
-40 to +100
20
0.3
Axial(φ2.7/φ0.6)
1
2.15±0.2
10 SV-4SS
2.4±0.25
30
Part Number
VR-60SS
VR-61SS
Orange
Orange
SV-3SS
White
SV-4SS
White
Display Color
Red
Internal Connection
Diodes
213
Package Type (Dimensions)
2.29 ±0.5 2.29 ±0.5
1.5±0.2
2(Common to heatsink)
3
Cathode
Anode
0.8 ±0.1
0.55 ±0.1
• No. 4 Surface-Mount (TO263)
1
3
2
a: Part Number
b: Polarity
c: Lot No.
1
1.5 max
1.5 max
1
• No. 5 Surface-Mount (TO220S)
0.16
0.7
1.15 ±0.1
0.8±0.1
2.29 ±0.5 2.29 ±0.5
1
NC
1.37
1.7 ±0.5
2.5 ±0.4
+0.1
1.3±0.4
+0.4
5.0 –0.1
4.9
0 to 0.25
0.5 ±0.2
0.8 ±0.1
0.5 ±0.2
0.05–0.05
2.15±0.2
1.15 ±0.1
a: Part Number
b: Polarity
c: Lot No.
0.55 ±0.1
1.3±0.4
c.
0 to 0.25
0.8±0.1
b.
4.9
2.5 ±0.4
c.
a.
1.2max
0.7
1.2max
b.
5.4
4.1
0.55 ±0.1
2.9
5.5 ±0.4
1.7 ±0.5
a.
5.5 ±0.4
2.6±0.2
2.9
2.3±0.4
6.5 ±0.4
5.4 ±0.4
0.16
5.4
4.1
0.55 ±0.1
1.37
2.3±0.4
6.5 ±0.4
5.4 ±0.4
4.5±0.2
• No. 3 Surface-Mount (D pack) Center-tap
5.0
• No. 2 Surface-Mount (D pack)
5.0
• No. 1 Surface-Mount (SJP)
Anode
2(Common to heatsink)
3
Cathode(Common) Anode
3
2
• No. 6 Surface-Mount (TO220S)
MPL-102S, MP2-202S, MPL-1036
10.2±0.3
4.44±0.2
4.44±0.2
(1.4)
(5)
1.3±0.1
1.2±0.2
(15°)
(1.4)
4.5±0.2
9.9±0.2
(0.4)
1.3±0.2
1.3±0.2
10.0±0.2
2.4±0.2
(R0.3)
0.86 +0.2
–0.1
2.54±0.3
(0.75)
2.54±0.1
+0.3
+0.2
0.86 –0.1
0.4±0.1
1.2±0.2
2.54±0.1
(Measured at the root)
0.8±0.1
(Measured at the root)
2.54±0.5
0.5±0.1
2.54TYP
+0.2
0.1 –0.1
2.59±0.2
1.27±0.2
A
1.34 +0.2
–0.1
1.27±0.1
c
3
+0.3
2.0±0.1
4.9±0.2
2
(1.2)
1.4±0.2
1
(1.5)
b
15.3±0.3
2.54TYP
a
0.1±0.15
0.4±0.1
3.0 – 0.5
9.2±0.2
10.0 –0.5
10.2±0.3
(3°)
(1.5)
8.6±0.3
(4.6)
9.1±0.3
10.5 +0.3
–0.5
(φ 1.5 Dp0.2)
(0.45)
(3°)
a: Part Number
b: Polarity
c: Lot No.
2.54±0.5
q
w
e
*w is common to the frame.
q
• No. 7 Surface-Mount (TO220S) Center-tap
4.44±0.2
(1.4)
+0.3
2.54±0.5
2.54±0.5
q
w
e
q
w
e
• No. 10 Axial (φ2.7/φ0.6)
5.0±0.3
0.4±0.1
a: Part Number
b: Polarity
c: Lot No.
(2.5)
2.9 ±0.1
50.0 ±1.0
(9.75)
10±0.3
13.5±0.3
15.5±0.5
9.6±0.5
2.59±0.2
φ 2.4 ±0.1
2.7±0.3
7.2±0.5
• No. 11 Axial (φ2.7/φ0.6)
3±0.5
2.0±0.5
+0.3
1.2±0.2
3.0 – 0.5
+0.2
0.86 –0.1
3.9±0.5
1.27±0.2
φ 0.57 ±0.02
5±0.3
Cathode band
0.1 –0.1
1.1±0.5
c
• No. 9 Axial (φ2.4/φ0.6)
2±0.3
+0.2
(1.5)
b
8.5±0.5
10±0.3
10.0±0.3
5.0±0.3
(4.6)
10.0 –0.5
(1.5)
8.6±0.3
a
e
1.3±0.2
(0.4)
10.2±0.3
• No. 8 Surface-Mount (SZ-10)
w
• No. 12 Axial (φ 2.7/φ 0.78)
Silicon Varistors (Symmetrical)
φ 0.78 ±0.05
φ 0.6 ±0.05
φ 0.6
Cathode band
φ 2.7 ±0.2
214
Diodes
62.3
φ 2.7±0.2
5.0 ±0.2
±0.7
5.0 ±0.2
62.3 ±1.0
5.0 ±0.2
62.3 ±0.7
Cathode band
φ 2.7 ±0.2
Package Type (Dimensions)
• No. 13 Axial (φ 4.0/φ 0.78)
• No. 14 Axial (φ 4.0/φ 0.98)
φ 0.78 ±0.05
• No. 15 Axial (φ 6.5/φ 1.4)
φ 0.98 ±0.05
φ 1.4 ±0.1
Cathode band
50 ±0.1
U type
2.54
S type
5.08
q
w
16.9
w
• No. 21 TO-3PF2Pin
5.45±0.1
1.5
5.45±0.1
4.4
5.5±0.2
3.45±0.2
5.5
3.0
φ 3.3 ±0.2
1.6
3.3
a
b
c
1.6
3.0
1.6
(13.5)
0.8
1.75±0.15
2.15±0.15
1.05+0.2
-0.1
0.45
23.0±0.2
9.5±0.2
±0.2
0.8
5.5
φ 3.3±0.2
a
b
15.6±0.3
0.8 ±0.2
5.5±0.2
3.45±0.2
3.3
23.0 ±0.3
9.5 ±0.2
16.9
4.0
8.4
1.35
0.85
• No. 20 TO-3PF
15.6±0.2
2.6
0.8
3.9
2.2
0.45
5.08
q
4.2
2.8
3.3
1.35
0.85
a: Part Number
b: Polarity
c: Lot No.
• No. 19 TO-220F2Pin (Two Elements)
10.0
2.4±0.2
R type
a: Part Number
b: Polarity
c: Lot No.
2.6
(13.5)
0.85+0.2
−0.1
0.45+0.2
−0.1
2.54
R type
4.0
8.4
4.0±0.2
13.0min
±0.2
3.9
±0.2
S type
2.2
1.35±0.15
1.35±0.15
2.4±0.2
4.2
2.8
φ 3.3
0.8
0.8±0.2
φ 3.3 ±0.2
a
b
c
3.9
13.0min
0.85+0.2
−0.1
0.45+0.2
−0.1
2.54
10.0
3.9
φ 3.3 ±0.2
• No. 18 TO-220F2Pin
4.2±0.2
C
2.8±0.2 0.5
10.0±0.2
16.9±0.3
8.4±0.2
4.0±0.2
16.9±0.3
8.4±0.2
• No. 17 TO-220F (Center-tap)
4.2 0.2
C
2.8±0.2 0.5
1.35±0.15
1.35±0.15
2.54
φ 6.5 ±0.2
0.8±0.2
• No. 16 TO-220F (Two Elements)
a
b
c
8.0 ±0.2
φ 4.0 ±0.2
φ 4.0 ±0.2
10.0±0.2
Cathode band
7.2 ±0.2
62.5 ±0.7
7.2 ±0.2
62.5 ±0.7
Cathode band
0.8
1.75±0.15
1.05+0.2
−0.1
0.65+0.2
-0.1
3.35±0.2
1.5
5.45±0.1
5.45±0.1
0.65+0.2
−0.1
3.35±0.2
a: Part Number
b: Polarity
c: Lot No.
a: Part Number
b: Lot No.
Diodes
215
Part Number Index
Part No.
Category
Description
Page
Part No.
Category
Description
Page
2SA1186
Transistor
Audio and General Purpose (LAPT)
156
2SC4024
Transistor
DC-DC Converter and General Purpose
158
2SA1215
Transistor
Audio and General Purpose (LAPT)
156
2SC4131
Transistor
DC-DC Converter and General Purpose
158
2SA1216
Transistor
Audio and General Purpose (LAPT)
156
2SC4138
Transistor
SMPS for 100VAC system and General Purpose
158
2SA1294
Transistor
Audio and General Purpose (LAPT)
156
2SC4140
Transistor
SMPS for 100VAC system and General Purpose
158
2SA1295
Transistor
Audio and General Purpose (LAPT)
156
2SC4153
Transistor
DC-DC Converter and General Purpose
158
2SA1303
Transistor
Audio and General Purpose (LAPT)
156
2SC4300
Transistor
SMPS for 200VAC system and General Purpose
158
2SA1386
Transistor
Audio and General Purpose (LAPT)
156
2SC4301
Transistor
SMPS for 200VAC system and General Purpose
158
2SA1386A
Transistor
Audio and General Purpose (LAPT)
156
2SC4304
Transistor
SMPS for 200VAC system and General Purpose
158
2SA1488
Transistor
General Purpose
156
2SC4381
Transistor
Audio Driver and General Purpose
158
2SA1488A
Transistor
General Purpose
156
2SC4382
Transistor
Audio Driver and General Purpose
158
2SA1492
Transistor
Audio and General Purpose (Single Emitter)
156
2SC4388
Transistor
Audio and General Purpose (Single Emitter)
158
2SA1493
Transistor
Audio and General Purpose (Single Emitter)
156
2SC4445
Transistor
SMPS for 200VAC system and General Purpose
158
2SA1494
Transistor
Audio and General Purpose (Single Emitter)
156
2SC4466
Transistor
Audio and General Purpose (Single Emitter)
158
2SA1567
Transistor
General Purpose (Low VCE (sat))
156
2SC4467
Transistor
Audio and General Purpose (Single Emitter)
158
2SA1568
Transistor
General Purpose (Low VCE (sat))
156
2SC4468
Transistor
Audio and General Purpose (Single Emitter)
158
2SA1667
Transistor
Audio Driver and General Purpose
156
2SC4495
Transistor
Audio Temperature Compensation and General Purpose
158
2SA1668
Transistor
Audio Driver and General Purpose
156
2SC4511
Transistor
Audio and General Purpose (Single Emitter)
158
2SA1673
Transistor
Audio and General Purpose (Single Emitter)
156
2SC4518
Transistor
SMPS for 200VAC system and General Purpose
158
2SA1693
Transistor
Audio and General Purpose (Single Emitter)
156
2SC4518A
Transistor
SMPS for 200VAC system and General Purpose
158
2SA1694
Transistor
Audio and General Purpose (Single Emitter)
156
2SC4546
Transistor
SMPS for 100VAC system and General Purpose
158
2SA1695
Transistor
Audio and General Purpose (Single Emitter)
156
2SC4706
Transistor
SMPS for 200VAC system and General Purpose
158
2SA1725
Transistor
Audio and General Purpose (Single Emitter)
156
2SC4883
Transistor
Audio Driver and General Purpose
158
2SA1746
Transistor
General Purpose
156
2SC4883A
Transistor
Audio Driver and General Purpose
158
2SA1859
Transistor
Audio Driver and General Purpose
156
2SC4886
Transistor
Audio and General Purpose (LAPT)
158
2SA1859A
Transistor
Audio Driver and General Purpose
156
2SC5071
Transistor
SMPS for 100VAC system and General Purpose
158
2SA1860
Transistor
Audio and General Purpose (LAPT)
156
2SC5099
Transistor
Audio and General Purpose (Single Emitter)
158
2SA1907
Transistor
Audio and General Purpose (Single Emitter)
156
2SC5100
Transistor
Audio and General Purpose (Single Emitter)
158
2SA1908
Transistor
Audio and General Purpose (Single Emitter)
156
2SC5101
Transistor
Audio and General Purpose (Single Emitter)
158
2SA1909
Transistor
Audio and General Purpose (Single Emitter)
156
2SC5130
Transistor
SMPS for 100VAC system and General Purpose
158
2SA2151
Transistor
Audio and General Purpose (Single Emitter)
156
2SC5287
Transistor
SMPS for 100VAC system and General Purpose
158
2SA2151A
Transistor
Audio and General Purpose (Single Emitter)
156
2SC6011
Transistor
Audio and General Purpose (Single Emitter)
158
2SA2223
Transistor
Audio and General Purpose (Single Emitter)
156
2SC6011A
Transistor
Audio and General Purpose (Single Emitter)
158
2SB1257
Transistor
General Purpose (Darlington)
156
2SC6145
Transistor
Audio and General Purpose (Single Emitter)
158
2SB1258
Transistor
General Purpose (Darlington)
156
2SD1785
Transistor
General Purpose (Darlington)
160
2SB1259
Transistor
General Purpose (Darlington)
156
2SD1796
Transistor
General Purpose (Darlington)
160
2SB1351
Transistor
General Purpose (Darlington)
156
2SD2014
Transistor
General Purpose (Darlington)
160
2SB1382
Transistor
General Purpose (Darlington)
156
2SD2015
Transistor
General Purpose (Darlington)
160
2SB1383
Transistor
General Purpose (Darlington)
156
2SD2016
Transistor
General Purpose (Darlington)
160
2SB1420
Transistor
General Purpose (Darlington)
156
2SD2017
Transistor
General Purpose (Darlington)
160
2SB1559
Transistor
Audio and General Purpose (Darlington)
156
2SD2045
Transistor
General Purpose (Darlington)
160
2SB1560
Transistor
Audio and General Purpose (Darlington)
156
2SD2081
Transistor
General Purpose (Darlington)
160
2SB1570
Transistor
Audio and General Purpose (Darlington)
156
2SD2082
Transistor
General Purpose (Darlington)
160
2SB1587
Transistor
Audio and General Purpose (Darlington)
156
2SD2083
Transistor
General Purpose (Darlington)
160
2SB1588
Transistor
Audio and General Purpose (Darlington)
156
2SD2141
Transistor
General Purpose (Darlington)
160
2SB1647
Transistor
Audio and General Purpose (Darlington)
156
2SD2389
Transistor
Audio and General Purpose (Darlington)
160
2SB1648
Transistor
Audio and General Purpose (Darlington)
156
2SD2390
Transistor
Audio and General Purpose (Darlington)
160
2SB1649
Transistor
Audio and General Purpose (Darlington)
156
2SD2401
Transistor
Audio and General Purpose (Darlington)
160
2SC2837
Transistor
Audio and General Purpose (LAPT)
158
2SD2438
Transistor
Audio and General Purpose (Darlington)
160
2SC2921
Transistor
Audio and General Purpose (LAPT)
158
2SD2439
Transistor
Audio and General Purpose (Darlington)
160
2SC2922
Transistor
Audio and General Purpose (LAPT)
158
2SD2560
Transistor
Audio and General Purpose (Darlington)
160
2SC3263
Transistor
Audio and General Purpose (LAPT)
158
2SD2561
Transistor
Audio and General Purpose (Darlington)
160
2SC3264
Transistor
Audio and General Purpose (LAPT)
158
2SD2562
Transistor
Audio and General Purpose (Darlington)
160
2SC3284
Transistor
Audio and General Purpose (LAPT)
158
2SD2641
Transistor
General Purpose (Darlington)
160
2SC3519
Transistor
Audio and General Purpose (LAPT)
158
2SD2642
Transistor
General Purpose (Darlington)
160
2SC3519A
Transistor
Audio and General Purpose (LAPT)
158
2SD2643
Transistor
General Purpose (Darlington)
160
2SC3835
Transistor
DC-DC Converter and General Purpose
158
2SK2420
Transistor
MOS FET
164
2SC3851
Transistor
General Purpose
158
2SK2701A
Transistor
MOS FET
164
2SC3851A
Transistor
General Purpose
158
2SK2778
Transistor
MOS FET
164
2SC3852
Transistor
General Purpose (High hFE, Low VCE (sat))
158
2SK2779
Transistor
MOS FET
164
2SC3852A
Transistor
General Purpose (High hFE, Low VCE (sat))
158
2SK2803
Transistor
MOS FET
164
2SC3856
Transistor
Audio and General Purpose (Single Emitter)
158
2SK2848
Transistor
MOS FET
164
2SC3857
Transistor
Audio and General Purpose (Single Emitter)
158
2SK2943
Transistor
MOS FET
164
2SC3858
Transistor
Audio and General Purpose (Single Emitter)
158
2SK3003
Transistor
MOS FET
164
2SC3927
Transistor
SMPS for 200VAC system and General Purpose
158
2SK3004
Transistor
MOS FET
164
216
Part Number Index
Part Number Index
Part No.
Category
Description
Page
Part No.
Category
Description
Page
2SK3199
Transistor
MOS FET
164
EU02Z
Diode
Fast Recovery Diode (Axial)
204
2SK3710A
Transistor
MOS FET
164
EU 1
Diode
Fast Recovery Diode (Axial)
204
2SK3711
Transistor
MOS FET
164
EU 1Z
Diode
Fast Recovery Diode (Axial)
204
2SK3800
Transistor
MOS FET
164
EU 2
Diode
Fast Recovery Diode (Axial)
204
2SK3801
Transistor
MOS FET
164
EU 2A
Diode
Fast Recovery Diode (Axial)
204
AB01B
Diode
Ultrafast Recovery Diode (Axial)
208
EU 2Z
Diode
Fast Recovery Diode (Axial)
204
AG01
Diode
Ultrafast Recovery Diode (Axial)
207
FGM603
Transistor
IGBT
168
AG01A
Diode
Ultrafast Recovery Diode (Axial)
207
FGM623S
Transistor
IGBT
168
AK 04
Diode
Schottky Barrier Diode (Axial)
209
FGT312
Transistor
IGBT
168
AK 06
Diode
Schottky Barrier Diode (Axial)
210
FGT313
Transistor
IGBT
168
AK 09
Diode
Schottky Barrier Diode (Axial)
210
FGT412
Transistor
IGBT
168
AL01
Diode
Ultrafast Recovery Diode (Axial)
207
FGT612
Transistor
IGBT
168
AL01Z
Diode
Ultrafast Recovery Diode (Axial)
206
FKP202
Transistor
MOS FET
164
AM01
Diode
Rectifier Diode (Axial)
203
FKP250A
Transistor
MOS FET
164
AM01A
Diode
Rectifier Diode (Axial)
203
FKP252
Transistor
MOS FET
164
AM01Z
Diode
Rectifier Diode (Axial)
203
FKP253
Transistor
MOS FET
164
AP01C
Diode
Ultrafast Recovery Diode (Axial)
208
FKP280A
Transistor
MOS FET
164
AS01
Diode
Fast Recovery Diode (Axial)
204
FKP300A
Transistor
MOS FET
164
AS01A
Diode
Fast Recovery Diode (Axial)
204
FKP330C
Transistor
MOS FET
164
AU01
Diode
Fast Recovery Diode (Axial)
204
FKV460S
Transistor
MOS FET
164
AU01A
Diode
Fast Recovery Diode (Axial)
204
FKV550N
Transistor
MOS FET
164
AU01Z
Diode
Fast Recovery Diode (Axial)
204
FKV550T
Transistor
MOS FET
164
AU02
Diode
Fast Recovery Diode (Axial)
204
FKV575
Transistor
MOS FET
164
AU02A
Diode
Fast Recovery Diode (Axial)
204
FKV660S
Transistor
MOS FET
164
AU02Z
Diode
Fast Recovery Diode (Axial)
204
FM2-2202
Diode
Ultrafast Recovery Diode (Frame)
206
EG01
Diode
Ultrafast Recovery Diode (Axial)
207
FMB-2204
Diode
Schottky Barrier Diode (Frame)
209
EG01A
Diode
Ultrafast Recovery Diode (Axial)
207
FMB-2304
Diode
Schottky Barrier Diode (Frame)
209
EG01C
Diode
Ultrafast Recovery Diode (Axial)
208
FMB-2306
Diode
Schottky Barrier Diode (Frame)
210
EG 1
Diode
Ultrafast Recovery Diode (Axial)
207
FMB-24
Diode
Schottky Barrier Diode (Frame)
209
EG 1A
Diode
Ultrafast Recovery Diode (Axial)
207
FMB-24H
Diode
Schottky Barrier Diode (Frame)
209
EH 1
Diode
Fast Recovery Diode (Axial)
204
FMB-24L
Diode
Schottky Barrier Diode (Frame)
209
EK 04
Diode
Schottky Barrier Diode (Axial)
209
FMB-24M
Diode
Schottky Barrier Diode (Frame)
209
EK 06
Diode
Schottky Barrier Diode (Axial)
210
FMB-26
Diode
Schottky Barrier Diode (Frame)
210
EK 09
Diode
Schottky Barrier Diode (Axial)
210
FMB-29
Diode
Schottky Barrier Diode (Frame)
210
EK 14
Diode
Schottky Barrier Diode (Axial)
209
FMB-29L
Diode
Schottky Barrier Diode (Frame)
210
EK 16
Diode
Schottky Barrier Diode (Axial)
210
FMB-G14
Diode
Schottky Barrier Diode (F2pin)
209
EK 19
Diode
Schottky Barrier Diode (Axial)
210
FMB-G14L
Diode
Schottky Barrier Diode (F2pin)
209
EKV550
Transistor
MOS FET
164
FMB-G16L
Diode
Schottky Barrier Diode (F2pin)
210
EL02Z
Diode
Ultrafast Recovery Diode (Axial)
206
FMB-G19L
Diode
Schottky Barrier Diode (F2pin)
210
EL 1
Diode
Ultrafast Recovery Diode (Axial)
207
FMB-G24H
Diode
Schottky Barrier Diode (F2pin)
209
EL 1Z
Diode
Ultrafast Recovery Diode (Axial)
206
FMC-26U
Diode
Ultrafast Recovery Diode (Frame)
207
EM01
Diode
Rectifier Diode (Axial)
203
FMC-26UA
Diode
Ultrafast Recovery Diode (F2Pin)
208
EM01A
Diode
Rectifier Diode (Axial)
203
FMC-28U
Diode
Ultrafast Recovery Diode (Frame)
208
EM01Z
Diode
Rectifier Diode (Axial)
203
FMC-28UA
Diode
Ultrafast Recovery Diode (F2Pin)
208
EM 1
Diode
Rectifier Diode (Axial)
203
FMC-G28S
Diode
Ultrafast Recovery Diode (F2Pin)
208
EM 1A
Diode
Rectifier Diode (Axial)
203
FMC-G28SL
Diode
Ultrafast Recovery Diode (F2Pin)
208
EM 1B
Diode
Rectifier Diode (Axial)
203
FMD-1056S
Diode
Ultrafast Recovery Diode (F2Pin)
207
EM 1C
Diode
Rectifier Diode (Axial)
203
FMD-1106S
Diode
Ultrafast Recovery Diode (F2Pin)
207
EM 1Y
Diode
Rectifier Diode (Axial)
203
FMD-4204S
Diode
Ultrafast Recovery Diode (Frame)
207
EM 1Z
Diode
Rectifier Diode (Axial)
203
FMD-4206S
Diode
Ultrafast Recovery Diode (Frame)
207
EM 2
Diode
Rectifier Diode (Axial)
203
FMD-G26S
Diode
Ultrafast Recovery Diode (F2Pin)
207
EM 2A
Diode
Rectifier Diode (Axial)
203
FME-2106
Diode
Schottky Barrier Diode (Frame)
211
EM 2B
Diode
Rectifier Diode (Axial)
203
FME-24H
Diode
Schottky Barrier Diode (Frame)
211
EN 01Z
Diode
Ultrafast Recovery Diode (Axial)
206
FMEN-210A
Diode
Schottky Barrier Diode (Frame)
211
EP01C
Diode
Ultrafast Recovery Diode (Axial)
208
FMEN-210B
Diode
Schottky Barrier Diode (Frame)
211
ES01A
Diode
Fast Recovery Diode (Axial)
204
FMEN-215A
Diode
Schottky Barrier Diode (Frame)
211
ES01F
Diode
Fast Recovery Diode (Axial)
205
FMEN-220A
Diode
Schottky Barrier Diode (Frame)
211
ES 1
Diode
Fast Recovery Diode (Axial)
204
FMEN-220B
Diode
Schottky Barrier Diode (Frame)
211
ES 1F
Diode
Fast Recovery Diode (Axial)
205
FMEN-230A
Diode
Schottky Barrier Diode (Frame)
211
ES 1Z
Diode
Fast Recovery Diode (Axial)
204
FMEN-230B
Diode
Schottky Barrier Diode (Frame)
211
EU01
Diode
Fast Recovery Diode (Axial)
204
FMEN-420A
Diode
Schottky Barrier Diode (Frame)
211
EU01Z
Diode
Fast Recovery Diode (Axial)
204
FMEN-420B
Diode
Schottky Barrier Diode (Frame)
211
EU02
Diode
Fast Recovery Diode (Axial)
204
FMEN-430A
Diode
Schottky Barrier Diode (Frame)
211
EU02A
Diode
Fast Recovery Diode (Axial)
204
FMG-14R
Diode
Ultrafast Recovery Diode (Frame)
207
Part Number Index
217
Part Number Index
Part No.
Category
Description
Page
Part No.
Category
Description
Page
FMG-14S
Diode
Ultrafast Recovery Diode (Frame)
207
FMX-12S
Diode
Ultrafast Recovery Diode (Frame)
206
FMG-24R
Diode
Ultrafast Recovery Diode (Frame)
207
FMX-2203
Diode
Ultrafast Recovery Diode (Frame)
206
FMG-24S
Diode
Ultrafast Recovery Diode (Frame)
207
FMX-22S
Diode
Ultrafast Recovery Diode (Frame)
206
FMG-26R
Diode
Ultrafast Recovery Diode (Frame)
207
FMX-22SL
Diode
Ultrafast Recovery Diode (Frame)
206
FMG-26S
Diode
Ultrafast Recovery Diode (Frame)
207
FMX-23S
Diode
Ultrafast Recovery Diode (Frame)
206
FMG-G26S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FMX-4202S
Diode
Ultrafast Recovery Diode (Frame)
206
FMG-G2CS
Diode
Ultrafast Recovery Diode (F2Pin)
208
FMX-4203S
Diode
Ultrafast Recovery Diode (Frame)
206
FMJ-2303
Diode
Schottky Barrier Diode (Frame)
211
FMX-4206S
Diode
Ultrafast Recovery Diode (Frame)
207
FMJ-23L
Diode
Schottky Barrier Diode (Frame)
211
FMXA-1054S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FML-12S
Diode
Ultrafast Recovery Diode (Frame)
206
FMXA-1104S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FML-13S
Diode
Ultrafast Recovery Diode (Frame)
206
FMXA-1106S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FML-14S
Diode
Ultrafast Recovery Diode (Frame)
207
FMXA-2102ST
Diode
Ultrafast Recovery Diode (Frame)
206
FML-22S
Diode
Ultrafast Recovery Diode (Frame)
206
FMXA-2153S
Diode
Ultrafast Recovery Diode (Frame)
206
FML-23S
Diode
Ultrafast Recovery Diode (Frame)
206
FMXA-2202S
Diode
Ultrafast Recovery Diode (Frame)
206
FML-24S
Diode
Ultrafast Recovery Diode (Frame)
207
FMXA-2203S
Diode
Ultrafast Recovery Diode (Frame)
206
FML-4202S
Diode
Ultrafast Recovery Diode (Frame)
206
FMXA-4202S
Diode
Ultrafast Recovery Diode (Frame)
206
FML-4204S
Diode
Ultrafast Recovery Diode (Frame)
207
FMXA-4203S
Diode
Ultrafast Recovery Diode (Frame)
206
FML-G12S
Diode
Ultrafast Recovery Diode (F2Pin)
206
FMXA-4204S
Diode
Ultrafast Recovery Diode (Frame)
207
FML-G13S
Diode
Ultrafast Recovery Diode (F2Pin)
206
FMXA-4206S
Diode
Ultrafast Recovery Diode (Frame)
207
FML-G14S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FMX-G12S
Diode
Ultrafast Recovery Diode (F2Pin)
206
FML-G16S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FMX-G14S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FML-G22S
Diode
Ultrafast Recovery Diode (F2Pin)
206
FMX-G16S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FMM-22R
Diode
Rectifier Diode (Frame)
203
FMX-G22S
Diode
Ultrafast Recovery Diode (F2Pin)
206
FMM-22S
Diode
Rectifier Diode (Frame)
203
FMX-G26S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FMM-24R
Diode
Rectifier Diode (Frame)
203
FMXK-1086S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FMM-24S
Diode
Rectifier Diode (Frame)
203
FMXK-1106S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FMM-26R
Diode
Rectifier Diode (Frame)
203
FMXK-2206S
Diode
Ultrafast Recovery Diode (Frame)
207
FMM-26S
Diode
Rectifier Diode (Frame)
203
FMY-1036S
Diode
Fast Recovery Diode (F2Pin)
204
FMN-1056S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FMY-1106S
Diode
Fast Recovery Diode (F2Pin)
204
FMN-1106S
Diode
Ultrafast Recovery Diode (F2Pin)
207
FMY-2206S
Diode
Fast Recovery Diode (Frame)
204
FMN-2206S
Diode
Ultrafast Recovery Diode (Frame)
207
LC5205D
IC
LED Driver IC
142
FMN-4206S
Diode
Ultrafast Recovery Diode (Frame)
207
LC5210D
IC
LED Driver IC
142
FMN-G12S
Diode
Ultrafast Recovery Diode (F2Pin)
206
LC5511D
IC
LED Driver IC
144
FMN-G14S
Diode
Ultrafast Recovery Diode (F2Pin)
207
LC5513D
IC
LED Driver IC
144
FMN-G16S
Diode
Ultrafast Recovery Diode (F2Pin)
207
LC5521D
IC
LED Driver IC
144
FMNS-1106S
Diode
Ultrafast Recovery Diode (F2Pin)
207
LC5523D
IC
LED Driver IC
144
FMQ-G1FS
Diode
Fast Recovery Diode (F2Pin)
205
LC5523F
IC
LED Driver IC
144
FMQ-G2FLS
Diode
Fast Recovery Diode (F2Pin)
205
MGD623N
Transistor
IGBT
168
FMQ-G2FMS
Diode
Fast Recovery Diode (F2Pin)
205
MGD623S
Transistor
IGBT
168
FMQ-G2FS
Diode
Fast Recovery Diode (F2Pin)
205
MPE-220A
Diode
Schottky Barrier Diode (Surface Mount)
209
FMU-12R
Diode
Fast Recovery Diode (Frame)
204
MPEN-230AF
Diode
Schottky Barrier Diode
211
FMU-12S
Diode
Fast Recovery Diode (Frame)
204
MPL-102S
Diode
Ultrafast Recovery Diode (Surface Mount)
206
FMU-14R
Diode
Fast Recovery Diode (Frame)
204
MPL-1036S
Diode
Ultrafast Recovery Diode (Surface Mount)
206
FMU-14S
Diode
Fast Recovery Diode (Frame)
204
NR885K
IC
DC/DC Converter IC (Surface Mount)
FMU-16R
Diode
Fast Recovery Diode (Frame)
204
RA 13
Diode
Schottky Barrier Diode (Axial)
210
FMU-16S
Diode
Fast Recovery Diode (Frame)
204
RC 2
Diode
Fast Recovery Diode (Axial)
205
FMU-22R
Diode
Fast Recovery Diode (Frame)
204
RD1105
Diode
Ultrafast Recovery Diode (Axial)
207
FMU-22S
Diode
Fast Recovery Diode (Frame)
204
RD 2A
Diode
Ultrafast Recovery Diode (Axial)
207
FMU-24R
Diode
Fast Recovery Diode (Frame)
204
RF 1A
Diode
Fast Recovery Diode (Axial)
204
FMU-24S
Diode
Fast Recovery Diode (Frame)
204
RF 1B
Diode
Fast Recovery Diode (Axial)
205
FMU-26R
Diode
Fast Recovery Diode (Frame)
204
RG 1C
Diode
Ultrafast Recovery Diode (Axial)
208
FMU-26S
Diode
Fast Recovery Diode (Frame)
204
RG 2
Diode
Ultrafast Recovery Diode (Axial)
207
FMU-G16S
Diode
Fast Recovery Diode (F2Pin)
204
RG 2A
Diode
Ultrafast Recovery Diode (Axial)
207
FMU-G26S
Diode
Fast Recovery Diode (F2Pin)
204
RG 4C
Diode
Ultrafast Recovery Diode (Axial)
208
FMU-G2FS
Diode
Fast Recovery Diode (F2Pin)
205
RG 10
Diode
Ultrafast Recovery Diode (Axial)
207
FMV-G5FS
Diode
Fast Recovery Diode (F2Pin)
205
RG 10A
Diode
Ultrafast Recovery Diode (Axial)
207
FMW-2106
Diode
Schottky Barrier Diode (Frame)
210
RH 1A
Diode
Fast Recovery Diode (Axial)
204
FMW-2156
Diode
Schottky Barrier Diode (Frame)
210
RH 1B
Diode
Fast Recovery Diode (Axial)
205
FMW-2204
Diode
Schottky Barrier Diode (Frame)
209
RH 1C
Diode
Fast Recovery Diode (Axial)
205
FMW-2206
Diode
Schottky Barrier Diode (Frame)
210
RH 1Z
Diode
Fast Recovery Diode (Axial)
204
FMW-24H
Diode
Schottky Barrier Diode (Frame)
209
RH 2D
Diode
Fast Recovery Diode (Axial)
205
FMW-24L
Diode
Schottky Barrier Diode (Frame)
209
RH 2F
Diode
Fast Recovery Diode (Axial)
205
FMW-4306
Diode
Schottky Barrier Diode (Frame)
210
RH 4F
Diode
Fast Recovery Diode (Axial)
205
FMX-1106S
Diode
Schottky Barrier Diode (Frame)
207
RJ 43
Diode
Schottky Barrier Diode (Axial)
211
218
Part Number Index
52
Part Number Index
Part No.
Category
Description
Page
Part No.
Category
Description
Page
RK 14
Diode
Schottky Barrier Diode (Axial)
209
RU 3B
Diode
Fast Recovery Diode (Axial)
205
RK 16
Diode
Schottky Barrier Diode (Axial)
210
RU 3C
Diode
Fast Recovery Diode (Axial)
205
RK 19
Diode
Schottky Barrier Diode (Axial)
210
RU 3M
Diode
Fast Recovery Diode (Axial)
204
RK 34
Diode
Schottky Barrier Diode (Axial)
209
RU 4
Diode
Fast Recovery Diode (Axial)
204
RK 36
Diode
Schottky Barrier Diode (Axial)
210
RU 4A
Diode
Fast Recovery Diode (Axial)
204
RK 39
Diode
Schottky Barrier Diode (Axial)
210
RU 4B
Diode
Fast Recovery Diode (Axial)
205
RK 44
Diode
Schottky Barrier Diode (Axial)
209
RU 4C
Diode
Fast Recovery Diode (Axial)
205
RK 46
Diode
Schottky Barrier Diode (Axial)
210
RU 4D
Diode
Fast Recovery Diode (Axial)
205
RK 49
Diode
Schottky Barrier Diode (Axial)
210
RU 4DS
Diode
Fast Recovery Diode (Axial)
205
RL 2
Diode
Ultrafast Recovery Diode (Axial)
207
RU 4M
Diode
Fast Recovery Diode (Axial)
204
RL 2Z
Diode
Ultrafast Recovery Diode (Axial)
206
RU 4Z
Diode
Fast Recovery Diode (Axial)
204
RL 4A
Diode
Ultrafast Recovery Diode (Axial)
207
RW54
Diode
Schottky Barrier Diode (Axial)
209
RL 4Z
Diode
Ultrafast Recovery Diode (Axial)
206
RX 10Z
Diode
Ultrafast Recovery Diode (Axial)
206
RL 10Z
Diode
Ultrafast Recovery Diode (Axial)
206
RY2A
Diode
Fast Recovery Diode (Axial)
204
RM 1
Diode
Rectifier Diode (Axial)
203
SAI01
IC
DC/DC Converter IC (Surface Mount)
12
RM 1A
Diode
Rectifier Diode (Axial)
203
SAI02
IC
DC/DC Converter IC (Surface Mount)
12
RM 1B
Diode
Rectifier Diode (Axial)
203
SAI03
IC
DC/DC Converter IC (Surface Mount)
12
RM 1C
Diode
Rectifier Diode (Axial)
203
SCM1101M
IC
High Voltage 3 Phase Motor Driver IC
134
RM 1Z
Diode
Rectifier Diode (Axial)
203
SCM1101MF
IC
High Voltage 3 Phase Motor Driver IC
134
RM 2
Diode
Rectifier Diode (Axial)
203
SCM1103M
IC
High Voltage 3 Phase Motor Driver IC
134
RM 2A
Diode
Rectifier Diode (Axial)
203
SCM1104M
IC
High Voltage 3 Phase Motor Driver IC
134
RM 2B
Diode
Rectifier Diode (Axial)
203
SCM1104MF
IC
High Voltage 3 Phase Motor Driver IC
134
RM 2C
Diode
Rectifier Diode (Axial)
203
SCM1105MF
IC
High Voltage 3 Phase Motor Driver IC
134
RM 2Z
Diode
Rectifier Diode (Axial)
203
SCM1106M
IC
High Voltage 3 Phase Motor Driver IC
134
RM 4
Diode
Rectifier Diode (Axial)
203
SCM1106MF
IC
High Voltage 3 Phase Motor Driver IC
134
RM 4A
Diode
Rectifier Diode (Axial)
203
SCM1110MF
IC
High Voltage 3 Phase Motor Driver IC
134
RM 4AM
Diode
Rectifier Diode (Axial)
203
SCM1221M
IC
High Voltage 3 Phase Motor Driver IC
138
RM 4C
Diode
Rectifier Diode (Axial)
203
SCM1221MF
IC
High Voltage 3 Phase Motor Driver IC
138
RM 4Y
Diode
Rectifier Diode (Axial)
203
SCM1223M
IC
High Voltage 3 Phase Motor Driver IC
138
RM 4Z
Diode
Rectifier Diode (Axial)
203
SCM1224M
IC
High Voltage 3 Phase Motor Driver IC
138
RM 10
Diode
Rectifier Diode (Axial)
203
SCM1224MF
IC
High Voltage 3 Phase Motor Driver IC
138
RM 10A
Diode
Rectifier Diode (Axial)
203
SCM1225MF
IC
High Voltage 3 Phase Motor Driver IC
138
RM 10B
Diode
Rectifier Diode (Axial)
203
SCM1226M
IC
High Voltage 3 Phase Motor Driver IC
138
RM 10Z
Diode
Rectifier Diode (Axial)
203
SCM1226MF
IC
High Voltage 3 Phase Motor Driver IC
138
RM 11A
Diode
Rectifier Diode (Axial)
203
SCM1230MF
IC
High Voltage 3 Phase Motor Driver IC
138
RM 11B
Diode
Rectifier Diode (Axial)
203
SDA05
Transistor
Array for 3-Phase Motor Drive (Surface Mount)
170
RM 11C
Diode
Rectifier Diode (Axial)
203
SDC03
Transistor
Array for Sink Drive (Surface Mount)
170
RN 1Z
Diode
Ultrafast Recovery Diode (Axial)
206
SDC04
Transistor
Array for Sink Drive (Surface Mount)
170
RN 2Z
Diode
Ultrafast Recovery Diode (Axial)
206
SDC06
Transistor
Array for Sink Drive (Surface Mount)
170
RN 4A
Diode
Ultrafast Recovery Diode (Axial)
207
SDC07
Transistor
Array for 3-Phase Motor Drive (Surface Mount)
170
RN 4Z
Diode
Ultrafast Recovery Diode (Axial)
206
SDH02
Transistor
Array for Sink Drive (Surface Mount)
170
RO 2
Diode
Rectifier Diode (Axial)
203
SI-3002KWM
IC
Linear Regulator IC (2 Output, Surface Mount)
84
RO 2B
Diode
Rectifier Diode (Axial)
203
SI-3010KD
IC
Linear Regulator IC (Surface Mount)
72
RO 2C
Diode
Rectifier Diode (Axial)
203
SI-3010KF
IC
Linear Regulator IC
80
RO 2Z
Diode
Rectifier Diode (Axial)
203
SI-3010LLSL
IC
Linear Regulator IC (Surface Mount)
76
RP 1H
Diode
Ultrafast Recovery Diode (Axial)
208
SI-3011ZD
IC
Linear Regulator IC (Surface Mount)
78
RS 1A
Diode
Fast Recovery Diode (Axial)
204
SI-3011ZF
IC
Linear Regulator IC
82
RS 1B
Diode
Fast Recovery Diode (Axial)
205
SI-3012KD
IC
Linear Regulator IC (Surface Mount)
72
RS 4FS
Diode
Fast Recovery Diode (Axial)
205
SI-3012KS
IC
Linear Regulator IC (Surface Mount)
70
RU 1
Diode
Fast Recovery Diode (Axial)
204
SI-3012LU
IC
Linear Regulator IC (Surface Mount)
66
RU 1A
Diode
Fast Recovery Diode (Axial)
204
SI-3018LSA
IC
Linear Regulator IC (Surface Mount)
68
RU 1B
Diode
Fast Recovery Diode (Axial)
205
SI-3025KS
IC
Linear Regulator IC (Surface Mount)
70
RU 1C
Diode
Fast Recovery Diode (Axial)
205
SI-3025LSA
IC
Linear Regulator IC (Surface Mount)
68
RU 1P
Diode
Ultrafast Recovery Diode (Axial)
208
SI-3033KD
IC
Linear Regulator IC (Surface Mount)
72
RU 2
Diode
Fast Recovery Diode (Axial)
204
SI-3033KS
IC
Linear Regulator IC (Surface Mount)
70
RU 2AM
Diode
Fast Recovery Diode (Axial)
204
SI-3033LSA
IC
Linear Regulator IC (Surface Mount)
68
RU 2B
Diode
Fast Recovery Diode (Axial)
205
SI-3033ZD
IC
Linear Regulator IC (Surface Mount)
78
RU 2C
Diode
Fast Recovery Diode (Axial)
205
SI-3050KD
IC
Linear Regulator IC (Surface Mount)
72
RU 2M
Diode
Fast Recovery Diode (Axial)
204
SI-3050LSA
IC
Linear Regulator IC (Surface Mount)
RU 2Z
Diode
Fast Recovery Diode (Axial)
204
SI-7321M
IC
2-phase Stepper Motor Unipolar Driver IC
106
RU 20A
Diode
Fast Recovery Diode (Axial)
204
SI-7510
IC
5-phase Stepper Motor Driver IC
114
RU 3
Diode
Fast Recovery Diode (Axial)
204
SI-8001FDE
IC
DC/DC Converter IC (Surface Mount)
28
RU 3A
Diode
Fast Recovery Diode (Axial)
204
SI-8001FDL
IC
DC/DC Converter IC (Surface Mount)
28
RU 3AM
Diode
Fast Recovery Diode (Axial)
204
SI-8001FFE
IC
DC/DC Converter IC
44
Part Number Index
68
219
Part Number Index
Part No.
Category
Description
Page
Part No.
Category
Description
Page
SI-8005Q
IC
DC/DC Converter IC (Surface Mount)
26
SJPZ-K28
Diode
Power Zener Diode (Surface Mount)
212
SI-8008HD
IC
DC/DC Converter IC (Surface Mount)
30
SJPZ-N18
Diode
Power Zener Diode (Surface Mount)
212
SI-8008HFE
IC
DC/DC Converter IC
46
SJPZ-N27
Diode
Power Zener Diode (Surface Mount)
212
SI-8008TFE
IC
DC/DC Converter IC
36
SJPZ-N33
Diode
Power Zener Diode (Surface Mount)
212
SI-8008TM
IC
DC/DC Converter IC (Surface Mount)
18
SJPZ-N40
Diode
Power Zener Diode (Surface Mount)
212
SI-8010GL
IC
DC/DC Converter IC
38
SKP202
Transistor
MOS FET
164
SI-8010Y
IC
DC/DC Converter IC
48
SKP253
Transistor
MOS FET
164
SI-8015JF
IC
DC/DC Converter IC
34
SLA0201
Thyristor
Thyristor Array
190
SI-8033JD
IC
DC/DC Converter IC (Surface Mount)
16
SLA2601M
IC
HID Lamp Driver IC
146
SI-8033JF
IC
DC/DC Converter IC
34
SLA2602M
IC
HID Lamp Driver IC
146
SI-8033S
IC
DC/DC Converter IC
40
SLA4030
Thyristor
Array for Sink Drive
170
SI-8033SD
IC
DC/DC Converter IC (Surface Mount)
20
SLA4031
Thyristor
Array for Sink Drive
170
SI-8033W
IC
DC/DC Converter IC (Surface Mount)
14
SLA4036
Thyristor
Array for Sink Drive
170
SI-8050E
IC
DC/DC Converter IC
32
SLA4041
Thyristor
Array for Sink Drive
170
SI-8050HFE
IC
DC/DC Converter IC
46
SLA4051
Thyristor
Array for Sink Drive
170
SI-8050JD
IC
DC/DC Converter IC (Surface Mount)
16
SLA4052
Thyristor
Array for Sink Drive
170
SI-8050JF
IC
DC/DC Converter IC
34
SLA4060
Thyristor
Array for Sink Drive
170
SI-8050S
IC
DC/DC Converter IC
40
SLA4061
Thyristor
Array for Sink Drive
170
SI-8050SD
IC
DC/DC Converter IC (Surface Mount)
20
SLA4070
Thyristor
Array for Source Drive
170
SI-8050TFE
IC
DC/DC Converter IC
36
SLA4071
Thyristor
Array for Source Drive
170
SI-8050W
IC
DC/DC Converter IC (Surface Mount)
14
SLA4390
Thyristor
Array for H-Bridge Motor Drive
170
SI-8050Y
IC
DC/DC Converter IC
48
SLA5022
Thyristor
Array for 3-Phase Motor Drive
170
SI-8090JD
IC
DC/DC Converter IC (Surface Mount)
16
SLA5037
Thyristor
Array for Sink Drive
170
SI-8090S
IC
DC/DC Converter IC
40
SLA5041
Thyristor
Array for Sink Drive
170
SI-8105QL
IC
DC/DC Converter IC
42
SLA5059
Thyristor
Array for 3-Phase Motor Drive
170
SI-8120JD
IC
DC/DC Converter IC (Surface Mount)
16
SLA5060
Thyristor
Array for 3-Phase Motor Drive
170
SI-8120JF
IC
DC/DC Converter IC
34
SLA5061
Thyristor
Array for 3-Phase Motor Drive
170
SI-8120S
IC
DC/DC Converter IC
40
SLA5064
Thyristor
Array for 3-Phase Motor Drive
170
SI-8150S
IC
DC/DC Converter IC
40
SLA5065
Thyristor
Array for 5-Phase Motor Drive
170
SI-8205NHD
IC
DC/DC Converter IC (Surface Mount)
50
SLA5068
Thyristor
Array for 5-Phase Motor Drive
170
SI-8401L
IC
DC/DC Converter IC (with Coil)
54
SLA5073
Thyristor
Array for 5-Phase Motor Drive
170
SI-8501L
IC
DC/DC Converter IC (with Coil)
54
SLA5074
Thyristor
Array for 5-Phase Motor Drive
170
SI-8511NVS
IC
DC/DC Converter IC (Surface Mount)
62
SLA5075
Thyristor
Array for 3-Phase Motor Drive
170
SJPA-D3
Diode
Schottky Barrier Diode (Surface Mount)
210
SLA5085
Thyristor
Array for Sink Drive
170
SJPA-H3
Diode
Schottky Barrier Diode (Surface Mount)
210
SLA5086
Thyristor
Array for Source Drive
170
SJPA-L3
Diode
Schottky Barrier Diode (Surface Mount)
210
SLA5096
Thyristor
Array for 3-Phase Motor Drive
170
SJPB-D4
Diode
Schottky Barrier Diode (Surface Mount)
209
SLA5201
Thyristor
Array for 3-Phase Motor Drive
170
SJPB-D6
Diode
Schottky Barrier Diode (Surface Mount)
209
SLA5212
Thyristor
Array for 3-Phase Motor Drive
170
SJPB-D9
Diode
Schottky Barrier Diode (Surface Mount)
209
SLA5222
Thyristor
Array for Partial switching PFC
170
SJPB-H4
Diode
Schottky Barrier Diode (Surface Mount)
209
SLA5227
Thyristor
Array for Partial switching PFC
170
SJPB-H6
Diode
Schottky Barrier Diode (Surface Mount)
209
SLA6012
Thyristor
Array for 3-Phase Motor Drive
170
SJPB-H9
Diode
Schottky Barrier Diode (Surface Mount)
209
SLA6020
Thyristor
Array for 3-Phase Motor Drive
170
SJPB-L4
Diode
Schottky Barrier Diode (Surface Mount)
209
SLA6022
Thyristor
Array for 3-Phase Motor Drive
170
SJPB-L6
Diode
Schottky Barrier Diode (Surface Mount)
209
SLA6023
Thyristor
Array for 3-Phase Motor Drive
170
SJPD-D5
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA6024
Thyristor
Array for 3-Phase Motor Drive
170
SJPD-L5
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA6026
Thyristor
Array for 3-Phase Motor Drive
170
SJPE-H3
Diode
Schottky Barrier Diode (Surface Mount)
211
SLA6805MP
IC
High Voltage 3 Phase Motor Driver IC
130
SJPE-H4
Diode
Schottky Barrier Diode (Surface Mount)
211
SLA6826M
IC
High Voltage 3 Phase Motor Driver IC
122
SJPJ-D3
Diode
Schottky Barrier Diode (Surface Mount)
211
SLA6827M
IC
High Voltage 3 Phase Motor Driver IC
122
SJPJ-H3
Diode
Schottky Barrier Diode (Surface Mount)
211
SLA6828M
IC
High Voltage 3 Phase Motor Driver IC
122
SJPJ-L3
Diode
Schottky Barrier Diode (Surface Mount)
211
SLA6845M
IC
High Voltage 3 Phase Motor Driver IC
132
SJPL-D2
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA6866M
IC
High Voltage 3 Phase Motor Driver IC
128
SJPL-F4
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA6868M
IC
High Voltage 3 Phase Motor Driver IC
128
SJPL-H2
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA6870M
IC
High Voltage 3 Phase Motor Driver IC
128
SJPL-H6
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA7022MU
IC
2-phase Stepper Motor Unipolar Driver IC
90
SJPL-L2
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA7024M
IC
2-phase Stepper Motor Unipolar Driver IC
94
SJPL-L4
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA7026M
IC
2-phase Stepper Motor Unipolar Driver IC
94
SJPM-H4
Diode
Rectifier Diode (Surface Mount)
203
SLA7027MU
IC
2-phase Stepper Motor Unipolar Driver IC
94
SJPW-F6
Diode
Schottky Barrier Diode (Surface Mount)
209
SLA7029M
IC
2-phase Stepper Motor Unipolar Driver IC
90
SJPX-F2
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA7031M
IC
2-phase Stepper Motor Unipolar Driver IC
96
SJPX-H3
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA7032M
IC
2-phase Stepper Motor Unipolar Driver IC
96
SJPX-H6
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA7033M
IC
2-phase Stepper Motor Unipolar Driver IC
96
SJPZ-E20
Diode
Power Zener Diode (Surface Mount)
212
SLA7050M
IC
2-phase Stepper Motor Unipolar Driver IC
98
SJPZ-E33
Diode
Power Zener Diode (Surface Mount)
212
SLA7051M
IC
2-phase Stepper Motor Unipolar Driver IC
98
220
Part Number Index
Part Number Index
Part No.
Category
Description
Page
Part No.
Category
Description
Page
SLA7052M
IC
2-phase Stepper Motor Unipolar Driver IC
98
SPI-8001TW
IC
DC/DC Converter IC (2 Output, Surface mount)
58
SLA7060M
IC
2-phase Stepper Motor Unipolar Driver IC
108
SPI-8002TW
IC
DC/DC Converter IC (2 Output, Surface mount)
58
SLA7061M
IC
2-phase Stepper Motor Unipolar Driver IC
108
SPI-8003TW
IC
DC/DC Converter IC (2 Output, Surface mount)
58
SLA7062M
IC
2-phase Stepper Motor Unipolar Driver IC
108
SPI-8010A
IC
DC/DC Converter IC (Surface Mount)
SLA7065M
IC
2-phase Stepper Motor Unipolar Driver IC
104
SPX-62S
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA7066M
IC
2-phase Stepper Motor Unipolar Driver IC
104
SPX-G32S
Diode
Ultrafast Recovery Diode (Surface Mount)
206
SLA7067M
IC
2-phase Stepper Motor Unipolar Driver IC
104
SSC2001S
IC
PFC IC
6
SLA7070MPR
IC
2-phase Stepper Motor Unipolar Driver IC
100
SSC2101S
IC
PFC IC
6
SLA7070MR
IC
2-phase Stepper Motor Unipolar Driver IC
100
SSC9512
IC
AC/DC Converter IC
8
SLA7071MPR
IC
2-phase Stepper Motor Unipolar Driver IC
100
SSC9512S
IC
AC/DC Converter IC
SLA7071MR
IC
2-phase Stepper Motor Unipolar Driver IC
100
STA203A
Thyristor
Triac Array
192
SLA7072MPR
IC
2-phase Stepper Motor Unipolar Driver IC
100
STA301A
Transistor
Array for Sink Drive
171
SLA7072MR
IC
2-phase Stepper Motor Unipolar Driver IC
100
STA302A
Transistor
Array for 3-Phase Motor Drive and Source Drive
171
SLA7073MPR
IC
2-phase Stepper Motor Unipolar Driver IC
100
STA303A
Transistor
Array for 3-Phase Motor Drive and Sink Drive
171
SLA7073MR
IC
2-phase Stepper Motor Unipolar Driver IC
100
STA322A
Transistor
Array for Source Drive
171
SLA7075MPR
IC
2-phase Stepper Motor Unipolar Driver IC
110
STA401A
Transistor
Array for Sink Drive
171
SLA7075MR
IC
2-phase Stepper Motor Unipolar Driver IC
110
STA402A
Transistor
Array for Source Drive
171
SLA7076MPR
IC
2-phase Stepper Motor Unipolar Driver IC
110
STA403A
Transistor
Array for Sink Drive
171
SLA7076MR
IC
2-phase Stepper Motor Unipolar Driver IC
110
STA404A
Transistor
Array for Sink Drive
171
SLA7077MPR
IC
2-phase Stepper Motor Unipolar Driver IC
110
STA406A
Transistor
Array for Sink Drive
171
SLA7077MR
IC
2-phase Stepper Motor Unipolar Driver IC
110
STA408A
Transistor
Array for Source Drive
171
SLA7078MPR
IC
2-phase Stepper Motor Unipolar Driver IC
110
STA412A
Transistor
Array for Sink Drive
171
SLA7078MR
IC
2-phase Stepper Motor Unipolar Driver IC
110
STA413A
Transistor
Array for Sink Drive
171
SLA7080MPR
IC
2-phase Stepper Motor Unipolar Driver IC
102
STA421A
Transistor
Array for Sink Drive
171
SLA7081MPR
IC
2-phase Stepper Motor Unipolar Driver IC
102
STA431A
Transistor
Array for H-Bridge Motor Drive
171
SLA7082MPR
IC
2-phase Stepper Motor Unipolar Driver IC
102
STA434A
Transistor
Array for H-Bridge Motor Drive
171
SLA7083MPR
IC
2-phase Stepper Motor Unipolar Driver IC
102
STA457C
Transistor
Array for H-Bridge Motor Drive
171
SLA7611M
IC
3-phase Stepper Motor Driver IC
112
STA460C
Transistor
Array for Sink Drive
171
SMA4020
Transistor
Array for Source Drive
171
STA471A
Transistor
Array for Sink Drive
171
SMA4021
Transistor
Array for Source Drive
171
STA472A
Transistor
Array for Source Drive
171
SMA4030
Transistor
Array for Sink Drive
171
STA473A
Transistor
Array for Sink Drive
171
SMA4032
Transistor
Array for Sink Drive
171
STA475A
Transistor
Array for Sink Drive
171
SMA4033
Transistor
Array for Sink Drive
171
STA481A
Transistor
Array for Sink Drive
171
SMA4036
Transistor
Array for Sink Drive
171
STA485A
Transistor
Array for Sink Drive
171
SMA4038
Transistor
Array for Sink Drive
171
STA6940M
IC
Brush DC Motor Driver IC
116
SMA5106
Transistor
Array for Sink Drive
171
STA801M
IC
DC/DC Converter IC (2 Output)
SMA5112
Transistor
Array for 3-Phase Motor Drive
171
STD01N
Transistor
Audio (Darlington)
160
SMA5117
Transistor
Array for 3-Phase Motor Drive
171
STD01P
Transistor
Audio (Darlington)
160
SMA5118
Transistor
Array for 3-Phase Motor Drive
171
STD03N
Transistor
Audio (Darlington)
160
SMA5125
Transistor
Array for 3-Phase Motor Drive
171
STD03P
Transistor
Audio (Darlington)
160
SMA5127
Transistor
Array for 3-Phase Motor Drive
171
STR-A6051M
IC
AC/DC Converter IC
6
SMA5130
Transistor
Array for 3-Phase Motor Drive
171
STR-A6052M
IC
AC/DC Converter IC
6
SMA5131
Transistor
Array for 3-Phase Motor Drive
171
STR-A6053M
IC
AC/DC Converter IC
6
SMA5132
Transistor
Array for 3-Phase Motor Drive
171
STR-A6059H
IC
AC/DC Converter IC
6
SMA5133
Transistor
Array for 3-Phase Motor Drive
171
STR-A6062H
IC
AC/DC Converter IC
6
SMA6010
Transistor
Array for 3-Phase Motor Drive
171
STR-A6069H
IC
AC/DC Converter IC
6
SMA6080
Transistor
Array for 3-Phase Motor Drive
171
STR-A6079M
IC
AC/DC Converter IC
6
SMA6511
Transistor
Array for Stepper Motor drive
171
STR-A6131
IC
AC/DC Converter IC
7
SMA6821MP
IC
High Voltage 3 Phase Motor Driver IC
122
STR-A6131M
IC
AC/DC Converter IC
7
SMA6822MP
IC
High Voltage 3 Phase Motor Driver IC
122
STR-A6132
IC
AC/DC Converter IC
7
SMA6823MP
IC
High Voltage 3 Phase Motor Driver IC
122
STR-A6151
IC
AC/DC Converter IC
7
SMA6853M
IC
High Voltage 3 Phase Motor Driver IC
124
STR-A6151M
IC
AC/DC Converter IC
7
SMA6854M
IC
High Voltage 3 Phase Motor Driver IC
124
STR-A6153E
IC
AC/DC Converter IC
7
SMA6862M
IC
High Voltage 3 Phase Motor Driver IC
126
STR-A6159
IC
AC/DC Converter IC
7
SMA6863M
IC
High Voltage 3 Phase Motor Driver IC
126
STR-A6159M
IC
AC/DC Converter IC
7
SMA6865M
IC
High Voltage 3 Phase Motor Driver IC
126
STR-A6169
IC
AC/DC Converter IC
7
SMA7022MU
IC
2-phase Stepper Motor Unipolar Driver IC
90
STR-L451
IC
AC/DC Converter IC
8
SMA7029M
IC
2-phase Stepper Motor Unipolar Driver IC
90
STR-L472
IC
AC/DC Converter IC
8
SMA7036M
IC
2-phase Stepper Motor Unipolar Driver IC
92
STR-L6472
IC
AC/DC Converter IC
7
SPB-64S
Diode
Schottky Barrier Diode (Surface Mount)
209
STR-V152
IC
AC/DC Converter IC
7
SPB-G34S
Diode
Schottky Barrier Diode (Surface Mount)
209
STR-V153
IC
AC/DC Converter IC
7
SPB-G54S
Diode
Schottky Barrier Diode (Surface Mount)
209
STR-V653
IC
AC/DC Converter IC
6
SPB-G56S
Diode
Schottky Barrier Diode (Surface Mount)
209
STR-W6051S
IC
AC/DC Converter IC
6
SPI-6631M
IC
Low Voltage 3 Phase Motor Driver IC
118
STR-W6052S
IC
AC/DC Converter IC
6
22
8
Part Number Index
56
221
Part Number Index
Part No.
Category
Description
Page
Part No.
Category
Description
Page
STR-W6053S
IC
AC/DC Converter IC
6
TMA54S-L
Thyristor
Triac
192
STR-W6251D
IC
AC/DC Converter IC
6
TMA56G-L
Thyristor
Triac
192
STR-W6252D
IC
AC/DC Converter IC
6
TMA56H-L
Thyristor
Triac
192
STR-W6253D
IC
AC/DC Converter IC
6
TMA56S-L
Thyristor
Triac
192
STR-W6723N
IC
AC/DC Converter IC
8
TMA84S-L
Thyristor
Triac
192
STR-W6734
IC
AC/DC Converter IC
8
TMA86G-L
Thyristor
Triac
192
STR-W6735
IC
AC/DC Converter IC
8
TMA86H-L
Thyristor
Triac
192
STR-W6735N
IC
AC/DC Converter IC
8
TMA86S-L
Thyristor
Triac
192
STR-W6750F
IC
AC/DC Converter IC
8
TMA104S-L
Thyristor
Triac
192
STR-W6753
IC
AC/DC Converter IC
8
TMA106G-L
Thyristor
Triac
192
STR-W6754
IC
AC/DC Converter IC
8
TMA106H-L
Thyristor
Triac
192
STR-W6756
IC
AC/DC Converter IC
8
TMA106S-L
Thyristor
Triac
192
STR-W6756N
IC
AC/DC Converter IC
8
TMA124S-L
Thyristor
Triac
192
STR-W6765
IC
AC/DC Converter IC
8
TMA126G-L
Thyristor
Triac
192
STR-W6765N
IC
AC/DC Converter IC
8
TMA126H-L
Thyristor
Triac
192
STR-X6729
IC
AC/DC Converter IC
8
TMA126S-L
Thyristor
Triac
192
STR-X6737
IC
AC/DC Converter IC
8
TMA164B-L
Thyristor
Triac
192
STR-X6737M
IC
AC/DC Converter IC
8
TMA164P-L
Thyristor
Triac
192
STR-X6750B
IC
AC/DC Converter IC
8
TMA164S-L
Thyristor
Triac
192
STR-X6750F
IC
AC/DC Converter IC
8
TMA166B-L
Thyristor
Triac
192
STR-X6756
IC
AC/DC Converter IC
8
TMA166G-L
Thyristor
Triac
192
STR-X6757
IC
AC/DC Converter IC
8
TMA166H-L
Thyristor
Triac
192
STR-X6757N
IC
AC/DC Converter IC
8
TMA166P-L
Thyristor
Triac
192
STR-X6759B
IC
AC/DC Converter IC
8
TMA166S-L
Thyristor
Triac
192
STR-X6759F
IC
AC/DC Converter IC
8
TMA204S-L
Thyristor
Triac
192
STR-X6759N
IC
AC/DC Converter IC
8
TMA206S-L
Thyristor
Triac
192
STR-X6768N
IC
AC/DC Converter IC
8
TMA254B-L
Thyristor
Triac
192
STR-X6769
IC
AC/DC Converter IC
8
TMA256B-L
Thyristor
Triac
192
STR-X6769B
IC
AC/DC Converter IC
8
TMB166S-L
Thyristor
Triac
192
STR-Y6453
IC
AC/DC Converter IC
7
TMB206S-L
Thyristor
Triac
192
STR-Y6456
IC
AC/DC Converter IC
7
VR-60SS
Diode
Silicon Varistor (Axial)
213
STR-Y6473
IC
AC/DC Converter IC
7
VR-61SS
Diode
Silicon Varistor (Axial)
213
STR-Y6476
IC
AC/DC Converter IC
7
STR-Y6735
IC
AC/DC Converter IC
7
STR-Y6753
IC
AC/DC Converter IC
7
STR-Y6754
IC
AC/DC Converter IC
7
STR-Y6763
IC
AC/DC Converter IC
7
STR-Y6765
IC
AC/DC Converter IC
7
STR-Y6766
IC
AC/DC Converter IC
SV-3SS
Diode
Silicon Varistor (Axial)
213
SV-4SS
Diode
Silicon Varistor (Axial)
213
SX68001M
IC
High Voltage 3 Phase Motor Driver IC
120
SX68002M
IC
High Voltage 3 Phase Motor Driver IC
120
SX68003M
IC
High Voltage 3 Phase Motor Driver IC
120
SZ-10N27
Diode
Power Zener Diode (Surface Mount)
212
SZ-10N40
Diode
Power Zener Diode (Surface Mount)
212
SZ-10NN27
Diode
Power Zener Diode (Surface Mount)
212
SZ-10NN40
Diode
Power Zener Diode (Surface Mount)
212
TF361H-A
Thyristor
Thyristor
190
TF541S-A
Thyristor
Thyristor
190
TF561S-A
Thyristor
Thyristor
190
TFA37S
Thyristor
Thyristor
190
TFA38S
Thyristor
Thyristor
190
TFA57S
Thyristor
Thyristor
190
TFA58S
Thyristor
Thyristor
190
TFA87S
Thyristor
Thyristor
190
TFA88S
Thyristor
Thyristor
190
TFA107S
Thyristor
Thyristor
190
TFA108S
Thyristor
Thyristor
190
TFC563D
Thyristor
Thyristor for HID Lamp Ignition
190
TMA34S-L
Thyristor
Triac
192
TMA36G-L
Thyristor
Triac
192
TMA36H-L
Thyristor
Triac
192
TMA36S-L
Thyristor
Triac
192
222
Part Number Index
7
NOTE
NOTE
Sanken Electric Co., Ltd.
Overseas Sales Headquarters
Metropolitan Plaza Building, 1-11-1 Nishi-Ikebukuro
Toshima-ku, Tokyo 171-0021, Japan
Te l : 81-3-3986-6164
Fax: 81-3-3986-8637
WORLDWIDE SALES OFFICES
Asia-Pacific
China
Sanken Electric Hong Kong Co., Ltd.
Suite 1026 Ocean Centre, Canton Road
Tsimshatsui, Kowloon, Hong Kong
Te l : 852-2735-5262
Fax: 852-2735-5494
Sanken Electric (Shanghai) Co., Ltd.
Room 3202, Maxdo Centre, Xingyi Road 8
Changning District, Shanghai, China
Te l : 86-21-5208-1177
Fax: 86-21-5208-1757
Sanken Electric (Shanghai) Co., Ltd. Shenzhen Office
Room 1013, Xinhua Insurance Building, Mintian Road, Futian District,
Shenzhen City, Guangdong, China
Tel : 86-755-3391-9356
Fax: 86-755-3391-9368
Taiwan Sanken Electric Co., Ltd.
Room 1801, 18th Floor, 88 Jung Shiau East Road
Sec. 2, Taipei 100, Taiwan R.O.C.
Te l : 886-2-2356-8161
Fax: 886-2-2356-8261
Korea
Sanken Electric Korea Co., Ltd.
Samsung Life Yeouido Building 16F,
23-10, Yeouido-Dong, Yeongdeungpo-gu,
Seoul 150-734, Korea
Te l : 82-2-714-3700
Fax: 82-2-3272-2145
Singapore
Sanken Electric Singapore Pte. Ltd.
152 Beach Road, #10-06 The Gateway East,
Singapore 189721
Te l : 65-6291-4755
Fax: 65-6297-1744
Malaysia
Sanken Electric (Malaysia) Sdn. Bhd.
Block B-20-5, Level 20, Northpoint Midvalley City,
No.1, Medan Syed Putra Utara, 59200 Kuala Lumpur, Malaysia
Te l : 60-3-2282-2345
Fax: 60-3-2282-6345
Europe
United Kingdom
Sanken Power Systems (UK) Ltd.
Pencoed Technology Park
Pencoed, Bridgend CF35 5HY, United Kingdom
Te l : 44-1656-869-100
Fax: 44-1656-869-162
North America
United States
Allegro MicroSystems, Inc.
115 Northeast Cutoff
Worcester, Massachusetts 01606, U.S.A.
Te l : 1-508-853-5000
Fax: 1-508-853-7895
Allegro MicroSystems, Inc.
14 Hughes Street, Suite B105
Irvine, California 92618, U.S.A.
Te l : 1-949-460-2003
Fax: 1-949-460-7837
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2. Use these products/technology yourself for activities disturbing international peace and security.
3. Allow any other party to use these products/technology for activities disturbing international peace and security.
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under the Foreign Exchange and Foreign Trade Law, when you export or transfer the products/technology abroad.
H1-O03EF0-1103015ND