IRF IRS2186 High and low side driver Datasheet

PRELIMINARY
Data Sheet No. PD60271
IRS2186/IRS21864(S)PbF
HIGH AND LOW SIDE DRIVER
Features
• Floating channel designed for bootstrap operation
• Fully operational to +600 V
• Tolerant to negative transient voltage, dV/dt
Packages
immune
• Gate drive supply range from 10 V to 20 V
• Undervoltage lockout for both channels
• 3.3 V and 5 V input logic compatible
• Matched propagation delay for both channels
• Logic and power ground +/- 5V offset.
• Lower di/dt gate driver for better noise immunity
• Output source/sink current capability 4 A/4 A
14-Lead PDIP IRS21864
8-Lead PDIP
IRS2186
8-Lead SOIC IRS2186S
Description
14-Lead SOIC
IRS21864S
The IRS2186/IRS21864 are high voltage, high speed power MOSFET and IGBT drivers with independent
high and low side referenced output channels. Proprietary HVIC and latch immune CMOS technologies
enable ruggedized monolithic construction. The logic input is compatible with standard CMOS or LSTTL
output, down to 3.3 V logic. The output drivers feature a high pulse current buffer stage designed for minimum
driver cross-conduction. The floating channel can be used to drive an N-channel power MOSFET or IGBT in
the high side configuration which operates up to 600 V.
Typical Connection
IRS21864
IRS2186
(Refer to Lead Assignments for correct pin configuration). These diagrams show electrical connections only. Please refer to our
Application Notes and DesignTips for proper circuit board layout.
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1
IRS2186/IRS21864(S)PbF
PRELIMINARY
Absolute Maximum Ratings
Absolute maximum ratings indicate sustained limits beyond which damage to the device may occur. All voltage parameters are absolute voltages referenced to COM. The thermal resistance and power dissipation ratings are measured
under board mounted and still air conditions.
Symbol
Definition
Min.
Max.
VB
High side floating absolute voltage
-0.3
620 (Note 1)
VS
High side floating supply offset voltage
VB - 20
VB + 0.3
VHO
High side floating output voltage
VS - 0.3
VB + 0.3
VCC
Low side and logic fixed supply voltage
-0.3
20 (Note 1)
VLO
Low side output voltage
-0.3
VCC + 0.3
VIN
Logic input voltage (HIN & LIN - IRS2186/IRS21864)
VSS - 0.3
VCC + 0.3
VSS
Logic ground (IRS21864 only)
VCC - 20
VCC + 0.3
—
50
dVS/dt
PD
RthJA
Allowable offset supply voltage transient
Package power dissipation @ TA ≤ +25 °C
Thermal resistance, junction to ambient
(8-lead PDIP)
—
1.0
(8-lead SOIC)
—
0.625
—
1.6
(14-lead PDIP)
(14-lead SOIC)
—
1.0
(8-lead PDIP)
—
125
(8-lead SOIC)
—
200
(14-lead PDIP)
—
75
(14-lead SOIC)
—
120
TJ
Junction temperature
—
150
TS
Storage temperature
-50
150
TL
Lead temperature (soldering, 10 seconds)
—
300
Units
V
V/ns
W
°C/W
°C
Note 1: All suplies are fully tested at 25 V and an internal 20 V clamp exists for each supply.
Recommended Operating Conditions
The Input/Output logic timing diagram is shown in Fig. 1. For proper operation the device should be used within the
recommended conditions. The VS and VSS offset rating are tested with all supplies biased at a 15 V differential.
Symbol
Min.
Max.
VB
High side floating supply absolute voltage
Definition
VS + 10
VS + 20
VS
High side floating supply offset voltage
Note 2
600
VHO
High side floating output voltage
VS
VB
VCC
Low side and logic fixed supply voltage
10
20
VLO
Low side output voltage
0
VCC
VIN
Logic input voltage HIN & LIN
VSS
VCC
VSS
Logic ground (IRS21864 only)
-5
5
Ambient temperature
-40
125
TA
Units
V
°C
Note 2: Logic operational for VS of -5 V to +600 V. Logic state held for VS of -5 V to -VBS. (Please refer to the Design Tip
DT97-3 for more details).
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2
IRS2186/IRS21864(S)PbF
PRELIMINARY
Dynamic Electrical Characteristics
VBIAS (VCC, VBS) = 15 V, VSS = COM, CL = 1000 pF, TA = 25 °C.
Symbol
Definition
Min.
Typ.
Max. Units Test Conditions
ton
Turn-on propagation delay
—
170
250
VS = 0 V
toff
Turn-off propagation delay
—
170
250
VS = 0 V or 600 V
MT
Delay matching, HS & LS turn-on/off
—
0
35
tr
Turn-on rise time
—
22
38
tf
Turn-off fall time
—
18
30
ns
VS = 0 V
Static Electrical Characteristics
VBIAS (VCC, VBS) = 15 V, VSS = COM and TA = 25 °C unless otherwise specified. The VIL, VIH, and IIN parameters are
referenced to VSS/COM and are applicable to the respective input leads HIN and LIN. The VO, IO, and Ron parameters
are referenced to COM and are applicable to the respective output leads: HO and LO.
Symbol
Definition
Min. Typ. Max. Units Test Conditions
VIH
Logic “1” input voltage
2.5
—
—
VIL
Logic “0” input voltage
—
—
0.8
VOH
High level output voltage, VBIAS - VO
—
—
1.2
IO = 0 A
VOL
Low level output voltage, VO
—
—
0.15
IO = 20 mA
VB = VS = 200 V
VCC = 10 V to 20 V
V
ILK
Offset supply leakage current
—
—
50
IQBS
Quiescent VBS supply current
20
60
150
IQCC
Quiescent VCC supply current
50
120
240
IIN+
Logic “1” input bias current
—
25
60
VIN = 5 V
IIN-
Logic “0” input bias current
—
—
1.0
VIN = 0 V
8.0
8.9
9.8
7.4
8.2
9.0
Hysteresis
0.3
0.7
—
Output high short circuit pulsed current
2.0
4.0
—
VCCUV+
VCC and VBS supply undervoltage positive going
VBSUV+
threshold
VCCUV-
VCC and VBS supply undervoltage negative going
VBSUV-
threshold
VCCUVH
VBSUVH
IO+
µA
V
A
IO-
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Output low short circuit pulsed current
2.0
4.0
—
VIN = 0 V or 5 V
VO = 0 V,
PW ≤ 10 µs
VO = 15 V,
PW ≤ 10 µs
3
IRS2186/IRS21864(S)PbF
PRELIMINARY
Functional Block Diagrams
VB
2186
UV
DETECT
HO
R
VSS/COM
LEVEL
SHIFT
HIN
HV
LEVEL
SHIFTER
Q
R
PULSE
FILTER
S
VS
PULSE
GENERATOR
VCC
UV
DETECT
VSS/COM
LEVEL
SHIFT
LIN
LO
DELAY
COM
VB
21864
UV
DETECT
HO
R
HIN
VSS/COM
LEVEL
SHIFT
HV
LEVEL
SHIFTER
R
PULSE
FILTER
Q
S
VS
PULSE
GENERATOR
VCC
UV
DETECT
LIN
VSS/COM
LEVEL
SHIFT
LO
DELAY
COM
VSS
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4
IRS2186/IRS21864(S)PbF
PRELIMINARY
Lead Definitions
Symbol Description
HIN
Logic input for high side gate driver output (HO), in phase (IRS2186/IRS21864)
LIN
Logic input for low side gate driver output (LO), in phase (IRS2186/IRS218164)
VSS
Logic ground (IRS21864 only)
VB
High side floating supply
HO
High side gate drive output
VS
High side floating supply return
VCC
Low side and logic fixed supply
LO
Low side gate drive output
COM
Low side return
Lead Assignments
HIN
VB
2
LIN
HO
7
3
COM
VS
6
4
LO
VCC
5
1
HIN
VB
8
2
LIN
HO
7
3
COM
VS
6
4
LO
VCC
5
1
8-Lead PDIP
8-Lead SOIC
IRS2186PbF
IRS2186SPbF
14
1
HIN
2
LIN
VB
13
3
VSS
HO
12
VS
11
4
10
6
LO
9
7
VCC
8
IRS21864PbF
HIN
2
LIN
VB
13
VSS
HO
12
VS
11
4
COM
14
1
3
5
14-Lead PDIP
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8
5
COM
10
6
LO
9
7
VCC
8
14-Lead SOIC
IRS21864SPbF
5
IRS2186/IRS21864(S)PbF
PRELIMINARY
HIN
LIN
50%
50%
HIN
LIN
ton
toff
tr
90%
HO
LO
HO
LO
Figure 1. Input/Output Timing Diagram
HIN
LIN
10%
tf
90%
10%
Figure 2. Switching Time Waveform Definitions
50%
50%
LO
HO
10%
MT
MT
90%
LO
HO
Figure 3. Delay Matching Waveform Definitions
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6
IRS2186/IRS21864(S)PbF
Turn-On Propagation Delay (ns)
Turn-On Propagation Delay (ns)
PRELIMINARY
500
400
300
Max.
200
Typ.
100
0
-50
-25
0
25
50
Temperature
75
100
500
400
300
200
Max.
Typ.
100
0
125
10
300
Max.
Typ.
100
0
25
50
75
100
Temperature (oC)
Figure 5A. Turn-Off Propagation Delay
vs. Temperature
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125
Turn-Off Propagation Delay (ns)
Turn-Off Propagation Delay (ns )
400
-25
16
18
20
Figure 4B. Turn-On Propagation Delay
vs. Supply Voltage
500
0
-50
14
Supply Voltage (V)
Figure 4A. Turn-On Propagation Delay
vs. Temperature
200
12
(oC)
500
400
300
Max.
200
Typ.
100
0
10
12
14
16
18
20
Supply Voltage (V)
Figure 5B. Turn-Off Propagation Delay
vs. Supply Voltage
7
IRS2186/IRS21864(S)PbF
PRELIMINARY
100
Turn-On Ris e Time (ns)
Turn-On Rise Time (ns)
100
80
60
40
Max.
20
Typ.
0
-50
80
60
Max.
40
Typ.
20
0
-25
0
25
50
Temperature
75
100
125
10
14
16
18
20
Supply Voltage (V)
Figure 6A. Turn-On Rise Time
vs. Temperature
Figure 6B. Turn-On Rise Time
vs. Supply Voltage
80
80
Turn-Off Fall Time (ns)
Turn-Off Fall Time (ns)
12
(oC)
60
40
Max.
20
Typ.
0
-50
40
Max.
Typ.
20
0
-25
0
25
50
Temperature
75
100
(oC)
Figure 7A. Turn-Off Fall Time
vs. Temperature
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60
125
10
12
14
16
18
20
Supply Voltage (V)
Figure 7B. Turn-Off Fall Time
vs. Supply Voltage
8
IRS2186/IRS21864(S)PbF
PRELIMINARY
5
Logic "1" Input Voltage (V)
Logic "1" Input Voltage (V)
5
4
3
Min.
2
1
0
-50
3
Min.
2
1
0
-25
0
25
50
75
100
125
10
12
14
16
18
Temperature (oC)
Supply Voltage (V)
Figure 8A. Logic "1" Input Voltage
vs. Temperature
Figure 8B. Logic "1" Input Voltage
vs. Supply Voltage
5
20
5
Logic "0" Input Voltage (V)
Logic "0" Input Voltage (V)
4
4
3
2
1
Max.
0
-50
4
3
2
1
Max.
0
-25
0
25
50
Temperature
75
100
(oC)
Figure 9A. Logic "0" Input Voltage
vs. Temperature
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125
10
12
14
16
18
20
Supply Voltage (V)
Figure 9B. Logic "0" Input Voltage
vs. Supply Voltage
9
IRS2186/IRS21864(S)PbF
PRELIMINARY
5
High Level O utput (V)
High Level O utput (V)
5
4
3
2
Max.
1
0
-50
4
3
2
Max.
1
0
-25
0
25
50
Temperature
75
100
125
10
12
(oC)
18
20
Figure 10B. High Level Output
vs. Supply Voltage
0.5
Low Lev el O utput (V)
0.5
Low Lev el O utput (V)
16
Supply Voltage (V)
Figure 10A. High Level Output
vs. Temperature
0.4
0.3
0.2
0.1
14
Max.
0.0
-50
0.4
0.3
0.2
0.1
Max.
0.0
-25
0
25
50
75
100
Temperature (oC)
Figure 11A. Low Level Output
vs. Temperature
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125
10
12
14
16
18
20
Supply Voltage (V)
Figure 11B. Low Level Output
vs. Supply Voltage
10
IRS2186/IRS21864(S)PbF
500
400
300
200
100
Max.
0
-50
-25
0
25
50
Temperature
75
100
125
O ffset Supply Leak age Current (µA)
O ffset Supply Leak age Current ((µA)
PRELIMINARY
300
200
100
Max.
0
100
200
300
400
500
600
VB Boost Voltage (V)
Figure 12B. Offset Supply Leakage Current
vs. V B Boost Voltage
500
500
400
300
Max.
200
Typ.
100
Min.
V BS Supply Current (µA)
V BS Supply Current (µA)
400
(oC)
Figure 12A. Offset Supply Leakage
Current
0
-50
500
400
Max.
300
200
Typ.
100
Min.
0
-25
0
25
50
75
100
125
10
12
14
16
18
Temperature (oC)
VBS Floating Supply Voltage (V)
Figure 13A. V BS Supply Current
vs. Temperature
vs. V BS Floating Supply Voltage
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20
Figure 13B. V BS Supply Current
11
IRS2186/IRS21864(S)PbF
PRELIMINARY
500
V CC Supply Current ( µA)
V CC Supply Current (µA)
500
400
300
Max.
200
Typ.
100
Min.
0
-50
400
Max.
300
200
Typ.
100
Min.
0
-25
0
25
50
Temperature
75
100
125
10
Logic "1" Input Bias Current (µA)
Logic "1" Input Bias Current (µA)
100
80
60
Max.
40
Typ.
-25
0
25
50
16
18
75
100
125
120
100
80
60
Max.
40
Typ.
20
0
10
12
14
16
18
Temperature (oC)
Supply Voltage (V)
Figure 15A. Logic "1" Input Bias Current
vs. Temperature
Figure 15B. Logic "1" Input Bias Current
vs. Supply Voltage
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20
Figure 14B. V CC Supply Current
vs. Supply Voltage
120
0
-50
14
V CC Supply Voltage ()
Figure 14A. V CC Supply Current
vs. Temperature
20
12
(oC)
20
12
IRS2186/IRS21864(S)PbF
Logic "0" Input Bias Current (µA)
Logic "0" Input Bias Current (µA)
PRELIMINARY
5
4
3
2
1
Max.
0
-50
-25
0
25
50
75
100
5
4
3
2
1
Max.
0
10
125
12
14
11
10
Max.
9
Typ.
8
Min.
7
25
50
75
100
125
Temperature (oC)
Figure 17. V CC and V BS Undervoltage Threshold (+)
vs. Temperature
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V CC and V BS UV Thres hold (-) (V)
V C C and V BS UV Thres hold (+) (V)
12
0
20
Figure 16B. Logic "0" Input Bias Current
vs. Supply Voltage
Figure 16A. Logic "0" Input Bias
Current
vs. Temperature
-25
18
Supply Voltage (V)
Temperature (oC)
6
-50
16
12
11
10
9
Max.
Typ.
8
Min.
7
6
-50
-25
0
25
50
75
100
125
Temperature (oC)
Figure 18. V CC and V BS Undervoltage Threshold (-)
vs. Temperature
13
IRS2186/IRS21864(S)PbF
PRELIMINARY
10
O utput Sourc e Current (A)
O utput Sourc e Current (A)
10
8
6
Typ.
4
Min.
2
0
-50
6
4
Typ.
2
Min.
0
-25
0
25
50
75
100
125
10
12
14
16
18
Temperature (oC)
Supply Voltage (V)
Figure 19A. Output Source Current
vs. Temperature
Figure 19B. Output Source Current
vs. Supply Voltage
10
20
10
O utput Sink Current (A)
O utput Sink Current (A)
8
8
6
Typ.
4
Min.
2
8
6
4
Typ.
2
Min.
0
-50
0
-25
0
25
50
75
100
Temperature (oC)
Figure 20A. Output Sink Current
vs. Temperature
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125
10
12
14
16
18
20
Supply Voltage (V)
Figure 20B. Output Sink Current
vs. Supply Voltage
14
IRS2186/IRS21864(S)PbF
140
140
120
120
100
80
140v
70v
60
0v
Temperature (o C)
Temprature ( o C)
PRELIMINARY
40
100
140v
80
70v
0v
60
40
20
20
1
10
100
1000
1
Frequency (kHz)
10
100
1000
Frequency (kHz)
Figure
IR2186 vs. Frequency (IRFBC20),
Figure
21.21.
IRS2186
Figure
IR2186 vs. Frequency (IRFBC30),
Figure
22.22.
IRS2186
Rgate=22 Ω , V CC=15 V
Rgate=33 Ω , V CC=15 V
140
140
120
120
140v
100
140v
80
70v
60
0v
40
Temperature (o C)
Temperature (o C)
70v
0v
100
80
60
40
20
20
1
10
100
1000
Frequency (kHz)
Figure
IR2186 vs. Frequency (IRFBC40),
Figure
23.23.
IRS2186
Rgate=15 Ω , VCC=15 V
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1
10
100
1000
Frequency (kHz)
Figure
IR2186 vs. Frequency (IRFPE50),
Figure
24.24.
IRS2186
Rgate=10 Ω , V CC=15 V
15
IRS2186/IRS21864(S)PbF
140
140
120
120
100
80
60
140v
70v
40
Temperature (o C)
Temperature (o C)
PRELIMINARY
100
80
140v
60
70v
0v
40
0v
20
20
1
10
100
1
1000
100
1000
Frequency (kHz)
Frequency (kHz)
Figure
IR21864 vs. Frequency (IRFBC30),
Figure
26.26.
IRS2186
Rgate=22 Ω , V CC=15 V
Figure
IR21864 vs. Frequency (IRFBC20),
Figure
25.25.
IRS2186
Rgate=33 Ω , V CC=15 V
140v
140
140
120
120
70v
100
0v
100
140v
80
70v
60
0v
Temperature(o C)
Temperature (o C)
10
80
60
40
40
20
20
1
10
100
1000
Frequency (kHz)
Figure
27.27.
IRS2186
Figure
IR21864 vs. Frequency (IRFBC40),
Rgate=15 Ω , VCC=15 V
www.irf.com
1
10
100
1000
Frequency (kHz)
Figure
IR21864 vs. Frequency (IRFPE50),
Figure
28.28.
IRS2186
Rgate=10 Ω , V CC=15 V
16
IRS2186/IRS21864(S)PbF
140
140
120
120
100
80
140v
70v
60
0v
Temperature (oC)
Temperature (oC)
PRELIMINARY
40
140v
100
70v
80
0v
60
40
20
20
1
10
100
100 0
1
Frequency (kHz)
100 0
Fig u30.
re 30.
IR 2181S vs.
vs .Frequency
Fre q u e n cy (IRFBC30),
(IR FB C 30),
Figure
IRS2186S
IRS2186
Ω
RRgate
=22
,
V
=
15
V
g ate=22 , V CCC
C =15 V
140v 70v
140V 70V 0V
140
120
0v
100
80
60
40
Temperature (oC)
120
Temperature (oC)
100
Frequency(kHz)
Fig u re 29.
2186S vs .vs.
FreFrequency
q u e n cy (IR FB
C 20),
Figure
29. IR
IRS2186S
(IRFBC20),
R gR
=33 =33
, VΩC C, =15
VCCV= 15 V
ategate
140
10
100
80
60
40
20
20
1
10
100
1000
Frequency(kHz)
Fig u 31.
re
IR 2186S vs.
vs .Frequency
Fre q u e n cy (IRFBC40),
(IR FB C 40),
Figure
IRS2186S
31.31.
IRS2186
RRgate =15
=15 Ω,,VVCC=15
= 15
V
V
g ate
CC
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1
10
100
1000
Frequency(kHz)
Fig u 32.
re
IR 2186S vs.
vs .Frequency
Fre q u e n cy (IRFPE50),
(IR FP E50),
Figure
IRS2186S
Figure
32.32.
IRS2186
RRgate =10
=10 Ω,,VVCC=15
= 15
V
V
g ate
CC
17
IRS2186/IRS21864(S)PbF
140
140
120
120
100
80
60
140v
70v
Temperature (o C)
Temperature (o C)
PRELIMINARY
100
0v
40
80
140v
60
70v
0v
40
20
20
1
10
100
1
1000
Rgate=22 Ω , V CC=15 V
140
140
120
120
140v
70v
0v
60
40
Temperature (o C)
Temperature ( o C)
1000
Figure
IR21864S vs. Frequency (IRFBC30),
Figure
34.34.
IRS2186
Figure
IR21864S vs. Frequency (IRFBC20),
Figure
33.33.
IRS2186
Rgate=33 Ω , V CC=15 V
80
100
Frequency (kHz)
Frequency (kHz)
100
10
140v 70v
0v
100
80
60
40
20
20
1
10
100
1000
Frequency (kHz)
Figure
35.35.
IRS2186
Figure
IR21864S vs. Frequency (IRFBC40),
Rgate=15 Ω , V CC=15 V
www.irf.com
1
10
100
1000
Frequency (kHz)
Figure
IR21864S vs. Frequency (IRFPE50),
Figure
36.36.
IRS2186
Rgate=10 Ω , V CC=15 V
18
IRS2186/IRS21864(S)PbF
PRELIMINARY
Case outlines
01-6014
01-3003 01 (MS-001AB)
8-Lead PDIP
D
DIM
B
5
A
FOOTPRINT
8
7
6
5
6
H
E
0.25 [.010]
1
2
3
A
4
6.46 [.255]
MIN
.0532
.0688
1.35
1.75
A1 .0040
.0098
0.10
0.25
b
.013
.020
0.33
0.51
c
.0075
.0098
0.19
0.25
D
.189
.1968
4.80
5.00
E
.1497
.1574
3.80
4.00
e
.050 BASIC
3X 1.27 [.050]
8X 1.78 [.070]
MAX
1.27 BASIC
.025 BASIC
0.635 BASIC
H
.2284
.2440
5.80
6.20
K
.0099
.0196
0.25
0.50
L
.016
.050
0.40
1.27
y
0°
8°
0°
8°
e1
6X e
MILLIMETERS
MAX
A
8X 0.72 [.028]
INCHES
MIN
K x 45°
e1
A
C
y
0.10 [.004]
8X b
0.25 [.010]
A1
8X L
C A B
NOTES:
1. DIMENSIONING & TOLERANCING PER ASME Y14.5M-1994.
2. CONTROLLING DIMENSION: MILLIMETER
3. DIMENSIONS ARE SHOWN IN MILLIMETERS [INCHES].
4. OUTLINE CONFORMS TO JEDEC OUTLINE MS-012AA.
8-Lead SOIC
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8X c
7
5 DIMENSION DOES NOT INCLUDE MOLD PROTRUSIONS.
MOLD PROTRUSIONS NOT TO EXCEED 0.15 [.006].
6 DIMENSION DOES NOT INCLUDE MOLD PROTRUSIONS.
MOLD PROTRUSIONS NOT TO EXCEED 0.25 [.010].
7 DIMENSION IS THE LENGTH OF LEAD FOR SOLDERING TO
A SUBSTRATE.
01-6027
01-0021 11 (MS-012AA)
19
IRS2186/IRS21864(S)PbF
PRELIMINARY
14-Lead PDIP
14-Lead SOIC (narrow body)
www.irf.com
01-6010
01-3002 03 (MS-001AC)
01-6019
01-3063 00 (MS-012AB)
20
IRS2186/IRS21864(S)PbF
PRELIMINARY
Tape & Reel
8-lead SOIC
LOAD ED TA PE FEED DIRECTION
A
B
H
D
F
C
N OT E : CO NTROLLING
D IMENSION IN MM
E
G
C A R R I E R T A P E D IM E N S I O N F O R 8 S O I C N
M e tr ic
Im p e ri a l
Co d e
M in
M ax
M in
M ax
A
7 .9 0
8.1 0
0. 31 1
0 .3 18
B
3 .9 0
4.1 0
0. 15 3
0 .1 61
C
11 .7 0
1 2 . 30
0 .4 6
0 .4 84
D
5 .4 5
5.5 5
0. 21 4
0 .2 18
E
6 .3 0
6.5 0
0. 24 8
0 .2 55
F
5 .1 0
5.3 0
0. 20 0
0 .2 08
G
1 .5 0
n/ a
0. 05 9
n/ a
H
1 .5 0
1.6 0
0. 05 9
0 .0 62
F
D
C
B
A
E
G
H
R E E L D IM E N S I O N S F O R 8 S O IC N
M e tr ic
Im p e ri a l
Co d e
M in
M ax
M in
M ax
A
3 2 9 . 60
3 30 .2 5
1 2 .9 76
1 3 .0 0 1
B
20 .9 5
2 1 . 45
0. 82 4
0 .8 44
C
12 .8 0
1 3 . 20
0. 50 3
0 .5 19
D
1 .9 5
2.4 5
0. 76 7
0 .0 96
E
98 .0 0
1 02 .0 0
3. 85 8
4 .0 15
F
n /a
1 8 . 40
n /a
0 .7 24
G
14 .5 0
1 7 . 10
0. 57 0
0 .6 73
H
12 .4 0
1 4 . 40
0. 48 8
0 .5 66
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21
IRS2186/IRS21864(S)PbF
PRELIMINARY
Tape & Reel
14-lead SOIC
LOAD ED TA PE FEED DIRECTION
A
B
H
D
F
C
N OT E : CO NTROLLING
D IMENSION IN M M
E
G
C A R R I E R T A P E D IM E N S I O N F O R 1 4 S O IC N
M etr ic
Im p e r ia l
Co d e
M in
M ax
M in
M ax
A
7 .9 0
8 .1 0
0 . 31 1
0 .3 1 8
B
3 .9 0
4 .1 0
0 . 15 3
0 .1 6 1
C
15 .7 0
1 6. 30
0 . 61 8
0 .6 4 1
D
7 .4 0
7 .6 0
0 . 29 1
0 .2 9 9
E
6 .4 0
6 .6 0
0 . 25 2
0 .2 6 0
F
9 .4 0
9 .6 0
0 . 37 0
0 .3 7 8
G
1 .5 0
n/ a
0 . 05 9
n/ a
H
1 .5 0
1 .6 0
0 . 05 9
0 .0 6 2
F
D
C
B
A
E
G
H
R E E L D IM E N S I O N S F O R 1 4 S O IC N
M etr ic
Im p e r ia l
Co d e
M in
M ax
M in
M ax
A
32 9. 6 0
3 3 0 .2 5
1 2 .9 7 6
1 3 .0 0 1
B
20 .9 5
2 1. 45
0 . 82 4
0 .8 4 4
C
12 .8 0
1 3. 20
0 . 50 3
0 .5 1 9
D
1 .9 5
2 .4 5
0 . 76 7
0 .0 9 6
E
98 .0 0
1 0 2 .0 0
3 . 85 8
4 .0 1 5
F
n /a
2 2. 40
n /a
0 .8 8 1
G
18 .5 0
2 1. 10
0 . 72 8
0 .8 3 0
H
16 .4 0
1 8. 40
0 . 64 5
0 .7 2 4
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22
IRS2186/IRS21864(S)PbF
PRELIMINARY
LEADFREE PART MARKING INFORMATION
IRSxxxxx
Part number
Pin 1
Identifier
?
P
IR
logo
YWW?
Date code
MARKING CODE
Lead Free Released
Non-Lead Free
Released
?XXXX
Lot Code
(Prod mode - 4 digit SPN code)
Assembly site code
Per SCOP 200-002
ORDER INFORMATION
8-Lead PDIP IRS2186PbF
8-Lead SOIC IRS2186SPbF
8-Lead SOIC Tape & Reel IRS2186STRPbF
14-Lead PDIP IRS21864PbF
14-Lead SOIC IRS21864SPbF
14-Lead SOIC Tape & Reel IRS21864STRPbF
Thisproduct has been designed and qualified for the industrial market.
Qualification Standards can be found on IR’s Web Site http://www.irf.com
Data and specifications subject to change without notice.
IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245 Tel: (310) 252-7105
5/8/2006
www.irf.com
23
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