Diodes AM4961AGSTR-G1 Single phase full wave pwm motor driver Datasheet

A Product Line of
Diodes Incorporated
AM4961A
SINGLE PHASE FULL WAVE PWM MOTOR DRIVER
Description
Pin Assignments
NEW PRODUCT
The AM4961A is highly integrated feature rich single phase Brushless
Direct Current (BLDC) full wave motor driver with PWM control
function for fans, blowers and extractors.
(Top View)
For system flexibility the motor speed can be controlled by either an
external PWM signal or by a DC voltage or from a Thermistor
network. Based on the input signal, the AM4961A adjust the output
duty cycle.
To help protect the motor coil, the AM4961A provides a rotor lock
protection which shuts down the output if rotor lock is detected. The
device automatically re-starts when the rotor lock is removed.
OUT2
1
16
NC
2
15
OUT1
VCC
3
14
GND
VMIN
4
13
CT
VPWM
5
12
VREF
COSC
6
11
HIN-
7
10
HB
8
9
FG
RD
HIN+
SSOP-16 (GS Package)
To help interface to external system for monitoring the motor status
and speed, AM4961A provides open drain Rotor lock detect alarm
output (RD) pin and a tachometer output Frequency Generator (FG).
The FG output is the magnetic change frequency.
(Top View)
PGND
The AM4961A is available in SSOP-16 and HTSSOP-14 packages.
Features
•
•
•
•
•
•
•
•
•
•
•
•
•
Operating voltage : 3.5V to 16V
Internal H-Bridge with 1A Peak Current Capability
Speed Control with external PWM, DC or Thermistor signals
Minimal Speed Setting
Built-in Hall Bias Circuit
Reference Voltage Output
Rotor Lock Protection with Output Shutdown and Auto Restart
Rotation Speed Indication (FG)
Rotation or Lock State Indication (RD)
Built-in Thermal Shutdown Circuit
Industry standard SSOP-16 and Thermally Enhanced
HTSSOP-14 Packages
Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2)
Halogen and Antimony Free. “Green” Device (Note 3)
Notes:
PGND
PGND
OUT2
1
14
OUT1
VCC
2
13
GND
VMIN
3
12
CT
VPWM
4
11
VREF
COSC
5
10
HIN-
FG
6
9
HB
RD
7
8
HIN+
HTSSOP-14 (GH Package)
Applications
•
•
•
•
12V BLDC Cooling Fans, Motors, Extractors and Blowers
CPU Cooler Fan in PC
Instrumentation and Equipment Cooling fans
Brushless DC Motor Driver
1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant.
2. See http://www.diodes.com/quality/lead_free.html for more information about Diodes Incorporated’s definitions of Halogen- and Antimony-free, "Green"
and Lead-free.
3. Halogen- and Antimony-free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl) and
<1000ppm antimony compounds.
AM4961A
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AM4961A
Typical Applications Circuit
D1
VCC
R1
27k
C1
1µF or greater
L1
AM4961A
NEW PRODUCT
R2
10k
1 (1)
2 (3)
3 (4)
R4
39k
PWM
R3 7.5k
Q1
OUT1
VCC
GND
VMIN
4 (5)
R6 330k
OUT2
5 (6)
CT
14 (15)
13 (14)
12 (13)
VPWM
VREF
11 (12)
COSC
HIN-
10 (11)
6 (7)
FG
7 (8)
RD PGND HIN+
HB
9 (10)
Hall
8 (9)
C4
0.47µF
(16)
R7
100k
C2
0.33µF
R8
R5
C3
100pF
68k
100k
Typical Application Circuit with an External Input PWM Speed Control Signal
Note:
4. C1 is for power stabilization and should be 1µF or higher depending on the motor current and motor design.
Pin Descriptions
Package: HTSSOP-14 and SSOP16
Pin Number
HTSSOP-14
SSOP-16
1
1
–
2
2
3
3
4
4
5
5
6
6
7
7
8
8
9
9
10
10
11
11
12
12
13
13
14
14
15
–
16
AM4961A
Document number: DS36626 Rev. 1 - 2
Pin Name
OUT2
NC
VCC
VMIN
VPWM
COSC
FG
RD
HIN+
HB
HINVREF
CT
GND
OUT1
PGND
Function
Drive output 2
No connection
Power supply
Minimum duty setting
Adjustable input
Oscillator capacitor
Rotation speed indicator
Rotation/lock state indicator
Hall sensor input+
Hall sensor bias regulator
Hall sensor inputReference voltage regulator
Lock and rotation setting capacitor terminal
Ground for control circuit
Drive output 1
Power ground
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AM4961A
Functional Block Diagram
6 (7)
COSC
NEW PRODUCT
VPWM
VMIN
5 (6)
Oscillation Circuit
20 Ω
Thermal Shutdown
FG
4 (5)
7 (8)
20 Ω
3 (4)
RD
Pre - driver
VREF
11 (12)
Voltage
Reference
9 (10)
HIN -
VCC
Control
Circuit
Hall Bias
HB
HIN +
2 (3)
1 (1)
8 (9)
OUT2
10 (11)
Hysteresis Amp
Lock Shutdown
and
Auto Restart
12 (13)
CT
14 (15)
PGND
GND
A (B): A for HTSSOP-14 pins
OUT1
(16)
13 (14)
B for SSOP-16 pins
Truth Table
Note:
HIN-
HIN+
H
L
H
L
H
L
H
L
L
H
L
H
L
H
L
H
COSC (Note 5)
CT
H
L
L
H
H
L
OUT1
OUT2
FG
H
L
OFF
L
H
OFF
OFF
OFF
L
H
L
OFF
OFF
H
OFF
OFF
L
OFF
L
OFF
L
OFF
L
OFF
RD
Mode
Rotation (Drive)
L
Rotation (Recirculate)
OFF
Lock Protection
5. V OSC (H)>V PWM , V OSC (L)<V PWM .
AM4961A
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AM4961A
Absolute Maximum Ratings (Note 6) (@T A = +25°C, unless otherwise specified.)
Symbol
Rating
Unit
Supply Voltage
18
V
I OUT
Output Current
1.0
A
V OUT
Output Voltage
18
V
V CC
HB Output Current
10
mA
VPWM Input Voltage
6
V
V RD
RD Output Voltage
18
V
V FG
FG Output Voltage
18
V
I RD
RD Output Current
10
mA
I FG
FG Output Current
I HB
V PWM
NEW PRODUCT
Parameter
PD
Power Dissipation (Note 7)
T STG
Storage Temperature Range
ESD
ESD
ESD (Human Body Model)
ESD (Machine Model)
Notes:
10
mA
0.8
1.1
W
-55 to +150
°C
2000
250
V
V
SSOP-16
HTSSOP-14
6. Stresses greater than those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only,
and functional operation of the device at these or any other conditions beyond those indicated under “Recommended Operating Conditions” is not
implied. Exposure to “Absolute Maximum Ratings” for extended periods may affect device reliability
7. T A = +25°C, no external heatsink.
Recommended Operating Conditions
Symbol
Conditions
Min
Typ
Max
Unit
V CC
Supply Voltage
Operating
3.5
12
16
V
V IN+
Hall Input Voltage +
(Note 8)
—
0.2
—
3
V
V IN-
Hall Input Voltage -
(Note 8)
—
0.2
—
3
V
—
-30
—
+90
°C
Ambient Temperature
TA
Note:
Parameter
8. Hall input voltage range includes the amplitude of signal.
AM4961A
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AM4961A
Electrical Characteristics (@V CC =12V, T A =25°C, unless otherwise specified.)
Symbol
I Q1
NEW PRODUCT
I Q2
Parameter
Quiescent Current
Conditions
Min
Typ
Max
Lock Off
10.2
15
18.76
Lock On
5.38
8
10.55
Units
mA
V REF
VREF Voltage
I REF = 5mA
5.8
6
6.2
V
V SATH
Output Saturation Voltage at High Side
I SOURCE = 200mA
–
1.0
1.17
V
V SATL
Output Saturation Voltage at Low Side
I SINK = 200mA
–
0.2
0.3
V
COSC Frequency
kHz
C OSC = 100pF
18
25
32
V OSCH
COSC High Level Voltage
–
3.45
3.6
3.75
V
V OSCL
COSC Low Level Voltage
–
1.83
1.95
2.07
V
mV
f OSC
V HYS
Hall Input Hysteresis
V HB
Hall Bias Voltage
–
–
±10
±20
I HB = 5mA
1.1
1.25
1.4
V CTH
V
CT High Level Voltage
–
3.55
3.7
3.88
V
V CTL
CT Low Level Voltage
–
1.55
1.7
1.85
V
I CHG
CT Charge Current
–
1.5
2
2.85
µA
I DHG
CT Discharge Current
–
0.14
0.2
0.285
µA
R CD
CT Charge and Discharge Ratio
I CHG /I DHG
8.5
10
14.5
–
V FGL
FG Output Low Level Voltage
I FG = 5mA
–
0.3
0.4
V
I LFG
FG Leakage Current
V FG = 12V
–
–
30
µA
V RDL
RD Output Low Level Voltage
I RD = 5mA
–
0.3
0.4
V
I LRD
RD Leakage Current
V RD = 12V
–
–
30
µA
AM4961A
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AM4961A
Functional Descriptions
H-Bias – Hall Bias Output
This is a 1.25V nominal voltage source to bias a differential un-buffered Hall element sensor. If a Hall element requires a lower voltage than the
H-Bias output, connect an appropriate value resistor between the H-Bias pin and the Hall element supply pin.
NEW PRODUCT
H+ and H- – Hall Inputs
The rotor position is detected by a Hall sensor, with the output applied to the H+ and H-pins. This sensor can be either a 4 pin 'naked' Hall
device or of the 3 pin buffered switching type. For a 4 pin device the differential Hall output signal is connected to the H+ and H- pins. For a
buffered Hall sensor the Hall device output is attached to the H+ pin, with a pull-up attached if needed, whilst the H- pin has an external
potential divider attached to hold the pin at half Vref. When H+ is high in relation to H-, out2 is the active drive.
VREF – Output Reference Voltage
This is a 6V nominal reference output voltage. It is designed to 'source' current and therefore it will not 'sink' any current from a higher voltage.
The total current drawn from the VREF pin by any external circuitry, such as the minimum speed potential divider to VMIN pin, should not
exceed 5mA.
COSC Pin
A capacitor at the COSC pin generates a triangular waveform which is compared with VPWM (or VMIN) to generate output Pulse Width
Modulated (PWM) drive for speed control. A capacitor of 100pf capacitor connected between COSC and ground a 25 kHz triangle wave with
high level voltage is 0.3VCC typical and low level voltage of 0.16VCC typical. For 12V supply, the high and low level thresholds are 3.6V and
1.95V.
VPWM - Speed control Input
The voltage applied to the VPWM pin provides control of the motor speed by varying the PWM drive ratio at the out1 and out2 outputs. The
control signal should be a variable DC voltage input of range 3.6V to 1.95V for nominal 12V supply, representing 0% to 100% drive
respectively. If variable speed control is not required this pin can be tied to an external potential divider to set a fixed speed or tied to ground to
provide full speed i.e. 100% PWM drive. If external input PWM signal is used to control the speed, this input PWM signal needs to be converted
to a DC voltage to meet the VPWM pin input range.
VMIN – Minimum Speed Setting
A voltage can be set on this pin via a potential divider between the VREF (or Supply) and GND pins. This voltage is monitored by the VPWM
pin to clamp the VPWM control voltage so that it does not rise above VMIN voltage. As a higher voltage on the VPWM pin represents a lower
speed, the VMIN setting prevents the motor speed going lower than the minimum speed set by the VMIN pin. When the VMIN voltage is higher
than the lowest speed setting voltage allowed (The lowest speed voltage is about 0.28VCC), the fan speed is maintained at the at the lowest
speed.
CT Pin – Locked Rotor Timing Capacitor
The CT pin will have a capacitor connected to ground. It is a multi-function pin providing timing for the lock detect and auto-restart. Different
rates of charge and discharge of CT capacitor depending on the mode of operation (fan operation status) give the lock-detect time (T LCKDET )
and lock time (T OFF ) before next auto-start retry. When the motor is running, the capacitor is discharged at every Hall signal change.
CT pin provides the timing for the Locked Rotor monitor. In normal operation, Lock Detect is enabled. If the Hall signal does not change (i.e. a
rotor lock condition) within the Lock Detect time (T LCKDET ), the outputs are disabled. In this condition the motor will not be driven for a set time
T OFF . This T OFF time depends on the external CT capacitor value and its internal discharge current (I DHG ). After the T OFF period device enter
auto-restart phase to re-start the motor with a new Lock Detect time. If the motor has not turned to generate a transition on the Hall inputs by
the end this T LCKDET period, motor re-enters motor lock T OFF period with outputs disabled. If the Hall signal change is detected, the motor is
deemed as running and goes into lock-detection mode. The T LCKDET and T OFF are determined by the value of the external capacitor on the CT
pin and the internal charge and discharge currents during these time periods. The currents during, T LCKDET and T OFF are I CHG , and I DHG
respectively.
FG – Frequency Generator (Tachometer) Output
This is the Frequency Generator output and is a buffered signal from the Hall sensor. This is an open collector drive giving an active pull down
with the high level being provided by an external pull up resistor.
AM4961A
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AM4961A
Functional Descriptions
RD Pin
This is the fan locked status detector. This is an open collector drive giving an active pull down with the high level being provided by an external
pull up resistor. When fan is locked, RD pin is in off state.
Out1 and Out2 pin
NEW PRODUCT
Out1 and out2 pins provide H-bridge driver output for fan and motor coil connection.
V CC – I C Supply Voltage
This provides the supply for the device.
GND – Supply Return
This is the device supply ground return pin for control signal.
PGND –Power Supply Return
This is the device supply ground return pin for power output pin out1 and out2 will generally be the most negative supply pin to the fan.
AM4961A
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AM4961A
Performance Characteristics
20
20
VCC=12V
Rotation Mode
16
16
12
IQ1 (mA)
12
IQ1 (mA)
NEW PRODUCT
TA=25OC
Rotation Mode
8
8
4
4
0
0
-50
0
50
100
150
4
200
6
8
10
TA (OC)
12
14
16
18
VCC (V)
Quiescent Current vs. Ambient Temperature
Quiescent Current vs. Supply Voltage
2.0
2.0
VCC=12V
VCC=12V
1.5
VSATL (V)
VSATH (V)
1.5
1.0
1.0
0.5
0.5
0.0
0.0
0
200
400
600
800
0
1000
200
400
800
1000
Output Saturation Voltage (Low) vs. Output Current
1.2
1.2
1.0
1.0
0.8
0.8
PD (W)
PD (W)
Output Saturation Voltage (High) vs. Output Current
0.6
0.4
0.2
600
IOUT (mA)
IOUT (mA)
0.6
0.4
Package: SSOP-16
No External Heatsink
0.2
0.0
-20
0
20
40
60
80
90 100
0.0
120
-20
O
TA ( C)
Document number: DS36626 Rev. 1 - 2
0
20
40
60
80
90 100
O
TA ( C)
Power Dissipation vs. Ambient Temperature
AM4961A
Package: HTSSOP-14
No External Heatsink
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Power Dissipation vs. Ambient Temperature
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AM4961A
Applications Note
Typical Application Circuit for PWM input signal for speed control with AM4961A is shown below. The speed is primarily controlled by a voltage
on the VPWM pin (either from DC voltage signal or PWM inputs signal converted to DC voltage) or alternatively a PWM signal on COSC pin.
D1
NEW PRODUCT
VCC
R1
27k
C1
1µF or greater
L1
AM4961A
R2
10k
1 (1)
2 (3)
3 (4)
R4
39k
4 (5)
R6 330k
PWM
R3 7.5k
Q1
5 (6)
OUT2
OUT1
VCC
GND
VMIN
CT
VPWM
14 (15)
13 (14)
12 (13)
VREF
11 (12)
HIN-
10 (11)
COSC
6 (7)
FG
7 (8)
RD PGND HIN+
HB
9 (10)
Hall
8 (9)
C4
0.47µF
(16)
R7
100k
C2
0.33µF
R8
R5
C3
100pF
68k
100k
Typical Application Circuit – External PWM Input Speed Control
Note:
9. C1 is for power stabilization and should be 1uF or higher depending on the motor current and motor design.
Power Supply Stabilization
The recommended operating voltage range for AM4961A is 3.5V to 16V. A decoupling capacitor C1 (which also acts as re-circulating capacitor at
commutation) should be connected close to the V CC pin. C1 is for power stabilization and should be 1µF or higher depending on the motor
current and motor design.
Hall Bias and Hall Input for Commutation Signal
The HB pin provides a 1.25V Hall bias voltage to drive Hall element. The output of the Hall elements or the Hall switches connect to Hall input H+
and H- pin as described previously in functional description section. To avoid noise, the connection to the Hall element or switch should be as
short as possible. The Hall input stage (H+ and H- pin) has a hysteresis of 20mV typical. The differential Hall input signal should be 50mV peak
or higher.
Output PWM Frequency Setting – CSOSC Capacitor
The output PWM frequency is generated by comparing VPWM or VMIN (whichever is lower) to the triangular wave on the COSC pin. See “Speed
Control and Minimum Speed Setting” figure.
The triangular wave is generated at the COSC pin when a capacitor C3 is connected between it and the ground. The triangular wave has high
level of 0.3VCC typical and low level voltage of 0.16V CC typical. For 12V nominal supply these two levels are 3.6V and 1.95V typically. The
capacitor C3 of 100pF at COSC pin provides output PWM frequency of 25kHZ typical. The C3 capacitor should be connected close to the COSC
pin.
AM4961A
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AM4961A
Applications Note (cont.)
Speed Control
M
NEW PRODUCT
The motor speed is governed by the output PWM duty of the H-Bridge.
The voltage on the VPWM, VMIN pin and COSC pin controls the output PWM duty and therefore the speed of the motor. When the VPWM
voltage is smaller than VMIN voltage, the output PWM duty is generated by comparing the triangular voltage at COSC pin with VPWM. If the
VPWM pin voltage is higher than the VMIN pin, the speed is controlled by comparing COSC voltage with VMIN voltage. When the VPWM
voltage is lower than the low side of the COSC voltage, the motor will run at full speed. See “Speed Control and Minimum Speed Setting” figure.
An input DC voltage from 3.6V to 1.9V (for 12V supply) on the VPWM pin controls the output PWM duty form 0% to 100% thus allowing speed
control from 0% to 100% of the full speed. If variable speed control is not required the pin should be tied to an external voltage through a
potential divider for a fixed speed or tied to ground for full speed (i.e. 100% output duty PWM drive). The potential divider for a fixed voltage can
be supplied by the supply voltage (as shown in typical application circuit) or by the VREF provided the maximum current drawn out form the
VREF pin is below 5mA.
For speed control based on ambient temperature, a thermistor can be used as one of the resistors in the potential divider.
If an external input PWM signal is used to control the motor speed, the input PWM signal can be converted to a DC level with transistor Q1,
resistors R1 to R and an integrating capacitor C2. See typical application circuit.
VPWM adjustable Voltage
Lowest speed setting voltage
fOSC=25kHz (COSC=100pF)
Vosc
VMIN Voltage
COSC Output
Vosc
Low Speed
PWM Variable
High Speed
VCC
0V
FG Output
Speed Control and Minimum Speed Setting
AM4961A
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AM4961A
Applications Note (cont.)
Minimum Speed Setting
NEW PRODUCT
The minimum speed setting prevents the motor speed dropping below a set speed when the speed demand is too low (i.e. VPWM voltage is
closer to 3.6V)
When the VPWM pin voltage higher than the VMIN voltage, VMIN voltage is compared to the COSC pin to generate output PWM duty.
Therefore, setting VMIN to certain fixed voltage forces the VMIN to control the speed even when the PWM voltage is higher.
The output PWM duty will be clamped to the PWM duty represented by the VMIN voltage when the speed demand is lower than the set
minimum.
If VMIN is not used or application does not need to set the minimum speed, connect the VMIN to VPWM directly. When the VMIN is connected
to the VPWM the minimum output PWM duty defaults to 10%.
Rotor Lock Detect and OFF time Setting
The capacitor C4 from CT pin to the ground provides the timing for the lock detect and auto-restart. The capacitor C4 is charges and
discharged by the CT pin at a fixed rate depending on the mode of operation (fan operation status) and therefore the value of the C4 to gives
lock-detect time (T LCKDET ) and lock time (T OFF ) before next auto-start retry.
The Am4961A returns the C4 voltage to the low threshold, V CTL (1.77V), each time the Hall sensor provides the commutation signal. C4 is
charged with I CHG which is typically 2µA. If the voltage on the C4 reaches the high threshold, V CTH (3.7V) before the next Hall signal change,
the output will be shutdown and the device will enter lock condition.
TLCKDET =
C4 (VCTH − VCTL)
ICHG
The thresholds voltage and charge current are fixed, therefore the T LCKDET time depends only on the value of C4.
For C4 of 0.47µF, T LCKDET is 0.47s
TLCKDET = C4 × 1 × 10
6
If lock detection causes device to enter output shutdown, the CT pin will discharge the C4 capacitor with I DHG provide T OFF period. The T OFF is
the time the device waits before next auto-restart. During T OFF period, the C4 is discharged for the high threshold, V CTH to low threshold V CTL
at the discharge current I DHG which is typically 0.2µA.
C4 (VCTH − VCTL)
TOFF =
IDHG
The thresholds voltage and discharge current are fixed, therefore the T OFF time depends only on the value of C4.
For CT of 0.4µs, T OFF is 4.7s before the next auto restart.
TOFF = C4 × 10 × 10
6
Thermal Shutdown
AM4961A includes a thermal shutdown function. When the device junction temperature is higher than 176 ºC typical, the thermal shutdown
function is triggered and the low side output transistors in H- bridge driver will be turned off. When the IC junction temperature drops below
148°C typical, the device will recover.
AM4961A
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AM4961A
Applications Note (cont.)
Status Output - FG and RD Output
The FG output pin is an open collector output which switches ON (pulled low) and OFF (pulled high with an external resistor) depending on the
magnetic phase of the motor. The external pull up resistor should be connected to the FG pin.
NEW PRODUCT
The RD output pin is also an open collector which switches ON (pulled low) while the motor rotates and switched off (pulled high with an
external resistor) when the rotor is stopped.
The FG and RD pins have series resistors of 25Ω typical integrated in the FG/RD output structure to increased robustness against reverse
supply connection of the FG an RD pins to ground. The typical value for external pull-up on FG and RD pins is 10kΩ.
Hall
VCTH
CT
VCTL
TLCKDET
TLCKDET
TOFF
RD
FG
Ordering Information
AM4961A XX XX G1
Package
Packing
RoHS/Green
GS : SSOP-16
GH : HTSSOP-14
TR : Tape & Reel
G1 : Green
Product Name
Diodes IC’s Pb-free products with "G1" suffix in the part number, are RoHS compliant and green.
Part Number
Marking ID
Packaging
AM4961AGSTR-G1
AM4961AGHTR-G1
AM4961GS-G1
AM4961GH-G1
SSOP-16
HTSSOP-14
AM4961A
Document number: DS36626 Rev. 1 - 2
12 of 17
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13” Tape and Reel
Quantity
3000/Tape & Reel
3000/Tape & Reel
October 2013
© Diodes Incorporated
A Product Line of
Diodes Incorporated
AM4961A
Package Outline Dimensions (All dimensions in mm(inch).)
(1)
Package Type: SSOP-16
3.800(0.150)
4.000(0.157)
7°
0.200(0.008)
NEW PRODUCT
0.300(0.012)
7°
0.635(0.025)
BSC
4.700(0.185)
Φ 0.800(0.031)
5.100(0.201)
0.100(0.004)
0.900(0.035)
1.000(0.039)
0.250(0.010)
1.350(0.053)
1.750(0.069)
0.400(0.016)
1.270(0.050)
5.800(0.228)
6.200(0.244)
SEE
DETAIL A
1.350(0.053)
1.550(0.061)
8°
0.150(0.006)
0°
R0.150(0.006)
0.250(0.010)
8°
0.250(0.010)
R0.150(0.006)
8°
0.650(0.026)
0.750(0.030)
0.200(0.008)
0.250(0.010)
0.020(0.001)
0.050(0.002)
Note: Eject hole, oriented hole and mold mark is optional.
AM4961A
Document number: DS36626 Rev. 1 - 2
DETAIL A
13 of 17
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October 2013
© Diodes Incorporated
A Product Line of
Diodes Incorporated
AM4961A
Package Outline Dimensions (cont.) (All dimensions in mm(inch).)
(2)
Package Type: HTSSO-14
1. 470(0. 058)
1. 570(0. 062)
NEW PRODUCT
6. 350(0. 250)
6. 550(0. 258)
Φ 1. 450(0. 057)
1. 550(0. 061)
6. 200(0. 244)
6. 600(0. 260)
4. 300(0. 169)
4. 500(0. 177)
SEE
DETAIL A
Φ 0. 750(0. 030)
0. 850(0. 033)
0.200(0.008) or 1.480(0.058)
0.280(0.011) or 1.610(0.063)
0.100(0.004)
0.190(0.007)
0. 650(0. 026)
BSC
1. 300(0. 051)
BSC
1. 200(0. 047)
MAX
0. 340(0. 013)
0. 540(0. 021)
0. 200(0. 008)
MIN
10°
14 °
R0. 090(0. 004)
MIN
BASE METAL
0.100(0.004)
0.150(0.006)
0.200(0.008) or 1.470(0.058)
0.240(0.009) or 1.570(0.062)
R0. 090(0. 004)
MIN
0. 250(0. 010)
BSC
0.050(0. 002)
0.200(0. 008)
0°
8°
0. 450(0. 018)
0. 750(0. 030)
0.900(0. 035)
1.050(0. 041)
1. 000(0. 039)
REF
DETAIL A
Note: Eject hole, oriented hole and mold mark is optional.
AM4961A
Document number: DS36626 Rev. 1 - 2
14 of 17
www.diodes.com
October 2013
© Diodes Incorporated
A Product Line of
Diodes Incorporated
AM4961A
Suggested Pad Layout
Package Type: SSOP-16
NEW PRODUCT
(1)
G
Z
Y
X
E
Dimensions
Z
(mm)/(inch)
G
(mm)/(inch)
X
(mm)/(inch)
Y
(mm)/(inch)
E
(mm)/(inch)
Value
7.400/0.291
3.400/0.134
0.400/0.016
2.000/0.079
0.635/0.025
AM4961A
Document number: DS36626 Rev. 1 - 2
15 of 17
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October 2013
© Diodes Incorporated
A Product Line of
Diodes Incorporated
AM4961A
Suggested Pad Layout (cont.)
(2)
Package Type: HTSSOP-14
NEW PRODUCT
E1
E2
X1
G
Z
Y
X
Dimensions
Value
Dimensions
Value
Z
(mm)/(inch)
G
(mm)/(inch)
X
(mm)/(inch)
X1
(mm)/(inch)
7.720/0.304
Y
(mm)/(inch)
4.160/0.164
E1
(mm)/(inch)
0.420/0.017
E2
(mm)/(inch)
1.710/0.067
1.780/0.070
1.300/0.051
0.650/0.026
–
AM4961A
Document number: DS36626 Rev. 1 - 2
16 of 17
www.diodes.com
–
October 2013
© Diodes Incorporated
A Product Line of
Diodes Incorporated
AM4961A
IMPORTANT NOTICE
NEW PRODUCT
DIODES INCORPORATED MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARDS TO THIS DOCUMENT,
INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
(AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION).
Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes
without further notice to this document and any product described herein. Diodes Incorporated does not assume any liability arising out of the
application or use of this document or any product described herein; neither does Diodes Incorporated convey any license under its patent or
trademark rights, nor the rights of others. Any Customer or user of this document or products described herein in such applications shall assume
all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on Diodes Incorporated
website, harmless against all damages.
Diodes Incorporated does not warrant or accept any liability whatsoever in respect of any products purchased through unauthorized sales
channel.
Should Customers purchase or use Diodes Incorporated products for any unintended or unauthorized application, Customers shall indemnify and
hold Diodes Incorporated and its representatives harmless against all claims, damages, expenses, and attorney fees arising out of, directly or
indirectly, any claim of personal injury or death associated with such unintended or unauthorized application.
Products described herein may be covered by one or more United States, international or foreign patents pending. Product names and markings
noted herein may also be covered by one or more United States, international or foreign trademarks.
This document is written in English but may be translated into multiple languages for reference. Only the English version of this document is the
final and determinative format released by Diodes Incorporated.
LIFE SUPPORT
Diodes Incorporated products are specifically not authorized for use as critical components in life support devices or systems without the express
written approval of the Chief Executive Officer of Diodes Incorporated. As used herein:
A. Life support devices or systems are devices or systems which:
1. are intended to implant into the body, or
2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the
labeling can be reasonably expected to result in significant injury to the user.
B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the
failure of the life support device or to affect its safety or effectiveness.
Customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support devices or systems, and
acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products and
any use of Diodes Incorporated products in such safety-critical, life support devices or systems, notwithstanding any devices- or systems-related
information or support that may be provided by Diodes Incorporated. Further, Customers must fully indemnify Diodes Incorporated and its
representatives against any damages arising out of the use of Diodes Incorporated products in such safety-critical, life support devices or
systems.
Copyright © 2013, Diodes Incorporated
www.diodes.com
AM4961A
Document number: DS36626 Rev. 1 - 2
17 of 17
www.diodes.com
October 2013
© Diodes Incorporated
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