20 amp, 200 volt mosfet smart power 3

MIL-PRF-38534 CERTIFIED
M.S.KENNEDY
CORP.
M.S.
KENNEDY
CORP.
20 AMP, 200 VOLT MOSFET
SMART POWER 3-PHASE
MOTOR DRIVE HYBRID
4707 Dey Road Liverpool, N.Y. 13088
4422
(315) 701-6751
FEATURES:
200V, 20 Amp Capability
Self-Contained, Smart Lowside/Highside Drive Circuitry
Under-Voltage Lockout, Internal 2μS Deadtime
Capable of Switching Frequencies to 25KHz
Non-Hermetic Isolated Case Allows Direct Heat Sinking
Case Bolt-down Design Allows Superior Heat Dissipation
DESCRIPTION:
The MSK 4422 is a 20 Amp, 3 Phase Bridge Smart Power Motor Drive Hybrid with a 200 volt rating on the
output switches. The output switches are power MOSFETs with intrinsic fast-recovery diodes for the freewheeling currents of motor drives. This new smart power motor drive hybrid is compatible with 5V CMOS or
TTL logic levels. The internal circuitry prevents simultaneous turn-on of the in-line half bridge transistors with a
built-in 2μS deadtime to prevent shoot-through. Undervoltage lockout shuts down the bridge when the supply
voltage gets to a point of incomplete turn-on of the output switches. The internal high-side boot strap power
supply derived from the +15 volt supply completely eliminates the need for 3 floating independent power supplies for the high-side drive. Current sense circuitry is provided to sense current from an external resistor to shut
down the bridge for overcurrent.
EQUIVALENT SCHEMATIC
PIN-OUT INFORMATION
TYPICAL APPLICATIONS
TYPICAL APPLICATIONSPIN-OUT INFORMATION
3 PHASE SIX STEP DC BRUSHLESS MOTOR DRIVE
OR 3 PHASE SINUSOIDAL INDUCTION MOTOR DRIVE
1
1
2
3
4
5
6
7
8
9
10
VCC
AØHIN
BØHIN
CØHIN
AØLIN
BØLIN
CØLIN
FAULT
VSS
ITRIP
20
19
18
17
16
15
14
13
12
11
AØ
AØ
V+
V+
BØ
BØ
CØ
CØ
COM
COM
Rev. E 1/11
4
ABSOLUTE MAXIMUM RATINGS
V+
VCC
IOUT
IPK
θJC
High Voltage Supply 5
Logic Supply
Continuous Output Current
Peak Output Current
Thermal Resistance
(Output Switches)
(Junction to Case @ 125°C)
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200V
18V
20A
44A
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TsT Storage Temperature Range
TLD Lead Temperature Range
(10 Seconds)
TC Case Operating Temperature
MSK 4422
TJ Junction Temperature
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2.3°C/W
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-55° to +125°C
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300°C
-40°C to +85°C
+150°C
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ELECTRICAL SPECIFICATIONS
Parameters
Test Conditions 2
Min.
MSK 4422
Typ.
Max.
UNITS
OUTPUT CHARACTERISTICS
VDS(ON) (Each Transistor)
3
Instantaneous Forward Voltage (Intrinsic Diode) 3
Reverse Recovery Time 1
ID = 20A
IS = 20A
V+ = 200V
V+ = 160V
Leakage Current
V+ = 200V
-
1.3
1.2
3
-
1.7
1.5
330
250
-
V
V
nS
μA
μA
μA
-
3
-
6
-
mA
mA
mA
2.2
400
500
0.8
600
V
V
mV
-
0.98
2.4
330
440
-
μS
μS
nS
nS
-
0.9
2.0
140
215
2
-
μS
μS
nS
nS
μS
300
-
-
nS
BIAS SUPPLY CHARACTERISTICS
VCC = 15V
(non-switching)
Quiescent Bias Current
INPUT SIGNAL CHARACTERISTICS
Positive Trigger Threshold Voltage
Negative Trigger Threshold Voltage
I. Trip Threshold Voltage
SWITCHING CHARACTERISTICS 1
VCC = 15V
VCC = 15V
VCC = 15V
V+ = 100V, VCC = 15V, I D = 20A
Upper Drive:
Turn-On Propagation Delay
Turn-Off Propagation Delay
Turn-On
Turn-Off
Lower Drive:
Turn-On Propagation Delay
Turn-Off Propagation Delay
Turn-On
Turn-Off
Dead Time 1
Minimum Pulse Width
1
NOTES:
1
2
3
4
5
Guaranteed by design but not tested. Typical parameters are representative of actual device performance but are for reference only.
VCC=+15V, ITRIP=0V, V+=200V and Tcase=25°C unless otherwise specified.
Measured using a 300μS pulse with a 2% duty cycle.
Continuous operation at or above absolute maximum ratings may adversely effect the device performance and/or life cycle.
When applying power to the device, apply the low voltage followed by the high voltage or alternatively, apply both at the same time.
Do not apply high voltage without low voltage present.
2
Rev. E 1/11
TYPICAL PERFORMANCE CURVES
3
Rev. E 1/11
APPLICATION NOTES
PROTECTION
MSK 4422 PIN DESCRIPTION
- All logic inputs use a 300nS filter. A pulse width
below this will get ignored.
VCC - Is the low voltage supply for all the internal logic
and drivers. A 0.1 μF ceramic capacitor in parallel with
a 10μF tantalum capacitor is recommended bypassing
for the VCC-VSS pins.
- VCC voltage below the cutoff level of 8.65 volts will
reset all switch outputs off and ignore subsequent
logic inputs until VCC is restored.
VSS - Is the low voltage supply return pin and the input
logic return reference. All logic input and logic output
is referenced to this pin. This pin can vary ±5V from
the COM power return pin without affecting any of the
logic functions.
- Undervoltage lockout of the internal drivers for the
high-side switches also occurs at 8.65 volts, but will
not flag with the FAULT output. This may occur if the
high-side output gets switched without switching the
low-side. The internal boot strap powersupply for the
high-side switch will sag too low for adequate switching. The boot strap supply depends on PWMing of
the low-side switches for proper operation.
AØHIN, BØHIN, CØHIN - Are low active logic inputs for
signalling the corresponding phase high-side switch to
turn on. The input levels are 5V CMOS or TTL compatible.
- Switching a low-side logic input while the corresponding phase high-side logic input is activated will turn
off both switches. The opposite condition is also true.
This is cross-conduction lockout and will occur any
time low and high-side inputs for a phase are activated at the same time.
AØLIN, BØLIN, CØLIN - Are low active inputs for signalling the corresponding phase low-side switch to turn
on. The input levels are 5V CMOS or TTL compatible.
FAULT - Is an open drain logic output pin that gets
enabled any time the VCC level goes below the cutoff
point, or an overcurrent condition occurs. Bringing VCC
back to normal levels will reset FAULT. Removing the
overcurrent condition and allowing the low-side logic
inputs to remain high(off) for 10μS will restore operation.
- A 2μS deadtime is automatically inserted between
high and low-side output switching to allow complete
turn-off of each switch so no overlap will occur.
- An overcurrent condition detected by the ITRIP pin
will shut down all output switches until the overcurrent
condition is removed and all three low-side logic inputs are held high for 10μS, then normal operation
will resume.
ITRIP - Is an analog input pin for sensing current flowing from the COM pin through a sense resistor to the
high power ground. A 0.5 volt level at this pin with
respect to VSS will signal an overcurrent condition,
enable the FAULT pin and shut down all output switching. Bringing the voltage below this point (100 mV
hysteresis) will remove the FAULT output and leaving
the low-side logic inputs simultaneously high (de-activated) for 10μS will restore normal operation.
- ITRIP has a 100nS leading edge blanking time after
switching to ignore any switching current transients.
TYPICAL OPERATION
V+ - Is the high voltage positive rail for the bridge.
Proper bypassing to VSS with sufficient capacitance
to suppress any voltage transients and to ensure removing any drooping during switching, should be done
as close to the pins on the hybrid as possible.
COM - Is the return side of the bridge. A sense resistor
can be connected between this point and VSS, which
is the high voltage negative rail. COM can float above
and below the VSS pin up to 5 volts and proper operation will be maintained. Precautions should be taken
so as to not allow this voltage to get over ±5 volts
under any conditions.
AØ, BØ, CØ - Are the pins connecting the 3 phase
bridge switch outputs.
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Rev. E 1/11
TYPICAL SYSTEM OPERATION
The MSK 4422 is designed to be used with a +100 volt high voltage bus, +15 volt low power bus and +5 volt
logic signals. Proper derating should be applied when designing the MSK 4422 into a system. High frequency layout
techniques with ground planes on a printed circuit board is the only method that should be used for circuit construction. This will prevent pulse jitter caused by excessive noise pickup on the current sense signal or the error amp
signal.
Ground planes for the low power circuitry and high power circuitry should be kept separate. The connection
between the bottom of the current sense resistor, VSS pin and the high power ground are connected at this point.
This is a critical path and high currents should not be flowing between the current sense and VSS. Inductance in this
path should be kept to a minimum. An RC filter (shown in 2 places) will filter out the current spikes and keep the
detected noise for those circuits down to a minimum.
In the system shown, two types of current limit are implemented. The first limit is a PWM pulse by pulse limit
controlled by the motor controller. A second absolute maximum limit is set up for the MSK 4422 which will completely shut off the bridge in the event that current limit is exceeded.
When controlling the motor speed by the PWM method, it is required that the low side switches be PWM pulsed
due to the bootstrap power supplies used to power the high side switch drives. The higher the PWM speed the higher
the current load on the drive supply. PWM of the low side will prevent sagging of the high side bootstrap supplies.
The logic signals coming from the typical motor controller IC are set up for driving N channel low side and P channel
high side switches directly and are usually 15 volt levels. Provision should be made for getting 5 volt logic signals to
the MSK 4422 of the correct assertion levels. Typically, the low side signals out of the controller are high active and
the high side are low active. Inverters are shown in the system schematic for the low side controller output.
5
Rev. E 1/11
MECHANICAL SPECIFICATIONS
MOUNTING TORQUE: 3-4 INCH POUNDS
WEIGHT=31.2 GRAMS TYPICAL
ESD Triangle Indicates Pin 1
All dimensions are ±0.01 inches unless otherwise specified.
CAUTION: THIS IS A NON-HERMETIC DEVICE. DO NOT EXPOSE PLASTIC HOUSING TO LIQUID
ORDERING INFORMATION
Part
Number
Screening
Level
MSK4422S
Industrial
Straight
MSK4422D
Industrial
Down
MSK4422U
Industrial
Up
MSK4422G
Industrial
Gull Wing
Lead
Configuration
M.S. Kennedy Corp.
4707 Dey Road, Liverpool, New York 13088
Phone (315) 701-6751
FAX (315) 701-6752
www.mskennedy.com
The information contained herein is believed to be accurate at the time of printing. MSK reserves the right to make
changes to its products or specifications without notice, however and assumes no liability for the use of its products.
Please visit our website for the most recent revision of this datasheet.
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Rev. E 1/11