ETC MSK4220

ISO 9001 CERTIFIED BY DSCC
M.S.KENNEDY CORP.
75 VOLT 8 AMP MOSFET
H-BRIDGE PWM MOTOR
DRIVER/AMPLIFIER
4220
4707 Dey Road Liverpool, N.Y. 13088
(315) 701-6751
FEATURES:
Low Cost Complete H-Bridge
8 Amp Capability, 75 Volt Maximum Rating
Self-contained Smart Lowside/Highside Drive Circuitry
Internal PWM Generation, Shoot-through Protection
Isolated Case Allows Direct Heatsinking
Four Quadrant Operation, Torque Control Capability
Logic Level Disable Input
Logic Level High Side Enable Input for Special Modulation or Function
DESCRIPTION:
The MSK 4220 is a complete H-Bridge circuit to be used for DC brushed motor control or Class D switchmode
amplification. All of the drive/control circuitry for the lowside and highside switches are internal to the circuit. The
PWM circuitry is internal as well, leaving the user to only provide an analog signal for the motor speed/direction, or
audio signal for switchmode audio amplification. The MSK 4220 is constructed on a space efficient ceramic coated
insulated metal substrate that can be directly connected to a heatsink.
EQUIVALENT SCHEMATIC
PIN-OUT INFORMATION
TYPICAL APPLICATIONS
1
2
3
4
5
6
7
8
9
1
HEN
Disable
N/C
Input
Ground
Ground
N/C
Vcc
Output A
18
17
16
15
14
13
12
11
10
Output B
Output B
Rsense B
Rsense B
V+
V+
Rsense A
Rsense A
Output A
Rev. D 6/00
ABSOLUTE MAXIMUM RATINGS
V+
VCC
IOUT
IPK
VOUT
θJC
High Voltage Supply
75V
Logic Supply
16V
Continuous Output Current
8A
Peak Output Current
14A
Output Voltage Range GND-2V min. To V+ max.
Thermal Resistance
5.3°C/W
(Output Switches)
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TST
TLD
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TC
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TJ
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ELECTRICAL SPECIFICATIONS
Parameter
-65°C to +150°C
300°C
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Storage Temperature Range
Lead Temperature Range
(10 Seconds)
Case Operating Temperature
MSK4220
Junction Temperature
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-25°C to +125°C
+150°C
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All Ratings: Tc= +25°C Unless Otherwise Specified
MSK 4220
Test Conditions 2
Units
Min.
Typ.
Max.
-
1.7
2.5
-
2.0
2.5
V
Intrinsic Diode
-
-
280
nS
Each MOSFET V+=70V
-
1.0
25
uA
40
45
50
KHz
-
20
25
mA
9
12
16
V
OUTPUT CHARACTERISTICS
VDS(ON) Voltage
Each MOSFET ID=10A
1
Instantaneous Forward Voltage 1
Each MOSFET IS=10A Intrinsic Diode 3
Reverse Recovery Time 1
Leakage Current
3
1
PWM Frequency
V
Vcc SUPPLY CHARACTERISTICS
Quiescent Bias Current
Analog Input=6VDC
Vcc Voltage Range 1
INPUT SIGNAL CHARACTERISTICS
Analog Input Voltage
1
Output A,B=50% Duty Cycle
-
6
-
V
Analog Input Voltage
Output A=100% Duty Cycle High
-
4
-
V
Analog Input Voltage
Output B=100% Duty Cycle High
-
8
-
V
Input Voltage LO
-
-
0.8
V
Input Voltage HI
2.7
-
-
V
Input Current (DISABLE=0V)
-
-
-135
uA
Input Voltage LO
-
-
0.8
V
Input Voltage HI
2.7
-
-
V
Input Current (HEN=0V)
-
-
-270
uA
Rise-Time
-
72
108
nS
Fall-Time
-
340
500
nS
Dead-Time
-
100
-
nS
LOGIC CONTROL INPUTS 1
Disable Input
HEN Input
SWITCHING CHARACTERISTICS 1
RL=100Ω
NOTES:
1
2
3
Guaranteed by design but not tested. Typical parameters are representative of actual device performance but are for reference only.
Vcc=+12V unless otherwise specified.
Measure using a 300µS pulse with a 2% Duty Cycle.
2
Rev. D 6/00
APPLICATION NOTES
MSK 4220 PIN DESCRIPTIONS
TYPICAL SYSTEM OPERATION
VCC - Is the low voltage supply for powering internal
logic and drivers for the lowside and highside MOSFETS.
The supplies for the highside drivers are derived from
this voltage.
V+ - Is the higher voltage H-bridge supply. The
MOSFETS obtain the drive current from this supply pin.
The voltage on this pin is limited by the drive IC. The
MOSFETS are rated at 100 volts. Proper by-passing to
GND with sufficient capacitance to suppress any voltage transients, and to ensure removing any drooping
during switching, should be done as close to the pins
of the module as possible.
OUTPUT A - Is the output pin for one half of the bridge.
Decreasing the input voltage causes increasing duty
cycles at this output.
OUTPUT B - Is the output pin for the other half of the
bridge. Increasing the input voltage causes increasing
duty cycles at this output.
RSENSE A - Is the connection for the bottom of the A
half bridge. This can have a sense resistor connection
to the V+ return ground for current limit sensing, or
can be connected directly to ground. The maximum
voltage on this pin is ±2 volts with respect to GND.
IN
This is a diagram of a typical application of the MSK 4220.
The design Vcc voltage is +12 volts and should have a good
low ESR bypass capacitor such as a tantalum electrolytic.
The analog input can be an analog speed control voltage from
a potentiometer, other analog circuitry or by microprocessor
and a D/A converter. This analog input gets pulled by the
current control circuitry in the proper direction to reduce the
current flow in the bridge if it gets too high. The gain of the
current control amplifier will have to be set to obtain the
proper amount of current limiting required by the system.
RSENSE B - Is the connection for the bottom of the B
half bridge. This can have a sense resistor connection
to the V+ return ground for current limit sensing, or
can be connected directly to ground. The maximum
voltage on this pin is ±2 volts with respect to GND.
GND - Is the return connection for the input logic and
Vcc.
Current sensing is done in this case by a 0.1 ohm sense
resistor to sense current from both legs of the bridge separately. It is important to make the high current traces as big
as possible to keep inductance down. The storage capacitor
connected to the V+ and the module should be large enough
to provide the high energy pulse without the voltage sagging
too far. A low ESR ceramic capacitor or large polypropylene
capacitor will be required. Mount the capacitor as close to
the module as possible. The connection between GND and
the V+ return should not be carrying any motor current. The
sense resistor signal is common mode filtered as necessary
to feed the limiting circuitry for the microprocessor. This
application will allow full four quadrant torque control for a
closed loop servo system.
INPUT - Is an analog input for controlling the PWM
pulse width of the bridge. A voltage lower than Vcc/2
will produce greater than 50% duty cycle pulses out of
OUTPUT A. A voltage higher than Vcc/2 will produce
greater than 50% duty cycle pulses out of OUTPUT B.
DISABLE - Is the connection for disabling all 4 output
switches. DISABLE high overrides all other inputs.
When taken low, everything functions normally. An
internal pullup to Vcc will keep DISABLE high if left
unconnected.
HEN - Is the connection for enabling the high side output switches. When taken low, HEN overrides other
inputs and the high side switches remain off. When
HEN is high everything functions normally. An internal
pullup to Vcc will keep HEN high if left unconnected.
A snubber network is usually required, due to the inductance in the power loop. It is important to design the snubber network to suppress any positive spikes above 75V and
negative spikes below -2V with respect to ground.
3
Rev. D 6/00
TYPICAL PERFORMANCE CURVES
4
Rev. D 6/00
MECHANICAL SPECIFICATIONS
ESD Triangle Indicates Pin 1.
TORQUE SPECIFICATION: 3 TO 5 IN/LBS.
NOTE: ALL DIMENSIONS ARE ±0.010 UNLESS OTHERWISE LABELED.
ORDERING INFORMATION
Part
Number
Screening Level
MSK4220
Industrial
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.
5
Rev. D 6/00