mc33154p Freescale Semiconductor, Inc, mc33154p Datasheet - Page 8
mc33154p
Manufacturer Part Number
mc33154p
Description
Single Igbt High Current Gate Driver
Manufacturer
Freescale Semiconductor, Inc
Datasheet
1.MC33154P.pdf
(12 pages)
GATE DRIVE
Controlling Switching Times
optimization of the switching characteristics. Switching
characteristics are especially important in motor control
applications in which PWM transistors are used in a bridge
configuration. In these applications, the gate drive circuit
components should be selected to optimize turn–on, turn–off,
and off–state impedance.
turn–off and shown in Figure 26. However, the resistor value
selected must be a compromise in turn–on abruptness and
turn–off losses. Using a single resistor is normally suitable
only for very low frequency PWM.
This circuit allows turn–on and turn–off to be optimized
separately.
turn–on speed. In motor control circuits, the resistor sets the
turn–on di/dt that controls how fast the free–wheel diode is
cleared. The interaction of the IGBT and freewheeling diode
determines the turn–on dv/dt.
half–bridge circuits.
ensures that the IGBT remains off under commutation
stresses. Turn–off is critical to obtain low switching losses.
8
The most important design aspect of an IGBT gate drive is
A single resistor may be used to control both turn–on and
The turn–on resistor R on provides control over the IGBT
Excessive turn–on dv/dt is a common problem in
The turn–off resistor R off controls the turn–off speed and
An optimized gate drive output stage is shown in Figure 27.
Figure 26. Using a Single Gate Resistor
Figure 27. Using Separate Resistors
for Turn–On and Turn–Off
V EE
V EE
V CC
V CC
5
2
Output
Kelvin Gnd
5
2
Output
Kelvin Gnd
D off
R g
R on
R off
IGBT
OPERATING DESCRIPTION
IGBT
MC33154
While IGBTs exhibit a fixed minimum loss due to minority
carrier recombination, a slow gate drive will dominate the
turn–off losses. This is particularly true for fast IGBTs. It is
also possible to turn–off an IGBT too fast. Excessive turn–off
speed will result in large overshoot voltages. Normally the
turn–off resistor is a small fraction of the turn–on resistor.
stage is capable of sourcing 4.0 amps and sinking 2.0 amps
peak. The output stage also contains a pull down resistor to
ensure that the IGBT is off when the gate drive power is not
applied.
configuration. Thus, at least one device is always off. While
the IGBT is in the off–state it will be subjected to changes in
voltage caused by the other devices. This is particularly a
problem when the opposite transistor turns on.
diode, the turn–on dv/dt of the lower device appears across
the collector emitter of the upper device. To eliminate
shoot–through currents it is necessary to provide a low sink
impedance to the device in the off–state. Fortunately, the
turn–off resistor can be made small enough to hold off the
device under commutation without causing excessively fast
turn–off speeds.
off–state. This is a practice carried over from bipolar
Darlington drives. A negative bias is generally not required
for IGBTs. However, a negative bias will reduce the possibility
of shoot–through. The MC33154 has separate pins for V EE
and Kelvin Gnd. This permits operation using a +15/–5 volt
supply.
INTERFACING WITH OPTOISOLATORS
Isolated Input
input. The optoisolator can be used to provide level shifting
and if desired, isolation from AC line voltages. An optoisolator
with a very high dv/dt capability should be used, such as the
Hewlett–Packard HCPL0453. The IGBT gate turn–on
resistor should be set large enough to ensure that the opto’s
dv/dt capability is not exceeded. Like most optoisolators, the
HCPL0453 has an active low open–collector output. Thus,
when the LED is ON, the output will be low. The MC33154
has a non–inverting input pin to interface directly with an
optoisolator using a pull up resistor.
Optoisolator Output Fault
output may be easily interfaced to an optoisolator. While it is
important that all faults are properly reported, it is equally
important that no false signals are propagated. Again a high
dv/dt optoisolator should be used.
of 10 to 20 mA when on and provides a low impedance path
when off.
The MC33154 has a bipolar totem pole output. The output
In a PWM inverter, IGBTs are used in a half–bridge
When the lower device is turned on clearing the upper
Sometimes a negative bias voltage is used in the
The MC33154 may be used with an optically isolated
The MC33154 has an active high fault output. The fault
The LED drive provides a resistor programmable current
MOTOROLA ANALOG IC DEVICE DATA
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