IRF IRMD2231Q

IRMD2231Q
International Rectifier • 233 Kansas Street, El Segundo, CA 90245
IRMD22381Q Demo Board
For 3-phase / 380V motor drives
IR22381Q Demo Board without IGBT Power Module
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IRMD22381Q
IRMD22381Q Demo Board
For 3-phase / 380V motor drives
IRMD22381Q Demo Board
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Up to 1200V DC-bus capability
Up to 25A maximum phase current
Optional on-board phase shunt resistors
IR22381Q device connected in 3-phase +
brake configuration
On-board bootstrap supply for high-side
gate drive
Full protection of phase-to-phase, DC-bus
and ground short circuit by monitoring IGBT
de-saturation
Brake IGBT de-saturation protection
Fault feedback to ground level
Trimmer programmable dead time
Anti-shoot-through management
Phase voltage feedback
Undervoltage lockout
3.3V digital input/output CMOS compatible
IR22381Q can be replaced by IR21381Q
Power Module
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Standard ECONO2-PIM IGBT module
compatible
IGBT short circuit rated up to 1200V/25A.
Easy to mount heat-sink holes
IR22381Q Demo Board
(Shown without IGBT Power Module)
Introduction
The IRMD22381Q demo board is an evaluation board for IR22381Q gate driver (see device datasheet for details).
IRMD22381Q is designed to drive 3-phase power modules with pin-out compatible to ECONO2-PIM. The board can
drive AC or Brushless motors using power modules with up to 25A output current. The board is a flexible solution for
different applications and can be customized by means reconfigurable components options. The control signals are 3.3V
CMOS compatible; three-phase shunt resistor (with sensing pins) can be placed for current loop control; power module
short circuits are managed by IR22381Q by synchronization of the IGBTs turn off. Board layout reduces the noise
coupling between high and low voltage signals.
IRMD22381Q + Power Module
Application Block Diagram
(Refer to connections section to see
the interface pins) This diagram
shows the main blocks and
connections of the demo board and
the external components necessary
in a typical motor drive application.
DCbus
AC/DC
Conveter
Low Voltage
Power Supply
IR22381Q
3-phase
half bridge
(Power
Module)
shunt
resistor
shunt
resistor
Motor
shunt
resistor
System
Control
3-phase
Current Sensor
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IRMD22381Q
Table of contents
INTRODUCTION ...............................................................................................................................................1
Table of contents............................................................................................................................................2
Parameters.....................................................................................................................................................3
The IR22381Q................................................................................................................................................3
The power module .........................................................................................................................................3
Important Notice.............................................................................................................................................3
BOARD CONNECTORS ...................................................................................................................................4
Connection with the system controller ...........................................................................................................4
FAULT logic signal .........................................................................................................................................5
DCF................................................................................................................................................................5
RT+ and RT- ..................................................................................................................................................5
VFHx and VFLx..............................................................................................................................................5
VCC supply pin ..............................................................................................................................................5
VSS ground pin (GND) ..................................................................................................................................5
5V ...................................................................................................................................................................5
Connecting the current sensors .....................................................................................................................6
High power signal connector..........................................................................................................................6
Connecting the power module .......................................................................................................................6
Test Points .....................................................................................................................................................7
TEST BENCH CONNECTION ..........................................................................................................................8
OPERATING DESCRIPTION............................................................................................................................9
Normal operating mode .................................................................................................................................9
Fault management .........................................................................................................................................9
Multilevel board solution ................................................................................................................................9
Precharge of the bootstrapped sections ........................................................................................................9
BOARD CUSTOMIZATION.............................................................................................................................10
Bootstrap circuit ...........................................................................................................................................10
Gate resistances ..........................................................................................................................................10
OTHER EXTRA COMPONENTS ....................................................................................................................11
Desat circuit .................................................................................................................................................11
Clamping Diode for Vs below ground ..........................................................................................................12
RC filter on COM pin ....................................................................................................................................13
Fast diode between gate and supply pin .....................................................................................................13
Zener diode to preserve the IGBT gate .......................................................................................................14
Optional output shunt resistor ......................................................................................................................14
Resistor on vcc ..............................................................................................................................................14
BILL OF MATERIAL .......................................................................................................................................15
SCHEMATIC LAYOUT....................................................................................................................................17
LAYOUT ..........................................................................................................................................................22
Table of figures
Figure 1: TOP image of board ...........................................................................................................................4
Figure 2: LED connection ..................................................................................................................................5
Figure 3: Test bench connection .......................................................................................................................8
Figure 7: Bootstrap circuit................................................................................................................................10
Figure 8: Desat external filter ..........................................................................................................................11
Figure 9: -Vs clamp ..........................................................................................................................................12
Figure 10: COM below ground protection........................................................................................................13
Figure 11: Collector-Gate current protection ...................................................................................................13
Figure 12: Zener clamp for IGBT gate.............................................................................................................14
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IRMD22381Q
Parameters
Values
Description, condition
Input Power
DC+
0 to 1200V
DC-
ground
VCC
15V typ
VSS
ICC
ground
25 mA (max)
DCBus voltage positive with
1200V power module
DCbus voltage negative
Low voltage power supply.
Follow IR22381Q datasheet
for supply setting
Low voltage ground
quiescent Vcc current
Output Power
Ilmax
25A @25°C
max phase dc output current
Control Inputs/Outputs
40 pin connector J1 I/Os
3.3V to 15V compatible
see “Board Connectors” section
on page 4
The IR22381Q
The IR22381Q is a high voltage, 3-phase IGBT driver best suited for AC motor drive applications. Integrated
desaturation logic provides all mode of overcurrent protection, including ground fault protection. The sensing
desaturation input is provided by active bias stage to reject noise. Soft shutdown is predominantly initiated in
the event of overcurrent followed by turn-off of all six outputs. A shutdown input is provided for a customized
shutdown function. The DT pin allows external resistor to program the deadtime. Output drivers have
separate turn on/off pins with two stage turn-on output to achieve the desired di/dt switching level of IGBT.
Voltage feedback provides accurate volt x second measurement.
For further technical information see the IR22381Q datasheet at
http://www.irf.com.
The power module
IRMD22381Q demo board is ECONO2-PIM compatible with
standard pin out.
Important Notice
IRMD22381Q demo board is supplied with a tentative Bill of Material suitable for a 1200V/10A@100C power
module. The BOM presented on page 15 provides a suggestion for the above mentioned power module.
It is strongly recommended to customize the demo board to fit the application requirements for the power
module that has been chosen.
Suggestions on passive sizing are also available in DT04-4 at http://www.irf.com.
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IRMD22381Q
BOARD CONNECTORS
P1
P2
J1
P3
Figure 1: TOP image of board
Connection with the system controller
On board there is a 40 pins connector for the control signals. The driver board uses 26 pins. The remaining
pins are for the sensing board (IRCS2277S) that can be connected on top of IRMD22381Q board.
Table 1: 40-pin connector J1
HINU/N
1
FAULT/N
5
LINV
13
VSS
VSS – RTRT+
17
19
21
LINW
25
VFHU
VFHW
VFLV
29
31
33
VCC
VCC
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3
4
5
6
7
8
9
10
11
12
13
14
15
16
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18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
2
4
6
8
LINU
5V
SD
BRIN/N
12
HINV/N
18
20
VSS
VSS
24
26
HINW/N
DCF
30
32
34
VFHV
VFLU
VFLW
38
40
VCC
VCC
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IRMD22381Q
Input logical signals HINU/N, LINU, HINV/N, LINV, HINW/N, LINW, BRIN/N, SD
These logic inputs are 5V and 3.3 V compatible CMOS I/O ports. The logic signals ending with “/N” are
active low. The board is populated with pull-up and pull-down resistors (to 5V supply) in order to keep inputs
tied to supplies when controller is still inactive. HINx/N turns on the high side IGBT while LINx the low side.
When both HINx/N and LINx of the same phase are active at the same time an internal anti-shot trough
circuit turns off the output drivers.
FAULT logic signal
This is an output, open drain, logic signal. The logic signal is active low, tied to connector VCC with a 1kΩ
pull-up resistor. It reports the power module fault (IGBT desaturation detection, latched signal) or the VCC
undervoltage (unlatched).
On board a red LED (DL2) indicates when the signal is active; Figure 2a shows the connection.
DCF
Dc plus feedback voltage (DCF pin) is connected to a resistor divider tied from DC+ to VSS (DC-) and
clamped by a 5V zener. At DC+= 330V, DCF≈1.4V.
RT+ and RTRT+ and RT-, thermistor output, are connected to the corresponding RT+, RT- pins of the power module.
Note: RT- is starred to Vss at pin 19 of the J1 connector in the IRMD22381Q PCB.
VFHx and VFLx
Voltage feedback outputs from IRMD22381Q
Note: further information about IR22381Q I/Os are described in details in IR22381Q datasheet.
VCC supply pin
This is the supply pin for all the devices. On board a green LED (DL1) indicates the supply power on; Figure
2b shows the connection.
5V
VCC
3.3k
1k
Green
Red
FAULT
VSS
(b)
(a)
Figure 2: LED connection
VSS ground pin (GND)
The board ground is connected to the power module DC- pin. The VSS pin of the connector and the devices
ground pin are star-connected to the DC- pin. DC- star connection has been chosen to reduce the noise
coupled from the floating signals.
5V
5V input supply for FAULT, VFx and inputs pull-ups.
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IRMD22381Q
Connecting the current sensors
P1, P2 and P3 are connected with the optional shunt resistors placed on the phase output nodes.
CONNECTOR P1
SHU+
(motor side)
SHU(power module side)
U
1
1
2
3
3
CONNECTOR P2
SHV+
1
(motor side)
SHV2
(power module side)
V
1
2
3
3
CONNECTOR P3
SHW+
1
(motor side)
SHW2
(power module side)
W
2
1
2
3
3
Table 2: P1, P2 and P3 connectors for Kelvin contacts to shunt signals
SHU, SHV and SHW are sense pins connected to the shunt resistors terminals.
High power signal connector
There connectors dedicated to each power signal (DC+, DC-, OUT+BRIDGE, OUT-BRIDGE, U, V, W). Each
single connector has 25 Ampere of maximum nominal dc current. DCbus traces are both on top and on other
internal layers of the PC board in order to reduce power dissipation. Connectors, DC-bus, phase and ground
wires can be soldered directly on board using the corresponding pads located under the power connectors
(to be removed).
Connecting the power module
The board is fully compatible with the ECONO2-PIM power module. The following table shows the module
pin-out.
CONNECTION POINTS BETWEEN BOARD AND MODULE
1
2
3
4
5
6
7
8
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U bridge
V bridge
W bridge
Phase U
Phase V
Phase W
BRAKE – Brake IGBT drain output
RT+ - thermistor positive pin
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IRMD22381Q
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10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
RT- - thermistor negative pin
DC-SENSE phase U, V, W - low side IGBT
emitter
VGLW - phase W - low side IGBT gate
VGLV - phase V - low side IGBT gate
VGLU - phase U - low side IGBT gate
VGBR - brake IGBT gate
VEHW - phase W - high side IGBT emitter
VGHW - phase W - high side IGBT gate
VEHV - phase V - high side IGBT emitter
VGHV - phase V - high side IGBT gate
VEHU - phase U - high side IGBT emitter
VGHU - phase U - high side IGBT gate
OUT+BRIDGE – input rectifier positive output
DC+
OUT-BRIDGE – input rectifier negative output
DC- (GND)
Table 3: High power module connection
Test Points
Test points on board provide signals that are not available at the connectors. See the following table:
ONE FOR EACH CHANNEL
(CH1 Æ U, CH2 Æ V, CH3 Æ W)
VB1,2,3
VS1,2,3
DSH1,2,3
DSL1,2,3
High side floating supply voltage
High side floating supply offset voltage
High side desat input voltage
Low side desat input voltage
OTHER
FAULT
DSB
BR
VCC
GND
COM
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Fault and Shut Down (or-wired)
Brake desat input voltage
Brake IGBT gate
Low side and logic fixed supply voltage
Device VSS
DC-SENSE – common low side emitter voltage
Table 4: Test points
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IRMD22381Q
TEST BENCH CONNECTION
IRMD22381Q does NOT provide opto isolation.
The following picture shows the recommended connections for board evaluation. Bold lines are equipotential
(DC-=Vss=gnd).
Low Voltage
supply
VCC
Vdd
High Voltage
supply
Oscilloscope
VSS
gnd
DC-
Controller
board
DC+
U
V
W
Flat cable or direct connection (preferred)
via female connector, to provide signals and
supply (Vcc=15V typ)
Figure 3: Test bench connection
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IRMD22381Q
OPERATING DESCRIPTION
Normal operating mode
In the normal operating mode when HIN/N or LIN is active the high or low side IGBT turns on respectively.
Turn on and turn off propagation delays and the propagation delay matching are specified in the IR22381Q
datasheet. Devices introduce also the deadtime which is programmable (see product datasheet for details).
Fault management
The IR22381Q is able to detect the excessive current increase by monitoring the IGBT desaturation.
The fault management procedure starts when one of the drivers senses the IGBT desaturation.
The procedure is totally managed by an integrated FAULT LOGIC block without the controller assistance.
Multilevel board solution
With the optional shunt resistor the IRMD22381Q driver board can be connected with the IRCS2277S
current sensing board through J1 and P1, P2, and P3 connectors. More information is available in
IRCS2277S demo board data sheet.
Precharge of the bootstrapped sections
High voltage gate driver outputs are supplied by bootstrap topology technique.
It’s recommended to precharge the bootstrap supplies before starting to drive the motor with the preferred
driving scheme.
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IRMD22381Q
BOARD CUSTOMIZATION
This demo board is meant to be flexible for self-customization. Place for many spare components allow
verifying functionality of the gate driver under different external configurations.
This section will go through the possible customizations of the board.
Bootstrap circuit
The high side floating supply (VBS) is provided by a bootstrap capacitor. Figure 4 shows the circuit on board.
DC+
R boot*
D boot
VCC
VB
15V
IR22381Q
(1 leg)
C boot*
C VCC
+
C boot**
VGH
R boot**
VEH
VS
phase
VSS
VGL
VEL
Figure 4: Bootstrap circuit
The following table shows the names of these components on board.
CVCC
Cboot*
Cboot**
Rboot*
Rboot**
U
V
W
C004
C101
C104
R101
R106
C004
C201
C204
R201
R206
C004
C301
C304
R301
R306
Gate resistances
The following table shows the names of gate resistances on board.
high side gate to HOP
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U
V
W
R103
R203
R303
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IRMD22381Q
high side gate to HOQ
high side gate to HON
low side gate to LOP
low side gate to LOQ
low side gate to LON
brake gate to BR
R104
R105
R108
R109
R110
R408
R204
R205
R208
R209
R210
R304
R305
R308
R309
R310
OTHER EXTRA COMPONENTS
These components are provided to make IRMD22381Q board as customizable as possible. In many cases
the use of the extra components is not necessary.
Desat circuit
The IR22381Q is able to detect the IGBT desaturation. To reject the noise on the desat pins the IR22381Q
have an internal filter of 1µsec. If this is not enough an RC filter has been placed on board (see figure 8,
RDSH, CDSH and RDSL, CDSL).
High side
desat diode
DC+
VB
BIAS
VCC
VGH
15V
C VCC
VEH
C DSH
VS
Low side
desat diode
Vcc
phase
R DSL
BIAS
IR22381Q
(1 leg)
DSH
DSL
VSS
C DSL
VGL
COM
VEL
Figure 5: Desat external filter
External C filter (R is provided internally~100Kohm) delays desaturation detection, that causes a delay in
turning the IGBT off. Consider this delay when sizing the soft-shut-down resistors.
The following table shows the names of these components on board.
CDSH
CDSL
CDSB
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U
V
W
C102
C103
C403
C202
C203
C302
C303
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IRMD22381Q
Clamping Diode for Vs below ground
This solution preserves the device when the VS pin goes below ground out of the device absolute maximum
ratings. The VS voltage is clamped to the maximum value allowed by a zener diode.
DC+
R boot*
VCC
D boot
VB
15V
IR22381Q
(1 leg)
C boot*
C VCC
+
C boot**
VGH
R boot**
VEH
VS
phase
VSS
Clamping
structure with
zener diode
VGL
VEL
Figure 6: -Vs clamp
The following table shows the names of these components on board.
DIODE
ZENER
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U
V
W
D104
Z102
D204
Z202
D304
Z302
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IRMD22381Q
RC filter on COM pin
An RC filter (RCOM, CCOM) is provided to preserve the IC device from low side IGBT emitter undervoltage
spikes.
CCOM
Vcc
CVcc
RGOFF
ON
COM
Vss
GATE DRIVER
RCOM
Figure 7: COM below ground protection
The following table shows the names of these components on board.
U, V, W
CCOM
RCOM
C101
R006
Fast diode between gate and supply pin
On all low and high side drivers a fast diode is provided to clamp the gate coming over the VCC or VB supply
pins and to recover the current coming from the collector node through the gate-collector capacitance.
DC+
DG
DH
VOUT
VCC
RONp
DPn
RGATE
QL
VG
VE
Figure 8: Collector-Gate current protection
The following table shows the names of these components on board.
U
V
(high side) DG
(low side) DG
(brake) DG
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D103
D105
D405
D203
D205
W
D303
D305
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IRMD22381Q
Zener diode to preserve the IGBT gate
To avoid a VGE increasing over the absolute maximum rating a zener diode is connected between gate and
emitter pins on all the IGBTs.
DC+
GATE DRIVER
VCC
high side
driver
VS
Rboot
VOUT
LOAD
low
voltage
supply
VSS
QL
low side
driver
RCOM
DL
COM
GND
Figure 9: Zener clamp for IGBT gate
The following table shows the names of these components on board.
(high side) ZENER
(low side) ZENER
(brake) ZENER
U
V
W
Z101
Z103
Z403
Z201
Z203
Z301
Z303
Optional output shunt resistor
Two type of output shunt resistor, for current sensor, are possible see the following table:
U
TO220 or
R111
R111A
R111B
OARS-1
V
//
W
R211
R211A
R211B
//
R311
R311A
R311B
//
The OARS-1 type (A and B) are connected in parallel.
Resistor on vcc
Provided to decouple VCC from supply line.
U, V, W
Vcc decoupling
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R001
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IRMD22381Q
BILL OF MATERIAL
The hereafter provided BOMs represent a suggestion based on the IGBT characteristics shown below.
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IRMD22381Q
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IRMD22381Q
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IRMD22381Q
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IRMD22381Q
LAYOUT
TOP SILK
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IRMD22381Q
TOP LAYER
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IRMD22381Q
INT1 LAYER
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IRMD22381Q
INT2 LAYER
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IRMD22381Q
BOT LAYER
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IRMD22381Q
BOT SILK
WORLD HEADQUARTERS: 233 Kansas Street, El Segundo, California 90245 Tel: (310) 252-7105
http://www.irf.com/ Data and specifications subject to change without notice. 5/26/2005
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