Bulletin I27146 01/03
PIIPM50P12B004
Programmable Isolated IPM
PI-IPM Features:
Power Module:
•
•
NPT IGBTs 50A, 1200V
10us Short Circuit capability
Square RBSOA
Low Vce
(on)
(2.15Vtyp @ 50A, 25°C)
Positive Vce
(on)
temperature coefficient
Gen III HexFred Technology
Low diode V
F
(1.78Vtyp @ 50A, 25°C)
Soft reverse recovery
2mΩ sensing resistors on all phase outputs and DCbus
minus rail
T/C < 50ppm/°C
Package:
•
•
PI-IPM – Inverter (EconoPack 2 outline compatible)
Embedded driving board
•
•
•
•
•
•
•
•
•
Programmable 40 Mips DSP
Current sensing feedback from all phases
Full protection from ground and line
to line faults
UVLO, OVLO on DCbus voltage
Embedded flyback smps for floating
stages (single 15Vdc @ 300mA input required)
Asynchronous isolated 2.5Mbps serial port for
DSP communication and programming
IEEE standard 1149.1 (JTAG port interface)
for program downloading and debugging
Separated turn on / turn off outputs for
IGBTs di/dt control
Isolated serial port input with strobe signal for
quadrature encoders or SPI communication
Power Module schematic:
Three phase inverter with current sensing
resistors on all output phases
Description
The PIIPM50P12B004 is a fully integrated Intelligent Power
Module for high performances Servo Motor Driver applications.
The device core is a state of the art DSP, the
TMS320LF2406A* at 40 Mips, interfaced with a full set of
peripheral designed to handle all analog feedback and control
signals needed to correctly manage the power section of the
device.
The PI-IPM has been designed and tailored to implement
internally all functions needed to close the current loop of a
high performances servo motor driver, a basic software is
already installed in the DSP and the JTAG connector allows
the user to easily develop and download its own proprietary
algorithm.
TM
The device comes in the EMP package, fully compatible in
length, width and height with the popular EconoPack 2 outline.
PI-IPM System Block Schematic:
*Beta samples come with the TMS320LF2406 at 30Mips, please refer to TI datasheet
for further information about performances.
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1
TDi
TDi
TDi
TDo
Tck
TRS T-
PD
Tck-ret
Boot-en
EMU0
TMS
TMS
TMS
EMU1
Com
Detailed Block Diagram
LFault
ADCin04
ADCin01
ADCin02
ADCin05
ADCin05
ADCin00
ADCin03
LFault reset
GND iso
3.3V
LFault reset
Fault
Fault
Fault
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15V 15V
5V iso-3
15V 15V
5V iso-2
LFault
LFault
PIIPM50P12B004
Vin iso
5V iso
Gate
Drivers
Gate
Drivers
JTAG interface connector
Tx +
Tx-
5V
15V 15V
5V iso-1
Logic
interface
LFault
Sci Tx
Rx+
Rx-
RS422
line
driver
Opto-
isolation
SpiSOMI
17
50
22
G3
E3
G6
E6
G2
E2
G5
E5
I27146
5V
Sci Rx
TMS320LF2406A
40Mips
36 PWM3
28 PWM6
37 PWM2
21 PWM5
39 PWM1
33 PWM4
Gate
Drivers
01/03
GND iso
Opto-
isolation
SpiSIMO
Strobe
18
49
21
52
5V
Strb-hall3/SpiRx
24
57
23
55 70 92 79 77 74 69 72 89
6
Enc2-hall2/SpiSTE
SpiCK
QE_p1
Enc1-hall1/SpiCK
SpiTx
Opto-
isolation
SpiSTE
QE_p2
G1
E1
G4
E4
5V
3.3V
DC
+
LFault
Latch
Fault
DIV
DCB mon
Vin mon
OPA
1kHz
Fault
Th+
Th-
Vth
OC Comp
10kHz
SH +
SH -
1.7kHz
DC -
5V
Fault
400kHz
OPA
3.3V
ADCin00
5.5kHz
Bessel
R1 +
R1 -
Current
Sense
&
Level
Shifter
5V
Fault
5V
Lin Reg
15V
5V ref
3.3V ref
OV Comp
Fault
15V iso-1
V
in
COM
3.3V
3.3V
5V
ADCin01
400kHz
5.5kHz
Bessel
OPA
R2 +
R2 -
Current
Sense
&
Level
Shifter
5V
Fault
5V
Lin Reg
Power Supply
3.3V, 5V
15V
flyback
15V iso-1
15V iso-2
15V iso-3
ADCin02
5.5kHz
Bessel
OPA
15V iso-2
400kHz
R3 +
R3 -
Current
Sense
&
Level
Shifter
5V
Lin Reg
15V iso-3
2
PIIPM50P12B004
I27146
01/03
Signal pins on RS422 serial port
Symbol
Vin iso
GND iso
Tx+
Tx-
Rx+
Rx-
Enc1 – Hall1 / SpiCK
Enc2 – Hall2 / SpiSTE
Strb – Hall3 / SpiRx
SpiTx
Vin
COM
Lead Description
External 5V supply voltage for opto-couplers and line driver supply
Extenal 5V supply ground reference for opto-couplers and line driver supply
RS422 Trasmitter Non inverting Driver Output
RS422 Trasmitter Inverting Driver Output
RS422 Receiver Non inverting Driver Input,
RS422 Receiver Inverting Driver Input
Incremental Encoder 1 / Hall effect sensor input 1/ SpiCK input (GND iso referenced)
Incremental Encoder 2 / Hall effect sensor input 2 / SpiSTE input (GND iso referenced)
Incremental Encoder Strobe / Hall effect sensor input 3 / SpiRx input (GND iso ref.)
SpiTx output (GND iso referenced)
External 15V supply voltage. Internally referred to DC bus minus pin (DC -)
External 15V supply ground reference. This pin is directly connected to DC -
Pin number
6
7
1
2
4
3
5
9
10
8
17-18
19-20
RS422
serial
port
Signal pins on IEEE1149.1 JTAG connector
Symbol
TMS
TMS2
TDI
TDO
TCK
TRST~
EMU0
EMU1/OFF~
JTAG test mode select
JTAG test mode select 2
JTAG test data input
JTAG test data output
JTAG test clock. TCK is a 10MHz clock source from the emulation pod. This
signal can be used to drive the system test clock.
JTAG test reset
Emulation pin 0
Emulation pin 1
Presence detect.
Indicates that the emulation cable is connected and that the PI-IPM logic is
powered up. PD is tied to the DSP 3.3V supply through a 1k resistor.
JTAG test clock return. Test clock input to the emulator.
Internally short circuited to TCK.
Boot ROM enable. This pin is sampled during DSP reset, pulling it low
enables DSP boot ROM (Flash versions only). 47k internal pull up.
External 15V supply ground reference. This pin is directly connected to DC -
Lead Description
State
Input
Input
Input
Output
Input
Input
I/O
I/O
11
9-10
7-8
1
Output
16
Output
Input
N/A
17
20
IEEE1149.1
JTAG
Pin number
12
5-6
14
13
15
PD
TCK_RET
Boot-En
COM
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PIIPM50P12B004
I27146
01/03
Following pins are intended for signal communication between driving board and
power module only, though here described for completeness, they are on purpose
not available to the user.
Symbol
DC +
DC -
Th +
Th -
Sh +
Sh -
G1/2/3
E1/2/3
R1/2/3 +
R1/2/3 -
G4/5/6
E4/5/6
DC Bus plus input signal
DC Bus minus input signal (internally connected to COM)
Thermal sensor positive input
Thermal sensor negative input (internally connected to COM)
DC Bus minus series shunt positive input (Kelvin point)
DC Bus minus series shunt negative input (Kelvin point)
Gate connections for high side IGBTs
Emitter connections for high side IGBTs (Kelvin points)
Output current sensing resistor positive input (IGBTs emitters 1/2/3 side, Kelvin points)
Output current sensing resistor negative input (Motor side, Kelvin points)
Gate connections for low side IGBTs
Emitter connections for low side IGBTs (Kelvin points)
Lateral connectors
on embedded
driving board
Lead Description
Pin number
Power Module Frame Pins Mapping
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PIIPM50P12B004
I27146
01/03
Absolute Maximum Ratings (T
C
=25ºC)
Absolute Maximum Ratings indicate sustained limits beyond which damage to the device may occur.
All voltage parameters are absolute voltages referenced to V
DC-
, all currents are defined positive into any lead.
Thermal Resistance and Power Dissipation ratings are measured at still air conditions.
Symbol
V
DC
V
CES
I
C @ 100C
I
C @ 25C
I
CM
Inverter
I
F @ 100C
I
F @ 25C
I
FM
V
GE
P
D @ 25°C
P
D @ 100°C
V
in
V
in-iso
Embedded
Driving
Board
Rx
T
A—EDB
T
STG-EDB
V
ISO-CONT
RS232
V
ISO-TEMP
RS232
MT
Power
Module
T
J
T
STG
Vc-iso
DC Bus Voltage
Collector Emitter Voltage
IGBTs continuous collector current (T
C
= 100 ºC)
IGBTs continuous collector current (T
C
= 25 ºC)
Pulsed Collector Current (Fig. 3, Fig. CT.5)
Diode Continuous Forward Current (T
C
= 100 ºC)
Diode Continuous Forward Current (T
C
= 25 ºC)
Diode Maximum Forward Current
Gate to Emitter Voltage
Power Dissipation (One transistor)
Power Dissipation (One transistor, T
C
= 100 ºC)
Non isolated supply voltage (DC- referenced)
Isolated supply voltage (GND iso referenced)
RS422 Receiver input voltage (GND iso referenced)
Operating Ambient Temperature Range
Board Storage Temperature Range
Input-Output Continuous Withstand Voltage (RH
≤
50%, -40°C
≤
T
A
≤
85°C )
Input-Output Momentary Withstand Voltage (RH
≤
50%, t = 1 min, T
A
= 25°C)
Mounting Torque
Operating Junction Temperature
Storage Temperature Range
Isolation Voltage to Base Copper Plate
-40
-40
-2500
AC
DC
RMS
-20
-5
-7
-20
-40
800
1000
2500
3.5
+150
+125
+2500
-20
Parameter Definition
Min.
0
0
Max.
1000
1200
50
100
200
50
100
200
+20
330
130
20
5.5
12
+60
+125
ºC
V
V
V
Nm
ºC
V
V
W
V
A
Units
V
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