C&H Technology PS21267-AP User Manual

6121 Baker Road,
Suite 108
Minnetonka, MN 55345

www.chtechnology.com

Phone (952) 933-6190

Fax (952) 933-6223

1-800-274-4284

Thank you for downloading this document from C&H Technology, Inc.

Please contact the C&H Technology team for the following questions -

Technical

Application

Assembly

Availability

Pricing

Phone – 1-800-274-4284

E-Mail – sales@chtechnology.com

www.chtechnology.com - SPECIALISTS IN POWER ELECTRONIC COMPONENTS AND ASSEMBLIES - www.chtechnology.com

PS21267-P

6 VP1

5 VP

26 N

U

N

19

24 V

23 U

22 P

21 W

N

25 W

20 V

N

7 VVFB

9 WP

11 V PC

10 VP1

12 VWFB

3 VUFB

2 VP1

1 UP

4 VUFS

8 VVFS

16 CIN

15 VNC

17 CFO
18 FO

13 VWFS
14 VN1

TERMINAL CODE

A

H

E

GGG F

J

C

B K

M

L

N

Q

P

R

W

D

S

Y

AC

Z

Y

Z

AF
AG

AF

AF

AH

AH

AH

AA

AA

AB

AD

AE

AD

AE

AB

X

T

U

V

HEATSINK SIDE

HEATSINK SIDE

2625242322

212019181716151413121110987654321

DETAIL "C"

All outer lead terminals are with Pb-free solder plating.

DETAIL "D"

DETAIL "B"

DETAIL "B"

DETAIL "A"

DETAIL

"A"

DETAIL "C"

(5 PINS, t = 0.7)

DETAIL "D"

(21 PINS, t = 0.7)

PS21267-AP

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272
www.pwrx.com

Intellimod™ Module

Dual-In-Line Intelligent
Power Module
30 Amperes/600 Volts

Description:

DIP-IPMs are intelligent power
modules that integrate power
devices, drivers, and protection
circuitry in an ultra compact
dual-in-line transfer-mold package
for use in driving small three
phase motors. Use of 5th gen­eration CSTBT Chip Technology,
DIP packaging, and application

Outline Drawing and Circuit Diagram

Dimensions Inches Millimeters

A 2.98 75.6

B 1.22±0.02 31.0±0.5

C 0.45±0.02 11.5±0.5

D 3.11±0.02 79.0±0.5

E 2.64±0.015 67.0±0.3

F 0.79±0.01 20.0±0.3

G 0.4±0.015 10.0±0.3

H 0.11±0.015 2.8±0.3

J 0.18±0.01 Dia. 4.5±0.2 Dia.

K 1.37±0.02 34.9±0.5

L 0.53±0.02 13.4±0.5

M 0.84±0.02 21.4±0.5

N 1.10±0.02 28.0±0.5

P 0.45 11.5

Q 0.33 8.5

R 0.15±0.01 3.8±0.2

Dimensions Inches Millimeters

S 2.80 71.0

T 0.62±0.02 16.0±0.5

U 0.49±0.02 12.8±0.5

V 0.31±0.02 8.0±0.5

W 0.02±0.01 0.5±0.2

X 0 ~ 5° 0 ~ 5°

Y 0.04±0.01 1.0±0.2

Z 0.03 0.7

AA 0.03±0.01 0.7±0.2

AB 0.04 1.0

AC 0.1 2.5

AD 0.02 Max. 0.5 Max.

AE 0.024±0.02 0.6±0.5

AF 0.03±0.01 0.8±0.02

AG 0.024 0.6

AH 0.02±0.01 0.45±0.02

specific HVICs allow the designer
to reduce inverter size and overall
design time.

Features:

£ Compact Packages

£ Single Power Supply

£ Integrated HVICs

£ Direct Connection to CPU

Applications:

£ Washing Machines

£ Refrigerators

£ Air Conditioners

£ Small Servo Motors

£ Small Motor Control

Ordering Information:

PS21267-P (short pin) /
PS21267-AP (long pin) are 600V,
30 Ampere DIP Intelligent Power
Modules.

108/10 Rev. 01

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 www.pwrx.com

PS21267-P / PS21267-AP
Intellimod™ Module
Dual-In-Line Intelligent Power Module

30 Amperes/600 Volts

Absolute Maximum Ratings, Tj = 25°C unless otherwise specied

Characteristics Symbol PS21267-P / PS21267-AP Units

Power Device Junction Temperature* Tj -20 to 125 °C

Module Case Operation Temperature (See TC Measurement Point Illustration) TC -20 to 100 °C

Storage Temperature T

-40 to 125 °C

stg

Mounting Torque, M4 Mounting Screws — 13 in-lb

Module Weight (Typical) — 54 Grams

Self-protection Supply Voltage Limit (Short Circuit Protection Capability)** V

Isolation Voltage, AC 1 minute, 60Hz Sinusoidal, Connection Pins to Heatsink Plate V

*The maximum junction temperature rating of the power chips integrated within the DIP-IPM is 150°C (@TC ≤ 100°C). However, to ensure safe operation of the DIP-IPM,
the average junction temperature should be limited to T
**VD = 13.5 ~ 16.5V, Inverter Part, Tj = 125°C, Non-repetitive, Less than 2µs

≤ 125°C (@TC ≤ 100°C).

j(avg)

400 Volts

CC(prot.)

2500 Volts

ISO

IGBT Inverter Sector

Collector-Emitter Voltage (TC = 25°C) V

Collector Current (TC = 25°C) ±IC 30 Amperes

Peak Collector Current (TC = 25°C, <1ms) ±ICP 60 Amperes

Supply Voltage (Applied between P - N) VCC 450 Volts

Supply Voltage, Surge (Applied between P - N) V

Collector Dissipation (TC = 25°C, per 1 Chip) PC 55.5 Watts

600 Volts

CES

CC(surge)

500 Volts

Control Sector

Supply Voltage (Applied between VP1-VPC, VN1-VNC) VD 20 Volts

Supply Voltage (Applied between V

UFB-VUFS, VVFB-VVFS

Input Voltage (Applied between UP, VP, WP-VPC, UN, VN, WN-VNC) VIN -0.5 ~ VD+0.5 Volts

Fault Output Supply Voltage (Applied between FO-VNC) VFO -0.5 ~ VD+0.5 Volts

Fault Output Current (Sink Current at FO Terminal) IFO 1 mA

Current Sensing Input Voltage (Applied between CIN-VNC) VSC -0.5 ~ VD+0.5 Volts

, V

WFB-VWFS

) VDB 20 Volts

2

08/10 Rev. 01

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 www.pwrx.com

T

T

C

T

C

HEATSINK BOUNDARY

POWER TERMINALS

CONTROL TERMINALS

PS21267-P / PS21267-AP
Intellimod™ Module
Dual-In-Line Intelligent Power Module

30 Amperes/600 Volts

Electrical and Mechanical Characteristics, Tj = 25°C unless otherwise specied

Characteristics Symbol Test Conditions Min. Typ. Max. Units

IGBT Inverter Sector

Collector-Emitter Cutoff Current I

V

Diode Forward Voltage VEC T

Collector-Emitter Saturation Voltage V

IC = 30A, Tj = 125°C, VD = VDB = 15V, VIN = 5V — 1.40 1.90 Volts

Inductive Load Switching Times ton 0.70 1.30 1.90 µs

t

t

t

t

V

CES

IC = 30A, Tj = 25°C, VD = VDB = 15V, VIN = 5V — 1.40 1.90 Volts

CE(sat)

VCC = 300V, VD = VDB = 15V, — 0.30 — µs

rr

I

C(on)

Inductive Load (Upper-Lower Arm) — 2.00 2.60 µs

off

C(off)

= 30A, Tj = 125°C, VIN = 5 ⇔ 0V, — 0.40 0.60 µs

C

= V

CE

CE

= 25°C, -IC = 30A, VIN = 0V — 1.5 2.0 Volts

j

, Tj = 25°C — — 1.0 mA

CES

= V

, Tj = 125°C — — 10 mA

CES

— 0.65 0.90 µs

TC Measurement Point

08/10 Rev. 01

3

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 www.pwrx.com

PS21267-P / PS21267-AP
Intellimod™ Module
Dual-In-Line Intelligent Power Module

30 Amperes/600 Volts

Electrical and Mechanical Characteristics, Tj = 25°C unless otherwise specied

Characteristics Symbol Test Conditions Min. Typ. Max. Units

Control Sector

Circuit Current I

D

Total of VP1-VPC, VN1-V

Total of VP1-VPC, VN1-V

V

V

V

V

Fault Output Voltage V

V

VSC = 0V, FO Circuit: 10kΩ to 5V Pull-up 4.9 — — Volts

FOH

V

FOL

Input Current IIN V

Short-Circuit Trip Level* V

Supply Circuit Undervoltage UV

Protection UV

T

SC(ref)

Trip Level, Tj ≤ 125°C 10.0 — 12.0 Volts

DBt

Reset Level, Tj ≤ 125°C 10.5 — 12.5 Volts

DBr

UVDt Trip Level, Tj ≤ 125°C 10.3 — 12.5 Volts

UVDr Reset Level, Tj ≤ 125°C 10.8 — 13.0 Volts

Fault Output Pulse Width** tFO C

ON Threshold Voltage V

OFF Threshold Voltage V

Applied between UP, VP, WP-V

th(on)

U

th(off)

VD = VDB = 15V, VIN = 5V, — — 7.00 mA

NC

VD = VDB = 15V, VIN = 0V, — — 7.00 mA

NC

= VDB = 15V, VIN = 5V, — — 0.55 mA

D

UFB-VUFS

UFB-VUFS

, V

VFB-VVFS

= VDB = 15V, VIN = 0V, — — 0.55 mA

D

, V

VFB-VVFS

= 1V, IFO = 1mA — — 0.95 Volts

SC

IN

= 20 ~ 100°C, VD = 15V 0.45 — 0.52 Volts

C

FO

, VN, WN-VNC 0.8 1.4 2.1 Volts

N

, V

WFB-VWFS

, V

WFB-VWFS

= 5V 1.0 1.5 2.00 mA

= 22nF 1.0 1.8 — ms

2.1 2.3 2.6 Volts

PC,

Thermal Characteristics

Characteristic Symbol Condition Min. Typ. Max. Units

Junction to Fin R

Thermal Resistance R

Contact Thermal Resistancw R

* Short-Circuit protection is functioning only at the lower ar ms. Please select the value of the external shunt resistor such that the SC trip level is less than 30A.
**Fault signal is asserted when the lower arm shor t circuit or control supply under-voltage protective functions operate. The fault output pulse-width tFO depends on the capacitance value
of CFO according to the following approximate equation: CFO = (12.2 x 10-6) x tFO {F} .

4

IGBT Part (Per 1/6 Module) — — 1.80 °C/W

th(j-f)Q

FWDi Part (Per 1/6 Module) — — 3.00 °C/W

th(j-f)D

Case to Fin (Per 1 Module) — — 0.067 °C/W

th(c-f)

08/10 Rev. 01

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 www.pwrx.com

PS21267-P / PS21267-AP
Intellimod™ Module
Dual-In-Line Intelligent Power Module

30 Amperes/600 Volts

Recommended Conditions for Use

Characteristic Symbol Condition Min. Typ. Max. Units

Supply Voltage VCC Applied between P-N 0 300 400 Volts

Control Supply Voltage VD Applied between VP1-VPC, VN1-VNC 13.5 15.0 16.5 Volts

V

V

Control Supply Variation ΔVD, ΔVDB — -1 — 1 Volts/μs

PWM Input Frequency f

Allowable rms Current* IO V

PF = 0.8, Sinusoidal, Tj ≤ 125°C, TC ≤ 100°C

V

PF = 0.8, Sinusoidal, Tj ≤ 125°C, Tf ≤ 100°C

Minimum Input P

Pulse Width P

Between Rated Current 13.5 ≤ VD ≤ 16.5V, 3.0 — — µs

& 1.7 Times of Rated Current 13.0 ≤ VDB ≤ 18.5V,

Between 1.7 Times of Rated -20°C ≤ TC ≤ 100°C, 3.6 — — µs

& 2.0 Times of Rated Current N-line Wiring Inductance Less Than 10nH

VNC Variation VNC Between VNC-N (Including Surge) -5.0 — 5.0 Volts

Arm Shoot-through t

Blocking Time

* The allowable rms current value depends on the actual application conditions.
**If input signal ON pulse is less than P
***The IPM may fail to respond to an ON pulse if the preceeding OFF pulse is less than P

Applied between 13.0 15.0 18.5 Volts

DB

UFB-VUFS, VVFB-VVFS

T

PWM

= 300V, VD = VDB = 15V, f

CC

= 300V, VD = VDB = 15V, f

CC

** — 0.3 — — µs

WIN(on)

WIN(off)***

≤ 100°C, Tj ≤ 125°C — — 20 kHz

C

, V

WFB-VWFS

PWM

PWM

= 5kHz, — — 19.1 Arms

= 15kHz, — — 11.6 Arms

Below Rated Current 200 ≤ VCC ≤ 350V, 1.5 — — µs

For Each Input Signal, TC < 100°C 2 — — µs

DEAD

, the device may not respond.

WIN(on)

WIN(off)

.

08/10 Rev. 01

5

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 www.pwrx.com

COLLECTOR-EMITTER

SATURATION VOLTAGE CHARACTERISTICS

(TYPICAL)

FREE-WHEEL DIODE

FORWARD CHARACTERISTICS

(TYPICAL)

COLLECTOR CURRENT, IC, (AMPERES)

SWITCHING LOSS, P

SW(on)

, (mJ/PULSE)

10

2

SWITCHING LOSS (ON) VS.

COLLECTOR CURRENT

(TYPICAL - N-SIDE)

10

1

10

-1

10

-2

10

0

COLLECTOR CURRENT, I

C

, (AMPERES)

SWITCHING LOSS, P

SW(off)

, (mJ/PULSE)

10

2

10

1

10

1

SWITCHING LOSS (OFF) VS.

COLLECTOR CURRENT

(TYPICAL - N-SIDE)

10

1

10

0

10

0

10

-1

10

-2

10

0

COLLECTOR CURRENT, I

C

, (AMPERES)

SWITCHING LOSS, P

SW(on)

, (mJ/PULSE)

SWITCHING LOSS (ON) VS.

COLLECTOR CURRENT

(TYPICAL - P-SIDE)

COLLECTOR CURRENT, IC, (AMPERES)

REVERSE RECOVERY CURRENT, I

rr

, (AMPERES)

REVERSE RECOVERY TIME, t

rr

, (ns)

10

0

10

2

10

1

COLLECTOR CURRENT, IC, (AMPERES)

REVERSE RECOVERY CHARACTERISTICS

(TYPICAL - P-SIDE)

REVERSE RECOVERY CHARACTERISTICS

(TYPICAL - P-SIDE)

10

3

10

2

10

1

REVERSE RECOVERY TIME, t

rr

, (ns)

COLLECTOR CURRENT, IC, (AMPERES)

REVERSE RECOVERY CHARACTERISTICS

(TYPICAL - N-SIDE)

COLLECTOR CURRENT, IC, (AMPERES)

REVERSE RECOVERY CURRENT, I

rr

, (AMPERES)

10

0

10

2

10

1

REVERSE RECOVERY CHARACTERISTICS

(TYPICAL - N-SIDE)

VCC = 300V
V

D

= 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

10

2

10

1

10

0

10

0

10

2

10

1

10

3

10

2

10

1

10

0

10

2

10

1

VCC = 300V
V

D

= VDB = 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

10

2

10

1

10

0

VCC = 300V
V

D

= VDB = 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

VCC = 300V
V

D

= 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

VCC = 300V
V

D

= 15V

V

IN

= 0 ⇔ 5V

P

SW(on)

= 25°C

P

SW(on)

125°C

VCC = 300V
V

D

= VDB = 15V

V

IN

= 0 ⇔ 5V

P

SW(on)

= 25°C

P

SW(on)

= 125°C

P

SW(off)

= 25°C

P

SW(off)

= 125°C

VCC = 300V
V

D

= 15V

V

IN

= 0 ⇔ 5V

10

2

10

1

10

1

10

0

10

-1

10

-2

10

0



07040 50 6010 20 30

COLLECTOR-CURRENT, IC, (AMPERES)

COLLECTOR-EMITTER

SATURATION VOLTAGE, V

CE(sat)

, (VOLTS)

VD = VDB =15V
V

IN

= 5V

Tj = 25°C
T

j

= 125°C

2.0

0.5

0

1. 5

2.5

1. 0

07040 50 6010 20 30

COLLECTOR-CURRENT, IC, (AMPERES)

EMITTER-COLLECTOR VOLTAGE, V

EC

, (VOLTS)

VIN = 0V

Tj = 25°C
T

j

= 125°C

2.0

0.5

0

1. 5

2.5

1. 0

PS21267-P / PS21267-AP
Intellimod™ Module
Dual-In-Line Intelligent Power Module

30 Amperes/600 Volts

6

08/10 Rev. 01

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 www.pwrx.com

10

0

10

2

10

2

COLLECTOR CURRENT, IC, (AMPERES)

SWITCHING TIME, t

on

, (ns)

SWITCHING TIME (ON) VS.

COLLECTOR CURRENT

(TYPICAL - N-SIDE)

10

3

10

4

10

2

SWITCHING TIME, t

on

, (ns)

SWITCHING TIME (ON) VS.

COLLECTOR CURRENT

(TYPICAL - P-SIDE)

10

3

10

4

10

2

SWITCHING TIME, t

off

, (ns)

SWITCHING TIME (OFF) VS.

COLLECTOR CURRENT

(TYPICAL - P-SIDE)

10

3

10

4

10

1

SWITCHING TIME, t

c(on)

, (ns)

SWITCHING TIME (ON) VS.

COLLECTOR CURRENT

(TYPICAL - P-SIDE)

10

2

10

3

10

1

SWITCHING TIME, t

c(off)

, (ns)

SWITCHING TIME (OFF) VS.

COLLECTOR CURRENT

(TYPICAL - P-SIDE)

10

2

10

3

10

0

10

2

10

1

10

1

10

2

COLLECTOR CURRENT, I

C

, (AMPERES)

SWITCHING TIME, t

off

, (ns)

SWITCHING TIME (OFF) VS.

COLLECTOR CURRENT

(TYPICAL - N-SIDE)

10

3

10

4

VCC = 300V
V

D

= 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

10

1

SWITCHING TIME, t

c(off)

, (ns)

SWITCHING TIME (OFF) VS.

COLLECTOR CURRENT

(TYPICAL - N-SIDE)

10

2

10

3

10

1

SWITCHING TIME, t

c(on)

, (ns)

SWITCHING TIME (ON) VS.

COLLECTOR CURRENT

(TYPICAL - N-SIDE)

10

2

10

3

SWITCHING LOSS (OFF) VS.

COLLECTOR CURRENT

(TYPICAL - P-SIDE)

COLLECTOR CURRENT, IC, (AMPERES)

SWITCHING LOSS, P

SW(off)

, (mJ/PULSE)

10

2

10

1

10

1

10

0

10

-1

10

-2

10

0

VCC = 300V
V

D

= 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

VCC = 300V
V

D

= 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

VCC = 300V
V

D

= VDB = 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

VCC = 300V
V

D

= VDB = 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

VCC = 300V
V

D

= VDB = 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

VCC = 300V
V

D

= VDB = 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

VCC = 300V
V

D

= = 15V

V

IN

= 0 ⇔ 5V

T

j

= 25°C

T

j

= 125°C

10

0

10

2

COLLECTOR CURRENT, I

C

, (AMPERES)

10

0

10

2

10

1

10

1

COLLECTOR CURRENT, I

C

, (AMPERES)

COLLECTOR CURRENT, I

C

, (AMPERES)

10

2

10

1

10

0

10

0

10

2

COLLECTOR CURRENT, I

C

, (AMPERES)

10

0

10

2

10

1

10

1

COLLECTOR CURRENT, I

C

, (AMPERES)

COLLECTOR CURRENT, I

C

, (AMPERES)

10

2

10

1

10

0

P

SW(off)

= 25°C

P

SW(off)

= 125°C

VCC = 300V
V

D

= VDB = 15V

V

IN

= 0 ⇔ 5V

PS21267-P / PS21267-AP
Intellimod™ Module
Dual-In-Line Intelligent Power Module

30 Amperes/600 Volts

08/10 Rev. 01

7

Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 www.pwrx.com

W

V

U

P

GATE DRIVE

+V

CC

LVIC

FAULT
LOGIC

INPUT SIGNAL

CONDITIONING

UV

PROT.

OVER CURRENT

PROTECTION

V

UFS

V

UFB

V

P1

U

P

V

VFS

W

P

V

WFB

V

WFS

V

N1

V

NC

C

IN

C

FO

F

O

U

N

V

N

W

N

V

P1

V

PC

V

VFB

V

P1

V

P

GATE DRIVE

UV PROT.

LEVEL SHIFT

INPUT

CONDITION

HVIC

+V

CC

GATE DRIVE

UV PROT.

LEVEL SHIFT

INPUT

CONDITION

HVIC

+V

CC

GATE DRIVE

UV PROT.

LEVEL SHIFT

INPUT

CONDITION

HVIC

+V

CC

+

+

C

2

C

2

C

1

D

1

R

1

+

C

2

C

2

C

2

C

2

C

1

D

1

R

1

+

C

2

C

1

D

1

R

1

+15V

C

3

C

4

N

R

SF

C

SF

+3.3 to +5V

C

5

C

5

C

5

R

2

R

2

R

2

C5 x 3

R2 x 3

R

3

CONTROLLER

R

SHUNT

This symbol indicates
connection to ground
plane.

MOTOR

C

7

C

6

AC LINE

+

Component Selection:

Dsgn. Ty p. Value

Description

D

1

1A, 600V Boot strap supply diode – Ultra fast recovery

C

1

10-100uF, 50V Boot strap supply reservoir – Electrolytic, long life, low Impedance, 105°C (Note 5)

C

2

0.22-2.0uF, 50V Local decoupling/High frequency noise filters – Multilayer ceramic (Note 8)

C

3

10-100uF, 50V Control power supply filter – Electrolytic, long life, low Impedance, 105°C

C

4

22nF, 50V Fault lock-out timing capacitor – Multilayer ceramic (Note 4)

C

5

100pF, 50V Optional input signal noise filter – Multilayer ceramic (Note 1)

C

6

200-2000uF, 450V Main DC bus filter capacitor – Electrolytic, long life, high ripple current, 105°C

C

7

0.1-0.22uF, 450V Surge voltage suppression capacitor – Polyester/Polypropylene film (Note 9)

C

SF

1000pF, 50V Short circuit detection filter capacitor – Multilayer Ceramic (Note 6, Note 7)

R

SF

1.8k ohm Short circuit detection filter resistor (Note 6, Note 7)

R

SHUNT

5-100 mohm Current sensing resistor - Non-inductive, temperature stable, tight tolerance (Note 10)

R

1

10 ohm Boot strap supply inrush limiting resistor (Note 5)

R

2

330 ohm Optional control input noise filter (Note 1, Note 2)

R

3

10k ohm Fault output signal pull-up resistor (Note 3)

Notes:

1) To prevent input signal oscillations minimize wiring length to controller (~2cm). Additional RC filtering (C5 etc.) may be
required. If filtering is added be careful to maintain proper dead time. See application notes for details.

2) Internal HVIC provides high voltage level shifting allowing direct connection of all six driving signals to the controller.

3) FO output is an open collector type. Pull up resistor (R3) should be adjusted to current sink capability of the module.

4) C4 sets the fault output duration and lock-out time. C4 12.2E-6 x tFO, 22nF gives ~1.8ms

5) Boot strap supply component values must be adjusted depending on the PWM frequency and technique.

6) Wiring length associated with R
SHUNT

, RSF, CSF must be minimized to avoid improper operation of the SC function.

7) RSF, CSF set short-circuit protection trip time. Recommend time constant is 1.5us-2.0us. See application notes.

8) Local decoupling/high frequency filter capacitors must be connected as close as possible to the modules pins.

9) The length of the DC link wiring between C6, C7, the DIP’s P terminal and the shunt must be minimized to prevent

excessive transient voltages. In particular C7 should be mounted as close to the DIP as possible.

10) Use high quality, tight tolorance current sensing resistor. Connect resistor as close as possible to the DIP’s

N terminal. Be careful to check for proper power rating. See application notes for calculation of resistance value.

PS21267-P / PS21267-AP
Intellimod™ Module
Dual-In-Line Intelligent Power Module

30 Amperes/600 Volts

DIP-IPM Application Circuit (Shown Pins Up)

8

08/10 Rev. 01