MITSUBISHI PS21965-ST Technical data

MITSUBISHI SEMICONDUCTOR <Dual-In-Line Package Intelligent Power Module>

PS21965-ST

TRANSFER-MOLD TYPE

INSULATED TYPE

PS21965-ST

INTEGRATED POWER FUNCTIONS

600V/20A low-loss CSTBTTM inverter bridge for three
phase DC-to-AC power conversion.
Open emitter type.

INTEGRATED DRIVE, PROTECTION AND SYSTEM CONTROL FUNCTIONS

• For upper-leg IGBTS : Drive circuit, High voltage high-speed level shifting, Control supply under-voltage (UV) protection.

• For lower-leg IGBTS :

Drive circuit, Control supply under-voltage protection (UV), Short circuit protection (SC), Over temperature protection (OT).

• Fault signaling : Corresponding to an SC fault (Lower-leg IGBT), a UV fault (Lower-side supply) or an OT fault (LVIC temperature).

• Input interface : 3V, 5V line (High Active).

•UL Approved : Yellow Card No. E80276

APPLICATION

AC100V~200V inverter drive for small power motor control.

Fig. 1 PACKAGE OUTLINES

QR

Code

20×1.778(=35.56 )

Type name

Lot No.

14×2.54(=35.56)

0.28

±0.2

1.778

17 1

2-R1.6

12

18

0.28

±0.2

2.54

0.5

HEAT SINK SIDE

38

35

3 MIN

±0.5

±0.3

0.5 0.5

A

16-0.5

(1)

±0.5

±0.5

24

33.7

25

8-0.6

0.5

4-C1.2

±0.5

9.5

±0.5

5.5

±0.5

29.2

±0.5

14.4

±0.5

18.9

(2.656)

(1.2)

B

0.4

±0.5

14.4

0.4

(1.2)

3.5

±0.05

1.5

(3.5)

0.8

2.5 MIN

DETAIL A DETAIL B

(3.3)

HEAT SINK SIDE

(0°~5°)

(2.756)

Dimensions in mm

TERMINAL CODE

1. (VNC)

2. VUFB

3. VVFB

4. VWFB

5. UP

6. VP

7. WP

8. VP1

9. VNC *

10. UN

11. VN

12. WN

13. VN1

14. FO

15. CIN

16. VNC *

17. NC

18. NW

19. NV

20. NU

21. W

22. V

23. U

24. P

25. NC

1.5min

*) Two VNC terminals (9 & 16 pin) are connected inside DIPIPM, please connect either one to the 15V power supply GND outside and

leave another one open.

QR Code is registered trademark of DENSO WAVE INCORPORATED in Japan and other countries.

Mar. 2009

MITSUBISHI SEMICONDUCTOR <Dual-In-Line Package Intelligent Power Module>

PS21965-ST

TRANSFER-MOLD TYPE

INSULATED TYPE

MAXIMUM RATINGS (Tj = 25°C, unless otherwise noted)
INVERTER PART

ConditionSymbol Parameter Ratings Unit

CC

V
VCC(surge)
VCES

±IC
±ICP

PC
Tj

Supply voltage
Supply voltage (surge)
Collector-emitter voltage
Each IGBT collector current
Each IGBT collector current (peak)
Collector dissipation
Junction temperature

Applied between P-NU, NV, NW

Applied between P-NU, NV, NW

C = 25°C

T
T

C = 25°C, less than 1ms
C = 25°C, per 1 chip

T

(Note 1)

450
500
600

20
40

35.7

–20~+125

Note 1 : The maximum junction temperature rating of the power chips integrated within the DIPIPM is 150°C (@ TC ≤ 100°C). However, to en-

sure safe operation of the DIPIPM, the average junction temperature should be limited to T

j(ave) ≤ 125°C (@ TC ≤ 100°C).

CONTROL (PROTECTION) PART

V

D

VDB

VIN

VFO
IFO
VSC

Parameter

Control supply voltage

Control supply voltage

Input voltage

Fault output supply voltage
Fault output current

Current sensing input voltage

ConditionSymbol

Applied between V

P1-VNC, VN1-VNC

Applied between VUFB-U, VVFB-V, VWFB-W
Applied between U

P, VP, WP, UN, VN,

W

N-VNC

Applied between FO-VNC

Sink current at FO terminal
Applied between CIN-V

NC

Ratings Unit

20

20

D+0.5

–0.5~V

–0.5~V

D+0.5

1

D+0.5

–0.5~V

V
V
V

A
A

W

°C

V

V

V

V

mA

V

TOTAL SYSTEM

Symbol Ratings Unit

CC(PROT)

V

TC
Tstg

Viso

Note 2: T

Self protection supply voltage limit
(short circuit protection capability)

Module case operation temperature

Storage temperature

Isolation voltage

C measurement point

IGBT chip position

FWD chip position

Parameter

Control terminals

11.6mm

Power terminals

D = 13.5~16.5V, Inverter part

V

j = 125°C, non-repetitive, less than 2µs

T

60Hz, Sinusoidal, 1 minute,
Between pins and heat-sink plate

3mm

Condition

C

point

T

Heat sink side

(Note 2)

400

–20~+100

–40~+125

1500

V

°C

°C

rms

V

Mar. 2009

2

MITSUBISHI SEMICONDUCTOR <Dual-In-Line Package Intelligent Power Module>

PS21965-ST

TRANSFER-MOLD TYPE

INSULATED TYPE

THERMAL RESISTANCE

ConditionSymbol Parameter

Rth(j-c)Q

Rth(j-c)F

Note 3 : Grease with good thermal conductivity should be applied evenly with about +100µm~+200µm on the contacting surface of DIPIPM and

Junction to case thermal
resistance (Note 3)

heat-sink.
The contacting thermal resistance between DIPIPM case and heat sink (R
ductivity of the applied grease. For reference, R
the thermal conductivity is 1.0W/m·k.

Inverter IGBT part (per 1/6 module)

Inverter FWD part (per 1/6 module)

th(c-f) (per 1/6 module) is about 0.3°C/W when the grease thickness is 20µm and

th(c-f)) is determined by the thickness and the thermal con-

Min.

Limits

Typ. Max.

—

—

—

—

ELECTRICAL CHARACTERISTICS (Tj = 25°C, unless otherwise noted)
INVERTER PART

Symbol Parameter

V

CE(sat)

VEC

Collector-emitter saturation
voltage

FWD forward voltage

ton
trr
tc(on)

Switching times
toff
tc(off)

ICES

Collector-emitter cut-off

current

Condition

VD = VDB = 15V

VIN = 5V

C = 20A, Tj = 25°C

I

IC = 20A, Tj = 125°C

Tj = 25°C, –IC = 20A, VIN = 0V

CC = 300V, VD = VDB = 15V

V

IC = 20A, Tj = 125°C, VIN = 0 ↔ 5V

Inductive load (upper-lower arm)

T

CE = VCES

V

j = 25°C

Tj = 125°C

Min. Typ. Max.

0.70

Limits

—

1.70

—

1.80

—

1.90

1.30

—

0.30

—

0.50

—

1.60

—

0.40

—
—

2.20

2.30

2.40

1.90

0.75

2.20

0.75
—
—

2.8

3.9

—

10

Unit

°C/W

°C/W

Unit

V

V

µs
µs
µs
µs
µs

1

mA

CONTROL (PROTECTION) PART

—
—
—
—

4.9
—

—

20
—

0.8

Limits

—
—
—
—
—
—

0.48

1.00
120

10
—
—
—
—
—

2.1

1.3

0.65

2.80

0.55

2.80

0.55

0.95

0.53

1.50
140

12.0

12.5

12.5

13.0

Symbol

I

D

VFOH
VFOL

VSC(ref)
IIN
OTt
OTrh
UVDBt
UVDBr
UVDt
UVDr
tFO
Vth(on)

Vth(off)

Vth(hys)

Parameter Condition

Circuit current

Fault output voltage

Short circuit trip level
Input current

Over temperature protection
(Note 5)

Control supply under-voltage
protection

Fault output pulse width
ON threshold voltage
OFF threshold voltage
ON/OFF threshold hysteresis

voltage

V

D = VDB = 15V
IN = 5V

V

V

D = VDB = 15V

V

IN = 0V

SC = 0V, FO terminal pull-up to 5V by 10kΩ

V

SC = 1V, IFO = 1mA

V
T

j = 25°C, VD = 15V (Note 4)
IN = 5V

V

VD = 15V,
At temperature of LVIC

Total of V

P1-VNC, VN1-VNC

VUFB-U, VVFB-V, VWFB-W
Total of V

P1-VNC, VN1-VNC

VUFB-U, VVFB-V, VWFB-W

Trip level
Trip/reset hysteresis
Trip level

T

j ≤ 125°C

Reset level
Trip level
Reset level

(Note 6)

Applied between U

P, VP, WP, UN, VN, WN-VNC

Min. Typ. Max.

0.43

0.70
100

10.0

10.5

10.3

10.8

0.35

Note 4 : Short circuit protection is functioning only for the lower-arms. Please select the external shunt resistance such that the SC trip-level is

less than 1.7 times of the current rating.

5:Over temperature protection (OT) outputs fault signal, when the LVIC temperature exceeds OT trip temperature level (OTt). In that case

if the heat sink comes off DIPIPM or fixed loosely, don’t reuse that DIPIPM. (There is a possibility that junction temperature of power chips
exceeded maximum Tj (150°C)).

6:Fault signal is asserted only corresponding to a SC, a UV or an OT failure at lower side, and the F

ure modes. For SC failure, F
whole UV or OT period, however, the minimum F

O output is with a fixed width of 20µsec(min), but for UV or OT failure, FO output continuously during the

O pulse width is 20µsec(min) for very short UV or OT period less than 20µsec.

O pulse width is different for each fail-

—

—

—

2.6
—

—

Unit

mA

V
V
V

mA

°C

V
V
V
V

µs

V
V

V

Mar. 2009

3