C&H Technology PS11011 User Manual

MITSUBISHI SEMICONDUCTOR

PS11011

FLAT-BASE TYPE

INSULATED TYPE

Jan. 2000

Supply voltage

∆

V

DH

,

∆

V

DB

V

CIN(on)

V

CIN(off)

f

PWM

t

dead

RECOMMENDED CONDITIONS

V

400 (max.)

Applied across P2-N terminals

Applied between V

DH

-GND, C

BU+

-C

BU–

, C

BV+

-C

BV–

,

C

BW+

-C

BW–

Condition

Symbol

Item

Ratings

V

CC

Unit

Min.

150

—

Trip level

Reset level

Trip level

Reset level

Trip level

Reset level

Trip level

Reset level

Filter time

Idle

Active

t

d(read)

±

I

OL

I

CL(H)

I

CL(L)

SC

OT

OTr

UV

DH

UV

DHr

OV

DH

OV

DHr

UV

DB

UV

DBr

t

dV

I

FO(H)

I

FO(L)

t

int

V

CO

V

C+

(200%)

V

C–

(200%)

|

∆

V

CO

|

V

C+

V

C–

∆

V

C

(200%)

Ic = 0A

Ic = I

OP

(200%)

Ic = –I

OP

(200%)

Input on threshold voltage

Input off threshold voltage

Input pull-up resistor

1.87

0.77

2.97

—

—

4.0

—

—

—

3.50

100

—

11.05

11.55

18.00

16.50

10.0

10.5

—

—

—

T

C

= –20

°

C ~ +100

°

C

Tj

≤

125

°

C

—

1

6.00

110

90

12.00

12.50

19.20

17.50

11.0

11.5

10

—

1

V

DH

= 15V

T

C

= –20

°

C ~ +100

°

C

(Fig. 4)

0.8
2.5

—

2

Integrated between input terminal-V

DH

T

C

≤

100

°

C, Tj

≤

125

°

C

V

DH

= 15V, T

C

= –20

°

C ~ +100

°

C

(Note 3)

Relates to corresponding input

(Except brake part) T

C

= –20

°

C ~ +100

°

C

Relates to corresponding input (Except brake part)

Condition

Symbol

Ratings

V

th(on)

V

th(off)

R

i

f

PWM

t

xx

Typ.

Max.

Unit

ELECTRICAL CHARACTERISTICS

(Tj = 25

°

C, V

DH

= 15V, V

DB

= 15V unless otherwise noted)

(Note 3) : (a) Allowable minimum input on-pulse width : This item applies to P-side circuit only.

(b) Allowable maximum input on-pulse width : This item applies to both P-side and N-side circuits excluding the brake circuit.

(Note4) : CL output : The "current limit warning (CL) operation circuit outputs warning signal whenever the arm current exceeds this limit. The

circuit is reset automatically by the next input signal and thus, it operates on a pulse-by-pulse scheme.

(Note5) : The short circuit protection works instantaneously when a high short circuit current flows through an internal IGBT rising up momen-

tarily. The protection function is, thus meant primarily to protect the ASIPM against short circuit distraction. Therefore, this function is
not recommended to be used for any system load current regulation or any over load control as this might, cause a failure due to
excessive temperature rise. Instead, the analogue current output feature or the over load warning feature (CL) should be appropri-
ately used for such current regulation or over load control operation. In other words, the PWM signals to the ASIPM should be shut
down, in principle, and not to be restarted before the junction temperature would recover to normal, as soon as a fault is feed back
from its F

O1

pin of the ASIPM indicating a short circuit situation.

Allowable input on-pulse width

Allowable input signal dead time for
blocking arm shoot-through

Input inter-lock sensing

Analogue signal linearity with
output current

Offset change area vs temperature

V

DH

= 15V, T

C

= –20

°

C ~ +100

°

C

Ic > I

OP

(200%), V

DH

= 15V

(Fig. 4)

Analogue signal output voltage limit

|V

CO

-V

C

±

(200%)|

Analogue signal over all linear variation

Analogue signal data hold accuracy

After input signal trigger point

(Fig. 8)

Analogue signal reading time

Current limit warning (CL) operation level

V

DH

=15V

Open collector output

1

2.2

—

–5

—

2.64

Open collector output

1.4
3.0

150

—

—

—

65

2.27

1.17

3.37

15

—

—

1.1

—

3

3.10

1

—

9.60

120

—

12.75

13.25

20.15

18.65

12.0

12.5

—

1

—

2.0
4.0

—
20

500

—

100

2.57

1.47

3.67

—

0.7

—

—

5

—

3.60

µ

A

mA

A

°

C

°

C

V

V

V

V

V

V

µ

s

µ

A

mA

V
V

k

Ω

kHz

µ

s

µ

s

ns

V

V

V

mV

V

V

V

%

µ

s

A

PWM input frequency

V

DH

=15V, T

C

= –20

°

C ~ +100

°

C

(Note 4)

Item

t

dead

Correspond to max. 500

µ

s data hold period

only, Ic = I

OP

(200%)

(Fig. 5)

r

CH

Short circuit over current trip level

Signal output current of
CL operation

Idle

Active

Tj = 25

°

C

(Fig. 7) (Note 5)

Supply circuit under &
over voltage protection

Over temperature protection

Fault output current

V

DH

= 15V, V

CIN

= 5V

—

mA

I

DH

Circuit current

V

DH

, V

DB

Control supply voltage

Supply voltage ripple

Input on voltage

Input off voltage

PWM Input frequency

Arm shoot-through blocking time

Using application circuit

Using application circuit

15

±

1.5

±

1 (max.)

0 ~ 0.3

4.8 ~ 5.0

2 ~ 20

2.2 (min.)

V

V/

µ

s

V

V

kHz

µ

s