MITSUBISHI SEMICONDUCTOR <Application Specific Intelligent Power Module>
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PS12017-A
FLAT-BASE TYPE
INSULATED TYPE
ELECTRICAL CHARACTERISTICS
(Tj = 25°C, V
DH
= 15V, V
DB
= 15V, V
DL
= 5V unless otherwise noted)
Symbol
f
PWM
t
xx
t
dead
t
int
V
CO
V
C+(200%)
V
C–(200%)
|∆V
CO
|
V
C+
V
C–
∆V
C
(200%)
r
CH
t
d(read)
I
CL(H)
I
CL(L)
±I
OL
SC
OT
OTr
UV
DB
UV
DBr
UV
DH
UV
DHr
OV
DH
OV
DHr
t
dv
I
FO(H)
I
FO(L)
Item
PWM input frequency
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
Condition
T
C
≤
100°C, Tj
≤
125°C
Note 3)
V
DH
= 15V, V
DL
= 5V, T
C
= –20°C ~ +100°C
Relates to corresponding inputs (Except brake part)
T
C
= –20°C ~ +100°C
Relates to corresponding inputs (Except brake part)
V
DH
= 15V
Ic = 0A
Ic = I
OP(200%)
Ic = –I
OP(200%)
V
DL
= 5V
T
C
= –20 ~ 100°C
(Fig.4)
Min.
—
1
4.0
—
1.87
0.77
2.97
—
(Fig. 4)
—
4.0
—
–5
—
—
—
(Note 4)
(Fig. 7), (Note 5)
20.4
33.6
100
—
10.0
10.5
11.05
11.55
18.00
16.50
—
—
—
Ratings
Typ.
—
—
—
65
2.27
1.17
3.37
15
—
—
1.1
—
3
—
1
25.5
43.0
110
90
11.0
11.5
12.00
12.50
19.20
17.50
10
—
1
Max.
15
500
—
100
2.57
1.47
3.67
—
0.7
—
—
5
—
1
—
30.5
—
120
—
12.0
12.5
12.75
13.25
20.15
18.65
—
1
—
Unit
kHz
µs
µs
ns
V
V
V
mV
V
V
V
%
µs
µA
mA
A
A
°C
°C
V
V
V
V
V
V
µs
µA
mA
Offset change area vs temperature V
DH
= 15V, V
DL
= 5V, T
C
= –20 ~ 100°C
Analogue signal output voltage limit
Analogue signal overall linear
variation
Analogue signal data hold
accuracy
Analogue signal reading time
Signal output cur-
rent of CL operation
Idle
Active
Ic > I
OP(200%)
, V
DH
= 15V,
V
DL
= 5V
|V
CO
-V
C±(200%)
|
Correspond to max. 500µs data hold period only,
Ic = I
OP(200%)
(Fig. 5)
After input signal trigger point
Open collector onput
V
DL
= 5V, V
DH
= 15V, T
C
= –20 ~ 100°C
Tj = 25°C
V
DL
= 5V, V
DH
= 15V
(Fig. 8)
CL warning operation level
Short circuit current trip level
Over tenperature
protection
Trip level
Reset level
Trip level
Reset level
Trip level
Reset level
Trip level
Reset level
Filter time
Fault output current
Idle
Active
Supply circuit
under and
over voltage
protection
T
C
= –20°C ~ +100°C
Tj
≤
125°C
Open collector output
(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.
RECOMMENDED CONDITIONS
Symbol
V
CC
V
DH
, V
DB
V
DL
Item
Supply voltage
Control supply voltage
Control supply voltage
Condition
Applied between P-N
Applied between V
DH
-GND, C
BU+
-C
BU–
, C
BV+
-C
BV–
,
C
BW+
-C
BW–
Applied between V
DL
-GND
Ratings
Min.
—
13.5
4.8
–1
—
4.8
Using application circuit
Using application circuit
2
4.0
Typ.
600
15.0
5.0
—
—
—
10
—
Max.
800
16.5
5.2
+1
0.3
—
15
—
Unit
V
V
V
V/µs
V
V
kHz
µs
Jan. 2000
∆V
DH
,
∆V
DB
,
Supply voltage ripple
∆V
DL
V
CIN(on)
Input ON voltage
V
CIN(off)
Input OFF voltage
f
PWM
t
dead
PWM Input frequency
Arm shoot-through blocking time