Mitsubishi Electric PSS**S72FT Manual page 9

<Dual-In-Line Package Intelligent Power Module>
1200V Mini DIPIPM with BSD Series APPLICATION NOTE
Table 2-1-4 shows the typical control part characteristics of PSS20S71F6.
Table 2-1-4 Control (Protection) characteristics of PSS20S71F6
CONTROL (PROTECTION) PART
Symbol Parameter
I
D
Circuit current
I
DB
V Short circuit trip level
SC(ref)
UV
P-side Control supply
DBt
under-voltage protection(UV)
UV
DBr
UV
N-side Control supply
Dt
under-voltage protection(UV)
UV
Dr
V Temperature output
OT
V
FOH
Fault output voltage
V
FOL
t Fault output pulse width
FO
I Input current
IN
V ON threshold voltage
th(on)
V OFF threshold voltage
th(off)
V Bootstrap Di forward voltage
F
Built-in limiting resistance
R
Note 1 : SC protection works only for N-side IGBT. Please select the external shunt resistance such that the SC trip-level is less than 2 times of the current rating.
Note 2 : DIPIPM don't shutdown IGBTs and output fault signal automatically when temperature rises excessively. When temperature exceeds the protective level that
user defined, controller (MCU) should stop the DIPIPM.
3 : Fault signal Fo outputs when SC or UV protection works. Fo pulse width is different for each protection modes. At SC failure, Fo pulse width is a fixed width
which is specified by the capacitor connected to C
state. (But minimum Fo pulse width is the specified time by C
Recommended operating conditions of PSS10S72FT are given in Table 2-1-5. It is highly recommended to
operate the modules within these conditions so as to ensure DIPIPM safe operation.
Table 2-1-5 Recommended operating conditions of PSS10S72FT
RECOMMENDED OPERATION CONDITIONS
Symbol
V Supply voltage
CC
V Control supply voltage
D
V Control supply voltage
DB
∆V , ∆V Control supply variation
D DB
t Arm shoot-through blocking time
dead
f PWM input frequency
PWM
I Allowable r.m.s. current
O
PWIN(on)
Minimum input pulse width
PWIN(off)
V V variation
NC NC
T Junction temperature
j
Note 1: Allowable r.m.s. current depends on the actual application conditions.
2: DIPIPM might not make response if the input signal pulse width is less than PWIN(on)
3: IPM might make delayed response or no response for the input signal with off pulse width less than PWIN(off). Please refer below about delayed response.
Delayed Response Against Shorter Input Off Signal Than PWIN(off) (P-side only)
Publication Date: September 2015
(T = 25°C, unless otherwise noted)
j
Total of V -V
P1 NC
Each part of V
V - V , V
VFB VFS WFB
V = 15V
D
T ≤125°C
j
Pull down R=5kΩ
V = 0V, F terminal pulled up to 5V by 10kΩ
SC O
V = 1V, I = 1mA
SC FO
C =22nF
FO
V = 5V
IN
Applied between U
I =10mA including voltage drop by limiting resistor
F
Included in bootstrap Di
terminal. (
FO
Parameter
Applied between P-NU, NV, NW
Applied between V
Applied between V
For each input signal
T ≤ 100°C, T
C
V = 600V, V
CC
Sinusoidal PWM
T ≤ 100°C, T
C
200VV
13.5VV
13.0VV
-20CTc100C,
N-line wiring inductance
less than 10nH
Between V
Condition
V =15V, V =0V
D IN
, V -V
N1 NC
V =15V, V =5V
D IN
V =V =15V, V
- V ,
D DB
UFB UFS
- V
V =V =15V, V
WFS
D DB
Trip level
Reset level
Trip level
Reset level
LVIC Temperature=85C
(Note 2)
, V , W , U , V , W -V
P P P N N N NC
-6
C =9.1 x 10 x t [F]) , but at UV failure, Fo outputs continuously until recovering from UV
FO FO
.)
FO
Condition
-V , V -V
P1 NC N1 NC
-V , V -V , V
UFB UFS VFB VFS
≤ 125°C
j
= 15V, P.F = 0.8,
D
≤ 125°C
(Note1)
j
350V,
Below rated current
CC
16.5V,
D
18.5V,
DB
Between rated current
and 1.7 times of rated
current
（Note 3）
-NU, NV, NW (including surge)
NC
9
Limits
Min. Typ.
- -
- -
=0V - -
IN
=5V - -
IN
0.45 0.48
(Note 1)
10.0 -
10.5 -
10.3 -
10.8 -
2.51 2.64
4.9 -
- -
1.6 2.4
(Note 3)
0.70 1.00
- -
0.8 -
0.5 0.9
16 20
Limits
Min. Typ.
350 600
13.5 15.0
13.0 15.0
-V
WFB WFS
-1 -
3.0 -
- -
- -
f = 5kHz
PWM
- -
f = 15kHz
PWM
2.0 -
(Note 2)
2.5 -
2.9 -
-5.0 -
-20 -
Unit
Max.
6.00
6.00
mA
0.55
0.55
0.51 V
12.0 V
12.5 V
12.5 V
13.0 V
2.76 V
- V
0.95 V
- ms
1.50 mA
3.5
V
-
1.3 V
24 Ω
Unit
Max.
800
V
16.5
V
18.5
V
+1 V/μs
-
μs
20
kHz
5.3
Arms
3.6
-
-
μs
-
+5.0
V
+125
°C