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DocID022471 Rev 8 15/20
STGIPS30C60 Applications information
20
5.1 Recommendations
•Input signal HIN is active high logic. A 85 kΩ (typ.) pull down resistor is built-in for each
high side input. If an external RC filter is used, for noise immunity, pay attention to the
variation of the input signal level.
•Input signal LIN is active low logic. A 720 kΩ (typ.) pull-up resistor, connected to an
internal 5 V regulator through a diode, is built-in for each low side input.
•To prevent the input signals oscillation, the wiring of each input should be as short as
possible.
•By integrating an application specific type HVIC inside the module, direct coupling to
MCU terminals without any opto- couple r is p ossible.
•Each capacitor should be located as nearby the pins of IPM as possible.
•Low inductance shunt resistors should be used for phase leg current sensing.
•Elec tr ol yt i c bu s c apacitor s sh ou l d b e mo un t ed as cl os e t o th e mo dul e b u s t erm i na ls as
possible. Additional high frequency ceramic capacitor mounted close to the module
pins will further improve performance.
•The SD/OD signal should be pulled up to 5 V / 3.3 V with an external resistor (see
Section 4: Smart shutdown function for detailed info) .
Note: For further details refer to AN3338.
Table 13. Recommended operating conditions
Symbol Parameter Conditions Value Unit
Min. Typ. Max.
V
PN
Supply Voltage Applied between P-Nu,Nv,Nw 300 400 V
V
CC
Control supply voltage Applied between V
CC
-GND 13.5 15 18 V
V
BS
High side bias voltage Applied between V
BOOTi
-OUT
i
for
i=U,V,W 13 18 V
t
dead
Blanking time to
prevent Arm-short For each input signal 1.5 µs
f
PWM
PWM input signal -40°C < T
c
< 100°C
-40°C < T
j
< 125°C 20 kHz
T
C
Case operation
temperature 100 °C