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PS21564

TRANSFER-MOLD TYPE INSULATED TYPE

Mitsumi 

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

PS21564

TRANSFER-MOLD TYPE

INSULATED TYPE

Fig. 2 INTERNAL FUNCTIONS BLOCK DIAGRAM (TYPICAL APPLICATION EXAMPLE)

C1 : Tight tolerance, temp-compensated electrolytic type

(Note : The capacitance value depends on the PWM control

scheme used in the applied system).

C2 : 0.22~2µF R-category ceramic capacitor for noise filtering.

Inrush current

limiter circuit

High-side input (PWM)

(5V line) (Note 1,2)

Input signal Input signal Input signal

conditioning conditioning conditioning

Level shifter Level shifter Level shifter

Protection

circuit (UV)

Protection

circuit (UV)

Protection

circuit (UV)

Drive circuit Drive circuit Drive circuit

P

C2

C1

(Note 6)

DIP-IPM

AC line input

H-side IGBTS

U

(Note 4)

V

M

W

C

Z

Fig. 3

N1 N

AC line output

VNC

CIN

L-side IGBTS

Z : ZNR (Surge absorber)

C : AC filter (Ceramic capacitor 2.2~6.5nF)

(Note : Additionally, an appropriate line-to line

surge absorber circuit may become necessary

depending on the application environment).

Input signal conditioning

Fo logic

Drive circuit

Protection

circuit

Control supply

Under-Voltage

protection

Note1:

2:

3:

4:

5:

6:

Low-side input (PWM)

FO CFO

(5V line) (Note 1, 2) Fault output (5V line)

(Note 3, 5)

VNC

VD

(15V line)

Input logic is high-active. There is a 2.5kΩ (min) pull-down resistor built-in each input circuit. When using an external CR filter, please make it satisfy the

input threshold voltage.

By virtue of integrating an application specific type HVIC inside the module, direct coupling to CPU terminals without any opto-coupler or transformer

isolation is possible. (see also Fig. 8)

This output is open collector type. The signal line should be pulled up to the positive side of the 5V power supply with approximately 10kΩ resistance.

(see also Fig. 8)

The wiring between the power DC link capacitor and the PN1 terminals should be as short as possible to protect the DIP-IPM against catastrophic high

surge voltages. For extra precaution, a small film type snubber capacitor (0.1~0.22µF, high voltage type) is recommended to be mounted close to

these PN1 DC power input pins.

Fo output pulse width should be decided by putting external capacitor between CFO and VNC terminals. (Example : CFO=22nF → tFO=1.8ms (Typ.))

High voltage (600V or more) and fast recovery type (less than 100ns) diodes should be used in the bootstrap circuit.

Fig. 3 EXTERNAL PART OF THE DIP-IPM PROTECTION CIRCUIT

DIP-IPM

P

Drive circuit

External protection circuit

H-side IGBTS

L-side IGBTS

Short Circuit Protective Function (SC) :

SC protection is achieved by sensing the L-side DC-Bus current (through the external

shunt resistor) after allowing a suitable filtering time (defined by the RC circuit).

When the sensed shunt voltage exceeds the SC trip-level, all the L-side IGBTs are turned

OFF and a fault signal (Fo) is output. Since the SC fault may be repetitive, it is

recommended to stop the system when the Fo signal is received and check the fault.

IC (A)

SC Protection

U

Trip Level

V

W

N1

Shunt Resistor

AN

(Note 1)

CR

VNC

Drive circuit

CIN

B

Protection circuit

C

(Note 2)

0

Note1: In the recommended external protection circuit, please select the RC time constant in the range 1.5~2.0µs.

2: To prevent erroneous protection operation, the wiring of A, B, C should be as short as possible.

Collector current

waveform

2

tw (µs)

Jul. 2003

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