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2

Once inspection is done, the evaluation board can be powered up in five simple steps. Figure 2 shows you how to test 

the top or the bottom half-bridge inverter arms in simulation mode without the need for an actual power MOSFET.

Testing both arms of the half-bridge inverter driver (without a power MOSFET)

1.  Solder a 10 nF capacitor across the gate and emitter terminals of Q1 or Q2. This is to simulate actual gate capacitance 

of a power MOSFET.

2.  Connect a +5 V DC supply (DC supply 1) across the +5V and GND terminals of CON1.
3.  Connect another DC supply (DC Supply 2 with voltage range from 12 V ~ 20 V) across V

CC2

 (pin 7 of IC2) and V

EE

 (pin 

5 of IC2) terminals of IC2a, respectively.  This can be non-isolated for testing purposes.

4.  Connect drive signals:

a.  A 10 kHz 5 V DC pulse (at slightly < 50% duty) from a dual-output signal generator across IN1+ and IN1- pins of 

CON1a to simulate microcontroller output to drive the lower arm of the half-bridge Inverter.

b.  Another 10 kHz 5V DC pulse (at 180

°

 out of phase to the signal in 4a) from the dual-output signal generator across 

IN2+ and IN2- pins of CON1b to simulate microcontroller output to drive the upper arm of the half-bridge inverter.

5.  Use a multi-channel digital oscilloscope to capture the waveforms at the following points:

a.  LED signal at the IN1+ pin with reference to (w.r.t.) GND.
b.  LED signal at the IN2+ pin w.r.t. GND.

  Note: The V

CC2b

 supply of voltage close to V

CC2a

 should then be successfully generated through the built-in bootstrap  

components D3b and R6.

c. V

Ga

 representing the output voltage of ACPL-P346/W346 (IC1a) at the gate pin of Q1a (or Q2a) w.r.t. V

Ea

.

d. V

Gb

 (through an isolated probe) representing the output voltage of ACPL-P346/W346 (IC1b) at the gate pin of Q1b 

(or Q2b) w.r.t. V

EB

.

10nF

In1+

In1-

Signal Input

+5V

Gnd

DC Supply 1

12~20 V

+

-

10nF

V

CC2b

+

-

In2+

In2-

Signal Input

5a

5b

5c

5d

V

Ea

V

Eb

DC Supply 2

1

2

4a

3

1

4b

Figure 2.  Simple Simulation Test Setup of Evaluation Board

Summary of Contents for ACPL-P346

Page 1: ...generate the bias current across D4 3 S2 and S3 jumpers are shorted by default to connect VE to VEE assuming that a negative supply is not needed Note If a negative supply is needed then S2 and S3 jum...

Page 2: ...to simulate microcontroller output to drive the lower arm of the half bridge Inverter b Another 10 kHz 5V DC pulse at 180 out of phase to the signal in 4a from the dual output signal generator across...

Page 3: ...212D R8 1 2 5 6 7 1 2 5 6 7 10 F Ta 10 F Ta TP2b TP3b TP4b TP1b TP2a TP3a TP4a TP1a S1a S2a S1b S2b CON1a CON1b IC1a IC1b IC2a IC2b R1a R2a R3a R4a R5a R6 C1a C2a C3a D1a D2a R1b R2b R3b R4b R5b C1b C...

Page 4: ...CC2a is generated through the bootstrap components D3b and R6 6 Use a multi channel digital oscilloscope to capture the waveforms at the following points a LED signal at IN1 pin w r t GND for the bott...

Page 5: ...CPL W346 ICs Therefore each board is enough to drive the top and the bottom arms of the half bridge inverter It allows the de signer to easily test the performance of a gate driver in an actual applic...

Page 6: ...this scheme to work both the S2 and S3 jumpers must be open while the external supplies 15V 24V on the high voltage driver side are to be connected acrossVcc2 andVee pins only not the Ve pin As the ex...

Page 7: ...ngle output DC DC converter for Vcc2a Only one external supply is needed Vcc1 5 5 V External DC DC Vcc1 12V 0V s c s c NM DC DC Vcc1 12V 0 V s c s c NM Higher Power Two single output DC DC converters...

Page 8: ...of phase IN1 is set at 49 duty ratio while IN2 not shown is also set with 49 duty ratio plus a turn on delay of 100 ns with respect to IN1 Figure 7 shows the turn off signal of IN1 the turn off signa...

Page 9: ...power MOSFET will be slow due to the capacitive effects of D2 and the gate capacitance of Q1 To improve the turn off speed the board is provided with a diode resis tor pair footprints at D1 and R5 not...

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