Fairchild AN-7511 User Manual

©2002 Fairchild Semiconductor Corporation

Application Note 7511 Rev. A1

Piezoelectric Couplers Provide 4-kV Isolation

Using a high-frequency oscillator for pulse-train drive Figure
6B yields unlimited on-time capability. However, the scheme
requires an oscillator that can be turned on and off by the
control logic. A diode or zener clamp across the trans-
former’s primary will limit leakage-inductance flyback effects.
To optimize transformer efficiency, make the pulses’ voltage
x time products equal for both the On and the Off pulses. In
situations where the line voltage generates the drive power,
a simple relaxation oscillator using a programmable unijunc-
tion transistor can derive its power directly from the line to
provide a pulse train to the IGT gate.

The circuit shown in Figure 7 accommodates applications
involving lower frequencies (a few hundred Hertz and
below). The high oscillator frequency (greater than 20kHz)
helps keep the pulse transformer reasonably small. The volt-

age-doubler circuitry improves the turn-on time and also pro-
vides long on-time capability. Although this design uses only
a 5V supply on the primary side of a standard trigger trans-
former, it provides 15V gate-to-emitter voltage.

FIGURE 7. THIS DRIVING METHOD FOR LOW-FREQUENCY

SWITCHING PROVIDES 15V TO THE IGT’S GATE

OSCILLATOR

1:2

1N914

0.001

µ

F

4.7k

0.001

µ

F

IGT

1N914

FIGURE 9A. THE POWER INVERTER’S DRIVE CIRCUIT USES SIX IGTS TO DRIVE A 2-HP MOTOR.

FIGURE 9B. THE TIMING DIAGRAM SHOWS THAT EACH IGT

CONDUCTS FOR 165

o×

OF EVERY 360

o

CYCLE;

THE DELAY IS NECESSARY TO AVOID CROSS
CONDUCTION.

FIGURE 9C. THE THREE WINDINGS’ VOLTAGES AND CUR-

RENTS ARE SHOWN. NOTE THAT ALTHOUGH
COSTLY SNUBBER NETWORKS ARE ELIMINAT-
ED, FREEWHEELING DIODES ARE NEEDED; THE
IGTS HAVE NO INTRINSIC OUTPUT DIODE.

INDUCTION

MOTOR

D

7

325V
10A

NOTES:
Q

1

- Q

6

= D94FR4

D

1

- D

7

= 1N3913

D

8

- D

13

= 1N914

R = 4.7k,

1

/

2

W

C

1

= 100

µ

F, 400V

L

1

= 40

µ

H

220V

L

1

D

1

D

2

Q

2

Q

1

R

R

C

1

D

3

D

5

Q

3

Q

5

R

R

R

R

Q

4

Q

6

D

4

D

6

t

t

t

t

t

t

0

0

0

0

0

0

φ

A

φ

B

φ

C

I

LA

I

LB

I

LC

Q

1

ON

Q

2

ON

Q

3

ON

180

o

15

o

DELAY

Q

4

ON

Q

5

ON

Q

6

ON

V

AB

0

t

V

BC

V

CA

I

LA

I

LB

I

LC

0

0

0

0

0

t

t

t

t

t

Application Note 7511