In Figure , if Vz = 50 V a. Determine the maximum possible value the capacitor C₁ can charge to (VGK ≈ 0.7 V). b. Determine the approximate discharge time (5T) for R3 = 20 k c. Determine the internal resistance of the GTO if the rise time is one-half the decay period determined in part (b).

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In Figure
if Vz
50 V
a. Determine the maximum possible value the capacitor C₁ can charge to (VGK ≈ 0.7 V).
= 20 ΚΩ
b. Determine the approximate discharge time (51) for R3
c. Determine the internal resistance of the GTO if the rise time is one-half the decay period determined
in part (b).
"
=
R₂
200-V
supply
8.2 kQ
Vz
G
A
20
ANTEA
25 ΚΩ
HEM
R3 1 kQ
go
0.1 µF
Figure
www.
GTO sawtooth generator
Transcribed Image Text:In Figure if Vz 50 V a. Determine the maximum possible value the capacitor C₁ can charge to (VGK ≈ 0.7 V). = 20 ΚΩ b. Determine the approximate discharge time (51) for R3 c. Determine the internal resistance of the GTO if the rise time is one-half the decay period determined in part (b). " = R₂ 200-V supply 8.2 kQ Vz G A 20 ANTEA 25 ΚΩ HEM R3 1 kQ go 0.1 µF Figure www. GTO sawtooth generator
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