Determine the gate trigger current and the anode current when the switch, SW1, is momentarily closed in Figure. Assume VAK = 0.2 V, VGK = 0.7 V, and H = 5 mA. EXAMPLE 3 VTRIG - VGK 3 V - 0.7 V Solution 410 μΑ RG 5.6 kN VA - VAK 15 V - 0.2 V 448 mA RA 33 0 VA 15 V ERA 33 2 Sw2 Ra 2N5060 5.6 kn sWI VTRIG 3 V H.W. : Repeat example 3 with RA = 3.3KN. Explaining change ?
Determine the gate trigger current and the anode current when the switch, SW1, is momentarily closed in Figure. Assume VAK = 0.2 V, VGK = 0.7 V, and H = 5 mA. EXAMPLE 3 VTRIG - VGK 3 V - 0.7 V Solution 410 μΑ RG 5.6 kN VA - VAK 15 V - 0.2 V 448 mA RA 33 0 VA 15 V ERA 33 2 Sw2 Ra 2N5060 5.6 kn sWI VTRIG 3 V H.W. : Repeat example 3 with RA = 3.3KN. Explaining change ?
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Transcribed Image Text:Determine the gate trigger current and the anode current when the switch, Sw1, is
momentarily closed in Figure. Assume VAK = 0.2 V, VGK = 0.7 V, and
H = 5 mA.
EXAMPLE 3
VTRIG - VGK 3 V - 0.7 V
Solution
l =
410 μΑ
5.6 kN
RG
VA - VAK
15 V - 0.2 V
448 mA
RA
33 0
VA
15 V
ERA
33 2
Sw2
Ra
2N5060
5.6 kn
VTRIG
3 V
H.W. : Repeat example 3 with RA = 3.3KN. Explaining change ?
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