RB W Vcc Rc +9₁ " RE a. VCE = 2,338 V b. IC=3,536 mA c. VCE = 3,007 V d. VCE = 3,225 V e. VCE = 2,804 V OEIC = 4,155 mA g. IC= 1,936 mA Oh. IC= 2,482 mA OLIC=2,991 mA J.VCE = 2,585 V
RB W Vcc Rc +9₁ " RE a. VCE = 2,338 V b. IC=3,536 mA c. VCE = 3,007 V d. VCE = 3,225 V e. VCE = 2,804 V OEIC = 4,155 mA g. IC= 1,936 mA Oh. IC= 2,482 mA OLIC=2,991 mA J.VCE = 2,585 V
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter30: Dc Motors
Section: Chapter Questions
Problem 6RQ: What is CEMF?
Related questions
Question
Electronic
Consider the circuit shown in figure, where be=710 mV, B = 100, and VA = ∞. Assume that the emitter current is equal to collector current.
Sekildeki devre için BE=710 mV, B = 100 ve VA = ∞ oldugunu dikkate aliniz. Emiter akiminin kollektör akimina esit oldugunu kabul ediniz.
Circuit parameters / Devre Parametreleri
Rg = 30 kM, Rc = 400 R, RE = 400 R, Vcc = 4 V
-> Alttaki devre için Q, transistörunün kollektor akimini Ic belirleyiniz. (Determine the collector current Ic of Q, for the circuit shown below.) (dogru katsayisi: 0.5)
-> Alttaki devre için Q, transistörunün kollektör gerilimini Vc belirleyiniz. (Determine the collector voltage Vc of Q, for the circuit shown below.) (dogru katsays:: 0.5)
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