Question

Capacitor Transient R = 15 kn 204m V = 40 V C -0.01 MF Fig. 21-7 1. Calculate the RC time constant for charge or discharge. 2. (a) How long will it take the capacitor voltage to reach 40 V after S, has been placed in position 1? (b) What is the resistor voltage at the first instant S, is moved from position 2 to position 1? 3. What is the instantaneous value of charge current exactly two time constants after S has been put in position 1? 4. Calculate Vc at the following time intervals after S, has been moved to position 1: (a) O s, (b) 50 us, (c) 100 us, (d) 300 us, and (e) 600 us. 5. Calculate Ve at the following time intervals after S. has been moved to position 1: (a) 0 s, (b) 103.95 us, (c) 200 us, (d) 400 us, and (e) 750 us. 6. Calculate the instantaneous values of charge current for the time intervals listed in Prob. 4. 7. Capacitance C is allowed to fully charge in position 1. Calculate the required dv/dt rate to produce the initial discharge current when S, is moved to position 3. 8. Capacitance C is allowed to fully charge in position 1. Calculate Vc for the follow- ing time intervals after S has been placed in position 3: (a) 50 us, (b) 105 us, (c) 175 ks, (d) 250 us, (e) 750 MS.

Answer 1

Raiskr. AAA 0ool up Charging and discharging time constant will be same for this concuit given by EZRC = 15x10²xo.orxco = 15x105s = iso us The enstantaneous voltage across capacitor is geen by Veltya 1100) + [ucot)- co] é tle U100) -40 0/01/20 udt = 40+ [o-uole Tro --Uitta_4061-e fortry letting verti=40 we get tao It will take infinite Time for the charge fully csscanned with CamScanner capautos to

2fb voltage across capacitos before switch s moved to position 1 velolo voltage across capacitor at fast instans after switch is moved velot) elola o - a whole sowice voltage us = 40 -----suselos. appears across 3 ) veltis 40-e we Frowe a ---------- بيع - dit ifth 2 cx voete τ yoxc Rrc R - = ist 40 ē é 40 15x10t] putting t=20 we have iltia 40 e 158103 = = 2.67x 0.135 mA 0. 361MA Scanned with CamScanner

EX/ u velty - vol 1-0 150 calculated in part 2] --_-at tao ------ 191_Veltl=0 (be at ta sous velti = 11.243 v fol at t= 10ous. -ovelh a 19:530 ca at t= 300MS ulty = 34.586 (e) at t = 6ooms Uchs 39-267 U 151 Applying kue in loop when switch i at losition 1 us= URA Velt! UR (t) = us- uch! ? Yo - Hocine %) urfti = 40entiel a voe je 2 Чое го URaso ca tos (b) t = 103.95 us (c) t=2o0us (as it = 4ouus (e) 750 MS URE URE 20-002 U 10.5430 2.729 v 0.2690 UR= mA / Calculated in part 3) Stine yo 1sxlot? 2.672 0 sous 10ous - __ t= t= t = At - ilt/= 2.67mA ift/= 1.9195mA it/= 1.366 mA CSScanned with CamScanner

--- t=300us t = 60ous HM 198.0 =4)? Hudhain = 7)) ? -------------- (71 when switch is moved to position 3, capacitos start discharging vetta ulo) + [ucol- ulo)] é tlt vloolzo ucol=40 ------------ Occha Hoerert duct 40 x ett. A Olt - Uo - LERC 8.01 Xgoixsi == 2:67x105.17 Negative sign shows that capacitor will be discharged - tx106 I (8) Equation for discharging capantor a given by Valtia Yoë te yo e Too al at t= sous Ulti= 28.756 U. b at t= losus Vc = 19.863 0 I cl at ta 175 us uc = 12-456 2 dl at t= rous uc= 2.55u 5 e) at &= 75ous uc= 0.2690 csscanned with CamScanner

Exponential equation are obtained for charging and discharging circuit. Hence it will take infinite time for capacitor to charge or discharge

Any further query regarding any step can be resolved in the comment section