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power control

Question Answer
vdc for hwr with r load vdc=vm/pi
idc for hwr with r load vm/pi*r
vrms for hwr with r load vm/2
efficiency n for hwr with r load 40.5
ff for hwr with r load 1.57
rf for hwr with r load 1.21
pf for hwr with r load 0.707
vdc for hwr with rl load vm/2pi(1-cos B)
Idc for hwr with rl load vm/2pi*r (1-cos B)
Vrms for hwr with rl load vm/2sqrt(pi) * sqrt(B+(1/2(1-sin(2B)
io(wt) for hwr with rl load vm/z[sin(wt-phi)+sin(phi)*e(-wt/tan phi)
vdc for hwr with rl load & dm diode vm/pi
idc for hwr with rl load & dm diode vm/pi*r
vrms for hwr with rl load & dm diode vm/2
io(wt) for hwr with rl load & dm diode vm/z[sin(wt-phi)+sin(phi)*e(-wt/tan phi) 0<wt<piKe(-wt-pi/tan phi) pi<wt<2pik = id1(wt=pi)
vdc for fwr with r load 2vm/pi
idc for fwr with r load 2vm/pi*r
piv for for fwr with r load center tapped 2vm
efficiency for fwr with r load 81
tuf for fwr with r load 57.3
ff for fwr with r load 1.11
rf for fwr with r load 0.483
cf for fwr with r load center tapped 2
idrms for fwr with r load irms/sqrt(2)
vrms for fwr with r load vm/sqrt(2)
idavg for fwr with r load idc/2
pf for fwr with r load 0.707
vdc for 3 phase hwr with r load 0.827vm
vrms for 3 phase hwr with r load 0.8406Vm
idrms for 3 phase hwr with r load 0.48454Vm/r
efficiency for 3 phase hwr with r load 96.77
piv for 3 phase hwr with r load sqrt(3)Vm
ff for 3 phase hwr with r load 1.0165
RF for 3 phase hwr with r load 18.24%
TUf for 3 phase hwr with r load 0.6643
pf for 3 phase hwr with r load 0.6844
VA for 3 phase hwr with r load 3*VS*IS=3*(sqrt(2)vm)*(0.4854*vm/R)
Vdc for 3 phase fwr with r load 1.6542Vm
vrms for 3 phase fwr with r load 1.6554Vm
idrms for 3 phase fwr with r load 0.55181Im= 0.5581*sqrt(3)*Vm/R
is for 3 phase fwr with r load sqrt(2)idrms
efficiency for for 3 phase fwr with r load 99.86
ff for 3 phase fwr with r load 1.0007
rf for 3 phase fwr with r load 3.74%
tuf for 3 phase fwr with r load 0.9545

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