EE251FMLSHT

EE251FMLSHT - Ne = 2n 2 EE251 Formulas IF = (VBIAS - VF)...

Info iconThis preview shows pages 1–2. Sign up to view the full content.

View Full Document Right Arrow Icon
EE251 Formulas N e = 2n 2 I F = (V BIAS - V F ) ÷ R LIMIT V AVG = V P(out) ÷ π V p(out) = V p(sec) - V DIODE(S) PIV = V p(sec) V sec = (N sec ÷ N pri ) × V pri V AVG = 2 V P(out) ÷ π V p(out) = (V p(sec) ÷ 2) - 0.7 V PIV = 2V p(out) + 0.7 V V p(out) = V p(sec) - 1.4 V PIV = V p(out) + 0.7 V Z Z = ΔV Z ÷ ΔI Z ΔV Z = V Z × TC × ΔT ΔV Z = TC × ΔT R R = V R ÷ I λ P D = V Z × I Z P D(derated) = P D(max) - (mW/C°) × ΔT I ZM = P D(max) ÷ V Z h FE = I C ÷ I B V in(min) = V out(min) + I ZK R V in(max) = V out(max) + I ZM R V r(in) = 0.308 × V p V out(min) = V Z - (I ZT - I ZK ) × Z ZT V out(max) = V Z + (I ZM - I ZT ) × Z ZT X L = 2 πƒL R L(min) = V out(min) ÷ (I T - I ZK ) I T = (V in - V out(min) ) ÷ R X C = ( 2 πƒC) -1 V DC(OUT) = R L ÷ (R W + R L ) × V DC(IN) V r(out) = X C ÷ (X L - X C ) × V r(in) h fe = I c ÷ I b V r(pp) ( ƒR L C) -1 × V P(rect) r = V r(pp) ÷ V DC R (surge) = (V P(sec) - V DIODE(S) ) ÷ I FSM % Line Regulation = (ΔV OUT ÷ ΔV IN ) × 100
Background image of page 1

Info iconThis preview has intentionally blurred sections. Sign up to view the full version.

View Full DocumentRight Arrow Icon
Image of page 2
This is the end of the preview. Sign up to access the rest of the document.

Page1 / 2

EE251FMLSHT - Ne = 2n 2 EE251 Formulas IF = (VBIAS - VF)...

This preview shows document pages 1 - 2. Sign up to view the full document.

View Full Document Right Arrow Icon
Ask a homework question - tutors are online