Series Circuits Current is the same on each resistor Resistance RT=R1+R2+R3+Rn Current IT= V/RT Voltage VT= V1+V2+V3+Vn(KVL) Voltage Drop VR=(IT)(R) Voltage Divider Vx=(Rx/RT)VT Power Total =(VS)(I) or (I2)(RT) or VS2/RT Power in a resistor = (Vx)(Ix) Power is measured in WATTS (W) Convert Voltage Source to Current Source IS=VS/RS Terminal Equivalency ILOAD=VS/(RS+RL) Thevenin Equivalent VTH use voltage divider rule RTH use total resistance Color Code 6=Blue 4 bands= 0=Black 7=Violet 1=Brown 8=Gray 2=Red 9=White 5 band= 3=Orange +/-5%=gold 4=Yellow +/-10%=silver 5=Green Ohms Law I=V/R V=(I)(R) Parallel Circuits Voltage is the same across all resistors 1 Resistance R T = 1/R 1 + 1/R 2 + 1/R 3 + 1/R n RT for 2 resistors=(R1)(R2)/(R1+R2) Current IT= I1+I2+I3+In(KCL) Current Divider I1=((R2)/(R1+R2))IT For 3 or more R’s Ix=(RT/RX)IT Power Total= (V)(IT) or (IT2)(RT) or V2/RT Convert Current Source to Voltage Source VS=(IS)(RS) 1&2 are values 3 is the multiplier 4 is tolerance 1,2,&3 are values 4 is the multiplier 5 is the tolerance R=V/I CHARGE(Q)= #of electrons/6.25x 1018electrons/C V=W/Q I=Q/t P=W/t W=(P)(t) Capacitors Total Series Capacitance Ct=1/((1/C1)+(1/C2)….) Capacitor Voltage Vx=(Ct/Cx)Vt Total Parallel Cap Ct=C1+C2+C3…. Time constant τ=RC Time Constant %ages 1= 63% 2= 86% 3= 95% 4= 98% 5= 100% Pico (p) -12 Milli (m) -3 Giga (G) 9 nano (n) -9 Kilo (k) 3 Tera (T) 12 micro (µ) -6 Mega (M) 6 Efficiency = Pout/Pin Pout= Pin-Ploss Sine wave f= 1/T T=1/f Vpp= 2Vp peak to peak Ipp= 2Ip Vrms= (0.707)(Vp) Irms= (0.707)(Ip) Degrees to Rad= (πrad/180)xdegrees Rad to Degrees= (180/πrad)xRad Sine wave Instantaneous value at 90 ref point= v=Vpsinθ percent duty cycle= (tw/T)100% Total Impediance Z= R 2 + X 2 θ= -tan-1(Xc/R) Xc= 1/ 2πfC Xc= Vc/I Vc= Vs − Vr I=Vr/R CURRENT in a capacitor leads VOLTAGE ICE CURRENT is in phase with VOLTAGE in resistors