Version 4 SHEET 1 1552 680 WIRE 416 160 400 160 WIRE 512 160 496 160 WIRE -48 304 -48 288 WIRE 48 304 48 288 WIRE 144 304 144 288 WIRE 304 304 288 304 WIRE 400 304 400 160 WIRE 400 304 384 304 WIRE 416 304 400 304 WIRE 512 320 512 160 WIRE 512 320 480 320 WIRE 528 320 512 320 WIRE 416 336 400 336 WIRE 400 368 400 336 WIRE -48 400 -48 384 WIRE 48 400 48 384 WIRE 144 400 144 384 FLAG 448 288 Vcc IOPIN 448 288 In FLAG 448 352 Vee IOPIN 448 352 In FLAG 288 304 Vin IOPIN 288 304 In FLAG 528 320 Vout IOPIN 528 320 Out FLAG -48 400 0 FLAG 48 400 0 FLAG 144 400 0 FLAG -48 288 Vcc IOPIN -48 288 Out FLAG 48 288 Vee IOPIN 48 288 Out FLAG 144 288 Vin IOPIN 144 288 Out FLAG 400 368 0 SYMBOL OpAmps/OP07 448 256 R0 SYMATTR InstName U1 SYMBOL res 512 144 R90 WINDOW 0 0 56 VBottom 2 WINDOW 3 32 56 VTop 2 SYMATTR InstName Rf SYMATTR Value 500k SYMBOL voltage -48 288 R0 SYMATTR InstName V1 SYMATTR Value 5 SYMBOL voltage 48 288 R0 SYMATTR InstName V2 SYMATTR Value -5 SYMBOL voltage 144 288 R0 SYMATTR InstName V3 SYMATTR Value SINE(0 1m 1k) SYMBOL res 400 288 R90 WINDOW 0 0 56 VBottom 2 WINDOW 3 32 56 VTop 2 SYMATTR InstName Ri SYMATTR Value 100k TEXT -80 496 Left 2 !* Typically use RMS when the input is centered about the x-axis.\n.meas tran vin_rms rms V(Vin) from=3m to=4m\n.meas tran vout_rms rms V(Vout) from=3m to=4m\n.meas tran gain_rms param vout_rms/vin_rms\n* Typically use AVG when the input contains a DC offset.\n.meas tran vin_avg avg V(Vin) from=3m to=4m\n.meas tran vout_avg avg V(Vout) from=3m to=4m\n.meas tran gain_avg param vout_avg/vin_avg TEXT -80 448 Left 2 ;Vout = -(Rf/Ri)Vin = -(500K/100K)Vin = -5Vin = -(5)(1m) = -5 mV TEXT 488 400 Left 2 !.tran 10u 5m