## Positive Clamper The output voltage is equal to the $V_{supply} + V_{capacitor}$ ```circuitjs $ 1 0.000005 10.20027730826997 50 5 43 5e-11 v 160 288 160 144 0 1 40 5 0 0 0.5 w 272 288 160 288 0 p 432 144 432 288 1 0 0 c 160 144 272 144 0 0.0005 -4.194136122318551 0.001 d 272 288 272 144 2 default r 304 144 304 288 0 1000 w 272 288 304 288 0 w 272 144 304 144 0 w 304 144 432 144 0 w 304 288 432 288 0 o 0 64 0 151554 10 0.1 0 2 0 3 Power\sSupply o 2 64 0 151554 10 0.1 1 1 ``` ## Negative Clamper ```circuitjs $ 1 0.000005 9.78399845368213 50 5 43 5e-11 v 160 288 160 144 0 1 40 5 0 0 0.5 w 272 288 160 288 0 p 432 144 432 288 1 0 0 c 160 144 272 144 0 0.000049999999999999996 4.284982209935943 0.001 d 272 144 272 288 2 default r 304 144 304 288 0 10000 w 272 288 304 288 0 w 272 144 304 144 0 w 304 144 432 144 0 w 304 288 432 288 0 o 0 64 0 151554 10 0.1 0 2 0 3 Power\sSupply o 2 64 0 151554 10 0.1 1 1 ``` ## Biased Clamper When adding a DC PowerSupply in series with the diode we can shift the amplitude of the output signal up or down. ```circuitjs $ 1 0.000005 9.78399845368213 50 5 43 5e-11 v 160 288 160 144 0 1 40 5 0 0 0.5 w 272 288 160 288 0 p 432 144 432 288 1 0 0 c 160 144 272 144 0 0.000049999999999999996 -7.675443954087598 0.001 d 272 224 272 144 2 default r 304 144 304 288 0 10000 w 272 288 304 288 0 w 272 144 304 144 0 w 304 144 432 144 0 w 304 288 432 288 0 v 272 288 272 224 0 0 40 1 0 0 0.5 o 0 64 0 151554 10 0.1 0 2 0 3 Power\sSupply o 2 64 0 151554 20 0.1 1 1 ```