RL R₁ Vs (b) Figure 1. Half-wave rectifier The The way rectification be obtained by inserting 4 diodes as shown in Figur
Posted: Wed May 04, 2022 1:18 pm
- Rl R Vs B Figure 1 Half Wave Rectifier The The Way Rectification Be Obtained By Inserting 4 Diodes As Shown In Figur 1 (44.93 KiB) Viewed 41 times
1 Capacitor is removed, Figure 1 (a). Plot the transfer (Vout versus Vin) characteristics. (a) sinusoidal Trig'd M.Pos: 0.000s Autoset Плл ♫ 2.80V Undo Autoset 100.2Hz? Ch2/6.15V 99.9984Hz M.Pos: 0.000s 2Peak-Peak 2 Period (b) square Peak-Peak Period 9.40V 9.980ms? 25.00V 9.60V 10.00ms? 5.00V 2 Mean 20 Frequency M 5.00ms Tria'd 2 Mean M 5.00ms Frequency Apr 29, 2022, 14:18 Autose ллл n Undo Autose 4.56V 100.0Hz? Ch2/6.15V 100.000Hz Apr 29, 2022, 14
(a) triangular Peak-Peak Perlo 10.00ms? 5.00V Autoset ЛЛЛ Undo Autose! 2.13V 100.2Hz? Ch2/6.15V 100.000Hz E F Frequency M 5.00ms Apr 29, 2022, 14:15
2 Capacitor and resistor are both in place, Figure 1 (b). Plot the transfer (Vout versus Vin) characteristics and calculate the peak-to-peak ripple voltage. (a) sinusoidal Auto M.Pos: 0.000s Autoset Undo Autoset Mean 6.97V 720mV 2.00V Ch20.00v <10Hz Unknown signal detected on Ch2. Apr 29, 2022, 14:20 Peak-Peak M 10.0ms
(a) square RMS 5.00V (a) ramp RMS 5.00V 9.15V 6.41V Ready 1 Peak-Peak M 5.00ms Ready Peak-Peak M 5.00ms M.Pos: 0.000s Ch2 Coupling DC BW Limit On Off 70MHZ Volts/Div Coarse Probe 10X Voltage invert On Off <10Hz Apr 29, 2022, 13:57 Ch2 Coupling DC BW Limit On Off 70MHZ Voits/Div Coarse Probe 10X Voltage Invert On Off <10Hz Apr 29, 2022, 13:57 800mV Ch2/49.4mV M.Pos: 0.000s 1.00V [Ch2/49.4mV
3 Capacitor is removed, Figure 2 (a). Plot the transfer (Vout versus Vin) characteristics. (a) Sinusoidal Tood M.Pos: 0.000s Math Operation Sources Ch1 - Ch2 Position 0. div Vertical Scale 10.0V A 2.91V Ch1/3.05V 99.9972Hz Apr 29, 2022, 14:57 Math Operation Sources Ch1 - Ch2 Position 0 div Vertical Scale 10.0V 10.4V Ch2/-1.70V 100.000Hz Apr 29, 2022, 14:22 Tek 1 Peak-Peak 1RMS 15.00V (b) Square 1 RMS 5.00V 10.2V 4.73V 25.00V 6.79V 25.00V 1 Mean M 5.00ms 10.0V Tria'd www 1 Peak-Peak M 5.00ms M10.0V M.Pos: 0.000s prat
(c) triangular (ramp) Tho'd M.Pos: 0.000s Math Operation u Sources Ch1 - Ch2 Position 0 div VVV Vertical Scale 10.0V 1 Peak-Peak RMS 15.00V 3.85V 5.00V 10.2V Ch2/-1.70V M 5.00ms 99.9905Hz pr 29, 2022, 14:2 M 10.0V 4 Capacitor and resistor are both in place, Figure 2 (b). Plot the transfer (Vout versus Vin) characteristics and calculate the peak-to-peak ripple voltage. (a) sinusoidal Trig'd M.Pos: 0.000s Math Operation Sources Ch1 - Ch2 Position 0 div Vertical Scale 10.0V O Peak-Peak RMS 4.02V Ch1/3.05V 100.005Hz Telee 5.00V 9.20V 5.11V 5.00V Mean M 5.00ms M10.0V Apr 29, 2022, 14:58
(b) square Tek 1 Peak-Peak 19 RMS 5.00V (c) triangular Tek Peak-Peak 1 RMS 05.00V 10.2V 6.64V 25.00V 8.20V 4.29V 5.00V Trig'd 400 1 Mean M 5.00ms M10.0V Trig'd Mean M 5.00ms M10.0V M.Pos: 0.000s w Math Operation Sources Ch1 - Ch2 Position 0 div Vertical Scale 10.0V 300.002Hz Apr 29, 2022, 14:58 Math Operation Sources Ch1 - Ch2 Position 0. div Vertical Scale 10.0V 4.58V Ch1/3.05V M.Pos: 0.000s 3.52V Ch1/3.05V 99.9991 Hz Apr 29, 2022, 14:58
Question 1. a) Describe and compare input & output waveforms for 1. b) Describe and compare input & output waveforms for 2. c) Describe and compare input & output waveforms for 3. d) Describe and compare input & output waveforms for 4.