LABORATORY CONTENT; AC to DC conversion (Rectification) PRELIMINARY VIDEOS: The provided links provide videos for basic understanding of working principle and some technical details. The students are responsible for further understanding. PRELIMINARY QUESTIONS: 1) Briefly explain the how a rectifier works in AC to DC conversion (4 sentences at max). Hyh she EXERCISE STEPS: Full wave bridge rectifier | Full wave bridge rectifier with capacitor N- 12 1) Simulate the output voltage signals for the six circuit combinations following Table 1. Assume that V220V RMS SOHZ. For each combination: Table 1. The output signals Peak value of output voltage (V) Averare value of RMS value of output voltage (v) output voltage (V) a. Give the circuit screenshot and plot Va and Va signals in the same plot (the signals should be given for at least two periods). (R#10k for each, C= 1µF and 100ur). Note: It is required to have two measurements at the same time on each circuit. In most simulator programs, voltage probes assume GND as their second probe (in some programs, even oscilloscopes can consist of just one probe). Speaking of this experiment, in the source and load measurements, their second probes are not connected to the same node. If this matter is not noticed, the measurement can be done in a faulty way (to overcome this trick, every Half wave bridge, no capacitor Half wave bridge, Cuiur Half wave bridge, Ca100u Full wave bridge, no capacitor Full wave bridge, Caiur Full wave bridge, Ca100u simulation program may have its own properties/methods, eg, using multiple probes and applying a mathematical formulation in plot data like V1-V2', etc.). Also, in this circuit, it is also possible to use 2d oscilloscope channel for source voltage signal measurement, the given measurement forms are just one way of measurement. POSTLIMINARY QUESTIONS: 2) Fill Table 1 with the requested values (you may require using some other programs like Excel to obtain the requested values. To do this, export the plot data jo csv or xls format and calculate these values using one period). 1) Search for the equations and calculate the terms for full bridge rectifier (without capacitor). Give a one-sentence explanation for terms typed with a ** sign. Peak current - Output current - DC output voltage - Root Mean Square (RMS) value of current - Root Mean Square (RMS) value of output voltage

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XSC3
LABORATORY CONTENT: AC to DC conversion (Rectification)
PRELIMINARY VIDEOS:
The provided links provide videos for basic understanding of working principle and some technical details. The students are
responsible for further understanding.
PRELIMINARY QUESTIONS:
V RMS osoe
1) Briefly explain the how a rectifier works in AC to DC conversion (4 sentences at max).
High side
Low side
Hgh de
GND
EXERCISE STEPS:
Full wave bridge rectifier
Full wave bridge rectifier with capacitor
N= 12
1) Simulate the output voltage signals for the six circuit combinations following Table 1. Assume that Vi=220V RMS
@50HZ. For each combination:
Table 1. The output signals
Peak value of
output voltage
(V)
RMS value of
output voltage (V) output voltage
(V)
Average value of
a. Give the circuit screenshot and plot Vie and Var signals in the same plot (the signals should be given for at least
two periods). (R=10k for each, C= 1µF and 100µF).
Half wave bridge, no capacitor
Half wave bridge, C=1uF
Half wave bridge, C=100uF
Full wave bridre, no capacitor
Full wave bridge, C=1µF
Full wave bridge, C=100UF
Note: It is required to have two measurements at the same time on each circuit. In most simulator programs, voltage
probes assume GND as their second probe (in some programs, even oscilloscopes can consist of just one probe).
Speaking of this experiment, in the source and load measurements, their second probes are not connected to the
same node. If this matter is not noticed, the measurement can be done in a faulty way (to overcome this trick, every
simulation program may have its own properties/methods, e.g., using multiple probes and applying a mathematical
formulation in plot data like V1-Vz', etc.). Also, in this circuit, it is also possible to use 2"d oscilloscope channel for
source voltage signal measurement, the given measurement forms are just one way of measurement.
POSTLIMINARY QUESTIONS:
2) Fill Table 1 with the requested values (you may require using some other programs like Excel to obtain the requested
values. To do this, export the plot data in tt, .csv or .xls format and calculate these values using one period).
1) Search for the equations and calculate the terms for full bridge rectifier (without capacitor). Give a one-sentence
explanation for terms typed with a *' sign.
- Peak current
- Output current
- DC output voltage
Ee Trig
- Root Mean Square (RMS) value of current
- Root Mean Square (RMS) value of output voltage
- *Rectification efficiency
- *Ripple factor
Y220V RMS OSOH
Y220v RMS OSOH
- *Regulation
High side
Low side
High side
Low side
Windows'u Etkinleştir
Windows'u etkinleştirmek için Ayarlar'a gid
GND
GND
Half wave bridge rectifier
Half wave bridge rectifier with capacitor
Transcribed Image Text:XSC3 LABORATORY CONTENT: AC to DC conversion (Rectification) PRELIMINARY VIDEOS: The provided links provide videos for basic understanding of working principle and some technical details. The students are responsible for further understanding. PRELIMINARY QUESTIONS: V RMS osoe 1) Briefly explain the how a rectifier works in AC to DC conversion (4 sentences at max). High side Low side Hgh de GND EXERCISE STEPS: Full wave bridge rectifier Full wave bridge rectifier with capacitor N= 12 1) Simulate the output voltage signals for the six circuit combinations following Table 1. Assume that Vi=220V RMS @50HZ. For each combination: Table 1. The output signals Peak value of output voltage (V) RMS value of output voltage (V) output voltage (V) Average value of a. Give the circuit screenshot and plot Vie and Var signals in the same plot (the signals should be given for at least two periods). (R=10k for each, C= 1µF and 100µF). Half wave bridge, no capacitor Half wave bridge, C=1uF Half wave bridge, C=100uF Full wave bridre, no capacitor Full wave bridge, C=1µF Full wave bridge, C=100UF Note: It is required to have two measurements at the same time on each circuit. In most simulator programs, voltage probes assume GND as their second probe (in some programs, even oscilloscopes can consist of just one probe). Speaking of this experiment, in the source and load measurements, their second probes are not connected to the same node. If this matter is not noticed, the measurement can be done in a faulty way (to overcome this trick, every simulation program may have its own properties/methods, e.g., using multiple probes and applying a mathematical formulation in plot data like V1-Vz', etc.). Also, in this circuit, it is also possible to use 2"d oscilloscope channel for source voltage signal measurement, the given measurement forms are just one way of measurement. POSTLIMINARY QUESTIONS: 2) Fill Table 1 with the requested values (you may require using some other programs like Excel to obtain the requested values. To do this, export the plot data in tt, .csv or .xls format and calculate these values using one period). 1) Search for the equations and calculate the terms for full bridge rectifier (without capacitor). Give a one-sentence explanation for terms typed with a *' sign. - Peak current - Output current - DC output voltage Ee Trig - Root Mean Square (RMS) value of current - Root Mean Square (RMS) value of output voltage - *Rectification efficiency - *Ripple factor Y220V RMS OSOH Y220v RMS OSOH - *Regulation High side Low side High side Low side Windows'u Etkinleştir Windows'u etkinleştirmek için Ayarlar'a gid GND GND Half wave bridge rectifier Half wave bridge rectifier with capacitor
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