ENGR 321 (Electronic Circuits I) – Fall 2018 Catholic University of America Project: Design a DC Power Supply Circuit Due: 11/10/2018 Design a dc Power supply circuit that will provide a regulated voltage of about 10 V from an AC line voltage of 120 V r.m.s (the voltage you get from the wall outlet). The load current in the desired dc power supply circuit can vary from 0 mA to 20 mA and the regulated output voltage can vary at most ±1% of the desired output, 10V. To meet the desired specification, you are suggested to use a peak rectifier circuit (consists of a bridge rectifier and a capacitor) that allows a maximum ripple of ±1V. The rectifier feeds a resistance of 150 Ω (as shown in the figure, next page). Note that the rectifier is fed from the line voltage (120 V rms, 60 Hz) through a 10-to-1 step down transformer. The diodes available have 0.7V drop when conducting. The output of the peak rectifier is connected to the input of the voltage regulator to produce the desired regulated voltage of about 10V. For voltage regulation, the available Zener diode is specified to have a Vz = 10V at a test current of 25 mA. The other parameters provided by the manufacturer are rz =10 Ω and IZK = 2.5 mA. Show all the detailed calculations of your design. In particular, For peak rectifier- Find the value of the dc output voltage of the rectifier filter and the required value of filter capacitor that supports the desired ripple, also find the maximum reverse voltage that will appear across the diode, and specify the PIV rating of the diodes, Calculate the average current through the diode during conduction, Calculate the peak diode current. For regulator- Calculate the required value of R, Find the load regulation. By what percentage does VO change from the no-load to the full-load condition? Check whether the change in output voltage meets the desired specification (use Multisim to verify your calculation). Find maximum power dissipation in the Zener diode. Do the simulation using Multisim and show that the required specifications are met. Use Cursor to measure the output voltages in each section, also measure the ripples to justify your claim. Show that under different loading conditions the output voltage is within the desired range mentioned in the specification. Take snap-shot of each measurement and submit it with the project report. Due: 11/10/2018 (Submit the soft copy your design (Multisim files) on the Blackboard, after you submit your file make sure that you can open it from the Blackboard. Regarding detailed calculation, please upload the scanned copy (pdf) of your calculations on the Blackboard. *A sample copy of the design is attached on the next page. *A sample copy of the design is attached on the next page. Proposed Design: EXTIN ve 10:1 120 Vrms)/60 Hz 3150 D5 10 Y Oscilloscope-XSC1 Reverse Time T1 + 759.110 ms T2 + + 805 662 ms 36 552 ms Channel 13 994V 15.130 V 1.135 Channel 9.488 V 9.999V 511 870 V Save Est Trigger -II Timebase Scale 5 ms Di x puullum 0 Channel Scale 10 VIDIN Y poslon Channel Scale 10 Div Y portion 0 Trigger Edge Level 0 V Project: Design a DC Power Supply Circuit Due: 11/10/2018 Designade Power supplycinult that will provide a regulated voltage of about 10V from an AC line voltage of 120 V (the voltage you get from the wall outlet). The load current in the desired de power supply circuit can vary from 0 mA to 20 mA and the regulated output voltage can vary most 1% of the desired output, OV, To meet the desired specification, you are supposed to use a peak rectifier circuit (consists of a bridge rectifier and a capacitor) that allows a maximum nipple of IV. The rectifier foedsa resistance of 10 (as shown in the figure, next pape). Note that the rectifier is fod from the line voltage (120 ms, 60 Hz) through a 10-to-1 step down transformer. The diodes wailable have 0.7. V drop when conducting. The output of the peak rectifier is connected to the input of the voltage regulator to produce the desired regulated voltage of about tov. For voltage regulation, the wailable Zener diode is specified to have a Ve - 10V at a test current of 25 mA. The other parameters provided by the manufacturer -10 and 25 m Show all the detailed calculations of your design. In particular, For peak rectifier. Find the value of led output voltage of the rectifier filter and the required walue of filter capacitor that supports the desired ripple, who find the maximum reverse voltage that will appear across the diode, and specify the PIV rating of the diodes Calculate the average current through the diode during conduction Calculate the peak diode current For regulator. Calculate the required value of R. Find the load reputation. By what percentage does Vo change from the road to the full load condition? Check whether the change in output voltage meets the desired specificatice (use Multisim to verify your calculation) Find maximum power dissipation in the Zener diode Do the simulation using Multisim and show that the required specifications are met Us Cursor to measure the output voltages in cach section also measure the ripples to justify your claim Show that under different loading conditions the output voltage is within the desired range mentioned in the specification. Take snapshot of each measurement and submit it with the project report Due: 11/10/2018 Submit the soft copy your desien Multisim files on the Blackboard after you submit your file make sure that you can open it from the Blackboard. Regarding detailed cakulation, please upload the scanned copy lod) of your calculations on the Blackboard A sample copy of the design is attached on the next page 120 /
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