Consider two odd solar cells. Cell No.1 has Isi = 25 nA, n₁ = 1.5, Rs1 = 102, Cell No.2 has I2 = 0.1 nA, n2=1, Rs2=5 2.The illumination levels and efficiencies are such that ILI = 10 mA and I12-25 mA. Use equivalent circuits and Spice to analyze and plot the I-V characteristics and power output vs operating voltage characteristics of these cells, operated individually. Determine the maximum power each cell can deliver, the corresponding voltages and currents at their maximum power points. Repeat the above when these two cells are connected in series to deliver a higher voltage and compare the total maximum power they generated separately vs when connected in series. Write your comments.

Consider two odd solar cells. Cell No.1 has Isi = 25 nA, n₁ = 1.5, Rs1 = 102, Cell No.2 has I2 = 0.1 nA, n2=1, Rs2=5 2.The illumination levels and efficiencies are such that ILI = 10 mA and I12-25 mA. Use equivalent circuits and Spice to analyze and plot the I-V characteristics and power output vs operating voltage characteristics of these cells, operated individually. Determine the maximum power each cell can deliver, the corresponding voltages and currents at their maximum power points. Repeat the above when these two cells are connected in series to deliver a higher voltage and compare the total maximum power they generated separately vs when connected in series. Write your comments.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

See similar textbooks

Related questions

Q: Q5-single phase half wave-controlled rectifiers with inductive load R-L connected with AC power…

A: In this questionWe need to choose the correct option. What is rms load current in the single phase…

Q: uo 9:.0 A docs.google.com * ZAIN IQ lı. Q3/B: Assume an ideal diode model for all the diodes in the…

Q: Q5) a) For ideal diodes, show the voltage waveforms across the secondary winding and across RL when…

A: In this question we need to draw the waveform of Vsec and Vload of the given center tapped…

Q: uèstion 3 NPN BJT is considered as two diodes their anodes are connected togeth O True False Moving…

Q: Given that the zener diode has a valaue of Vz = 35 V. Find the maximum current flowing through the…

A: According to the question, for the given circuit as shown below We need to calculate the maximum…

Q: An abrupt silicon pn junction at zero bias has dopant concentrations of Nd = 1 X 1017 cm 3 and N₂ =…

A: Given,

Q: (a) Figure Q2(a) shows a clipper circuit made with a germanium diode. Given the voltage input, Vin =…

Q: A 2-diode power supply has transformer turns ratio of 5:1. What capacitance would be required to…

Q: A circuit consist of a single diode and resistor which are connected to AC source. The resistance…

Q: The circuit below has the following conditions: a. diodes are Silicon with voltage across each diode…

Q: 13) For the following circuit: Vn M Vout (V) Vin D: D₂ RL Vou If V = 3 sin(6.28 t), and the diodes…

Q: Assume all diodes are ideal unless otherwise stated. Question 3 V1 -5V 0.8 0.6 0.4 Perform load line…

A: Assuming all diodes are ideal. The V-I characteristics of diode is

Q: Diodes -Piece-wise models Problem #1 In the circuit shown below, the voltage source Vin is given by…

Q: A silicon solar cell has a short circuit current of 90 mA and an open-circuit voltage of 0.75v under…

A: Given, Silicon solar cell has short circuit current (Isc) = 90 mA open-circuit voltage (Voc) = 0.75…

Q: İn the circuit above, plot İx and İr1 as a function of Vx for two cases : Vx=-1.25V and VB=+1.5V.

A: Given: A circuit, To do: We have to plot Ix and IR1 as function of Vx. a) When VB= -1.25 V, b)…

Q: B) For the circuit shown in Figure 5, sketch the output voltage V, for the input V.. D, is an ideal…

A: The diode turns forward biased when the anode voltage is greater than the cathode voltage. The ideal…

Q: For the following circuit, determine the waveform of R1. Consider diodes ideals

Q: Half-wave battery charger Consider the battery charging circuit in Figure. with Vm= 20V, R= 10Ωand…

A: Diode will conduct when anode voltage is greater than cathode voltage I.e when input voltage…

Q: R= 2.2k D1 R vo Input Voltage = Vi = 120 Vrms 60HZ vs Output Voltage = 6.3 Vrms Diodes = 1N4001 vs…

Q: R

Q: Q#2 (a)For Zener diode network determine the VL ,VR ,IZ, and Pzshow in figure #1

Q: For a certain 12 V zener diode, a 10 mA change in zener current produces a 0.05 V change in zener…

A: Given data, Change in Zener current △I=10 mA=0.01 A. Change in Zener voltage △V=0.05 V.

Q: Vx Ix R₂ IR1R₁VB D₁ Ideal

A: Given: A circuit, To do: We have to plot the graph of Ix and IR1 as function of Vx. a) When VB=…

Q: D1 R2 1.5kO D2 V1 12 V R4 2000 R3 $4700 D3 R1 1kQ

A: We will find out the current for 2nd and 3rd method then we will find out the voltage for practical…

Q: Using drawing and Explanation. Effect of light: What will happen if you shine a light on three parts…

A: Here it is asked that to discuss the effect of light on three parts of a p-n junction.

Q: n the figure given we have u(t)=10- cosot [V]. We assume the diodes and the A-meter (A) to be ideal.…

Q: If VI =- 15 V, V2 = -6 V, R1 = 1.2 kOhm, R2 = 4.7 KOhm, R3 = 2.4 kOhm, and all diodes are silicon…

Q: Eight cells, each with an internal resistance of 0.2 and an e.m.f. of 2.2V are connected (a) in…

Q: 60 V D1 D2 2 kohm D4 D3 -60 V Assume that an input signal is applied to the circuit given above, as…

A: The diodes are reverse biased for the negative half cycle.

Q: Question 1: For the circuit given below, Vin = 10sin(2aft), where f= 200 Hz. The turn on voltages of…

A: According to the question, for the circuit given below, Vin=10sin(2πft), where f=200 Hz. The turn on…

Q: Determine and sketch the output voltage across the load resistor (RL) for the circuit shown below.…

A: The diode works when it is in the forward biased condition. Being forward biased means that the…

Q: Sketch i0and v01 for the network below for the input shown (Both diodes are Si. VD=0.7 V). Explain…

Q: Problem No.3. Two resistors (1 Mega Ohms and 2 Ohms) are connected in parallel with an Ideal Diode.…

Q: The 3-phase half-wave rectifier given in the figure is connected to 3-phase 380 380 V 50 Hz network…

A: Given: Three phase half wave rectifier connected to resistive load, R=20ohm. According to question:…

Q: Which of the following circuit elements is a typical example of semiconductor material? Lütfen…

A: Given Which of the following is example of semiconductor

Q: +12V R1=12K R2 Study the given circuit above. Each diodes has a VF=5V (total voltage across it is…

Q: 0) A full-wave controlled rectifier with RL load is shown in figure 8. If the firing angle is 70°…

Q: 1-In the circuit designed to measure the effective value of the sinusoidal voltage at the input,…

Q: +10 V 10 k2

A: The output voltage v0 can be calculated as by applying KCL at node 3. The voltages v1, v2 denotes…

Q: A clipper circuit based on diodes are simple way to modify waveform in mechatronics. Assume that the…

A: Given circuit is, Both diode D1 and D2 are ideal.Case I → If the input voltage is -8V <…

Q: For the circuit below, determine the diode voltages VD1 and Vp2, diode currents Ip1 and Ip2, and…

A: We need to find out voltage and current in the given circuit .

Q: Determine and sketch the output voltage across the load resistor (RL) for the circuit shown be…

A: To solve above circuit problem concepts required are: A diode is turn on when forward voltage is…

Q: Problem 1: Di and D2 are battery modeled diodes of 0.7 V. If “V;' is a sinusoidal signal with 1 kHz…

A: A diode is a semiconductor device that functions as a current one-way switch. It lets current flow…

Concept explainers

Solar Cell

A solar cell, or photovoltaic cell, is a device that converts light into electricity directly through a photovoltaic effect, i.e., a physical and chemical event. It is a type of electromagnetic cell, defined as being used for its electrical properties, current, voltage, or resistance, which vary when exposed to light. Everyday cellular gadgets are usually the building blocks of photovoltaic modules, collectively known as solar panels. Single junction silicon solar cell can generate an open circuit of about 0.5 to 0.6 volts.

Question

Consider two odd solar cells. Cell No.1 has Is1 - 25 nA, ni = 1.5, Rs1 = 102, Cell No.2 has L₂ = 0.1 nA,
n₂=1, R2=5 2.The illumination levels and efficiencies are such that ILI = 10 mA and I12-25 mA.
Use equivalent circuits and Spice to analyze and plot the I-V characteristics and power output vs operating
voltage characteristics of these cells, operated individually. Determine the maximum power each cell can
deliver, the corresponding voltages and currents at their maximum power points.
Repeat the above when these two cells are connected in series to deliver a higher voltage and compare the
total maximum power they generated separately vs when connected in series. Write your comments.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1: Summarize the given information.

VIEW

Step 2: Analyzing the cell number 1.

VIEW

Step 3: Calculating maximum voltage, maximum current and maximum power for cell 1.

VIEW

Step 4: Drawing the VI characteristics and power vs operating voltage characteristics curve for cell 1.

VIEW

Step 5: Analyzing the cell number 2.

VIEW

Step 6: Calculating maximum voltage, maximum current and maximum power for cell 2.

VIEW

Step 7: Drawing the VI characteristics and power vs operating voltage characteristics curve for cell 2.

VIEW

Solution

VIEW

Step by step

Solved in 8 steps with 77 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

2. A certain zener diode has a maximum power rating of 300 mW at 40 deg Cand a derating factor of 1.4mW/deg C. Determine the maximum power the zener can dissipate at a temperature of 80 deg C. 3. From the datasheet, a 1N4728A zener diode has a ZZ of 10 0. The datasheet gives VZ = 3.3 V at a test current, IZ, of 76 mA. What is the voltage across the zener terminals when the current is 90 mA? When the current is 45 mA?
Solution of this question is required. Urgently plz.
A silicon diode has an incremental resistance “R”. It is then connected in series with a resistor 25 ohms across a 25V source. If the voltage drop across the 25 ohm resistor is 10 V, what is the value of “R” ?
1. Solve no.02 and show clear solutions. Write the GIVEN and REQUIRED. Thanks!!!
For the circuit in the figure, let V input = 8V, Ri = 12ohms, RL = 10ohms, and VZ = 3.3V. Determine the voltages and currents of the resistors and the current of the zener diode.
Please solve this question queckly
Given the following circuit with VDD= 9.2 V, R=2.3 k2, then the current Iis: Use the CVD model for the diode, with VD = 0.65 V. I VDD a. 0.004000 A O b. 3.717391 A OC. 0 A d. 4.000000 A e. 0.003717 A R + VD -
Calculate the diode current, lo, for the circuit shown. The source has Va 1.5 V and R = 0.8 92 and each of the diodes has Is = 10" A. // 21-15001 = 1.5 Vth R+h0.8 22 ↓ID ve
Calculate the equivalent resistances Rin of the following circuits. (The resistance value of the diodes in the conduction will be 0, the resistance value of the diodes in the insulation will be taken as infinity. R1=10ohm
Determine the currents 1, 12 and 13 respectively for the network shown. Use simplified model for the diodes. D 3.3 k2 R2 E = 20V D2 R1 5.6 kN 10.52 mA, 17 mA, 20mA 1.004 mA, OmA, 7.44 A O 0.514 mA, 2.62 mA, 0.799 mA O 3.32 mA, 0.212 mA, 3.108 mA