+☑+ www ww R₁ Isc Imp Current I-V curve P-V curve Pmax Voltage Vmp Voc Fig. 1. Equivalent circuit and I-V curve of the PV panel [1]
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explain the circuit and the curve
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Fig. 1. Equivalent circuit and I-V curve of the PV panel [1]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fcbd4f84f-3983-47c7-ab25-968fc6dfc241%2Fa4e1ec6f-da45-468c-b14b-08a475e9917d%2F6fml3z6_processed.png&w=3840&q=75)
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- Identify the characteristics of AC and DC voltage. Runs at a higher temperature Answer 1Choose...DCAC More dangerous to transfer Answer 2Choose...DCAC Easy to produce Answer 3Choose...DCAC Easier to transform voltages Answer 4Choose...DCAC Voltage remains at a constant value Answer 5Choose...DCAC Cheaper to produceQ4. The source current in the circuit shown is in Figure 3a) What impedance should be connected across terminals a,b for maximum average powertransfer?b) What is the average power transferred to the impedance in (a)?c) Assume that the load is restricted to pure resistance. What size resistor connected across a,bwill result in the maximum average power transferred?d) What is the average power transferred to the resistor in (c)?vWiat is the difference between a real independent voltage source and an ideal independent voltage source? Give an example of a real voltage source and explain how it differs from the ideal.
- Consider two interconnected voltage sources connected by a line of impedance Z=jX, as shown in Figure 2.27. (a) Obtain expressions for P12 and Q12. (b) Determine the maximum power transfer and the condition for it toDraw FWR Vs=15Vrms Vrpp=.2v VDC=? R=5000hm F=60HZ C=?For the simple equivalent circuit of 0.017 m2 PV cell shown below, the reverse saturatoin current is I0= 4 * 10-11 A and at an insolation of 1-sun the short circuit current is Isc = 6.4 A. At 25 degrees C, find the following: a. The open circuit voltage b. The load current and the output power when the output voltage is V = 0.55 V c. The efficiency of the cell at V=0.55 V
- Please and thank youA 500 MVA synchronous machine has H, = 5.6 MJ/MVA and a 1200 MVA machine has H₂ = 2.0 MJ/MVA. The two machines operate in parallel in a power station. What is the equivalent. H constant for the two, relative to a 100 MVA base?Basic Electrical EngineeringDraw symbols of electrical components. Note: You may use both IEC and NEMA symbols. - Conductors crossing but not connected- Conductors crossing and connected - DC source other than battery- DC generator- AC voltage source- Ideal current source- Ideal Voltage Source- Current Controlled Current Source- Current Controlled Voltage Source- Voltage Controlled Current Source - Voltage Controlled Voltage Source
- A SERIES CIRCUIT CONSISTING OF AN 80- OHM RESISTOR, A 0.30 HENRY INDUCTOR AND A 50-uf (MICROFARAD) CAPACITOR IS CONNECTED TO A 120-VOLT 60+ CYCLE SOURCE C ALCULATE THE FOLLOWINC : (A.) EQUIVALENT IMPEDANC E OF THE CKT, (B.) CURRENT (c.) VOLTAGE DROPACROSS THE SEVERAL UNITS (D.) POWER AND POWER FACTOR,A series circuit consisting of a 50 – ohm resistor, 0.5 – henry inductor, and a 100 – microfarad capacitor is connected to a 110 – volt, 50 cycle source. Calculate the following: a.) TOTAL IMPEDANCE b.) CURRENT c.) VOLTAGE DROP ACROSS THE RESISTOR d.) VOLTAGE DROP ACROSS THE INDUCTOR e.) VOLTAGE DROP ACROSS THE CAPACITOR f.) AVERAGE POWER g.) APPARENT POWER h.) REACTIVE POWER i.) POWER FACTOR j.) POWER FACTOR ANGLE DRAW THE PHASOR DIAGRAM IF POSSIBLE AND ROUND OFF TO FOUR DECIMAL PLACES3. Find the equivalent resistance seen between the indicated nodes, in terms of R. The resistors that are in parallel let them be indicated as ()//() without making the complete calculation. a) Between nodes A and B. b) Between nodes F and G. c) Between nodes B AND E. d) Between nodes D AND F.