J S U N I L T U... CLASS 10TH Numerical on Current Electricity
... Q. 8. Three resistors 3,4,5 ohms are joined in parallel in a circuit. If a current of 150 mA=150×10 A flows through the resistor of 4 ohms, then find the values of the current in mA which will be flowing in other two resistors? Q. 9. A wire of length 2cm having resistance R is stretched to have an i ...
... Q. 8. Three resistors 3,4,5 ohms are joined in parallel in a circuit. If a current of 150 mA=150×10 A flows through the resistor of 4 ohms, then find the values of the current in mA which will be flowing in other two resistors? Q. 9. A wire of length 2cm having resistance R is stretched to have an i ...
Theory - Transmission line II
... The phasor diagram (Fig. 6) is constructed using load current IR as reference phasor. If the load is operating at a lagging power factor the phasor representing the receiving end voltage VR is drawn leading the current phasor by an angle ∅R (the cosine of which represents the load power factor). Th ...
... The phasor diagram (Fig. 6) is constructed using load current IR as reference phasor. If the load is operating at a lagging power factor the phasor representing the receiving end voltage VR is drawn leading the current phasor by an angle ∅R (the cosine of which represents the load power factor). Th ...
Chapter 11 Review
... 15. A positive charge will repel a (positive charge, negative charge). 16. An instrument that is used to detect charges is a(n) (voltmeter, ammeter, electroscope). 17. An example of a good conductor is (copper, glass, wood). 18. Lightning occurs as a result of a discharge of (resistance, static char ...
... 15. A positive charge will repel a (positive charge, negative charge). 16. An instrument that is used to detect charges is a(n) (voltmeter, ammeter, electroscope). 17. An example of a good conductor is (copper, glass, wood). 18. Lightning occurs as a result of a discharge of (resistance, static char ...
500W Subwoofer Power Amplifier (Updated)
... similar to many of my other designs, but with a higher value than normal for the "emitter" resistors (R16, R17). The voltage across these resistors is then used to provide base current for the main output devices, which operate in full Class-B. In some respects, this is a "poor-man's" version of the ...
... similar to many of my other designs, but with a higher value than normal for the "emitter" resistors (R16, R17). The voltage across these resistors is then used to provide base current for the main output devices, which operate in full Class-B. In some respects, this is a "poor-man's" version of the ...
FSTU32160 16-Bit to 32-Bit Multiplexer/Demultiplexer Bus Switch with 2V Undershoot Protection
... both. The A and B Ports have “undershoot hardened” circuit protection to support an extended range to 2.0V below ground. Fairchild’s integrated Undershoot Hardened Circuit (UHC®) senses undershoot at the I/O’s, and responds by preventing voltage differentials from developing and turning on the switc ...
... both. The A and B Ports have “undershoot hardened” circuit protection to support an extended range to 2.0V below ground. Fairchild’s integrated Undershoot Hardened Circuit (UHC®) senses undershoot at the I/O’s, and responds by preventing voltage differentials from developing and turning on the switc ...
Document
... A slight problem: current (I) flows from positive to negative. The electrons are going the other way. The electric field also goes from the positive end of the wire to the negative end of the wire. ...
... A slight problem: current (I) flows from positive to negative. The electrons are going the other way. The electric field also goes from the positive end of the wire to the negative end of the wire. ...
BDTIC
... Larger values for RL will reduce the current IQ and therefore the power consumption. If the resistor RL is very large (>100 kΩ) a capacitor (app. 10pF) between Output and GND pin could be useful if capacitive coupled noise occurs. The load at the output Q should have a large input resistance to redu ...
... Larger values for RL will reduce the current IQ and therefore the power consumption. If the resistor RL is very large (>100 kΩ) a capacitor (app. 10pF) between Output and GND pin could be useful if capacitive coupled noise occurs. The load at the output Q should have a large input resistance to redu ...
Simulation of Active Power Factor Correction Using Boost Type
... Figure 12: Output voltage (197V) With Boost Converter The figure 13 shows that the Power Factor is 0.975 which is improved from Conventional model. ...
... Figure 12: Output voltage (197V) With Boost Converter The figure 13 shows that the Power Factor is 0.975 which is improved from Conventional model. ...
Enhancement-mode MOSFET
... Transistor available whose Gate input is electrically insulated from the main current carrying channel and is therefore called an Insulated Gate Field Effect Transistor or IGFET. The most common type of insulated gate FET which is used in many different types of electronic circuits is called the Met ...
... Transistor available whose Gate input is electrically insulated from the main current carrying channel and is therefore called an Insulated Gate Field Effect Transistor or IGFET. The most common type of insulated gate FET which is used in many different types of electronic circuits is called the Met ...
Lecture 4: Methods of Analysis
... • Write KCL at the nodes where the unknown voltages exist • Now, plug into these KCL equations with the unknown voltages, remembering how Ohm’s Law works. In this case, I = (VH – VL)/R, because we are writing voltages for nodes, not just resistors. Since current flows from a higher potential to a lo ...
... • Write KCL at the nodes where the unknown voltages exist • Now, plug into these KCL equations with the unknown voltages, remembering how Ohm’s Law works. In this case, I = (VH – VL)/R, because we are writing voltages for nodes, not just resistors. Since current flows from a higher potential to a lo ...
CHAPTER 3 ELEC REVIEW KEY
... A 22 kΩ resistor with a 5% tolerance may have a variation in resistance that is __________ a 47 kΩ resistor with a 2% tolerance. a) b) c) d) ...
... A 22 kΩ resistor with a 5% tolerance may have a variation in resistance that is __________ a 47 kΩ resistor with a 2% tolerance. a) b) c) d) ...
LM193/LM293/LM393/LM2903 Low Power Low Offset Voltage Dual
... provided to prevent the input voltages from going negative more than b0.3 VDC (at 25§ C). An input clamp diode can be used as shown in the applications section. The output of the LM193 series is the uncommitted collector of a grounded-emitter NPN output transistor. Many collectors can be tied togeth ...
... provided to prevent the input voltages from going negative more than b0.3 VDC (at 25§ C). An input clamp diode can be used as shown in the applications section. The output of the LM193 series is the uncommitted collector of a grounded-emitter NPN output transistor. Many collectors can be tied togeth ...