DEHRADUN INSTITUTE OF TECHNOLOGY Assignment:-3 DEPARTMENT OF ELECTRICAL ENGINEERING
... 1. Prove that in case of a single phase transformer emf per turn is constant. Also draw the phasor diagram at leading, lagging and unity power factor. 2. Develop the equivalent circuit of transformer referred to (i) primary side (ii) secondary side. 3. Explain why the rating of a transformer is spec ...
... 1. Prove that in case of a single phase transformer emf per turn is constant. Also draw the phasor diagram at leading, lagging and unity power factor. 2. Develop the equivalent circuit of transformer referred to (i) primary side (ii) secondary side. 3. Explain why the rating of a transformer is spec ...
Introduction
... conductors where one end of the chain is connected to the other • Circuit + voltage will generate current • Non perfect conductors resist the current and slow it – those are resistors ...
... conductors where one end of the chain is connected to the other • Circuit + voltage will generate current • Non perfect conductors resist the current and slow it – those are resistors ...
SW1/SW2 - Mega El
... If the input voltage falls below the cutout threshold, the relay cuts out again. A manual control facility with feedback function (mode 1) is incorporated for servicing purposes. The module can be operated in two modes which can be selected by the three-position switch(Auto, 0, 1). ...
... If the input voltage falls below the cutout threshold, the relay cuts out again. A manual control facility with feedback function (mode 1) is incorporated for servicing purposes. The module can be operated in two modes which can be selected by the three-position switch(Auto, 0, 1). ...
Designing to Protect MAX2140`s Internal ESD
... During a hot-plug event, voltage drops (shown as red arrows on the drawing) will accrue on the interface cables. Simultaneously, the bypass capacitor inside the antenna module acts as an electrical short. As a result, the MAX2140's electrical ground rises above the electrical ground of the antenna ...
... During a hot-plug event, voltage drops (shown as red arrows on the drawing) will accrue on the interface cables. Simultaneously, the bypass capacitor inside the antenna module acts as an electrical short. As a result, the MAX2140's electrical ground rises above the electrical ground of the antenna ...
How to measure hight voltage on your survey meter
... The Fluke 80K-40 is a ONE GigaOhm resistance probe that when used in combination with your Multimeter allows the measurement of High Voltages at a 1000 to 1 ratio with excellent accuracy. This is the perfect item to measure the HV on your Survey Meter or other low energy High Voltage devices. Don’t ...
... The Fluke 80K-40 is a ONE GigaOhm resistance probe that when used in combination with your Multimeter allows the measurement of High Voltages at a 1000 to 1 ratio with excellent accuracy. This is the perfect item to measure the HV on your Survey Meter or other low energy High Voltage devices. Don’t ...
auirs4427s - Infineon Technologies
... products and services at any time and to discontinue any product or services without notice. Part numbers designated with the “AU” prefix follow automotive industry and / or customer specific requirements with regards to product discontinuance and process change notification. All products are sold s ...
... products and services at any time and to discontinue any product or services without notice. Part numbers designated with the “AU” prefix follow automotive industry and / or customer specific requirements with regards to product discontinuance and process change notification. All products are sold s ...
Electronic transformer for a 12V halogen lamp
... The control circuit could be realised using an IC (so fixing the operating frequency), but there is a more economical solution which consists of a selfoscillating circuit where the two transistors are driven in opposing phase by feedback from the output circuit. 3. CIRCUIT DESCRIPTION The line volta ...
... The control circuit could be realised using an IC (so fixing the operating frequency), but there is a more economical solution which consists of a selfoscillating circuit where the two transistors are driven in opposing phase by feedback from the output circuit. 3. CIRCUIT DESCRIPTION The line volta ...
ING L3 Hi Voltage Clock Card
... the normal way. No signals are obtained from the backplane, only 5V and +/-16V power as well as ground. Signals are fed to and from the card via a 9 way D connector on the front of the card. There is also the option to make the ground connection through this connector instead of the backplane by dis ...
... the normal way. No signals are obtained from the backplane, only 5V and +/-16V power as well as ground. Signals are fed to and from the card via a 9 way D connector on the front of the card. There is also the option to make the ground connection through this connector instead of the backplane by dis ...
UPS 7000HX-T3U 300, 400, and 500kVA
... UPS equipped with our own patented components for optimal performance when it counts the most. ...
... UPS equipped with our own patented components for optimal performance when it counts the most. ...
BASIC ELECTRICAL TECHNOLOGY (ELE 101/102)
... (i) Values of ‘r’ and ‘L’, (ii) Voltage across the coil. For the network shown in Fig. Q3B, obtain the equivalent impedance across the terminals A and B. With reference to Fig. Q3C, calculate value of inductance so that the circuit resonates at supply frequency. A 3 phase, RYB sequence, 400V supply ...
... (i) Values of ‘r’ and ‘L’, (ii) Voltage across the coil. For the network shown in Fig. Q3B, obtain the equivalent impedance across the terminals A and B. With reference to Fig. Q3C, calculate value of inductance so that the circuit resonates at supply frequency. A 3 phase, RYB sequence, 400V supply ...
Motorcycle Battery Level Indicator
... tremendous influence of LEDs. I really had to dig through my junk to locate two incandescent indictors. Fuse protection (no fuse required) I opted to make it short-circuit proof by adding a resistor in series with the positive rail of U1. As a result, even if the IC shorts (as they sometimes do), R8 ...
... tremendous influence of LEDs. I really had to dig through my junk to locate two incandescent indictors. Fuse protection (no fuse required) I opted to make it short-circuit proof by adding a resistor in series with the positive rail of U1. As a result, even if the IC shorts (as they sometimes do), R8 ...
power transmission activity
... 12. Be sure the frequency of the generator is set to 6.0 rotations per minute. Watch the wire loop rotating in the magnetic field and follow how it corresponds to the induced emf (U) by following the needle of the voltmeter and the moving blue dot on the graph. a) Label on the graph above two spots ...
... 12. Be sure the frequency of the generator is set to 6.0 rotations per minute. Watch the wire loop rotating in the magnetic field and follow how it corresponds to the induced emf (U) by following the needle of the voltmeter and the moving blue dot on the graph. a) Label on the graph above two spots ...
Current Intensity, Potential Difference and Ohm`s law
... In this circuit, when the current intensity is 4 A, the maximum voltage drop due to the resistance of the wire is 1.32 V. What resistance value in the wire causes this voltage drop? A) 0.053 Ω B) 0.33 Ω C) 3.03 Ω D) 5.28 Ω 20. How much time elapsed in hours if a TV used 50 000 J of energy and needs ...
... In this circuit, when the current intensity is 4 A, the maximum voltage drop due to the resistance of the wire is 1.32 V. What resistance value in the wire causes this voltage drop? A) 0.053 Ω B) 0.33 Ω C) 3.03 Ω D) 5.28 Ω 20. How much time elapsed in hours if a TV used 50 000 J of energy and needs ...
E1UM230V01 AC/DC voltage monitoring in 1
... (in accordance with IEC 60721-3-3 class 3K3) 2 (in accordance with IEC 60664-1) ...
... (in accordance with IEC 60721-3-3 class 3K3) 2 (in accordance with IEC 60664-1) ...
File
... order to protect other loads in the circuit. They are usually made from a ceramic core that is coated with a metal, a metal oxide, a metal film or wire. ...
... order to protect other loads in the circuit. They are usually made from a ceramic core that is coated with a metal, a metal oxide, a metal film or wire. ...
Multi-Transistor Circuits: Current Mirror and Differential Pair Phys 3610/6610 Lab 20 Student: TA:
... Two of the transistors on your CA 3046 are to be connected as an emitter-coupled or differential pair, and another two or three will be used to form a current mirror to supply the emitter current. Use the +5 V and the -12 V supplies, as it would exceed the collector substrate rating to use the ±12 V ...
... Two of the transistors on your CA 3046 are to be connected as an emitter-coupled or differential pair, and another two or three will be used to form a current mirror to supply the emitter current. Use the +5 V and the -12 V supplies, as it would exceed the collector substrate rating to use the ±12 V ...
Importance of DC-DC Transformation in Grids of the Future
... 1. High MW ratings(> 1,000 MW) 2. Efficiency comparable to VSC bridges 3. Power flow proportional to ∆(V1/V2) without need for a power control signal 4. Ability to control flow as an AC transformer does through tap changes 5. Ability for bidirectional flow ...
... 1. High MW ratings(> 1,000 MW) 2. Efficiency comparable to VSC bridges 3. Power flow proportional to ∆(V1/V2) without need for a power control signal 4. Ability to control flow as an AC transformer does through tap changes 5. Ability for bidirectional flow ...
Rectifier
A rectifier is an electrical device that converts alternating current (AC), which periodically reverses direction, to direct current (DC), which flows in only one direction. The process is known as rectification. Physically, rectifiers take a number of forms, including vacuum tube diodes, mercury-arc valves, copper and selenium oxide rectifiers, semiconductor diodes, silicon-controlled rectifiers and other silicon-based semiconductor switches. Historically, even synchronous electromechanical switches and motors have been used. Early radio receivers, called crystal radios, used a ""cat's whisker"" of fine wire pressing on a crystal of galena (lead sulfide) to serve as a point-contact rectifier or ""crystal detector"".Rectifiers have many uses, but are often found serving as components of DC power supplies and high-voltage direct current power transmission systems. Rectification may serve in roles other than to generate direct current for use as a source of power. As noted, detectors of radio signals serve as rectifiers. In gas heating systems flame rectification is used to detect presence of a flame.Because of the alternating nature of the input AC sine wave, the process of rectification alone produces a DC current that, though unidirectional, consists of pulses of current. Many applications of rectifiers, such as power supplies for radio, television and computer equipment, require a steady constant DC current (as would be produced by a battery). In these applications the output of the rectifier is smoothed by an electronic filter (usually a capacitor) to produce a steady current.More complex circuitry that performs the opposite function, converting DC to AC, is called an inverter.