Course code……EL-212…... Course title… Electrical Network
... This lab gives the foundation on which most other courses in electrical engineering curriculum rest. Subject areas included are, AC circuit quantities, AC voltage and currents, Phase measurements, Phase Shifters, AC bridges, Capacitance Multiplier, Oscillators, Kirchhoff’s Laws, Power factor Measure ...
... This lab gives the foundation on which most other courses in electrical engineering curriculum rest. Subject areas included are, AC circuit quantities, AC voltage and currents, Phase measurements, Phase Shifters, AC bridges, Capacitance Multiplier, Oscillators, Kirchhoff’s Laws, Power factor Measure ...
Analog Electronics
... Power Supplies - Power suppplies convert one energy source to another. Whether it is converting AC to DC, one voltage DC to another voltage DC, or DC to AC. before takiing this course it is suggested you take the more basic DC, AC, Basic Components lessons and can read and write a schematic with goo ...
... Power Supplies - Power suppplies convert one energy source to another. Whether it is converting AC to DC, one voltage DC to another voltage DC, or DC to AC. before takiing this course it is suggested you take the more basic DC, AC, Basic Components lessons and can read and write a schematic with goo ...
Resistance Resistivity and Conductivity
... Ohm’s Law: when the current through a device is proportional to the voltage applied across the device. When the resistance of the device is independent of the voltage across it. A material obeys Ohm’s law when the resistivity of the material is independent of the applied magnetic field. ...
... Ohm’s Law: when the current through a device is proportional to the voltage applied across the device. When the resistance of the device is independent of the voltage across it. A material obeys Ohm’s law when the resistivity of the material is independent of the applied magnetic field. ...
Wednesday- Circuits
... • Voltage causes a current in an electric circuit. • Voltage is the difference in electrical potential energy between two places in a circuit. The unit of measure of voltage is the volt (V). • The energy that makes charges flow through a circuit is called electrical potential energy. • An electric c ...
... • Voltage causes a current in an electric circuit. • Voltage is the difference in electrical potential energy between two places in a circuit. The unit of measure of voltage is the volt (V). • The energy that makes charges flow through a circuit is called electrical potential energy. • An electric c ...
Project and PCB making Workshop
... buy the components from the shop where they are much cheaper. Assemble the circuit on breadboard. If the circuit is working properly then proceed to next step. Make PCB layout for this circuit. PCB layout should be compact, so use datasheets of the components. ...
... buy the components from the shop where they are much cheaper. Assemble the circuit on breadboard. If the circuit is working properly then proceed to next step. Make PCB layout for this circuit. PCB layout should be compact, so use datasheets of the components. ...
Circuits Unit 4(F) Year-pg1
... non-metals to their use in electrical appliances and systematically investigate the effect of changing components in a circuit on the brightness of bulbs ...
... non-metals to their use in electrical appliances and systematically investigate the effect of changing components in a circuit on the brightness of bulbs ...
Here we have five circuit connections, and we want to... for some reason.
... Here we have five circuit connections, and we want to determine which might be invalid, for some reason. For the first circuit, 1 A is sent through a resistor. This is fine. The second circuit has two different currents joining at the top node to form a current of 3 A, which flows through the resist ...
... Here we have five circuit connections, and we want to determine which might be invalid, for some reason. For the first circuit, 1 A is sent through a resistor. This is fine. The second circuit has two different currents joining at the top node to form a current of 3 A, which flows through the resist ...
Model neurons
... Capacitor! A capacitor stores charge across an insulating medium, and the voltage across it VC=V1"V2 is related to the charge it stores QC by CVC = QC where C is the capacitance. ! Electrical current cannot cross the insulating medium, but charges can be redistributed on each side of the capacitor, ...
... Capacitor! A capacitor stores charge across an insulating medium, and the voltage across it VC=V1"V2 is related to the charge it stores QC by CVC = QC where C is the capacitance. ! Electrical current cannot cross the insulating medium, but charges can be redistributed on each side of the capacitor, ...
Series-Parallel DC Circuits - benchmark
... A combination circuit makes it possible to obtain the different voltages of a series circuit and the different currents of a parallel circuit. Simple combination circuits are of two types. 1. A parallel-series circuit in which one or more groups of resistances in series are connected in parallel ...
... A combination circuit makes it possible to obtain the different voltages of a series circuit and the different currents of a parallel circuit. Simple combination circuits are of two types. 1. A parallel-series circuit in which one or more groups of resistances in series are connected in parallel ...
Time Response of RC Circuits
... If the resistor value is halved and the capacitor value doubled in circuit (i), predict how the voltage step response will change. Explain your prediction. Check with PSpice. If resistance is increased in circuit (ii), predict how the voltage step response will change. How will the effect of an incr ...
... If the resistor value is halved and the capacitor value doubled in circuit (i), predict how the voltage step response will change. Explain your prediction. Check with PSpice. If resistance is increased in circuit (ii), predict how the voltage step response will change. How will the effect of an incr ...
STATE UNIVERSITY OF NEW YORK COLLEGE OF TECHNOLOGY CANTON, NEW YORK
... ACTIVITY: 3- Hours Lecture and 3- Hours Lab H. CATALOG DESCRIPTION: Basic theory and circuit applications of silicon, germanium, zener, light emitting (LED) and Schottky diodes, bipolar and field effect transistors (FET) is presented. The student is introduced to half wave and full wave DC power s ...
... ACTIVITY: 3- Hours Lecture and 3- Hours Lab H. CATALOG DESCRIPTION: Basic theory and circuit applications of silicon, germanium, zener, light emitting (LED) and Schottky diodes, bipolar and field effect transistors (FET) is presented. The student is introduced to half wave and full wave DC power s ...
Electricity Packet
... Review the proper method of connecting an ammeter in a circuit. Connecting it incorrectly may result in broken equipment. Measure the current flowing out of the battery, and after each resistor. (Like with the last lab, this may require rearranging the circuit with different wires. Make sure you are ...
... Review the proper method of connecting an ammeter in a circuit. Connecting it incorrectly may result in broken equipment. Measure the current flowing out of the battery, and after each resistor. (Like with the last lab, this may require rearranging the circuit with different wires. Make sure you are ...
Flexible electronics
Flexible electronics, also known as flex circuits, is a technology for assembling electronic circuits by mounting electronic devices on flexible plastic substrates, such as polyimide, PEEK or transparent conductive polyester film. Additionally, flex circuits can be screen printed silver circuits on polyester. Flexible electronic assemblies may be manufactured using identical components used for rigid printed circuit boards, allowing the board to conform to a desired shape, or to flex during its use.