1. 1 cm solar cell consists of a p
... 2. Use SimWindows to calculate the current of the diode described in problem 1 (without light) at 0.1, 0.2, 0.3, 0.4, 0.5, 0.6 and 0.7 Volt. Plot the current on a semi-logarithmic scale and extract the saturation current as well as the ideality factor of the diode. Calculate the ideal diode current ...
... 2. Use SimWindows to calculate the current of the diode described in problem 1 (without light) at 0.1, 0.2, 0.3, 0.4, 0.5, 0.6 and 0.7 Volt. Plot the current on a semi-logarithmic scale and extract the saturation current as well as the ideality factor of the diode. Calculate the ideal diode current ...
Kirchhoff`s Rules - Haiku for Ignatius
... 1st: current rule = since there are no junctions this means that the Current, I, never changes. So we only have one current. 2nd: voltage rule = the voltage inputs and decreases must add up to zero! To do this, one must make a trip around the circuit counting voltage inputs and voltage drops. You ca ...
... 1st: current rule = since there are no junctions this means that the Current, I, never changes. So we only have one current. 2nd: voltage rule = the voltage inputs and decreases must add up to zero! To do this, one must make a trip around the circuit counting voltage inputs and voltage drops. You ca ...
Energy scavenging power sources for household electrical monitoring Eli S. Leland
... circumferentially around the wire using the “right-hand rule.” Equation (1) shows that the magnetic field intensity is directly proportional to the current in the wire and inversely proportional to the distance from the wire. For a wire carrying an alternating current, the intensity and direction of ...
... circumferentially around the wire using the “right-hand rule.” Equation (1) shows that the magnetic field intensity is directly proportional to the current in the wire and inversely proportional to the distance from the wire. For a wire carrying an alternating current, the intensity and direction of ...
Electrical Principles and Wiring Materials
... Three Phase – designed especially for large electrical loads. More expensive due to three wires and three transformers. Advantage is that the load is divided among the three phases and design for three-phase motors. ...
... Three Phase – designed especially for large electrical loads. More expensive due to three wires and three transformers. Advantage is that the load is divided among the three phases and design for three-phase motors. ...
Lab 1: Current, Voltage, Resistance
... make a measurement you want to make sure the measuring device, in this case an ammeter, does not effect the actual measurement. When measuring current the internal resistance of the meter is very nearly zero ohms. This makes sense because you wish to measure all the current ...
... make a measurement you want to make sure the measuring device, in this case an ammeter, does not effect the actual measurement. When measuring current the internal resistance of the meter is very nearly zero ohms. This makes sense because you wish to measure all the current ...
RL circuit
... Flux through coil 2 is directly proportional to current in coil 1 if both coils are in vacuum Mutual inductance only depends on geometry of coils and the orientation of the coils to each other Mutual inductance is also the same for the case when coil 2 carries the current and induces a current in co ...
... Flux through coil 2 is directly proportional to current in coil 1 if both coils are in vacuum Mutual inductance only depends on geometry of coils and the orientation of the coils to each other Mutual inductance is also the same for the case when coil 2 carries the current and induces a current in co ...
PNIMNiPE_nr56
... The alternator is a common equipment of the all today automobiles. Their are used not only on small cars but also in agricultural engineering, structural engineering, stationary generators, etc. They are produced in a variety of power and voltage levels and generally are always examined from many po ...
... The alternator is a common equipment of the all today automobiles. Their are used not only on small cars but also in agricultural engineering, structural engineering, stationary generators, etc. They are produced in a variety of power and voltage levels and generally are always examined from many po ...
Galvanometer
A galvanometer is a type of sensitive ammeter: an instrument for detecting electric current. It is an analog electromechanical actuator that produces a rotary deflection of some type of pointer in response to electric current through its coil in a magnetic field.Galvanometers were the first instruments used to detect and measure electric currents. Sensitive galvanometers were used to detect signals from long submarine cables, and to discover the electrical activity of the heart and brain. Some galvanometers use a solid pointer on a scale to show measurements; other very sensitive types use a miniature mirror and a beam of light to provide mechanical amplification of low-level signals. Initially a laboratory instrument relying on the Earth's own magnetic field to provide restoring force for the pointer, galvanometers were developed into compact, rugged, sensitive portable instruments essential to the development of electrotechnology. A type of galvanometer that records measurements permanently is the chart recorder. The term has expanded to include use of the same mechanism in recording, positioning, and servomechanism equipment.