Transient Response
... function of time. When done, Simulation complete should appear in the lower left . A plot will be generated where the number of curves will be equal the number of voltage and current markers on the schematic. Note that the curve displayed in this example is not quite sinusoidal. ...
... function of time. When done, Simulation complete should appear in the lower left . A plot will be generated where the number of curves will be equal the number of voltage and current markers on the schematic. Note that the curve displayed in this example is not quite sinusoidal. ...
Using PSpice .TF command to find Thevenin`s equivalent circuit
... The way to find out Thevenin’s equivalent circuit as seen from the nodes 3 and 0 is to measure the open oc circuit voltage voc = v2 = V (3) and the short circuit current isc flowing from 3 to 0 . vT h = voc , RT h = visc The following PSpice code evaluates the open circuit voltage between 3 and 0 by ...
... The way to find out Thevenin’s equivalent circuit as seen from the nodes 3 and 0 is to measure the open oc circuit voltage voc = v2 = V (3) and the short circuit current isc flowing from 3 to 0 . vT h = voc , RT h = visc The following PSpice code evaluates the open circuit voltage between 3 and 0 by ...
Project Renovatio
... In order to step down the voltage from the battery packs to a low voltage of 12 V for the low voltage system, a DC to DC converter is required. Only a maximum of 150 W will be pulled by the low voltage system, and the DC to DC converter is able to handle 200 W. In order to ensure that each battery d ...
... In order to step down the voltage from the battery packs to a low voltage of 12 V for the low voltage system, a DC to DC converter is required. Only a maximum of 150 W will be pulled by the low voltage system, and the DC to DC converter is able to handle 200 W. In order to ensure that each battery d ...
Video Transcript - Rose
... The amplitude is 4.3368, then multiply by cosine of the same frequency, 2000 rad/s, with a phase angle of -12.53°. VL, based on Ohm’s Law, is I times the impedance. The impedance for the inductor is j 500 Ω. The amplitude is 0.4337, and the phase angle is 167.47°. VL in time domain should be 0.4337 ...
... The amplitude is 4.3368, then multiply by cosine of the same frequency, 2000 rad/s, with a phase angle of -12.53°. VL, based on Ohm’s Law, is I times the impedance. The impedance for the inductor is j 500 Ω. The amplitude is 0.4337, and the phase angle is 167.47°. VL in time domain should be 0.4337 ...
Multiple Choice MC1:You connect three capacitors as shown in the
... MC2: The capacitance of a parallel-plate capacitor is 24 mF when the plates are separated by a material of dielectric constant 2.0. If this material is removed, leaving air between the plates, and the separation between the plates is tripled, the capacitance is A) unchanged B) 16 mF C) 36 mF D) 0.14 ...
... MC2: The capacitance of a parallel-plate capacitor is 24 mF when the plates are separated by a material of dielectric constant 2.0. If this material is removed, leaving air between the plates, and the separation between the plates is tripled, the capacitance is A) unchanged B) 16 mF C) 36 mF D) 0.14 ...
View Poster
... switching a large power supply on and off at a musical frequency. The musical frequencies we are targeting exist between 20Hz and 1.2kHz, so up to 2,400 switches per second are required. To accomplish this we use a power transistor, a device designed to switch large power loads at high frequency. Su ...
... switching a large power supply on and off at a musical frequency. The musical frequencies we are targeting exist between 20Hz and 1.2kHz, so up to 2,400 switches per second are required. To accomplish this we use a power transistor, a device designed to switch large power loads at high frequency. Su ...
Capacitor Charger Worksheet - Schulz
... Maximum pulse width/minimum pulse width: These are important parameters for us. The flexibility of Reservoir Charging systems is that they permit the user to vary the pulse width. This is typically not possible in PFN systems. Max. repetition rate (f): This is information we need to make sure all ar ...
... Maximum pulse width/minimum pulse width: These are important parameters for us. The flexibility of Reservoir Charging systems is that they permit the user to vary the pulse width. This is typically not possible in PFN systems. Max. repetition rate (f): This is information we need to make sure all ar ...
Physics 536 - Assignment #2
... calculate the measured voltage, vmeasured in terms of vin , R and Z, assuming vin is a constant, ideal voltage source. (b) Draw the equivalent circuit if a 3 ft length of cable was treated as a single capacitor with C = 0.05 pF and calculate the time needed for the measured voltage to reach 90% of i ...
... calculate the measured voltage, vmeasured in terms of vin , R and Z, assuming vin is a constant, ideal voltage source. (b) Draw the equivalent circuit if a 3 ft length of cable was treated as a single capacitor with C = 0.05 pF and calculate the time needed for the measured voltage to reach 90% of i ...
PHYSICS Ohm`s Law and Power Calculations OHMS WS I
... car is turned off. The car battery will no longer operate when it has lost 1.2 x 106 J of energy. If Tyler gets out of the car and leaves the radio on by mistake, how long will it take for the car battery to go completely dead (that is, lose all energy)? 12. In your home the refrigerator is on 24 hr ...
... car is turned off. The car battery will no longer operate when it has lost 1.2 x 106 J of energy. If Tyler gets out of the car and leaves the radio on by mistake, how long will it take for the car battery to go completely dead (that is, lose all energy)? 12. In your home the refrigerator is on 24 hr ...
Power MOSFET
A power MOSFET is a specific type of metal oxide semiconductor field-effect transistor (MOSFET) designed to handle significant power levels.Compared to the other power semiconductor devices, for example an insulated-gate bipolar transistor (IGBT) or a thyristor, its main advantages are high commutation speed and good efficiency at low voltages. It shares with the IGBT an isolated gate that makes it easy to drive. They can be subject to low gain, sometimes to degree that the gate voltage needs to be higher than the voltage under control.The design of power MOSFETs was made possible by the evolution of CMOS technology, developed for manufacturing integrated circuits in the late 1970s. The power MOSFET shares its operating principle with its low-power counterpart, the lateral MOSFET.The power MOSFET is the most widely used low-voltage (that is, less than 200 V) switch. It can be found in most power supplies, DC to DC converters, and low voltage motor controllers.