Experiment #3: Diode AND gate
... b. Determine the maximum input current. 3. Determine the differences between the diodes. a. Click on D1N4002 in the PSpice simulation, causing the part to be highlighted in red. b. Select EDIT/MODEL c. In the pop-up window that opens, select EDIT INSTANCE MODEL (Text). d. Scroll through the paramete ...
... b. Determine the maximum input current. 3. Determine the differences between the diodes. a. Click on D1N4002 in the PSpice simulation, causing the part to be highlighted in red. b. Select EDIT/MODEL c. In the pop-up window that opens, select EDIT INSTANCE MODEL (Text). d. Scroll through the paramete ...
open saved file with Word to simulate
... 0 volts and off. Set the volt meter (XMM1) to the 20 volts range. Set the amp meter (ammeter) (XMM2) to the 200 mA range. Prepare to record the voltage across the resistor and the resulting current through the resistor as the voltage source is set to various values. The set of recorded values will b ...
... 0 volts and off. Set the volt meter (XMM1) to the 20 volts range. Set the amp meter (ammeter) (XMM2) to the 200 mA range. Prepare to record the voltage across the resistor and the resulting current through the resistor as the voltage source is set to various values. The set of recorded values will b ...
Dual, Bootstrapped, 12 V MOSFET Driver with Output Disable ADP3650
... RBST value of 1.5 Ω to 2.2 Ω is a good choice. The resistor needs to handle at least 250 mW due to the peak currents that flow through it. ...
... RBST value of 1.5 Ω to 2.2 Ω is a good choice. The resistor needs to handle at least 250 mW due to the peak currents that flow through it. ...
Lab Guide - inst.eecs.berkeley.edu - University of California, Berkeley
... 1. First, calculate the value of the series resistor RS to control current through the LED diodes. RS is chosen such that the voltage (VCC-VDIODE) across RS results in a limited but sufficient current IDIODE through itself and the diodes. The design formula is RS = (VCC-VDIODE)/IDIODE. Use IDIODE=10 ...
... 1. First, calculate the value of the series resistor RS to control current through the LED diodes. RS is chosen such that the voltage (VCC-VDIODE) across RS results in a limited but sufficient current IDIODE through itself and the diodes. The design formula is RS = (VCC-VDIODE)/IDIODE. Use IDIODE=10 ...
TRANSIENT RESPONSE OF A WIND ENERGY CONVERSION
... simultaneously as an active filter and power generator. This study is intended to address the system response to two types of transient phenomena: voltage dips (fast transients) and wind speed variations (slow transients). The system response to voltage dips is governed by the electrical system dyna ...
... simultaneously as an active filter and power generator. This study is intended to address the system response to two types of transient phenomena: voltage dips (fast transients) and wind speed variations (slow transients). The system response to voltage dips is governed by the electrical system dyna ...
Advance Matlab - Ascent Softech
... Single pulse rectifier consisting of a Diode, an RL load and an AC Voltage source.Single pulse thyristor rectifier is used to feed an RL load.Ideal Switch to switch an RLC circuit on an AC source. Use of the MOSFET in a zero-current quasi-resonant switch converter ...
... Single pulse rectifier consisting of a Diode, an RL load and an AC Voltage source.Single pulse thyristor rectifier is used to feed an RL load.Ideal Switch to switch an RLC circuit on an AC source. Use of the MOSFET in a zero-current quasi-resonant switch converter ...
SB320 - SB3100 Schottky Rectifiers
... 3.0 ampere operation at TA = 75°C with no thermal runaway. ...
... 3.0 ampere operation at TA = 75°C with no thermal runaway. ...
Integrated Design
... as shown in the following diagram to trigger a timer1 event. In our case, we connected a trimpot in place of R4 to fine tune the capacitance meter for accuracy. Since R2 will be known, we can get C because the voltage on the capacitor, v(t)=Vcc(1-exp(-t/τ)) with τ=(R2)*C. We used an analog DEMUX to ...
... as shown in the following diagram to trigger a timer1 event. In our case, we connected a trimpot in place of R4 to fine tune the capacitance meter for accuracy. Since R2 will be known, we can get C because the voltage on the capacitor, v(t)=Vcc(1-exp(-t/τ)) with τ=(R2)*C. We used an analog DEMUX to ...
BAŞKENT UNIVERSITY
... 4.1 What is the relation between Rg and RL ,which maximize the PL, in experiment 3.2 4.2 Where can you use the concept that you found in 4.1. ...
... 4.1 What is the relation between Rg and RL ,which maximize the PL, in experiment 3.2 4.2 Where can you use the concept that you found in 4.1. ...
Electronics
... Which of the following combinations of a cell, an ideal diode and a resistor will give the above I-V relationship, where I and V are the applied current and voltage respectively? ...
... Which of the following combinations of a cell, an ideal diode and a resistor will give the above I-V relationship, where I and V are the applied current and voltage respectively? ...
ECE 332 Lab 1 Experiment with Common Source Amplifier with Degeneration
... d. Multi-meter Common Source Amplifier Circuit: The circuit to be experimented in this la b is shown in Figure 1. The circuit bias is set in such a way that output DC voltage is half of Vdd. The required input DC bias is 4V ish. You need to build the circuit on a bread board and perform the required ...
... d. Multi-meter Common Source Amplifier Circuit: The circuit to be experimented in this la b is shown in Figure 1. The circuit bias is set in such a way that output DC voltage is half of Vdd. The required input DC bias is 4V ish. You need to build the circuit on a bread board and perform the required ...
Minimum Energy Sub-Threshold CMOS Operation Given Yield
... - To meet a given yield requirement should you (a) increase the voltage of your subthreshold circuit's power supply, (b) increase the size of its transistors, or (c) use a combination of both? ...
... - To meet a given yield requirement should you (a) increase the voltage of your subthreshold circuit's power supply, (b) increase the size of its transistors, or (c) use a combination of both? ...
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.