Simulation Using WinSPICE - Lane Department of Computer
... • Perform a transient analysis for 100nsec (100e-9 seconds) with a step increment of 1nsec ...
... • Perform a transient analysis for 100nsec (100e-9 seconds) with a step increment of 1nsec ...
PHE-10
... We hope you are familiar with the system of evaluation to be followed for the Bachelor’s Degree Programme. At this stage you may probably like to re-read the section on assignments in the Programme Guide for Elective Courses that we sent you after your enrolment. A weightage of 30 per cent, as you a ...
... We hope you are familiar with the system of evaluation to be followed for the Bachelor’s Degree Programme. At this stage you may probably like to re-read the section on assignments in the Programme Guide for Elective Courses that we sent you after your enrolment. A weightage of 30 per cent, as you a ...
Example 17 Use current division to determine the current i through
... In this problem, we are trying to find the current i through the 7 kΩ resistor using current division. Let’s consider this circuit, the source current 10 mA is divided into two branch currents i1 and i 2 . And then i 2 is divided by the two parallel branches. If we can find i 2 , we might use curren ...
... In this problem, we are trying to find the current i through the 7 kΩ resistor using current division. Let’s consider this circuit, the source current 10 mA is divided into two branch currents i1 and i 2 . And then i 2 is divided by the two parallel branches. If we can find i 2 , we might use curren ...
Lab 2
... Diode as a Rectifier (AC Characteristics) 2.7 Diodes are commonly used for converting an AC signal to a DC signal (rectification). Build the circuit below. Use a 1 kHz signal at the input with a peak-to-peak amplitude of 2 volts and zero DC offset. Using the oscilloscope, find the shape of the wave ...
... Diode as a Rectifier (AC Characteristics) 2.7 Diodes are commonly used for converting an AC signal to a DC signal (rectification). Build the circuit below. Use a 1 kHz signal at the input with a peak-to-peak amplitude of 2 volts and zero DC offset. Using the oscilloscope, find the shape of the wave ...
Slajd 1
... all the blocks of the device responsible for regulation of the output voltage and the input current of the device as well as the overvoltage protection circuit. The model can be useful for designers of power supply systems, especially such systems with the PFC circuit. In spite of the fact that the ...
... all the blocks of the device responsible for regulation of the output voltage and the input current of the device as well as the overvoltage protection circuit. The model can be useful for designers of power supply systems, especially such systems with the PFC circuit. In spite of the fact that the ...
Intro to circuits
... • Voltage is the pull on the charge as it moves around the circuit. • The unfortunately named Electromotive Force (EMF) is equivalent to voltage. • It was thought at one point that there is a ‘force’ that pushes the current around the circuit. This ‘force’ is actually a voltage, not a force. ...
... • Voltage is the pull on the charge as it moves around the circuit. • The unfortunately named Electromotive Force (EMF) is equivalent to voltage. • It was thought at one point that there is a ‘force’ that pushes the current around the circuit. This ‘force’ is actually a voltage, not a force. ...
D to A Converter R2R reduction
... At right is the diagram of a binary counter with an R2R network connected to 3 of the Q O/Ps (Q1 pin 9, Q2 pin 8 and Q3 pin 11 of the chip). This changes the circuit into a Digital to Analog (D to A) converter. The resistor values are twice (or ½ ) the size of each other, hence the name R2R. The R2R ...
... At right is the diagram of a binary counter with an R2R network connected to 3 of the Q O/Ps (Q1 pin 9, Q2 pin 8 and Q3 pin 11 of the chip). This changes the circuit into a Digital to Analog (D to A) converter. The resistor values are twice (or ½ ) the size of each other, hence the name R2R. The R2R ...
Source Transformation
... source in series with a resistor to a current source in parallel with resistor. ...
... source in series with a resistor to a current source in parallel with resistor. ...
“1”. - Peter Eggington
... the logical states (Boolean 0 or 1) of a digital circuit. There are usually three different coloured LEDs on the probe's chassis; • A RED and GREEN LED indicate high and low states respectively • An AMBER LED indicates a pulse ...
... the logical states (Boolean 0 or 1) of a digital circuit. There are usually three different coloured LEDs on the probe's chassis; • A RED and GREEN LED indicate high and low states respectively • An AMBER LED indicates a pulse ...
Network analysis (electrical circuits)
A network, in the context of electronics, is a collection of interconnected components. Network analysis is the process of finding the voltages across, and the currents through, every component in the network. There are many different techniques for calculating these values. However, for the most part, the applied technique assumes that the components of the network are all linear.The methods described in this article are only applicable to linear network analysis, except where explicitly stated.