Diodes
... Measure the voltage-current characteristic of a standard signal diode, the 1N914, using the circuit shown below. The purpose of the back-to-back power supplies is to make it easy to make measurements near zero supply voltage. Plot the V-I characteristic on graph paper to show the rapid rise in forwa ...
... Measure the voltage-current characteristic of a standard signal diode, the 1N914, using the circuit shown below. The purpose of the back-to-back power supplies is to make it easy to make measurements near zero supply voltage. Plot the V-I characteristic on graph paper to show the rapid rise in forwa ...
Circuits - University of Colorado Boulder
... The old formula P = IV works OK with AC quantities if we use Pavg , Irms , and Vrms. All the old DC formulas, V = IR , P = IV = V2 / R = I2 R , still work fine for AC if we use Irms, Vrms, and Pavg. ...
... The old formula P = IV works OK with AC quantities if we use Pavg , Irms , and Vrms. All the old DC formulas, V = IR , P = IV = V2 / R = I2 R , still work fine for AC if we use Irms, Vrms, and Pavg. ...
Experiment 15: Ohm`s Law
... Voltmeters are connected in parallel to resistive elements in the circuit so that they measure the potential di↵erence across (on each side of) the element. The ideal voltmeter has infinite internal resistance. Our voltmeters have approximately 10 M⌦ (10⇥106 ⌦) internal resistance so that only a min ...
... Voltmeters are connected in parallel to resistive elements in the circuit so that they measure the potential di↵erence across (on each side of) the element. The ideal voltmeter has infinite internal resistance. Our voltmeters have approximately 10 M⌦ (10⇥106 ⌦) internal resistance so that only a min ...
Experiment 10: Inverting Amplifier
... – Take a screen shot of the input and output voltage as a function of time, displaying at least 3 cycles. – Remove Rf from the circuit. Measure and record the resistance between pins 1 and 2. – Measure the output voltage at the following input voltages: • 0V, +/-1V, +/-2V, +/-3V, +/- 4V, and +/-5V. ...
... – Take a screen shot of the input and output voltage as a function of time, displaying at least 3 cycles. – Remove Rf from the circuit. Measure and record the resistance between pins 1 and 2. – Measure the output voltage at the following input voltages: • 0V, +/-1V, +/-2V, +/-3V, +/- 4V, and +/-5V. ...
doc
... 1. When a circuit consists of resistors in series, how is the effective resistance determined? 2. How are the voltage drops across individual resistances related to the total voltage drop in a series circuit? 3. What determines the total current in a series circuit? 4. How is Ohm’s Law applied to fi ...
... 1. When a circuit consists of resistors in series, how is the effective resistance determined? 2. How are the voltage drops across individual resistances related to the total voltage drop in a series circuit? 3. What determines the total current in a series circuit? 4. How is Ohm’s Law applied to fi ...
EUP3406 1.5MHz, 600mA Synchronous Step-Down Converter
... main switch and a synchronous rectifier for high efficiency. The 2.5V to 5.5V input voltage range makes the EUP3406 ideal for powering portable equipment that runs from a single cell Lithium-Ion (Li+) battery or 3-cell NiMH/ NiCd batteries. The output voltage can be regulated as low as 0.6V. The EUP ...
... main switch and a synchronous rectifier for high efficiency. The 2.5V to 5.5V input voltage range makes the EUP3406 ideal for powering portable equipment that runs from a single cell Lithium-Ion (Li+) battery or 3-cell NiMH/ NiCd batteries. The output voltage can be regulated as low as 0.6V. The EUP ...
Test probe
A test probe (test lead, test prod, or scope probe) is a physical device used to connect electronic test equipment to a device under test (DUT). They range from very simple, robust devices to complex probes that are sophisticated, expensive, and fragile.