Lab 6 - Kirchhoff`s Laws
... reducible by the usual rules for adding resistors in series and parallel. 1. Set up the following circuit: ...
... reducible by the usual rules for adding resistors in series and parallel. 1. Set up the following circuit: ...
ONS321A5VGEVB / ONS321B12VGEVB Evaluation Board User`s
... with either the controller or driver active. 3. Set the driver voltage and then set the input voltage. 4. Set the load current to required value. The load current must be incremented slowly to prevent the transient spikes at CS1/CS2 thereby shutting down the controller. If the controller shuts down, ...
... with either the controller or driver active. 3. Set the driver voltage and then set the input voltage. 4. Set the load current to required value. The load current must be incremented slowly to prevent the transient spikes at CS1/CS2 thereby shutting down the controller. If the controller shuts down, ...
Solutions
... What are the relative merits of these instruments which are used to measure the same physical variables? What factors might be considered in selecting one over another for a given application? The mechanical balance is quick and easy, but not very accurate as it depends on our perception to evaluate ...
... What are the relative merits of these instruments which are used to measure the same physical variables? What factors might be considered in selecting one over another for a given application? The mechanical balance is quick and easy, but not very accurate as it depends on our perception to evaluate ...
13 - Kambing UI
... least 15W. You can use the resistance wire or switch several resistors in parallel, totaling the resistance/power values. Values for other currents can be calculated by the rule: RL=0.7/Imax The RL and Q2 (3A PNP such as BD330) form a short circuit “automatic fuse”. As soon as the maximum current r ...
... least 15W. You can use the resistance wire or switch several resistors in parallel, totaling the resistance/power values. Values for other currents can be calculated by the rule: RL=0.7/Imax The RL and Q2 (3A PNP such as BD330) form a short circuit “automatic fuse”. As soon as the maximum current r ...
Ohm`s Law 1
... 2. Using the multimeter set to “”, touch one lead to each end of the resistor and measure the actual resistance by and record that value in column “B” under “Measured Resistance R.” Use your decoded value as a clue as to which scale to set the meter on. Be sure to record the correct units. Since th ...
... 2. Using the multimeter set to “”, touch one lead to each end of the resistor and measure the actual resistance by and record that value in column “B” under “Measured Resistance R.” Use your decoded value as a clue as to which scale to set the meter on. Be sure to record the correct units. Since th ...
Exp-8 - WordPress.com
... DC power supplies +12V, -12V and variable +5V and -5V from external source Oscilloscope Function Generator. 2 mm patch cords. THEORY: Operational amplifier is a direct-coupled high-gain amplifier usually consisting of one or more differential amplifiers and usually followed by a level translator and ...
... DC power supplies +12V, -12V and variable +5V and -5V from external source Oscilloscope Function Generator. 2 mm patch cords. THEORY: Operational amplifier is a direct-coupled high-gain amplifier usually consisting of one or more differential amplifiers and usually followed by a level translator and ...
AS lab 4
... i) Connect 3 resistors R1, R2 and R3 having different values in the ratio 1:10:100 (for example 100 Ohms, 1000 Ohms and 10,000 ohms) respectively in series with a DC power supply and an ammeter as shown in figure 1. ii) Connect DC voltmeter (0 to 10 volts range) across each resistors iii) Switch on ...
... i) Connect 3 resistors R1, R2 and R3 having different values in the ratio 1:10:100 (for example 100 Ohms, 1000 Ohms and 10,000 ohms) respectively in series with a DC power supply and an ammeter as shown in figure 1. ii) Connect DC voltmeter (0 to 10 volts range) across each resistors iii) Switch on ...
GSK-24 Logic Probe Kit The purpose of a logic probe is to examine
... takes its power supply from the circuit under test (as most do) then all components in the probe must operate over the 5 to 15 volt range. Some electronic equipment may have different voltage circuits within it so you must connect to the correct one that you want to test. A good logic probe should b ...
... takes its power supply from the circuit under test (as most do) then all components in the probe must operate over the 5 to 15 volt range. Some electronic equipment may have different voltage circuits within it so you must connect to the correct one that you want to test. A good logic probe should b ...
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.