lab 1 - filters
... To study the characteristics of passive low pass filters and passive high pass filters. Equipment and components required: Signal generator Capacitors with different range of values Resistors with range of values Connecting cables Oscilloscope and connecting leads a) ...
... To study the characteristics of passive low pass filters and passive high pass filters. Equipment and components required: Signal generator Capacitors with different range of values Resistors with range of values Connecting cables Oscilloscope and connecting leads a) ...
The Field Effect Transistor
... for the pinch-off voltage with the rather liberal limits given on the data page for “GateSource Cutoff Voltage”. Common-source transfer characteristics The program measures the current by measuring the voltage drop across the 1k drain resistor. Make a copy of the computer plot of drain current vs. ...
... for the pinch-off voltage with the rather liberal limits given on the data page for “GateSource Cutoff Voltage”. Common-source transfer characteristics The program measures the current by measuring the voltage drop across the 1k drain resistor. Make a copy of the computer plot of drain current vs. ...
emitter-follower
... voltage, so there is no inversion from input to output. Because there is no inversion and because the voltage gain is approximately 1, the output voltage closely follows the input voltage in both phase and amplitude; thus the term emitter-follower. ...
... voltage, so there is no inversion from input to output. Because there is no inversion and because the voltage gain is approximately 1, the output voltage closely follows the input voltage in both phase and amplitude; thus the term emitter-follower. ...
DC circuit theory
... • explain the behaviour of DC circuits using concepts of EMF, internal resistance of power sources and potential dividers • give a microscopic description of resistance in a wire • define and use concepts of resistivity and conductance • state Kirchhoff’s laws and use them to analyse DC circuits ...
... • explain the behaviour of DC circuits using concepts of EMF, internal resistance of power sources and potential dividers • give a microscopic description of resistance in a wire • define and use concepts of resistivity and conductance • state Kirchhoff’s laws and use them to analyse DC circuits ...
Student Activity DOC
... 1. Make a plot of ln(V) vs. time for the capacitor discharge. What is the meaning of the slope of this plot? How is it related to the RC constant? 2. What percentage of the initial potential remains after one time constant has passed? After two time constants? Three? 3. Use a Current Probe and Diffe ...
... 1. Make a plot of ln(V) vs. time for the capacitor discharge. What is the meaning of the slope of this plot? How is it related to the RC constant? 2. What percentage of the initial potential remains after one time constant has passed? After two time constants? Three? 3. Use a Current Probe and Diffe ...
Multiple DDC Signal Input to Proportional Resistance Output
... .023-6 seconds. The floating point input accepts two digital signals, one for increase and the other for decrease. The floating point full scale rate of change is 55 seconds. Some triac input signals require an accessory (see ordering information). Custom input signal types and ranges are also avail ...
... .023-6 seconds. The floating point input accepts two digital signals, one for increase and the other for decrease. The floating point full scale rate of change is 55 seconds. Some triac input signals require an accessory (see ordering information). Custom input signal types and ranges are also avail ...
The Field Effect Transistor
... for the pinch-off voltage with the rather liberal limits given on the data page for “GateSource Cutoff Voltage”. Common-source transfer characteristics The program measures the current by measuring the voltage drop across the 1k drain resistor. Make a copy of the computer plot of drain current vs. ...
... for the pinch-off voltage with the rather liberal limits given on the data page for “GateSource Cutoff Voltage”. Common-source transfer characteristics The program measures the current by measuring the voltage drop across the 1k drain resistor. Make a copy of the computer plot of drain current vs. ...
ANM-5254L-R Noise Canceling Microphone
... Noise Canceling Microphone Mechanical and Environment Testing Test Description ...
... Noise Canceling Microphone Mechanical and Environment Testing Test Description ...
... Operating the probe station or OFET test board outside the operational range can cause damage to the device and greatly increase the risk of electrical shock. The electrical components under high voltage are exposed. The user must therefore exert extreme caution when operating the probe station and ...
June 2005 - Vicphysics
... By Newton’s 3rd Law: Ftr on car = - Fcar on tr, (1) Time of impact is the same, so pcar = - ptruck (1), therefore pbefore = pafter Momentum is conserved. ...
... By Newton’s 3rd Law: Ftr on car = - Fcar on tr, (1) Time of impact is the same, so pcar = - ptruck (1), therefore pbefore = pafter Momentum is conserved. ...
ECE 1020 FINAL PRESENTATION
... vertical distance from the x axis to the peak. A user is able to adjust the appearance of a waveform by using knobs on the oscilloscope. ...
... vertical distance from the x axis to the peak. A user is able to adjust the appearance of a waveform by using knobs on the oscilloscope. ...
Series and Parallel Circuits • Components in a circuit can be
... components is equivalent to one single resistor, RT, calculated using the relationship ...
... components is equivalent to one single resistor, RT, calculated using the relationship ...
VOLTAGE TO CURRENT CONVERTER USING OP AMP
... In this circuit,one terminal of the load is grounded and load current is controlled by an input voltage.The analysis of the circuit is accomplished by first determining the voltage V1 at the non inverting input terminal and then establishing the relationship between V1 and the load current. ...
... In this circuit,one terminal of the load is grounded and load current is controlled by an input voltage.The analysis of the circuit is accomplished by first determining the voltage V1 at the non inverting input terminal and then establishing the relationship between V1 and the load current. ...
high voltage probe
... transformer. A normal maximum voltage a high voltage meter can check is about 30 to 45 kilo volts. The ranges is marked in front of the voltmeter panel. Majority of our multimeter maximum voltage range is from 600 volt ac/dc to 1000 volt. Due to the low range of our multimeter whether an analog or d ...
... transformer. A normal maximum voltage a high voltage meter can check is about 30 to 45 kilo volts. The ranges is marked in front of the voltmeter panel. Majority of our multimeter maximum voltage range is from 600 volt ac/dc to 1000 volt. Due to the low range of our multimeter whether an analog or d ...
The text of the original article (Word 2000 format)
... display the reactance and loss resistance of the few pF of stray capacitance in the test circuit and will not indicate an open circuit until the frequency falls below 25MHz. However, the reactance of these strays are very large in comparison to antenna impedances and can be ignored in any practical ...
... display the reactance and loss resistance of the few pF of stray capacitance in the test circuit and will not indicate an open circuit until the frequency falls below 25MHz. However, the reactance of these strays are very large in comparison to antenna impedances and can be ignored in any practical ...
Electric Current
... Your answer is correct! This circuit is called a bridge circuit. It can be used to determine the value of an unknown resistor (RX) by varying one of the other resistors until the current between the two legs is zero. You should have found that this condition requires RX to be determined totally by t ...
... Your answer is correct! This circuit is called a bridge circuit. It can be used to determine the value of an unknown resistor (RX) by varying one of the other resistors until the current between the two legs is zero. You should have found that this condition requires RX to be determined totally by t ...
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.