Equivalent_Resistance
... • A waveform that vertically occupies most of display will have more measurement accuracy than a waveform that is small on the display. • Best accuracy seems to require at least two waveforms horizontally. • The measured values will be reasonably accurate as long as the scope display is running. • I ...
... • A waveform that vertically occupies most of display will have more measurement accuracy than a waveform that is small on the display. • Best accuracy seems to require at least two waveforms horizontally. • The measured values will be reasonably accurate as long as the scope display is running. • I ...
Lab 7
... Purpose: A DC power supply is one of the most commonly used devices in electronic circuits. This lab will introduce you to the inner workings of a transformer based power supply. Equipment and Components: 1) Prototyping board 2) Function Generator 3) Oscilloscope 3) Diode 1N4001 4) Resistors: 10 kΩ ...
... Purpose: A DC power supply is one of the most commonly used devices in electronic circuits. This lab will introduce you to the inner workings of a transformer based power supply. Equipment and Components: 1) Prototyping board 2) Function Generator 3) Oscilloscope 3) Diode 1N4001 4) Resistors: 10 kΩ ...
v O
... 7. Now let's measure the input impedance of the circuit. Put a 1-M Ω, pot in series with the input coupling capacitor, as shown in Fig. E4-2C. Keep lead lengths short to minimize noise pick up. Keep all of the other circuit components as in step 6, and keep VS at 0.5 Vp-p. Now while watching vo wit ...
... 7. Now let's measure the input impedance of the circuit. Put a 1-M Ω, pot in series with the input coupling capacitor, as shown in Fig. E4-2C. Keep lead lengths short to minimize noise pick up. Keep all of the other circuit components as in step 6, and keep VS at 0.5 Vp-p. Now while watching vo wit ...
Direct and Alternating Voltages, the Oscilloscope
... 6. Set the function generator to make a high-frequency (1.5 MHz) square wave and use the scope to measure the rise time. This is the time it takes the wave to go from 10% to 90% of its maximum amplitude. Measure also the corresponding fall time. 7. What is the use of the alternate and chop options? ...
... 6. Set the function generator to make a high-frequency (1.5 MHz) square wave and use the scope to measure the rise time. This is the time it takes the wave to go from 10% to 90% of its maximum amplitude. Measure also the corresponding fall time. 7. What is the use of the alternate and chop options? ...
Experiment 2 - IIT College of Science
... procedure steps while using the oscilloscope to look at very simple voltage signals. In your oscilloscope write-up, describe what you performed in the laboratory in a clear and concise manner, while answering the questions given in the procedural steps. The oscilloscope is the most useful and versat ...
... procedure steps while using the oscilloscope to look at very simple voltage signals. In your oscilloscope write-up, describe what you performed in the laboratory in a clear and concise manner, while answering the questions given in the procedural steps. The oscilloscope is the most useful and versat ...
current meter and integrator - High Voltage Engineering Europa B.V.
... readout (6 digits) for dose measurements. A LED indicates the polarity of the measured ion beam. An adjustable audible "counting signal" enables the operator to detect even the smallest changes in the beam current without watching the instrument. This acoustic feature has proven to be very useful wh ...
... readout (6 digits) for dose measurements. A LED indicates the polarity of the measured ion beam. An adjustable audible "counting signal" enables the operator to detect even the smallest changes in the beam current without watching the instrument. This acoustic feature has proven to be very useful wh ...
Ultrasonic Ranging Module HC
... Ultrasonic ranging module HC - SR04 provides 2cm - 400cm non-contact measurement function, the ranging accuracy can reach to 3mm. The modules includes ultrasonic transmitters, receiver and control circuit. The basic principle of work: (1) Using IO trigger for at least 10us high level signal, (2) The ...
... Ultrasonic ranging module HC - SR04 provides 2cm - 400cm non-contact measurement function, the ranging accuracy can reach to 3mm. The modules includes ultrasonic transmitters, receiver and control circuit. The basic principle of work: (1) Using IO trigger for at least 10us high level signal, (2) The ...
HC-SR04 - Micropik
... Ultrasonic ranging module HC - SR04 provides 2cm - 400cm non-contact measurement function, the ranging accuracy can reach to 3mm. The modules includes ultrasonic transmitters, receiver and control circuit. The basic principle of work: (1) Using IO trigger for at least 10us high level signal, (2) The ...
... Ultrasonic ranging module HC - SR04 provides 2cm - 400cm non-contact measurement function, the ranging accuracy can reach to 3mm. The modules includes ultrasonic transmitters, receiver and control circuit. The basic principle of work: (1) Using IO trigger for at least 10us high level signal, (2) The ...
Simple Loop Transmitter
... prototype used a very old 500pF solid dielectric type The 10mH inductor was extracted from an old computer power supply but a suitable device to use is a common mode suppression choke (Rapid Electronics 26-7084) with the two windings connected in series. (This increases the inductance by a factor of ...
... prototype used a very old 500pF solid dielectric type The 10mH inductor was extracted from an old computer power supply but a suitable device to use is a common mode suppression choke (Rapid Electronics 26-7084) with the two windings connected in series. (This increases the inductance by a factor of ...
Hi, I have connected the circuit as shown above. Opamp is used as
... To decoder and then segment display ...
... To decoder and then segment display ...
Neurophysiology - Memorial University of Newfoundland
... Voltages -10V to +10V are assigned a digital value 0 4095 Digital value can be stored on computer. ...
... Voltages -10V to +10V are assigned a digital value 0 4095 Digital value can be stored on computer. ...
Digital Multi-meter and Oscilloscope
... or voltage versus voltage (in ‘X-Y’ mode). The vertical and horizontal axes of an oscilloscope can be rescaled independently while data is being displayed. Unlike a graph that has a beginning and an end, an oscilloscope’s plot of voltage (known as a “trace”) is refreshed or redrawn continuously as l ...
... or voltage versus voltage (in ‘X-Y’ mode). The vertical and horizontal axes of an oscilloscope can be rescaled independently while data is being displayed. Unlike a graph that has a beginning and an end, an oscilloscope’s plot of voltage (known as a “trace”) is refreshed or redrawn continuously as l ...
Multi-functional Packaged Antennas for Next
... Also in the saturation region iD versus VDS is considered to be constant. This is not actually the case. The drain current, iD increases slightly as VDS increases. In order to take care of that we must add a drain resistance rd in the small signal model. ...
... Also in the saturation region iD versus VDS is considered to be constant. This is not actually the case. The drain current, iD increases slightly as VDS increases. In order to take care of that we must add a drain resistance rd in the small signal model. ...
Scope of the measurement: Testing basic transistor circuits
... 4.2 Load the emitter follower with a 1 kohm resistor. What did you observe? Determine the value of the maximum available output signal. 4.3 Measure the output resistance of the emitter-follower at f =10 kHz, while Rg=0 and Rg=∞. Design the setup of your measurement. Measure the voltage proportional ...
... 4.2 Load the emitter follower with a 1 kohm resistor. What did you observe? Determine the value of the maximum available output signal. 4.3 Measure the output resistance of the emitter-follower at f =10 kHz, while Rg=0 and Rg=∞. Design the setup of your measurement. Measure the voltage proportional ...
High performance with a small footprint
... represents receive signals at the correct frequency even with large display ranges of the order of 3 GHz. Signal processing starting at the last intermediate frequency is purely digital. An A/D converter digitizes the 31.25 MHz IF signal and two integrated circuits perform all other processing steps ...
... represents receive signals at the correct frequency even with large display ranges of the order of 3 GHz. Signal processing starting at the last intermediate frequency is purely digital. An A/D converter digitizes the 31.25 MHz IF signal and two integrated circuits perform all other processing steps ...
Products > Handheld Battery Operated Oscilloscope/DMM/Power
... Motor Trigger (THS720P only) - Triggers on 3- and 5-level pulse-width modulated power signal. External Trigger Input - 5 MHz TTL compatible. Harmonics (THS720P only) - Up to 31st (30 Hz-450 Hz). Waveform Processing - Add, Subtract, Multiply, Calculate Watts = V x I. Waveform Storage - 10 waveforms. ...
... Motor Trigger (THS720P only) - Triggers on 3- and 5-level pulse-width modulated power signal. External Trigger Input - 5 MHz TTL compatible. Harmonics (THS720P only) - Up to 31st (30 Hz-450 Hz). Waveform Processing - Add, Subtract, Multiply, Calculate Watts = V x I. Waveform Storage - 10 waveforms. ...
ECE2006 LABORATORY 9
... screen to select (Ch1 – Ch2). A red waveform should appear on the screen, this is voltage across the capacitor. Measuring phase angle differences between series components If components in a circuit are being excited at the same frequency but peak at different times, there exists a phase angle betwe ...
... screen to select (Ch1 – Ch2). A red waveform should appear on the screen, this is voltage across the capacitor. Measuring phase angle differences between series components If components in a circuit are being excited at the same frequency but peak at different times, there exists a phase angle betwe ...
meres stilusfajl
... Measure voltages of the working point and calculate values of IC, IB, and B! ...
... Measure voltages of the working point and calculate values of IC, IB, and B! ...
Exp-8 - WordPress.com
... operations and is abbreviated to op-amp. With the addition of suitable external feedback components, the modern day op-amp can be used for a variety of applications, such as AC and DC signal amplification, active filters, oscillators, comparators, Schmitt trigger, regulator, integrator, differentiat ...
... operations and is abbreviated to op-amp. With the addition of suitable external feedback components, the modern day op-amp can be used for a variety of applications, such as AC and DC signal amplification, active filters, oscillators, comparators, Schmitt trigger, regulator, integrator, differentiat ...
Instrumental Chemistry
... number of pulses that occur within a specified set of boundary conditions. Examples of signals and boundary conditions include number of photons or alpha decay particles emitted by an analyte per second or the number of drops of titrant per millimole of analyte. ...
... number of pulses that occur within a specified set of boundary conditions. Examples of signals and boundary conditions include number of photons or alpha decay particles emitted by an analyte per second or the number of drops of titrant per millimole of analyte. ...
Pulse_meter_project_brl4
... • Let t=RC and t1=RoutCout. And f be the sine wave frequency of the signal generator. Define w=2pf. • Vout= Signal_gen*(1+Rout/Rin)* tw/sqrt(1+w2t2)*1/sqrt(1+w2t12) • This circuit is very useful for getting rid of unwanted steady signals which tend to be amplified too much and block the desired smal ...
... • Let t=RC and t1=RoutCout. And f be the sine wave frequency of the signal generator. Define w=2pf. • Vout= Signal_gen*(1+Rout/Rin)* tw/sqrt(1+w2t2)*1/sqrt(1+w2t12) • This circuit is very useful for getting rid of unwanted steady signals which tend to be amplified too much and block the desired smal ...
Oscilloscope history
This article discusses the history and development of oscilloscope technology.