Laboratory Manual for AC Electrical Circuits
... The oscilloscope (or simply scope, for short) is arguably the single most useful piece of test equipment in an electronics laboratory. The primary purpose of the oscilloscope is to plot a voltage versus time although it can also be used to plot one voltage versus another voltage, and in some cases, ...
... The oscilloscope (or simply scope, for short) is arguably the single most useful piece of test equipment in an electronics laboratory. The primary purpose of the oscilloscope is to plot a voltage versus time although it can also be used to plot one voltage versus another voltage, and in some cases, ...
Section H7: Frequency Response of Op-Amp Circuits
... the contribution of the pole(s) of the transfer function. At high frequencies, the phase difference approaches zero and a portion of the output signal is fed back to the input in phase with the input. This changes the feedback mechanism from negative to positive (which we will get into in the next s ...
... the contribution of the pole(s) of the transfer function. At high frequencies, the phase difference approaches zero and a portion of the output signal is fed back to the input in phase with the input. This changes the feedback mechanism from negative to positive (which we will get into in the next s ...
Lab 1.4.1 - Digilent Learn site
... Using the scope instrument on your Analog Discovery (or a DMM), measure the base voltage of the BJT (VB in Figure 5) and the voltage difference across the diode (VD in Figure 5). Record these voltages in your lab notebook and compare them with your calculated values from the prelab. 2. Cover the pho ...
... Using the scope instrument on your Analog Discovery (or a DMM), measure the base voltage of the BJT (VB in Figure 5) and the voltage difference across the diode (VD in Figure 5). Record these voltages in your lab notebook and compare them with your calculated values from the prelab. 2. Cover the pho ...
Oscillators
... Oscillators are circuits that produce an output waveform without an external signal source. The key to oscillator operation is positive feedback. A positive feedback network produces a feedback voltage ( ) that is in phase with the input signal ( ) as shown in Figure 18-1. The amplifier shown in the ...
... Oscillators are circuits that produce an output waveform without an external signal source. The key to oscillator operation is positive feedback. A positive feedback network produces a feedback voltage ( ) that is in phase with the input signal ( ) as shown in Figure 18-1. The amplifier shown in the ...
AD8048
... The AD8047 and AD8048 are very high speed and wide bandwidth amplifiers. The AD8047 is unity gain stable. The AD8048 is stable at gains of two or greater. The AD8047 and AD8048, which utilize a voltage feedback architecture, meet the requirements of many applications that previously depended on curr ...
... The AD8047 and AD8048 are very high speed and wide bandwidth amplifiers. The AD8047 is unity gain stable. The AD8048 is stable at gains of two or greater. The AD8047 and AD8048, which utilize a voltage feedback architecture, meet the requirements of many applications that previously depended on curr ...
MAX3645 +2.97V to +5.5V, 125Mbps to 200Mbps Limiting Amplifier with Loss-of-Signal Detector
... quantizer and is pin compatible with the Mindspeed MC2045-2 and MC2045-2Y postamplifiers. The amplifier accepts a wide range of input voltages and provides constant-level positive emitter-coupled logic (PECL) output voltages with controlled edge speeds. The MAX3645 features an integrated power detec ...
... quantizer and is pin compatible with the Mindspeed MC2045-2 and MC2045-2Y postamplifiers. The amplifier accepts a wide range of input voltages and provides constant-level positive emitter-coupled logic (PECL) output voltages with controlled edge speeds. The MAX3645 features an integrated power detec ...
a CMOS Quad Sample-and-Hold Amplifier
... output range is typically 3 mV. The hold step is the magnitude of the voltage step caused when switching from sample-to-hold mode. This error is sometimes referred to as the pedestal error or sample-to-hold offset, and is about 2 mV with little variation. The droop rate of a held channel is 2 µV/ms ...
... output range is typically 3 mV. The hold step is the magnitude of the voltage step caused when switching from sample-to-hold mode. This error is sometimes referred to as the pedestal error or sample-to-hold offset, and is about 2 mV with little variation. The droop rate of a held channel is 2 µV/ms ...
SN74LS147, SN74LS148 10 LINE TO 4 LINE AND 8 LINE TO 3
... Storage temperature range, Tstg . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . −65°C to 150°C † Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and functional ...
... Storage temperature range, Tstg . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . −65°C to 150°C † Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and functional ...
Product Factsheet - Dialog Semiconductor
... DA7210 is an ultra low power audio CODEC with a true ground headphone, mixing capability and a programmable ASSP filter engine. It offers HiFi audio quality with class leading power consumption for portable media applications. Featuring a high efficiency headphone amplifier and minimum supply voltag ...
... DA7210 is an ultra low power audio CODEC with a true ground headphone, mixing capability and a programmable ASSP filter engine. It offers HiFi audio quality with class leading power consumption for portable media applications. Featuring a high efficiency headphone amplifier and minimum supply voltag ...
Lecture Notes.
... 1. Usually single turn primary and secondary 2. Can use multi-turn secondary 3. # Sections function of switch voltage ...
... 1. Usually single turn primary and secondary 2. Can use multi-turn secondary 3. # Sections function of switch voltage ...
3: Electrical Measurements Review
... common) probe is to be placed at ground. (In fact you’ll soon learn that oscilloscopes are designed as one-probe-at-ground voltmeters.) Measurement of the current flow through a wire, necessarily requires modification of the circuit. The flow normally going through the wire must be redirected so it ...
... common) probe is to be placed at ground. (In fact you’ll soon learn that oscilloscopes are designed as one-probe-at-ground voltmeters.) Measurement of the current flow through a wire, necessarily requires modification of the circuit. The flow normally going through the wire must be redirected so it ...
Intro to Arduino
... output power to the LED. Pin 13 will be connected to the positive lead on the LED. The negative lead on the LED will be connected to one leg of the resistor. The other leg of the resistor will be connected to ground to complete the circuit. Note: These components are all in series (one after the oth ...
... output power to the LED. Pin 13 will be connected to the positive lead on the LED. The negative lead on the LED will be connected to one leg of the resistor. The other leg of the resistor will be connected to ground to complete the circuit. Note: These components are all in series (one after the oth ...
L298N datasheet
... Fig 6 shows a bidirectional DC motor control Scheexternal resistor (RSA ; RSB.) allows to detect the inmatic Diagram for which only one bridge is needed. tensity of this current. The external bridge of diodes D1 to D4 is made by 1.2. INPUT STAGE four fast recovery elements (trr ≤ 200 nsec) that Each ...
... Fig 6 shows a bidirectional DC motor control Scheexternal resistor (RSA ; RSB.) allows to detect the inmatic Diagram for which only one bridge is needed. tensity of this current. The external bridge of diodes D1 to D4 is made by 1.2. INPUT STAGE four fast recovery elements (trr ≤ 200 nsec) that Each ...
S04_DynoI_L02 - Mechanical Engineering | University of Utah
... In this laboratory experiment you will use strain gages to measure the strain placed on a cantilever beam that is undergoing transverse deflection as a result of force applied to the beam. Your main objective will be to calibrate the system as a force sensor. The beam is clamped on one end, making i ...
... In this laboratory experiment you will use strain gages to measure the strain placed on a cantilever beam that is undergoing transverse deflection as a result of force applied to the beam. Your main objective will be to calibrate the system as a force sensor. The beam is clamped on one end, making i ...
Waveform display devices
... Figure shows how to remove an ink blockage from an ink pen recorder that has been allowed to stand too long without being used. As a general rule, such recorders should be run for about five minutes or so once a week when not in regular service. Fill a 3- t0 10-cc syringe with water (or aceton ...
... Figure shows how to remove an ink blockage from an ink pen recorder that has been allowed to stand too long without being used. As a general rule, such recorders should be run for about five minutes or so once a week when not in regular service. Fill a 3- t0 10-cc syringe with water (or aceton ...
Notes for ORCAD PSpice
... to label that cutoff point. Unclick the Toggle Cursor button to disable the cursor so you can move the label. Double click on the label to edit the text (to add units, or to name the point) 3) Once you have completed the magnitude plot, you will now need to create a phase plot. To put the plot o ...
... to label that cutoff point. Unclick the Toggle Cursor button to disable the cursor so you can move the label. Double click on the label to edit the text (to add units, or to name the point) 3) Once you have completed the magnitude plot, you will now need to create a phase plot. To put the plot o ...
Oscilloscope history
This article discusses the history and development of oscilloscope technology.