Lecture 1 - Digilent Inc.
... • Do forced, natural response; input and output response plots • Time constant and effect of mass on time constant • Notes: – Mention transient, steady-state – Natural vs. forced response – Homogeneous vs. particular solution ...
... • Do forced, natural response; input and output response plots • Time constant and effect of mass on time constant • Notes: – Mention transient, steady-state – Natural vs. forced response – Homogeneous vs. particular solution ...
Lecture 5
... except that, in place of the feedback resistor R2 (of the inverter) or the capacitor C (of the integrator), we have a new component labelled D. In principle, and assuming the op amp to be ideal, in order to work out the relationship between vO and vI all we need is a mathematical expression for the ...
... except that, in place of the feedback resistor R2 (of the inverter) or the capacitor C (of the integrator), we have a new component labelled D. In principle, and assuming the op amp to be ideal, in order to work out the relationship between vO and vI all we need is a mathematical expression for the ...
Electronic Amplifier Model VT 5036
... 26c is passed to the ramp generator (1); the output signal of the ramp generator (1) then travels to the PD loop (2). The oscillator (4) converts a DC signal into AC voltage (frequency 2.5 kHz) which is used at the inductive positional transducer [LVDT (9)]. The output voltage from the LVDT is varie ...
... 26c is passed to the ramp generator (1); the output signal of the ramp generator (1) then travels to the PD loop (2). The oscillator (4) converts a DC signal into AC voltage (frequency 2.5 kHz) which is used at the inductive positional transducer [LVDT (9)]. The output voltage from the LVDT is varie ...
Chapter 2 - Basic Op-Amp Circuits
... The output swing of a zero-crossing detector may be too large in some applications. In some applications, necessary to limit the output voltage levels of comparator to a value less than provided by the saturated op-amp. We can bound the output by using a zener diode – limit the output voltage to the ...
... The output swing of a zero-crossing detector may be too large in some applications. In some applications, necessary to limit the output voltage levels of comparator to a value less than provided by the saturated op-amp. We can bound the output by using a zener diode – limit the output voltage to the ...
33120A Function Waveform Generator
... operations. Most keys have a shifted function printed in blue above the key. To perform a shifted function, press Shift (the Shift annunciator will turn on). Then, press the key that has the desired label above it. For example, to select the AM (amplitude modulation) function, press Shift AM (the sh ...
... operations. Most keys have a shifted function printed in blue above the key. To perform a shifted function, press Shift (the Shift annunciator will turn on). Then, press the key that has the desired label above it. For example, to select the AM (amplitude modulation) function, press Shift AM (the sh ...
band-pass filter
... • The function of the RC filter is to filter any high-frequency noise from the input supply that may contribute to a noisy output. ...
... • The function of the RC filter is to filter any high-frequency noise from the input supply that may contribute to a noisy output. ...
A/D successive approximation converter.
... integrated logic analyzer. Be ready to explain how to set-up a mode of single acquisition, continual acquisition, time base parameters, analog channel gain, selection of active digital channels and the storage of acquired data on USB drive. c) Check the connections / wiring of the tools with the AD ...
... integrated logic analyzer. Be ready to explain how to set-up a mode of single acquisition, continual acquisition, time base parameters, analog channel gain, selection of active digital channels and the storage of acquired data on USB drive. c) Check the connections / wiring of the tools with the AD ...
Physics 481 - Physics @ UIC
... circuits. The project is intended to cover both building and analysis of such circuits, as well as usage of two measuring devices – digital millimeters and oscilloscopes. The circuits covered in this project will utilize only passive electronic components: resistors, capacitors, and inductors, cover ...
... circuits. The project is intended to cover both building and analysis of such circuits, as well as usage of two measuring devices – digital millimeters and oscilloscopes. The circuits covered in this project will utilize only passive electronic components: resistors, capacitors, and inductors, cover ...
data collection
... the DAQ terminal block. Also, using a BNC tee, connect this output to the oscilloscope-input channel 1. Ground the function generator to the left AI_GND on the DAQ terminal block and to the oscilloscope. 3. Turn on the function generator and use the oscilloscope to verify that you have a 20 Hz, ±4.0 ...
... the DAQ terminal block. Also, using a BNC tee, connect this output to the oscilloscope-input channel 1. Ground the function generator to the left AI_GND on the DAQ terminal block and to the oscilloscope. 3. Turn on the function generator and use the oscilloscope to verify that you have a 20 Hz, ±4.0 ...
Flip-Flops and Related Devices
... Clock pulse HIGH and LOW times: the minimum time duration that the CLK must remain LOW before it goes HIGH, tw(L), and vice versa for tw(H). Asynchronous active pulse width: the minimum time duration that a PRESET or CLEAR input must be kept in its active state in order to reliably set or clear the ...
... Clock pulse HIGH and LOW times: the minimum time duration that the CLK must remain LOW before it goes HIGH, tw(L), and vice versa for tw(H). Asynchronous active pulse width: the minimum time duration that a PRESET or CLEAR input must be kept in its active state in order to reliably set or clear the ...
Lab #4 Sequential Logic Design
... its value. Another common example is shifting in which the values of individual bits are passed from one position of the register to another. Shifting all bits one position to the left multiplies the register contents by 2; each shift to the right divides the register value by two. We will study the ...
... its value. Another common example is shifting in which the values of individual bits are passed from one position of the register to another. Shifting all bits one position to the left multiplies the register contents by 2; each shift to the right divides the register value by two. We will study the ...
Simple and Robust Equivalent Circuit of Real Transformer
... produces a current waveform, typical shape of which is shown in Fig. 1. According to Fourier series theory, the current waveform is a superposition of harmonic components. The most important harmonics can be used for waveform approximation [1]. If a systematic set of waveforms with increasing excita ...
... produces a current waveform, typical shape of which is shown in Fig. 1. According to Fourier series theory, the current waveform is a superposition of harmonic components. The most important harmonics can be used for waveform approximation [1]. If a systematic set of waveforms with increasing excita ...
Physical Layer - NOISE | Network Operations and Internet
... • F is a function of frequency – describes how much of each frequency f contains • Fourier transform is invertible ...
... • F is a function of frequency – describes how much of each frequency f contains • Fourier transform is invertible ...
Digital VOR
... provides a small button between the two toggle switches. Pressing the button changes the 903 into a signal level voltmeter. While pressing the button, simultaneously turn the adjustment pot on the back of the unit labels for NAV1 or NAV2, to increase or decrease the voltage level. Set the input leve ...
... provides a small button between the two toggle switches. Pressing the button changes the 903 into a signal level voltmeter. While pressing the button, simultaneously turn the adjustment pot on the back of the unit labels for NAV1 or NAV2, to increase or decrease the voltage level. Set the input leve ...
ppt - NOISE
... • F is a function of frequency – describes how much of each frequency f contains • Fourier transform is invertible ...
... • F is a function of frequency – describes how much of each frequency f contains • Fourier transform is invertible ...
Chap2
... (a) A popular circuit for an instrumentation amplifier. (b) Analysis of the circuit in (a) assuming ideal op-amps. (c) To make the gain variable, R1 is implemented as the series combination of a fixed resister R1f and a variable resistor R1v. Resistor R1f ensures that the maximum available gain is ...
... (a) A popular circuit for an instrumentation amplifier. (b) Analysis of the circuit in (a) assuming ideal op-amps. (c) To make the gain variable, R1 is implemented as the series combination of a fixed resister R1f and a variable resistor R1v. Resistor R1f ensures that the maximum available gain is ...
PCB Level EMC Examples and Measurement Options
... maintain supply voltage at the device. Frequency domain view – Switching (ie. Logic gate switching, oscillators, etc.) can generate a wide range of frequency components. The decoupling cap acts as a low impedance shunt. ...
... maintain supply voltage at the device. Frequency domain view – Switching (ie. Logic gate switching, oscillators, etc.) can generate a wide range of frequency components. The decoupling cap acts as a low impedance shunt. ...
Huntron, Inc - Products - Tracker 200
... troubleshooting multi-channel input modules, technicians frequently run into a damaged channel because the IC buffers, optocouplers and drivers have been over-stressed. By using the pulse generator built into the Tracker 200, you can quickly troubleshoot optocouplers and other gate-fired devices. Si ...
... troubleshooting multi-channel input modules, technicians frequently run into a damaged channel because the IC buffers, optocouplers and drivers have been over-stressed. By using the pulse generator built into the Tracker 200, you can quickly troubleshoot optocouplers and other gate-fired devices. Si ...
- Distech Controls
... SC-PTA—————————— 0.2 to 5 seconds, 0 to 10 seconds, 0.59 to 2.93 seconds, 0.1 to 25.5 seconds SC-PTA Version 2———————————————————————— 0 to 10 seconds Duty Cycle in 10 second window 0 to 25.5 seconds Duty Cycle in 25.5 second window 0.023 to 6 seconds ...
... SC-PTA—————————— 0.2 to 5 seconds, 0 to 10 seconds, 0.59 to 2.93 seconds, 0.1 to 25.5 seconds SC-PTA Version 2———————————————————————— 0 to 10 seconds Duty Cycle in 10 second window 0 to 25.5 seconds Duty Cycle in 25.5 second window 0.023 to 6 seconds ...
Oscilloscope history
This article discusses the history and development of oscilloscope technology.