Pulse_meter_project_brl4
... – Build a noninverting amplifier with a gain of 11. A high pass filter at 1 radian/sec and low pass at 100 radians/sec. Use power supply voltages of +5 and -5 volts. – Test it by connecting the input to the waveform generator and the output to the scope as shown below. – Set up the waveform generato ...
... – Build a noninverting amplifier with a gain of 11. A high pass filter at 1 radian/sec and low pass at 100 radians/sec. Use power supply voltages of +5 and -5 volts. – Test it by connecting the input to the waveform generator and the output to the scope as shown below. – Set up the waveform generato ...
tips and tricks document - Mechatronics and Measurement Systems
... From here you can open any of the instruments required. There will be times that you will want to have multiple open. The NI ELVISmx Instrument Launcher can be found in the start menu or by searching the C:\ ...
... From here you can open any of the instruments required. There will be times that you will want to have multiple open. The NI ELVISmx Instrument Launcher can be found in the start menu or by searching the C:\ ...
Products > Handheld Battery Operated Oscilloscope/DMM/Power
... Sensitivity - 5 mV to 50 V/div (to 500 V/div with 10X probe). Position Range - ±10 div. DC Gain Accuracy - ±2%. Vertical Resolution - 8-Bits. Record Length - 2500 points. Time/Division Range (THS720P only) - 5 ns to 50 s/div. Horizontal Accuracy - ±200 ppm. Roll Mode - > 0.5 s/div. Autorange - User- ...
... Sensitivity - 5 mV to 50 V/div (to 500 V/div with 10X probe). Position Range - ±10 div. DC Gain Accuracy - ±2%. Vertical Resolution - 8-Bits. Record Length - 2500 points. Time/Division Range (THS720P only) - 5 ns to 50 s/div. Horizontal Accuracy - ±200 ppm. Roll Mode - > 0.5 s/div. Autorange - User- ...
Why Study High Speed Digital Signals
... Electromagnetic interference Time and Frequency At low frequencies Ordinary wire will effectively short two circuits At high frequencies Same wire has much to much inductance to function as short If one plots basic electrical parameters on log scale Few remain constant for more than 10 to 20 decades ...
... Electromagnetic interference Time and Frequency At low frequencies Ordinary wire will effectively short two circuits At high frequencies Same wire has much to much inductance to function as short If one plots basic electrical parameters on log scale Few remain constant for more than 10 to 20 decades ...
Capacitor Self
... current at the moment of turn-on. In fact, manufacturers of 120VAC electrical switches rate them lower in amperage when they are used for turning on tungsten lamps. In this experiment, we will measure the peak current at time of turn-on, using the single-shot display capability of the Agilent -54601 ...
... current at the moment of turn-on. In fact, manufacturers of 120VAC electrical switches rate them lower in amperage when they are used for turning on tungsten lamps. In this experiment, we will measure the peak current at time of turn-on, using the single-shot display capability of the Agilent -54601 ...
Lecture Slide 1
... • Many of the inputs and outputs of electronic systems are analog signal • Many electronic systems, particularly those dealing with low signal amplitudes or very high frequency required analog approach • Lots of most challenging design problems are analog • Good analog circuit designers are scarce ( ...
... • Many of the inputs and outputs of electronic systems are analog signal • Many electronic systems, particularly those dealing with low signal amplitudes or very high frequency required analog approach • Lots of most challenging design problems are analog • Good analog circuit designers are scarce ( ...
1. Pre-Lab Introduction
... equation KY - Y = 0 with the initial condition Y(0) = - VX and K = R1R2C1C2. The initial condition is "set" by using the momentary contact switch to force the output to equal the applied voltage at t = 0 (the time the switch is closed). While the major advances in digital computers and digital signa ...
... equation KY - Y = 0 with the initial condition Y(0) = - VX and K = R1R2C1C2. The initial condition is "set" by using the momentary contact switch to force the output to equal the applied voltage at t = 0 (the time the switch is closed). While the major advances in digital computers and digital signa ...
meres stilusfajl
... Using appropriate jumpers, set up the circuit corresponding to the above figure! Connect the power supply and adjust the supply voltage accordingly to the value given direction of the homework, so that on the cathode of the diode D (protection against reverse polarity) one can measure voltage +UT ! ...
... Using appropriate jumpers, set up the circuit corresponding to the above figure! Connect the power supply and adjust the supply voltage accordingly to the value given direction of the homework, so that on the cathode of the diode D (protection against reverse polarity) one can measure voltage +UT ! ...
Analog Signal Conditioning
... The purpose of sample and hold circuitry is to take a snapshot of the sensor signal and hold the value. An ADC must have a stable signal in order to accurately perform a conversion. The switch connects the capacitor to the signal conditioning circuit once every sample period. The capacitor then hold ...
... The purpose of sample and hold circuitry is to take a snapshot of the sensor signal and hold the value. An ADC must have a stable signal in order to accurately perform a conversion. The switch connects the capacitor to the signal conditioning circuit once every sample period. The capacitor then hold ...
Lecture 16
... frequency. At 10x the corner frequency, the output is about 1/10 of the input. An LC circuit reduces the signal in proportion to the square of the frequency. At 10x corner f, the output is about 1/100 of the input. The corner frequency for an LC circuit is ...
... frequency. At 10x the corner frequency, the output is about 1/10 of the input. An LC circuit reduces the signal in proportion to the square of the frequency. At 10x corner f, the output is about 1/100 of the input. The corner frequency for an LC circuit is ...
Analog Signal Monitoring Option
... does not require physical manipulation of switches, etc. The type of signal accommodated (e.g. 4-20 milliamperes), and the number of analog channels, is physically configured on the plug-in analog card as ordered from the factory. Each card can accommodate up to 8 analog channels; 2 cards are requir ...
... does not require physical manipulation of switches, etc. The type of signal accommodated (e.g. 4-20 milliamperes), and the number of analog channels, is physically configured on the plug-in analog card as ordered from the factory. Each card can accommodate up to 8 analog channels; 2 cards are requir ...
ECE 353 DIGITAL MICROELECTRONICS LABORATORY
... to the set value. This protects the DUT. Setup the function generator to deliver a triangular wave signal at 100 Hz from 0 to +5 V. To do this you will generate a 5 Vpp (Volts peak-to-peak) waveform with a dc offset of +2.5 V. Note that the Agilent 33120A function generator has an output resistance ...
... to the set value. This protects the DUT. Setup the function generator to deliver a triangular wave signal at 100 Hz from 0 to +5 V. To do this you will generate a 5 Vpp (Volts peak-to-peak) waveform with a dc offset of +2.5 V. Note that the Agilent 33120A function generator has an output resistance ...
ECG-Amplifier
... Ideal op-amps amplify only the voltage difference in its inputs Real op-amps amplify also voltage that is common to both inputs (common mode gain) Minimizing this common mode gain (i.e. maximizing the common mode rejection ratio, ’CMRR’) is important for most applications ...
... Ideal op-amps amplify only the voltage difference in its inputs Real op-amps amplify also voltage that is common to both inputs (common mode gain) Minimizing this common mode gain (i.e. maximizing the common mode rejection ratio, ’CMRR’) is important for most applications ...
Digital Multimeter Advantages
... Solution A multimeter or a multitester, also known as a VOM (Volt-Ohm meter), is an electronic measuring instrument that combines several measurement functions in one unit. A typical multimeter would include basic features such as the ability to measure voltage, ...
... Solution A multimeter or a multitester, also known as a VOM (Volt-Ohm meter), is an electronic measuring instrument that combines several measurement functions in one unit. A typical multimeter would include basic features such as the ability to measure voltage, ...
6.3.1 worksheet - Digilent Learn site
... 4. Attach to this worksheet an image of the oscilloscope window, showing the capacitor voltage and current waveforms and the measured amplitudes of the waveforms for a 100Hz triangular input. (8 pts) ...
... 4. Attach to this worksheet an image of the oscilloscope window, showing the capacitor voltage and current waveforms and the measured amplitudes of the waveforms for a 100Hz triangular input. (8 pts) ...
Lab 0: Introduction to Lab Equipment and Components Introduction
... Setup the signal generator for 1-kHz 1-Vpp output with zero offset. Connect the signal generator to the breadboard with a BNC cable. Terminate the signal from the signal generator with a 50-Ω resistor by connecting one side of the resistor to the signal and the other to the ground. Make sure that th ...
... Setup the signal generator for 1-kHz 1-Vpp output with zero offset. Connect the signal generator to the breadboard with a BNC cable. Terminate the signal from the signal generator with a 50-Ω resistor by connecting one side of the resistor to the signal and the other to the ground. Make sure that th ...
6 – UJT Relaxation Oscillator
... When the voltage across CE reaches the peak voltage, the UJT fires and a relatively large amount of current flows through R1. As a result of this current, a voltage pulse is developed across R1. When the capacitor has fully discharged, the voltage across it decreases and the UJT turns off again. Thi ...
... When the voltage across CE reaches the peak voltage, the UJT fires and a relatively large amount of current flows through R1. As a result of this current, a voltage pulse is developed across R1. When the capacitor has fully discharged, the voltage across it decreases and the UJT turns off again. Thi ...
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 ...
Probes-Fact
... be at least five times that of the circuit being tested to ensure a sine wave amplitude error of not more than 3%. ...
... be at least five times that of the circuit being tested to ensure a sine wave amplitude error of not more than 3%. ...
current meter and integrator - High Voltage Engineering Europa B.V.
... The HVEE current-meter and integrator is a precision instrument designed for current- and dose measurements on particle accelerators, isotope separators, etc. The current-meter and integrator has an analog meter (60 mm scale) for current measurements and a digital readout (6 digits) for dose measure ...
... The HVEE current-meter and integrator is a precision instrument designed for current- and dose measurements on particle accelerators, isotope separators, etc. The current-meter and integrator has an analog meter (60 mm scale) for current measurements and a digital readout (6 digits) for dose measure ...
APPLICATION BULLETIN
... of a premium grade operational amplifier and an on-chip precision resistor network. The self-contained INA105 makes it ideal for many applications. One such application is precision level shifting. ...
... of a premium grade operational amplifier and an on-chip precision resistor network. The self-contained INA105 makes it ideal for many applications. One such application is precision level shifting. ...
GAN: Hardware considerations - MDI
... • reboot the system, monitor error messages during the reboot process while remote access is not yet running • change software, CPU settings (e.g. IP address) and FPGA configurations • change jumper settings • calibrate offsets or amplification factors • do oscilloscope measurements: at inputs and o ...
... • reboot the system, monitor error messages during the reboot process while remote access is not yet running • change software, CPU settings (e.g. IP address) and FPGA configurations • change jumper settings • calibrate offsets or amplification factors • do oscilloscope measurements: at inputs and o ...
Oscilloscope Homebrew
... even ones that many professionals used (like Dumonts) were likely to be AC coupled only and have their sweep speed adjusted with a pot. The horizontal oscillators of these old guys were multi-vibrators and sync was achieved by adjusting the horizontal frequency close to some submultiple of the verti ...
... even ones that many professionals used (like Dumonts) were likely to be AC coupled only and have their sweep speed adjusted with a pot. The horizontal oscillators of these old guys were multi-vibrators and sync was achieved by adjusting the horizontal frequency close to some submultiple of the verti ...
Oscilloscope
An oscilloscope, previously called an oscillograph, and informally known as a scope, CRO (for cathode-ray oscilloscope), or DSO (for the more modern digital storage oscilloscope), is a type of electronic test instrument that allows observation of constantly varying signal voltages, usually as a two-dimensional plot of one or more signals as a function of time. Other signals (such as sound or vibration) can be converted to voltages and displayed.Oscilloscopes are used to observe the change of an electrical signal over time, such that voltage and time describe a shape which is continuously graphed against a calibrated scale. The observed waveform can be analyzed for such properties as amplitude, frequency, rise time, time interval, distortion and others. Modern digital instruments may calculate and display these properties directly. Originally, calculation of these values required manually measuring the waveform against the scales built into the screen of the instrument.The oscilloscope can be adjusted so that repetitive signals can be observed as a continuous shape on the screen. A storage oscilloscope allows single events to be captured by the instrument and displayed for a relatively long time, allowing observation of events too fast to be directly perceptible.Oscilloscopes are used in the sciences, medicine, engineering, and telecommunications industry. General-purpose instruments are used for maintenance of electronic equipment and laboratory work. Special-purpose oscilloscopes may be used for such purposes as analyzing an automotive ignition system or to display the waveform of the heartbeat as an electrocardiogram.Before the advent of digital electronics, oscilloscopes used cathode ray tubes (CRTs) as their display element (hence were commonly referred to as CROs) and linear amplifiers for signal processing. Storage oscilloscopes used special storage CRTs to maintain a steady display of a single brief signal. CROs were later largely superseded by digital storage oscilloscopes (DSOs) with thin panel displays, fast analog-to-digital converters and digital signal processors. DSOs without integrated displays (sometimes known as digitisers) are available at lower cost and use a general-purpose digital computer to process and display waveforms.