EXP 8 ESR (Electron Spin Resonance) Introduction 1 ESR in Theory
... measurements. Since the current has been adjusted so that the resonance pulses occur when the AC current to the coils is ...
... measurements. Since the current has been adjusted so that the resonance pulses occur when the AC current to the coils is ...
16-Bit/18-Bit, 16 FS PCM Audio DACs AD1851/AD1861
... system where only a single positive and a single negative supply are available. ...
... system where only a single positive and a single negative supply are available. ...
Adaptive signal sampling for high throughput, broadband
... are necessary. In order to fulfill the Kotelnikov’s sampling criteria, the sampling frequency should be at least twice the upper cutoff frequency. Let’s consider a frequency band between 100 Hz and 10 MHz (5 decades), sampling should be done with minimally 20 MS/s over 10 ms. This results in a vecto ...
... are necessary. In order to fulfill the Kotelnikov’s sampling criteria, the sampling frequency should be at least twice the upper cutoff frequency. Let’s consider a frequency band between 100 Hz and 10 MHz (5 decades), sampling should be done with minimally 20 MS/s over 10 ms. This results in a vecto ...
Measuring Crest Factor
... P3 has a check mark. 21. The max value of P3 is the crest factor ratio, which is the max of P1 divided by the mean of P2. Take the log of the max value of P3 and multiplied by 20. That would be the crest factor of the noise module in dB. In this case, the crest factor is 16.39 dB. ...
... P3 has a check mark. 21. The max value of P3 is the crest factor ratio, which is the max of P1 divided by the mean of P2. Take the log of the max value of P3 and multiplied by 20. That would be the crest factor of the noise module in dB. In this case, the crest factor is 16.39 dB. ...
Figure 1--1 3 - ULPGC - Universidad de Las Palmas de Gran
... Figure 1--24 Example of the operation of a 4-bit serial shift register. Each block represents one storage “cell” or flipflop. ...
... Figure 1--24 Example of the operation of a 4-bit serial shift register. Each block represents one storage “cell” or flipflop. ...
Nuclear Electronics Lab
... Originally MCA’s were composed of many single channel analyzers connected together such that the window of each SCA was successively higher than the window of the previous SCA. Example: The first SCA has a voltage window of 1.0-1.2V so the next SCA would have a voltage window of 1.2-1.4V and so on. ...
... Originally MCA’s were composed of many single channel analyzers connected together such that the window of each SCA was successively higher than the window of the previous SCA. Example: The first SCA has a voltage window of 1.0-1.2V so the next SCA would have a voltage window of 1.2-1.4V and so on. ...
Velleman_Function_Generator
... labeled Amplitude and type in the value of the DC voltage. It is only allowed to be a number between 0.2 V to 5 V. The position of the line in the graph will change as soon as the function generator begins to output the DC signal with the amplitude that you entered. You do not have to click on Run. ...
... labeled Amplitude and type in the value of the DC voltage. It is only allowed to be a number between 0.2 V to 5 V. The position of the line in the graph will change as soon as the function generator begins to output the DC signal with the amplitude that you entered. You do not have to click on Run. ...
AD781
... The dc accuracy of the AD781 is determined primarily by the hold mode offset. The hold mode offset refers to the difference between the final held output voltage and the input signal at the time the hold command is given. The hold mode offset arises from a voltage error introduced onto the hold capa ...
... The dc accuracy of the AD781 is determined primarily by the hold mode offset. The hold mode offset refers to the difference between the final held output voltage and the input signal at the time the hold command is given. The hold mode offset arises from a voltage error introduced onto the hold capa ...
A MEMS based electrometer with a low
... been designed based on the mechanical parameters of the device (i.e. resonance frequency, required actuation voltage) using a discrete component solution on a printed circuit board (PCB) and carefully choosing components in order to minimize additional unwanted parasitic capacitances and noise with ...
... been designed based on the mechanical parameters of the device (i.e. resonance frequency, required actuation voltage) using a discrete component solution on a printed circuit board (PCB) and carefully choosing components in order to minimize additional unwanted parasitic capacitances and noise with ...
COLOR TELEVISION TRAINING MANUAL Chassis Series VB8B
... At the SVM circuitry, the input video signal with positive polarity (a) is amplified and inverted by Q1701. After passing through Q1702, the signal is differentiated by R1711 and L1701 and becomes (b). This 1st differential signal passes through Q1705 and is further shaped by C1708, C1709, L1702, an ...
... At the SVM circuitry, the input video signal with positive polarity (a) is amplified and inverted by Q1701. After passing through Q1702, the signal is differentiated by R1711 and L1701 and becomes (b). This 1st differential signal passes through Q1705 and is further shaped by C1708, C1709, L1702, an ...
SAIT Transducers and Instrumentation Trainer
... Sampling rate up to: 250,000 S/s (samples per second). Analog output: Max. output rate up to: 10 KS/s. Digital Input/Output: Number of channels=24 inputs/outputs. Port 0 up 1 MHz. Rest of characteristics are the same than EDAS/VIS 1.25 Version. EDAS/VIS-SOF. Data Acquisition and Virtual Instrumentat ...
... Sampling rate up to: 250,000 S/s (samples per second). Analog output: Max. output rate up to: 10 KS/s. Digital Input/Output: Number of channels=24 inputs/outputs. Port 0 up 1 MHz. Rest of characteristics are the same than EDAS/VIS 1.25 Version. EDAS/VIS-SOF. Data Acquisition and Virtual Instrumentat ...
Solution of Exam II - KFUPM Faculty List
... byte, and 2 bytes for error control, what percentage of total bandwidth will be wasted? Answer: Waste = 80/7080 = 1.123% c. (5 pts.) Which form of transmission is better, synchronous or asynchronous? Discuss. Answer: Synchronous transmission is a superior form of transmission. It allows a superior f ...
... byte, and 2 bytes for error control, what percentage of total bandwidth will be wasted? Answer: Waste = 80/7080 = 1.123% c. (5 pts.) Which form of transmission is better, synchronous or asynchronous? Discuss. Answer: Synchronous transmission is a superior form of transmission. It allows a superior f ...
Results
... across a capacitor in an RLC circuit as a function of input. It was shown that the response consisted of a transient and steady state part. The type of transient response was dependent on the resistor used. It was shown that for resistors with small values, the system was underdamped, and the transi ...
... across a capacitor in an RLC circuit as a function of input. It was shown that the response consisted of a transient and steady state part. The type of transient response was dependent on the resistor used. It was shown that for resistors with small values, the system was underdamped, and the transi ...
GFX-One Guitar Processor
... Implementing effects can be done using algorithms and subroutines as opposed to sophisticated analog hardware DSP can be altered and maintained using software ...
... Implementing effects can be done using algorithms and subroutines as opposed to sophisticated analog hardware DSP can be altered and maintained using software ...
Oscilloscope types
This is a subdivision of the Oscilloscope article, discussing the various types and models of oscilloscopes in greater detail.