Exp03_vS1 - Electrical and Computer Engineering
... Auto-level only works when Edge is selected on the front panel. The input data flows into the pretrigger buffer and the instrument examines the data for a valid trigger. It will allow the data to overflow the buffer while it waits for a trigger. First it tries a Normal trigger, then it adjusts the l ...
... Auto-level only works when Edge is selected on the front panel. The input data flows into the pretrigger buffer and the instrument examines the data for a valid trigger. It will allow the data to overflow the buffer while it waits for a trigger. First it tries a Normal trigger, then it adjusts the l ...
- Majlesi Journal of Electrical Engineering
... The single zero z1 of transfer function will lie after pole p1 and pole p2 on satisfying above mentioned conditions. If equations (1) and (10) are compared, it is easily noticeable that poles (14-20) are at a higher frequency in proposed circuit. The dual compensation method gives better results in ...
... The single zero z1 of transfer function will lie after pole p1 and pole p2 on satisfying above mentioned conditions. If equations (1) and (10) are compared, it is easily noticeable that poles (14-20) are at a higher frequency in proposed circuit. The dual compensation method gives better results in ...
Auto-Zero Amplifiers
... auto-zero approach while minimizing the negative effects of digital switching on the analog signal — at half the cost. Typical offset voltage is under 1 µV and the offset drift is less than 10 nV/ºC. Voltage gain is more than 10 million, while PSRR and CMRR are well above 120dB. Input voltage noise ...
... auto-zero approach while minimizing the negative effects of digital switching on the analog signal — at half the cost. Typical offset voltage is under 1 µV and the offset drift is less than 10 nV/ºC. Voltage gain is more than 10 million, while PSRR and CMRR are well above 120dB. Input voltage noise ...
design project outline - Department of Electrical and Computer
... Overall differential voltage gain > 100,000 with a 2 kS load R id > 20 MS; CMRR $ 100 dB; Slew Rate $ 3 V/:S Open loop R out of whole op amp # 150 S with Vout at 0 VDC. Open loop unity gain $ 1.5 MHz with compensation Frequency compensation for unity closed loop gain with a response peak # 2dB and o ...
... Overall differential voltage gain > 100,000 with a 2 kS load R id > 20 MS; CMRR $ 100 dB; Slew Rate $ 3 V/:S Open loop R out of whole op amp # 150 S with Vout at 0 VDC. Open loop unity gain $ 1.5 MHz with compensation Frequency compensation for unity closed loop gain with a response peak # 2dB and o ...
W-band push–push monolithic frequency doubler in 1
... Imax is the maximum current, t0 is the length of the pulse, and T is the period corresponding to the fundamental frequency. To maximize the amplitude of the second harmonic, the conduction duty cycle for each transistor should be chosen such as t0 /T D 32%Œ9 . However, this would sacrifice the valu ...
... Imax is the maximum current, t0 is the length of the pulse, and T is the period corresponding to the fundamental frequency. To maximize the amplitude of the second harmonic, the conduction duty cycle for each transistor should be chosen such as t0 /T D 32%Œ9 . However, this would sacrifice the valu ...
Principles of Electronic Communication Systems
... performance of a communication circuit or system, specifically for non-sine wave approach, is Fourier Analysis. The Fourier theory states that a nonsinusoidal waveform can be broken down into individual harmonically related sine wave or cosine wave components. Fourier analysis states that a square w ...
... performance of a communication circuit or system, specifically for non-sine wave approach, is Fourier Analysis. The Fourier theory states that a nonsinusoidal waveform can be broken down into individual harmonically related sine wave or cosine wave components. Fourier analysis states that a square w ...
1996 ISSCC 8.1 presentation slides for this paper
... voltages and currents are referenced to other generated bias voltages and currents. Self biasing leadsto a number of desirable properties that include IC process independence, h e d damping DLLs and PLLs that use conventionalchargepumpdesigns factor, fixed bandwidth-to-operating-frequency ratio, bro ...
... voltages and currents are referenced to other generated bias voltages and currents. Self biasing leadsto a number of desirable properties that include IC process independence, h e d damping DLLs and PLLs that use conventionalchargepumpdesigns factor, fixed bandwidth-to-operating-frequency ratio, bro ...
Paper Title (use style: paper title)
... Experimenting with the prototype we found that driving the resonator about 16 ppm above the resonance gives a minimum value of amplitude jitter. Some amplitude instability was caused by the fan air cooling. Even though the air velocity was relatively low, the turbulent air passing through the resona ...
... Experimenting with the prototype we found that driving the resonator about 16 ppm above the resonance gives a minimum value of amplitude jitter. Some amplitude instability was caused by the fan air cooling. Even though the air velocity was relatively low, the turbulent air passing through the resona ...
Crystal Frequency Variations
... is inactive when the IC is in battery mode. Let us assume that the IC loses main power at point t1 in time, goes to battery mode, and regains main power at t2. It is important that the meter detects the loss of main power early and stores important metering data before the IC transitions to battery ...
... is inactive when the IC is in battery mode. Let us assume that the IC loses main power at point t1 in time, goes to battery mode, and regains main power at t2. It is important that the meter detects the loss of main power early and stores important metering data before the IC transitions to battery ...
Bode plot
In electrical engineering and control theory, a Bode plot /ˈboʊdi/ is a graph of the frequency response of a system. It is usually a combination of a Bode magnitude plot, expressing the magnitude of the frequency response, and a Bode phase plot, expressing the phase shift. Both quantities are plotted against a horizontal axis proportional to the logarithm of frequency.