Overview - Digilent Learn site
... 3. In the space below, provide a table containing the following. (15 pts) The frequencies at which the response data was measured the measured data characterizing your signal processing circuit (the input and output voltage amplitudes; time difference) the calculated amplitude and phase respon ...
... 3. In the space below, provide a table containing the following. (15 pts) The frequencies at which the response data was measured the measured data characterizing your signal processing circuit (the input and output voltage amplitudes; time difference) the calculated amplitude and phase respon ...
Document
... What is the duty cycle and how is it expressed? Duty cycle is an alternative frequency measurement that is the ratio of time a load or circuit is ON to the time a load or circuit is OFF. Duty cycle is expressed as a percentage. ...
... What is the duty cycle and how is it expressed? Duty cycle is an alternative frequency measurement that is the ratio of time a load or circuit is ON to the time a load or circuit is OFF. Duty cycle is expressed as a percentage. ...
Lab 6 - Digital Signals and A/D and D/A Conversion
... errors. The sampling theorem says that the highest frequency signal that can be accurately represented is fs/2 = 5kHz, which is satisfied in this case. If instead the analog sinusoid has a frequency of 5.5kHz, i.e. 0.5kHz above fs/2, the sampled signal will contain spectral lines at +/- 5.5 kHz, +/- ...
... errors. The sampling theorem says that the highest frequency signal that can be accurately represented is fs/2 = 5kHz, which is satisfied in this case. If instead the analog sinusoid has a frequency of 5.5kHz, i.e. 0.5kHz above fs/2, the sampled signal will contain spectral lines at +/- 5.5 kHz, +/- ...
Nov 2000 Infinite Sample-and-Hold Outperforms Many Legacy Sample-and-Hold Amplifiers
... the effects of phase jitter. This can be both a blessing and a curse. The blessed effect is that frequency stability and jitter effects are much easier to measure. The curse is that the use of a phase-locked loop as a tunable sample clock for spectrum analysis applications may simply expose the phas ...
... the effects of phase jitter. This can be both a blessing and a curse. The blessed effect is that frequency stability and jitter effects are much easier to measure. The curse is that the use of a phase-locked loop as a tunable sample clock for spectrum analysis applications may simply expose the phas ...
digital seismic recorder specification standards
... These filters are designed to fill the needs of a variety of users. However, only anti-alias filters are usually included in the signal path to prevent aliasing of high frequency signals as a result of the sampling process. This standard, therefore, requires that the amplitude and phase response of ...
... These filters are designed to fill the needs of a variety of users. However, only anti-alias filters are usually included in the signal path to prevent aliasing of high frequency signals as a result of the sampling process. This standard, therefore, requires that the amplitude and phase response of ...
Tektronix PG 502 Pulse Generator
... Tektronix PG 502 Pulse Generator The Tektronix PG 502 is a 250 MHz Pulse Generator that is one of many Tektronix 500 series modular test instruments designed to be used in any of the TM 500 series Power Supply Mainframes containing one to six module slots. There were two versions of the PG 502 as sh ...
... Tektronix PG 502 Pulse Generator The Tektronix PG 502 is a 250 MHz Pulse Generator that is one of many Tektronix 500 series modular test instruments designed to be used in any of the TM 500 series Power Supply Mainframes containing one to six module slots. There were two versions of the PG 502 as sh ...
doubly fed induction generator…
... the machine until January, when it was disassembled and the rotors were sent off to be balanced. The beginning of my UAP was helping to disassemble and reassemble the machine. For the moment, we are curious as to how the machine will perform as a motor. It appears attractive for large low-speed appl ...
... the machine until January, when it was disassembled and the rotors were sent off to be balanced. The beginning of my UAP was helping to disassemble and reassemble the machine. For the moment, we are curious as to how the machine will perform as a motor. It appears attractive for large low-speed appl ...
PDF
... is pulse echo technique in which a sound wave is launched by exciting the transducer with a voltage spike or square wave. The sound wave travels through the test material, either reflecting off the far side to return to its point of origin (pulse/echo), or being received by the other transducer (thr ...
... is pulse echo technique in which a sound wave is launched by exciting the transducer with a voltage spike or square wave. The sound wave travels through the test material, either reflecting off the far side to return to its point of origin (pulse/echo), or being received by the other transducer (thr ...
Portable Pulse Oximetry
... which is also the constant amount of light transmitted. The normalized amounts were divided into each other (red into infrared) to produce a ratio which could then be interpreted to get blood oxygen saturation. We lacked the means to calibrate the oximeter, so we stopped with the ratio. The program ...
... which is also the constant amount of light transmitted. The normalized amounts were divided into each other (red into infrared) to produce a ratio which could then be interpreted to get blood oxygen saturation. We lacked the means to calibrate the oximeter, so we stopped with the ratio. The program ...
Induced Polarisation (IP)
... For varying frequencies, complex resistivity describes a semicircle in (ReZ, ImZ) plane: ...
... For varying frequencies, complex resistivity describes a semicircle in (ReZ, ImZ) plane: ...
Chirp spectrum
The spectrum of a chirp pulse describes its characteristics in terms of its frequency components. This frequency-domain representation is an alternative to the more familiar time-domain waveform, and the two versions are mathematically related by the Fourier transform. The spectrum is of particular interest when pulses are subject to signal processing. For example, when a chirp pulse is compressed by its matched filter, the resulting waveform contains not only a main narrow pulse but, also, a variety of unwanted artifacts many of which are directly attributable to features in the chirp's spectral characteristics. The simplest way to derive the spectrum of a chirp, now computers are widely available, is to sample the time-domain waveform at a frequency well above the Nyquist limit and call up an FFT algorithm to obtain the desired result. As this approach was not an option for the early designers, they resorted to analytic analysis, where possible, or to graphical or approximation methods, otherwise. These early methods still remain helpful, however, as they give additional insight into the behavior and properties of chirps.