"Filtering Technique Isolating Analog/Digital Power Supplies in PLL
... capacitor (around 0.01 µF) to handle higher frequencies. It is more effective to use an array of three or more bypass capacitors with different capacitance values when filtering a wider noise bandwidth. The frequency response of any capacitor is determined by its parasitics, that is, its equivalent ...
... capacitor (around 0.01 µF) to handle higher frequencies. It is more effective to use an array of three or more bypass capacitors with different capacitance values when filtering a wider noise bandwidth. The frequency response of any capacitor is determined by its parasitics, that is, its equivalent ...
Target Tracking Slides
... 2-step cycle where one cycle depends on the previous one and the other cycle depends on pseudo-sensor data from host CPU ...
... 2-step cycle where one cycle depends on the previous one and the other cycle depends on pseudo-sensor data from host CPU ...
Application of Multifrequency Pulsing in Switching
... frequency, and O is the phase angle of the applied wave. A plot of these equations is shown in Figure 8 for the case of a filter with a pass band 100 cycles wide and a midband frequency of 900 cycles. TRANSIENT PROTECTION BY TIMING Since the results obtained with the The receiver is required to oper ...
... frequency, and O is the phase angle of the applied wave. A plot of these equations is shown in Figure 8 for the case of a filter with a pass band 100 cycles wide and a midband frequency of 900 cycles. TRANSIENT PROTECTION BY TIMING Since the results obtained with the The receiver is required to oper ...
Introduction to Phase
... The operation of the system becomes clearer if we assume that the /N1 counter has just counted down to 0 and both counters have been loaded with their preset values N1 and N2, respectively. We now have to find the number of cycles the VCO must produce until the same logic state is reached again. Thi ...
... The operation of the system becomes clearer if we assume that the /N1 counter has just counted down to 0 and both counters have been loaded with their preset values N1 and N2, respectively. We now have to find the number of cycles the VCO must produce until the same logic state is reached again. Thi ...
Ringing artifacts
In signal processing, particularly digital image processing, ringing artifacts are artifacts that appear as spurious signals near sharp transitions in a signal. Visually, they appear as bands or ""ghosts"" near edges; audibly, they appear as ""echos"" near transients, particularly sounds from percussion instruments; most noticeable are the pre-echos. The term ""ringing"" is because the output signal oscillates at a fading rate around a sharp transition in the input, similar to a bell after being struck. As with other artifacts, their minimization is a criterion in filter design.