State-variable-based transient analysis using convolution
... Univ. California at Berkeley, Berkeley, CA 94720, 1988. ...
... Univ. California at Berkeley, Berkeley, CA 94720, 1988. ...
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... • It is the difference in voltage between the first ideal code transition and the actual code transition of the ADC. • This error affects all codes by the same amount and can usually be compensated for by a trimming process. If trimming is not possible, this error is referred to as the zero-scale er ...
... • It is the difference in voltage between the first ideal code transition and the actual code transition of the ADC. • This error affects all codes by the same amount and can usually be compensated for by a trimming process. If trimming is not possible, this error is referred to as the zero-scale er ...
1996 ISSCC 8.1 presentation slides for this paper
... a broad delay range with low supply voltage requirements that design inReference 4 to allow it to perform frequency synthesis scale with the operating delay. They operate with a delay that and dutycycle correction with one key difference. The design in vanes inversely proportionally to the control v ...
... a broad delay range with low supply voltage requirements that design inReference 4 to allow it to perform frequency synthesis scale with the operating delay. They operate with a delay that and dutycycle correction with one key difference. The design in vanes inversely proportionally to the control v ...
One valuable thing to understand about the buck circuit is the input
... Now – returning to the current through V1. This choppy current will likely upset other devices if they are also powered from V1. The current pulses are also a prime source of EMI since the current can be large and the edge transitions are fast. For both of these reasons, we would add a filter. ...
... Now – returning to the current through V1. This choppy current will likely upset other devices if they are also powered from V1. The current pulses are also a prime source of EMI since the current can be large and the edge transitions are fast. For both of these reasons, we would add a filter. ...
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.