Difference between revisions of "Digital systems/Latency (Q976)"
From CompetenceBase
(Created claim: context (P66): Analog systems work at the speed of light in copper, which is to say, without any perceptible delay. All digital systems however introduce a little bit of latency, and it accumulates along the signal chain.) | (Added [de] label: Digitale Systeme/Latenz) | ||
| label / de | label / de | ||
| + | Digitale Systeme/Latenz | ||
Revision as of 15:05, 26 July 2024
Analog systems work at the speed of light in copper, which is to say, without any perceptible delay. All digital systems however introduce a little bit of latency, and it accumulates along the signal chain.
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Digital systems/Latency | Analog systems work at the speed of light in copper, which is to say, without any perceptible delay. All digital systems however introduce a little bit of latency, and it accumulates along the signal chain. |
Statements
15
0 references
causes of latency along the signal chain (English)
sample rate and system latency (English)
packetized transport (e.g. Ethernet) (English)
sample-rate conversion (English)
0 references
optimizing system latency (English)
non-critical signal paths: large-area sound reinforcement, recording (English)
critical singnal paths: musician monitoring (especially in-ear) (English)
0 references
SQQ7 - 8.1.4
0 references
Analog systems work at the speed of light in copper, which is to say, without any perceptible delay. All digital systems however introduce a little bit of latency, and it accumulates along the signal chain. (English)
0 references