What is satellite transmission latency?
Latency refers to the time it takes data to travel across a network. A satellite network has greater latency due to the time it takes for the signal to travel to and from the satellite. Since most communications satellites are located in a geostationary orbit about 35,786 Km (22,223 mi.) above the Equator, you can expect a delay of about 240 to 280 milliseconds. That’s approximately one half of a second delay to the overall response time between your computer and a host site or Web server. Consequently, HughesNet Satellite DSL and other satellite systems that use MPEG encapsulation transmission are not ideal for on-line gaming and some time-sensitive business applications. Business applications which have protocols that require sub second response times will be affected by increased latency and generally are not recommended for use over HughesNet satellite. A few examples are VOIP, video conferencing, VPNs, and remote desktop management. If you have a need to utilize any bandwidth inte
Latency refers to the time it takes data to travel across a network. A satellite network has greater latency due to the time it takes for the signal to travel to and from the satellite. Since most communications satellites are located in a geostationary orbit about 35,786 Km (22,223 mi.) above the Equator, you can expect a delay of about 240 to 280 milliseconds. That’s approximately one half of a second delay in each direction (1 sec. total) to the overall response time between your computer and a host site or Web server. Consequently, HughesNet Satellite DSL and other satellite systems that use MPEG encapsulation transmission are not ideal for on-line gaming and some time-sensitive business applications. Business applications which have protocols that require sub second response times will be affected by increased latency and generally are not recommended for use over HughesNet satellite. A few examples are VOIP, video conferencing, VPNs, and remote desktop management. If you have a n