Difference between revisions of "RADAR"
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=== RADAR Detector === | === RADAR Detector === | ||
− | RADAR broadcasts can be detected by many sensor systems | + | RADAR broadcasts can be detected by many sensor systems: a RADAR Detector specifically identifies RADAR devices based on the radio waves that they emit. It consists of a receiving array (typically a dish) and a control and interface unit. A RADAR detector can detect signals across a variety of wavelength bands and is able to precisely pinpoint the source of a RADAR broadcast. |
* It is a passive [[sensor]]. | * It is a passive [[sensor]]. | ||
Revision as of 16:12, 3 October 2018
RADAR | |
---|---|
Type | Sensor Equipment |
Tech Level | TL–5 |
Cost | varies |
Size | varies |
Weight | varies |
RADAR is an acronym for Radio Detection and Ranging
- It is a type of Sensor
Description / Specifications
RADAR is a sensor system that bounces radio waves (electromagnetic energy) off of a target and detects the reflection.
- It is an active sensor.
- More advanced versions of RADAR may be capable of tight beam transmissions.
- RADAR apparatus can be specifically designed to perform a specialist role, such as Terrain Following RADAR.
All-weather RADAR
RADAR performance can be impaired by atmospheric conditions: all-weather RADAR has improved function in a variety of environmental conditions.
- It is an active sensor.
RADAR Detector
RADAR broadcasts can be detected by many sensor systems: a RADAR Detector specifically identifies RADAR devices based on the radio waves that they emit. It consists of a receiving array (typically a dish) and a control and interface unit. A RADAR detector can detect signals across a variety of wavelength bands and is able to precisely pinpoint the source of a RADAR broadcast.
- It is a passive sensor.
Countermeasures
- RADAR can be countered by EMM (electromagnetic masking – "stealth" technology)
- It can be confused or overwhelmed by RADAR Jammers.
History & Background / Dossier
RADAR is available from TL-5 onwards.
RADAR is limited by realspace physics. The EM broadcasts that the RADAR produces take time to reach their target and their echoes take an equal amount of time to bounce back to the sensor apparatus.
- A RADAR broadcast travels at approximately 300,000 km per second. For example, a RADAR tracking a target at a distance of 900,000 km will have a signal delay of 6 seconds (3 seconds for the EM broadcast to reach the target and 3 seconds for its echoes to return).
References & Contributors / Sources
- MegaTraveller Referee's Manual, (Game Designers Workshop 1987) p68
- Fire, Fusion, & Steel, Traveller The New Era, (Game Designers Workshop 1987) p50
- Traveller Wiki Editorial Team
- Author & Contributor: Lord (Marquis) and Master of Sophontology Maksim-Smelchak of the Ministry of Science