AN/SPS-67

AN/SPS-67

AN/SPS-67 antenna on USS Paul Hamilton (DDG-60)
Country of origin United States
Type Surface-search
Frequency C band (5450 to 5825 MHz)
RPM 19 rpm
Range 104 km (56.2 nmi)
Azimuth 1.5°
Elevation 12° (-67(V)1)
31° (-67(V)2 & 3)
Power 280 kW

The AN/SPS-67 is a short-range, two-dimensional, surface-search/navigation radar system that provides highly accurate surface and limited low-flyer detection and tracking capabilities.

History

The AN/SPS-67 is a solid-state replacement for the AN/SPS-10 radar, using a more reliable antenna and incorporating standard electronic module technology for simpler repair and maintenance. The AN/SPS-67 provides excellent performance in rain and sea clutter, and is useful in harbor navigation, since the AN/SPS-67 is capable of detecting buoys and small obstructions without difficulty.[1]

The AN/SPS-67(V)1 radar is a two-dimensional (azimuth and range) pulsed radar set primarily designed for surface operations with a secondary capability of anti-ship-missile and low flier detection. The radar set operates in the 5450 to 5825 MHz range, using a coaxial magnetron as the transmitter output tube. The transmitter/receiver is capable of operation in several pulse width settings: a long (1.0 µs), medium (0.25 µs), or short (0.10 µs) pulse mode to enhance radar performance for specific operational or tactical situations. Pulse repetition frequencies (PRF) of 750,1200, and 2400 pulses/second are used for the long, medium, and short pulse modes, respectively.[1] The higher PRF settings coupled with the shortest pulse increases the resolution of the return and enables the radar operator/observer to discern or differentiate between a single large target or 2 smaller targets in close proximity to each other.

Variants

AN/SPS-10 antenna similar to those originally utilized by the SPS-67.

See also

References

  1. 1 2 "AN/SPS-67". Global Security. Archived from the original on 15 March 2007. Retrieved 2007-03-14.

External links


This article is issued from Wikipedia - version of the 10/12/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.