GPS162 - GPS Signal Splitter
16 Way, TNC Jack, 1 - 2 GHz, 50 Ohm Coaxial
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Product Overview
- GPS L1 - L5, GLONASS, Galileo splitter
- Low Insertion Loss (0.6 dB avg)
- High Port-to-Port Isolation (30 dB avg)
- Excellent VSWR (1.15 : 1 avg)
- 15 VDC & 75 mA max on DC block port
- Tri Alloy TNC Female (Jack) 50 Ohms
Frequency Range |
Insertion Loss above 12.04 dB |
Amplitude Balance |
Phase Balance |
Isolation | Input VSWR |
Output VSWR |
---|---|---|---|---|---|---|
1000-2000 MHz | 1.4 dB max | 0.6 dB max | 8° max | 22 dB min | 1.50 : 1 max | 1.20 : 1 max |
Mechanical Specifications | |
---|---|
Circuit Design | Wilkinson; 1 DC pass, 15 DC block with 200Ω internal load |
Connectors | TNC Female, 50 Ohm Coaxial |
Connector Body | Brass, Tri-Alloy Plate |
Connector Pin | Beryllium Copper, Gold Plate |
Connector Insulator | PTFE, Virgin Electrical Grade |
Housing | Aluminum, Clear Chem Film |
Operating Temp | -65°C to +85°C |
Weight | 1710 Grams |
16 Way Power Divider RF Input Ratings | ||
---|---|---|
Into Matched Load VSWR's |
In-Phase | 180° Out-of-Phase |
1.2 : 1 | 20 Watts | 20 Watts |
2.0 : 1 | 20 Watts | 20 Watts |
∞ | 10 Watts | 4 Watts |
16 Way Power Combiner RF Input Ratings | ||
Input Signals | In-Phase | 180° Out-of-Phase |
Coherent | 16 X 1.25 Watts | 16 X 0.125 Watts |
Non-Coherent | 16 X 0.25 Watts |
GPS162 Features & Benefits
Overview
GPS162 is a sixteen way, passive, GPS signal splitter ideal for splitting a GPS antenna signal between twelve receivers while providing a DC current path to power a remotely located active GPS antenna from one receiver while blocking the DC path from the others. Furnished with TNC type female connectors all ports. A special feature of this unit is the 200 ohm internal load which provides a current drain for the GPS receivers not powering the active antenna. Some GPS receivers incorrectly sense an antenna fault when there is no current draw. The 200 ohm internal load provides a simulated antenna current drain which prevents receiver faulting. Max voltage rating at the DC blocked ports is 10 VDC; maximum current rating is 50 mA. Maximum voltage rating at the DC pass port is 50 VDC; maximum current rating is 2000 mA.
Electrical
The heart of the unit is a precision designed and etched Wilkinson type microstrip circuit on a low loss, high frequency, dielectric substrate. Electrical performance is highlighted by 1.4 dB max insertion loss (above the 12.04 dB power split), 22 dB min isolation, 1.50:1 max input VSWR and 1.20:1 max output port VSWR. Equal power split and symmetry is displayed by 0.6 dB amplitude balance and 8 degrees phase balance. Narrow band GPS performance in your band of interest may be even better. See 16 way GPS splitter test sweeps for details. DC block and 200 ohm internal load are specially designed to be RF transparent with negligable effect on performance.
Mechanical
Mechanical features include precision CNC, brass, 50 ohm TNC female coaxial connectors with tri alloy plating to ensure tarnish resistance and low PIM operation. Connector pins are gold plated phosphor bronze for reliability and low contact resistance. Virgin electrical grade PTFE support insulators captivate the contact pins enabling trouble free coaxial connector mating. Long term operation and superior shielding is assured by the rugged CNC machined aluminum housing with clear chemical film finish. Secure mounting is provided by four 0.125" diameter (3.18 mm) through holes. RoHS construction includes no-lead solder and a finish free of hexavalent chromium.
Physical
Housing dimensions are 15.98" wide by 3.48" deep by 0.88" high (405.9 x 88.4 x 22.2 mm). The TNC female (jack) connectors extend 0.65" (16.5 mm) from the housing. Operating temperature range is from -65°C to +85°C. Weight is 1690 grams. See 16 way GPS splitter outline drawing for more information.
Applications
Model GPS162 is a 16-way, passive, TNC, GNSS splitter covering all frequencies from 1000 to 2000 MHz with best-in-class performance for GPS L1, L2, L3, L4, L5, GLONASS, Galileo, BeiDou and IRNSS global navigation satellite positioning system applications, and is deployed worldwide.