function buildsearch(){
   var s=0;
   searchme=new Array();
searchme[s++]=new searchthing("itm0000238.html"," Norsat 3520","Input Frequency 3.4 to 4.2 GHz  Output Frequency 950 - 1750 MHz  Noise Temperature 20°K @ 25°C  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.2:1 max  LO Stability ± 25KHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +24 VDC  Current Drain 350 mA typical  Operating Temperature -30°C to +55°C  Input Interface Flange, WR 229G  Output Interface 75 Ohm, Type "F" Female  Finish Powder Coat  Physical Size 7.1 x 4 x 2.8 in  Weight 25 oz  ");
searchme[s++]=new searchthing("0000021_1.html#itm0000238"," Norsat 3520","Input Frequency 3.4 to 4.2 GHz  Output Frequency 950 - 1750 MHz  Noise Temperature 20°K @ 25°C  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.2:1 max  LO Stability ± 25KHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +24 VDC  Current Drain 350 mA typical  Operating Temperature -30°C to +55°C  Input Interface Flange, WR 229G  Output Interface 75 Ohm, Type "F" Female  Finish Powder Coat  Physical Size 7.1 x 4 x 2.8 in  Weight 25 oz  ");
searchme[s++]=new searchthing("itm0000239.html"," Norsat 8115","Input Frequency 3.4 to 4.2 GHz  Output Frequency 950 - 1750 MHz  Noise Temperature 15°K @ 25°C  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 100 KHz  LO Frequency 5.15 GHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +20 VDC  Current Drain 200 mA typical  Operating Temperature -40°C to +50°C  Input Interface Flange, WR 229G  Output Interface 75 Ohm, Type "F" Female  Finish Powder Coat  Physical Size 7.1 x 3.9 x 2.8 in  Weight 15 oz  ");
searchme[s++]=new searchthing("0000021_1.html#itm0000239"," Norsat 8115","Input Frequency 3.4 to 4.2 GHz  Output Frequency 950 - 1750 MHz  Noise Temperature 15°K @ 25°C  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 100 KHz  LO Frequency 5.15 GHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +20 VDC  Current Drain 200 mA typical  Operating Temperature -40°C to +50°C  Input Interface Flange, WR 229G  Output Interface 75 Ohm, Type "F" Female  Finish Powder Coat  Physical Size 7.1 x 3.9 x 2.8 in  Weight 15 oz  ");
searchme[s++]=new searchthing("itm0000240.html"," Norsat 8215","Input Frequency 3.4 to 4.2 GHz  Output Frequency 950 - 1750 MHz  Noise Temperature 15°K @ 25°C  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 250KHz  LO Frequency 5.15 GHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +20 VDC  Current Drain 200 mA typical  Operating Temperature -40°C to +50°C  Input Interface Flange, WR 229G  Output Interface 75 Ohm, Type "F" Female  Finish Powder Coat  Physical Size 7.1 x 3.9 x 2.8 in  Weight 15 oz  ");
searchme[s++]=new searchthing("0000021_1.html#itm0000240"," Norsat 8215","Input Frequency 3.4 to 4.2 GHz  Output Frequency 950 - 1750 MHz  Noise Temperature 15°K @ 25°C  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 250KHz  LO Frequency 5.15 GHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +20 VDC  Current Drain 200 mA typical  Operating Temperature -40°C to +50°C  Input Interface Flange, WR 229G  Output Interface 75 Ohm, Type "F" Female  Finish Powder Coat  Physical Size 7.1 x 3.9 x 2.8 in  Weight 15 oz  ");
searchme[s++]=new searchthing("itm0000241.html"," Norsat 8515","Input Frequency 3.4 to 4.2 GHz  Output Frequency 950 - 1750 MHz  Noise Temperature 15°K @ 25°C  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 500KHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +20 VDC  Current Drain 200 mA typical  Operating Temperature -40°C to +50°C  Input Interface Flange, WR 229G  Output Interface 75 Ohm, Type "F" Female  Finish Powder Coat  Physical Size 7.1 x 3.9 x 2.8 in  Weight 15 oz  ");
searchme[s++]=new searchthing("0000021_1.html#itm0000241"," Norsat 8515","Input Frequency 3.4 to 4.2 GHz  Output Frequency 950 - 1750 MHz  Noise Temperature 15°K @ 25°C  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 500KHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +20 VDC  Current Drain 200 mA typical  Operating Temperature -40°C to +50°C  Input Interface Flange, WR 229G  Output Interface 75 Ohm, Type "F" Female  Finish Powder Coat  Physical Size 7.1 x 3.9 x 2.8 in  Weight 15 oz  ");
searchme[s++]=new searchthing("itm0000231.html"," Scientific Atlanta D9850","The PowerVu® D9850 receiver is designed for satellite content distribution applications requiring 4:2:0 video decoding. The receiver offers the capability to receive digitally encrypted video, audio, utility data, and VBI data.  For PBS, NASA ");
searchme[s++]=new searchthing("0000022_1.html#itm0000231"," Scientific Atlanta D9850","The PowerVu® D9850 receiver is designed for satellite content distribution applications requiring 4:2:0 video decoding. The receiver offers the capability to receive digitally encrypted video, audio, utility data, and VBI data.  For PBS, NASA ");
searchme[s++]=new searchthing("itm0000232.html"," 4DTV Digital Receiver","The Motorola 4DTV digital satellite receiver is two receivers in one! The Motorola 4DTV digital satellite receiver does everything your analog receiver does and more. It is engineered for customers who truly want the best. The Motorola 4DTV digital satellite receiver represents both the future of C-Band and the state-of-the-art in TVRO television reception.  DigiCipher II programming  Free digital channels  Access to high definition programming  Dolby Digital Supports IPPV audio  Easy to use ");
searchme[s++]=new searchthing("0000022_1.html#itm0000232"," 4DTV Digital Receiver","The Motorola 4DTV digital satellite receiver is two receivers in one! The Motorola 4DTV digital satellite receiver does everything your analog receiver does and more. It is engineered for customers who truly want the best. The Motorola 4DTV digital satellite receiver represents both the future of C-Band and the state-of-the-art in TVRO television reception.  DigiCipher II programming  Free digital channels  Access to high definition programming  Dolby Digital Supports IPPV audio  Easy to use ");
searchme[s++]=new searchthing("itm0000233.html"," MT630 Agile IRD-SC Integrated Satellite","Agile IRD-SC Integrated Satellite Rec/Descrambler • Easy-mounting 1.75" high cabinet • A C/Ku-band satellite receiver with integrated VideoCipher® RS descrambler • Rock-solid 100 kHz PLL synthesized tuning • 950-1450 MHz");
searchme[s++]=new searchthing("0000022_1.html#itm0000233"," MT630 Agile IRD-SC Integrated Satellite","Agile IRD-SC Integrated Satellite Rec/Descrambler • Easy-mounting 1.75" high cabinet • A C/Ku-band satellite receiver with integrated VideoCipher® RS descrambler • Rock-solid 100 kHz PLL synthesized tuning • 950-1450 MHz");
searchme[s++]=new searchthing("itm0000234.html"," MT650 Agile IRDII Integrated Satellite R","Agile IRDII Integrated Satellite Rec/Descrambler • Advanced IRD designed for master CATV headends • RS250 broadcast certified video/audio performance • Low profile 1 RU • Industry standard 70MHz IF loop • Front panel test points for video and IFITEM TEXT ! ITEM TEXT 2");
searchme[s++]=new searchthing("0000022_1.html#itm0000234"," MT650 Agile IRDII Integrated Satellite R","Agile IRDII Integrated Satellite Rec/Descrambler • Advanced IRD designed for master CATV headends • RS250 broadcast certified video/audio performance • Low profile 1 RU • Industry standard 70MHz IF loop • Front panel test points for video and IFITEM TEXT ! ITEM TEXT 2");
searchme[s++]=new searchthing("itm0000224.html"," Corotor II Plus and Corotor II Plus Wid","The Corotor II Plus and Corotor II Plus Wideband are designed for systems which require reception of both C and Ku-Band signals. The Corotor II Plus is primarily for reception of satellites in the United States while the Corotor II Plus Wideband is used throughout Europe, the Middle East and North Africa. Both feedhorns feature Chaparral's patented probe for C-Band, reception and a unique low-loss dipole antenna for Ku-Band reception. The dipole is virtually invisible to the C-Band probe, resulting in superior C-Band performance while improving Ku-Band illumination. Both the probe and the dipole are controlled by a Chaparral servo motor, providing infinite skew adjustments and quick selection of horizontal and vertical poles.  The Corotor II Plus receives linear C-Band signals in the 3.7-4.2GHz range and linear Ku-Band signals in the 11.7-12.7GHz range. The Corotor II Plus Wideband is for receptions of circular and linear C-Band signals in the 3.4-4.2GHz range and linear Ku-Band signals in the 10.95-12.75GHz range. The Corotor II Plus Wideband features a new low loss dielectric plate. The new dielectric plate provides a lower noise temperature and improved cross polarization.  The Corotor II Plus features chip-resistant powder paint, waterproof gaskets and connectors for protection against the environment. Built in the Chaparral tradition of quality, the Corotor II Plus is the ideal choice for systems which require reliable performance.  Features  Low Loss Dipole  Adjustable Scalar Ring  100% Tested  Polyurethane Powder Coating  Mounts to Single-Pole, Tripod and Quadpod support  Comprehensive Factory Warranty  Specifications  Part Number Corotor II Plus: 11-5000-62 Corotor II Plus Wideband: 11-7128-62  C-Band Frequency Range 3.7 - 4.2 GHz  (3.4 - 4.2GHz for Wideband)  Ku-Band Input Frequency Range: 11.7 - 12.7 GHz (10.95 - 12.75GHz for Wideband)  f/D Range .32 to .45  VSWR  1.3:1 in both bands  Polarization Linear; horizontal and vertical(Circular C-Band for Wideband model)  Cross Pol. Isolation  20 dB or better  RF Ports  C-Band: WR 229 compatible Ku-Band: WR 75 compatible  Power requirements +5 VDC and TTL Logic Pulse  Weight  1.40 Kg  ");
searchme[s++]=new searchthing("0000023_1.html#itm0000224"," Corotor II Plus and Corotor II Plus Wid","The Corotor II Plus and Corotor II Plus Wideband are designed for systems which require reception of both C and Ku-Band signals. The Corotor II Plus is primarily for reception of satellites in the United States while the Corotor II Plus Wideband is used throughout Europe, the Middle East and North Africa. Both feedhorns feature Chaparral's patented probe for C-Band, reception and a unique low-loss dipole antenna for Ku-Band reception. The dipole is virtually invisible to the C-Band probe, resulting in superior C-Band performance while improving Ku-Band illumination. Both the probe and the dipole are controlled by a Chaparral servo motor, providing infinite skew adjustments and quick selection of horizontal and vertical poles.  The Corotor II Plus receives linear C-Band signals in the 3.7-4.2GHz range and linear Ku-Band signals in the 11.7-12.7GHz range. The Corotor II Plus Wideband is for receptions of circular and linear C-Band signals in the 3.4-4.2GHz range and linear Ku-Band signals in the 10.95-12.75GHz range. The Corotor II Plus Wideband features a new low loss dielectric plate. The new dielectric plate provides a lower noise temperature and improved cross polarization.  The Corotor II Plus features chip-resistant powder paint, waterproof gaskets and connectors for protection against the environment. Built in the Chaparral tradition of quality, the Corotor II Plus is the ideal choice for systems which require reliable performance.  Features  Low Loss Dipole  Adjustable Scalar Ring  100% Tested  Polyurethane Powder Coating  Mounts to Single-Pole, Tripod and Quadpod support  Comprehensive Factory Warranty  Specifications  Part Number Corotor II Plus: 11-5000-62 Corotor II Plus Wideband: 11-7128-62  C-Band Frequency Range 3.7 - 4.2 GHz  (3.4 - 4.2GHz for Wideband)  Ku-Band Input Frequency Range: 11.7 - 12.7 GHz (10.95 - 12.75GHz for Wideband)  f/D Range .32 to .45  VSWR  1.3:1 in both bands  Polarization Linear; horizontal and vertical(Circular C-Band for Wideband model)  Cross Pol. Isolation  20 dB or better  RF Ports  C-Band: WR 229 compatible Ku-Band: WR 75 compatible  Power requirements +5 VDC and TTL Logic Pulse  Weight  1.40 Kg  ");
searchme[s++]=new searchthing("itm0000225.html"," Chaparral Super Feed","The Chaparral Super Feed is a single polarity C-Band feedhorn for reception of linear polarized signals in the 3.7 to 4.2 GHz bandwidth. Superior quality, excellent illumination patterns and a compact design make the Super Feed the ideal choice in feedhorns for single polarity systems.  Chaparral's Super Feed features chip-resistant powder paint and cast aluminum construction for added protection against the environment. Built in the Chaparral tradition of quality, the Super Feed is the ideal choice for reliable performance.  Applications   Single Polarity Satellite Systems  Features   Made in the USA  Mounts to all Standard Prime Focus Satellite Dishes  Cast Aluminum Construction  Chip-Resistant Polyurethane Powder Coating  Two Year Warranty  Specifications   Part Number  0081   C-Band Frequency Range   3.7-4.2 GHz   f/D Range   .33 to .45   Cross Pol. Isolation   25 dB minimum   VSWR   1.3: 1 in both bands   Output Ports WR  229 compatible   Temperature Range   -40° C to 60° C   Size   6.5" diameter x 4.5" height   Weight   1.43 lbs.         ");
searchme[s++]=new searchthing("0000023_1.html#itm0000225"," Chaparral Super Feed","The Chaparral Super Feed is a single polarity C-Band feedhorn for reception of linear polarized signals in the 3.7 to 4.2 GHz bandwidth. Superior quality, excellent illumination patterns and a compact design make the Super Feed the ideal choice in feedhorns for single polarity systems.  Chaparral's Super Feed features chip-resistant powder paint and cast aluminum construction for added protection against the environment. Built in the Chaparral tradition of quality, the Super Feed is the ideal choice for reliable performance.  Applications   Single Polarity Satellite Systems  Features   Made in the USA  Mounts to all Standard Prime Focus Satellite Dishes  Cast Aluminum Construction  Chip-Resistant Polyurethane Powder Coating  Two Year Warranty  Specifications   Part Number  0081   C-Band Frequency Range   3.7-4.2 GHz   f/D Range   .33 to .45   Cross Pol. Isolation   25 dB minimum   VSWR   1.3: 1 in both bands   Output Ports WR  229 compatible   Temperature Range   -40° C to 60° C   Size   6.5" diameter x 4.5" height   Weight   1.43 lbs.         ");
searchme[s++]=new searchthing("itm0000226.html"," Polarotor I E/A C- band feed","Designed for reception of C-Band signals from 3.4 to 4.2 GHz, the PRI E/A includes Chaparral’s reliable servo motor for skew control. In use for over decades in millions of home satellite systems, cable TV systems, businesses and institutions, the Polarotor I E/A has earned the reputation as the best-performing C-Band feedhorn in the world.  Features  Designed in the United States  Patented probe design  Precision cast-aluminum body, scalar and waveguide  Waveguide flange with water-resistant gaskets  100% tested Servo motor  Low-loss throat cover  Stainless steel mounting hardware  Durable polyurethane powder coating  Mounts to single-pole, tripod and quadpod supports  Cast-in f/D gauge  Adjustable scalar (economy-adjustable)  Single set-screw scalar rig  Through and threaded mounting holes  Applications  C-Band satellite systems in:  North America  South America  Middle East  Africa  Asia  Home satellite systems  Commercial satellite systems  Optional dielectric plate for circular polarity  Specifications  Part Number 11-4221-1 with elbow 11-6870-62 without elbow  Frequency Range C-Band: 3.4-4.2 GHz   Polarization Linear; horizontal and vertical, Circular; with optional dielectric plate  f/D Range .32 to .45   VSWR 1.25 to 1  Cross Pol. Isolation  35 dB  RF Ports WR 229 Compatible  Power requirements +5VDC and TTL Logic Pulse  Temperature Range -50° F to + 175° F  Size  6.5" diameter x 8.13"  Weight  2.7 lbs.  Warranty 2 years  ");
searchme[s++]=new searchthing("0000023_1.html#itm0000226"," Polarotor I E/A C- band feed","Designed for reception of C-Band signals from 3.4 to 4.2 GHz, the PRI E/A includes Chaparral’s reliable servo motor for skew control. In use for over decades in millions of home satellite systems, cable TV systems, businesses and institutions, the Polarotor I E/A has earned the reputation as the best-performing C-Band feedhorn in the world.  Features  Designed in the United States  Patented probe design  Precision cast-aluminum body, scalar and waveguide  Waveguide flange with water-resistant gaskets  100% tested Servo motor  Low-loss throat cover  Stainless steel mounting hardware  Durable polyurethane powder coating  Mounts to single-pole, tripod and quadpod supports  Cast-in f/D gauge  Adjustable scalar (economy-adjustable)  Single set-screw scalar rig  Through and threaded mounting holes  Applications  C-Band satellite systems in:  North America  South America  Middle East  Africa  Asia  Home satellite systems  Commercial satellite systems  Optional dielectric plate for circular polarity  Specifications  Part Number 11-4221-1 with elbow 11-6870-62 without elbow  Frequency Range C-Band: 3.4-4.2 GHz   Polarization Linear; horizontal and vertical, Circular; with optional dielectric plate  f/D Range .32 to .45   VSWR 1.25 to 1  Cross Pol. Isolation  35 dB  RF Ports WR 229 Compatible  Power requirements +5VDC and TTL Logic Pulse  Temperature Range -50° F to + 175° F  Size  6.5" diameter x 8.13"  Weight  2.7 lbs.  Warranty 2 years  ");
searchme[s++]=new searchthing("itm0000227.html"," Chaparral Dual C band Feed","The Chaparral Dual Feed feedhorn is an orthomode transducer for simultaneous reception of horizontal and vertical C-Band polarities. Due to its reliable performance with virtually no signal loss, Chaparral's Dual Feed is the most trusted feedhorn for commercial applications.  Applications  SMATV  Cable TV operators  Multiple receiver systems  Commercial satellite systems  Features  100% tested  Adjustable scalar ring  Cast-in f/D gauge  Mounts to all standard satellite dishes  Cast aluminum construction  Chip-resistant polyurethane powder coating  Two-year warranty  Made in the USA  Specifications  Part Number 11-1329-1  Frequency Range 3.7-4.2 GHz  VSWR  1.5:1 Max  f/D Range .33 to .45  Cross Pol. Isolation  35 dB Min  Output Ports WR 229 Compatible  Temperature Range -40° C to +60° C  Size  8.0" x 6.5" x 5.0"  Weight  2.23 lbs.       ");
searchme[s++]=new searchthing("0000023_1.html#itm0000227"," Chaparral Dual C band Feed","The Chaparral Dual Feed feedhorn is an orthomode transducer for simultaneous reception of horizontal and vertical C-Band polarities. Due to its reliable performance with virtually no signal loss, Chaparral's Dual Feed is the most trusted feedhorn for commercial applications.  Applications  SMATV  Cable TV operators  Multiple receiver systems  Commercial satellite systems  Features  100% tested  Adjustable scalar ring  Cast-in f/D gauge  Mounts to all standard satellite dishes  Cast aluminum construction  Chip-resistant polyurethane powder coating  Two-year warranty  Made in the USA  Specifications  Part Number 11-1329-1  Frequency Range 3.7-4.2 GHz  VSWR  1.5:1 Max  f/D Range .33 to .45  Cross Pol. Isolation  35 dB Min  Output Ports WR 229 Compatible  Temperature Range -40° C to +60° C  Size  8.0" x 6.5" x 5.0"  Weight  2.23 lbs.       ");
searchme[s++]=new searchthing("itm0000228.html"," Chaparral Bullseye II","The Chaparral Bullseye II feedhorn is used in satellite systems equipped for reception of C-Band (3.7-4.2 GHz) and Ku-Band (11.7-12.75 GHz) satellite signals and is compatible with all LNBs designed for these frequencies. Simultaneous reception of both signal polarities is available for multiple receivers using a single dish. The adjustable scalar ring provides optimum reception and interference rejection with a wide variety of dishes.  Applications  The Bullseye II feedhorn is used in many home and commercial satellite systems for reception of C-Band satellites used for the broadcast of entertainment television, and for the reception of Ku-Band and hybrid (C/Ku) satellites used for network, business, entertainment and educational television. It is equipped with C-Band and Ku-Band orthomode feeds, allowing simultaneous reception of both signal polarities by multiple receivers in the system. This makes the Bullseye II feedhorn well suited for use in cable television system as well as in hotels, hospitals, schools, and other locations using multiple receivers for reception of C-Band and Ku-Band signals with a single dish.  Features  100% made in USA  Precision cast-aluminum construction  Cast waveguide flanges with water-tight gaskets  Microwave-transparent throat cover  Stainless steel mounting hardware  Durable flake-resistant coating  Mounts to single-pole, tripod and quadpod supports  Polar axis alignment tool  Adjustable scalar ring fits a variety of reflectors  Two Year Warranty  Specifications  Part Number 11-3179-1  Frequency Range C-Band: 3.7-4.2 GHz Ku-Band: 11.70-12.75 GHz   VSWR  C-Band: 1.6 to 1 Ku-Band: 1.4 to 1  f/D Range .39 to .42  Cross Pol. Isolation  C-Band: 18 dB Ku-Band: 25 dB  RF Ports C-Band: WR229 Ku-Band: WR75  Temperature Range -40° C to +60° C  Size  8.625" x 8" x 5.5"  Weight  3 lbs.  Warranty 1 year  ");
searchme[s++]=new searchthing("0000023_1.html#itm0000228"," Chaparral Bullseye II","The Chaparral Bullseye II feedhorn is used in satellite systems equipped for reception of C-Band (3.7-4.2 GHz) and Ku-Band (11.7-12.75 GHz) satellite signals and is compatible with all LNBs designed for these frequencies. Simultaneous reception of both signal polarities is available for multiple receivers using a single dish. The adjustable scalar ring provides optimum reception and interference rejection with a wide variety of dishes.  Applications  The Bullseye II feedhorn is used in many home and commercial satellite systems for reception of C-Band satellites used for the broadcast of entertainment television, and for the reception of Ku-Band and hybrid (C/Ku) satellites used for network, business, entertainment and educational television. It is equipped with C-Band and Ku-Band orthomode feeds, allowing simultaneous reception of both signal polarities by multiple receivers in the system. This makes the Bullseye II feedhorn well suited for use in cable television system as well as in hotels, hospitals, schools, and other locations using multiple receivers for reception of C-Band and Ku-Band signals with a single dish.  Features  100% made in USA  Precision cast-aluminum construction  Cast waveguide flanges with water-tight gaskets  Microwave-transparent throat cover  Stainless steel mounting hardware  Durable flake-resistant coating  Mounts to single-pole, tripod and quadpod supports  Polar axis alignment tool  Adjustable scalar ring fits a variety of reflectors  Two Year Warranty  Specifications  Part Number 11-3179-1  Frequency Range C-Band: 3.7-4.2 GHz Ku-Band: 11.70-12.75 GHz   VSWR  C-Band: 1.6 to 1 Ku-Band: 1.4 to 1  f/D Range .39 to .42  Cross Pol. Isolation  C-Band: 18 dB Ku-Band: 25 dB  RF Ports C-Band: WR229 Ku-Band: WR75  Temperature Range -40° C to +60° C  Size  8.625" x 8" x 5.5"  Weight  3 lbs.  Warranty 1 year  ");
searchme[s++]=new searchthing("itm0000229.html"," ADL-RP3-CKU","Model ADL-RP3-CKU  Frequency 3.625 - 4.2 GHz 11.7 - 12.5 GHz*  Polarities 1 C / 1KU  F/D Range Adjustable  Polarization Linear  RF Port 1 WR-229 1 WR75  Mounting 3 & 4 Hole Pattern on a 5.750°  Polarization Operation 3 Wire Servo Type +5 VDC  VSWR 1.45 Average  Polarization Isolation 25 dB typ (C) 25 dB typ (Ku)  Rotation 180° ± 15°  Weight 3.0 LBs  ");
searchme[s++]=new searchthing("0000023_1.html#itm0000229"," ADL-RP3-CKU","Model ADL-RP3-CKU  Frequency 3.625 - 4.2 GHz 11.7 - 12.5 GHz*  Polarities 1 C / 1KU  F/D Range Adjustable  Polarization Linear  RF Port 1 WR-229 1 WR75  Mounting 3 & 4 Hole Pattern on a 5.750°  Polarization Operation 3 Wire Servo Type +5 VDC  VSWR 1.45 Average  Polarization Isolation 25 dB typ (C) 25 dB typ (Ku)  Rotation 180° ± 15°  Weight 3.0 LBs  ");
searchme[s++]=new searchthing("itm0000230.html"," ADL-RP3-AZOP122","Model ADL-RP3-AZOP122  Frequency 3.625 - 4.2 GHz (C) 10.7 - 12.75 GHz*(Ku)  Polarities 2 C / 2 Ku  F/D Range .300 to .425  Polarization Linear V/H   RF Port 2 WR-229 2 WR75  Mounting 3 & 4 Hole Pattern on a 5.750°  Polarization Adjust Motor 24 VDC  VSWR 1.40 (C) Average 1.45 (Ku) Average  Polarization Isolation 25 dB typ (C) 25 dB typ (Ku)  Weight 6 LBs  ");
searchme[s++]=new searchthing("0000023_1.html#itm0000230"," ADL-RP3-AZOP122","Model ADL-RP3-AZOP122  Frequency 3.625 - 4.2 GHz (C) 10.7 - 12.75 GHz*(Ku)  Polarities 2 C / 2 Ku  F/D Range .300 to .425  Polarization Linear V/H   RF Port 2 WR-229 2 WR75  Mounting 3 & 4 Hole Pattern on a 5.750°  Polarization Adjust Motor 24 VDC  VSWR 1.40 (C) Average 1.45 (Ku) Average  Polarization Isolation 25 dB typ (C) 25 dB typ (Ku)  Weight 6 LBs  ");
searchme[s++]=new searchthing("itm0000205.html"," Patriot 3.1 Meter","RF Specifications C-Band Ku-Band  Frequency 3.7-4.2 GHz 10.95-12.75 GHz  Rx Gain 40.4 dBi 49.7 dBi  Rx 3 dB beamwidth 1.7 0.6  Cross Polarization >35 dB >35 dB  Beamwidth 1.72° .55°  VSWR 1.3:1 1.3:1  Antenna Noise @ 30°EL 28 K 34 K  Typical G/T (Midband)           with 50 K LNA 20.9 dB/K ---       with 70 K LNA --- 29.6 dB/K  Feed Interface CPR229 WR75  Mechanical Specifications Az-El Head Polar  f/D Ratio .336 .336  Focal Distance 41.0 in 41.0 in  Azimuth Travel 360° Continuous 120° Arc  Site Latitude 0° to 90° 10° to 60°  Polarization Travel ±90° ±90°  Mast Pipe Size Required (not included) Az-El  5.5" O.D. Polar  4" O.D. Navigator 6.625" O.D.  Total Weight 385 lbs 385 lbs  Crate Dimensions 68x48x19 in 68x48x19 in  Units per 40 ft Container 96 units 96 units    Navigator    F/D Ratio .366    Focal Distance 41.0 in / 104.2 cm    Azimuth Travel 120° Arc    Elevation Travel 10° to 70°    Polarization Travel ±90°    Total Weight 590 lbs    Crate Dimensions 68x48x19 in 72x48x19 in  Units per 40 ft Container 72 units    Environmental Specifications    Wind Load Operational 60 mph    Survival 125 mph  Temperature Operational -40° to 140°F -40° to 60°C    Survival -60° to 180°F -51° to 82°C  Radial Ice Survival 1 in or  1/2 in + 60mph  Shock & Vibration As occurred during on shipment of air, truck or rail.   ");
searchme[s++]=new searchthing("0000024_1.html#itm0000205"," Patriot 3.1 Meter","RF Specifications C-Band Ku-Band  Frequency 3.7-4.2 GHz 10.95-12.75 GHz  Rx Gain 40.4 dBi 49.7 dBi  Rx 3 dB beamwidth 1.7 0.6  Cross Polarization >35 dB >35 dB  Beamwidth 1.72° .55°  VSWR 1.3:1 1.3:1  Antenna Noise @ 30°EL 28 K 34 K  Typical G/T (Midband)           with 50 K LNA 20.9 dB/K ---       with 70 K LNA --- 29.6 dB/K  Feed Interface CPR229 WR75  Mechanical Specifications Az-El Head Polar  f/D Ratio .336 .336  Focal Distance 41.0 in 41.0 in  Azimuth Travel 360° Continuous 120° Arc  Site Latitude 0° to 90° 10° to 60°  Polarization Travel ±90° ±90°  Mast Pipe Size Required (not included) Az-El  5.5" O.D. Polar  4" O.D. Navigator 6.625" O.D.  Total Weight 385 lbs 385 lbs  Crate Dimensions 68x48x19 in 68x48x19 in  Units per 40 ft Container 96 units 96 units    Navigator    F/D Ratio .366    Focal Distance 41.0 in / 104.2 cm    Azimuth Travel 120° Arc    Elevation Travel 10° to 70°    Polarization Travel ±90°    Total Weight 590 lbs    Crate Dimensions 68x48x19 in 72x48x19 in  Units per 40 ft Container 72 units    Environmental Specifications    Wind Load Operational 60 mph    Survival 125 mph  Temperature Operational -40° to 140°F -40° to 60°C    Survival -60° to 180°F -51° to 82°C  Radial Ice Survival 1 in or  1/2 in + 60mph  Shock & Vibration As occurred during on shipment of air, truck or rail.   ");
searchme[s++]=new searchthing("itm0000206.html"," Patriot 3.8 Meter","RF Specifications C-Band Ku-Band  Frequency 3.7-4.2 GHz 10.95-12.75 GHz  Midband Gain 41.5 dBi 50.3 dBi  Cross Polarization >35 dB >35 dB  Beamwidth 1.3° .45°  VSWR 1.3:1 1.3:1  Antenna Noise @ 30°EL 25 K 21 K  Typical G/T (Midband)           with 50 K LNA 23.0 dB/K ---       with 70 K LNA --- 31.5 dB/K  Feed Interface CPR229 WR75  Mechanical Specifications Az-El Head Kingpost  F/D Ratio .413 .413  Focal Distance 61.95 in / 156.9 cm 61.95 in / 156.9 cm  Azimuth Travel 360° Continuous 132° Arc (Fixed) 116° (Motorized)  Elevation Travel 10° to 90° 10° to 90°  Polarization Travel ±90° ±90°  Mast Pipe Size Required Az-El and Navigator   6.625" O.D. (Mast is not included)    Total Weight see below right see below right  Crate Dimensions see below right see below right  Units per 40 ft Container 39 units 21 units    Navigator    F/D Ratio .413    Focal Distance 61.95 in / 156.9 cm    Azimuth Travel 120° Arc    Elevation Travel 10° to 90°    Polarization Travel ±90°    Total Weight see below right    Crate Dimensions see below right    Units per 40 ft Container 27 units    Environmental Specifications    Wind Load Operational 60 mph    Survival 125 mph  Temperature Operational -40° to 140°F -40° to 60°C    Survival -60° to 180°F -51° to 82°C  Radial Ice Survival 1 in or  1/2 in + 60mph  Shock & Vibration As occurred during on shipment of air, truck or rail.  ");
searchme[s++]=new searchthing("0000024_1.html#itm0000206"," Patriot 3.8 Meter","RF Specifications C-Band Ku-Band  Frequency 3.7-4.2 GHz 10.95-12.75 GHz  Midband Gain 41.5 dBi 50.3 dBi  Cross Polarization >35 dB >35 dB  Beamwidth 1.3° .45°  VSWR 1.3:1 1.3:1  Antenna Noise @ 30°EL 25 K 21 K  Typical G/T (Midband)           with 50 K LNA 23.0 dB/K ---       with 70 K LNA --- 31.5 dB/K  Feed Interface CPR229 WR75  Mechanical Specifications Az-El Head Kingpost  F/D Ratio .413 .413  Focal Distance 61.95 in / 156.9 cm 61.95 in / 156.9 cm  Azimuth Travel 360° Continuous 132° Arc (Fixed) 116° (Motorized)  Elevation Travel 10° to 90° 10° to 90°  Polarization Travel ±90° ±90°  Mast Pipe Size Required Az-El and Navigator   6.625" O.D. (Mast is not included)    Total Weight see below right see below right  Crate Dimensions see below right see below right  Units per 40 ft Container 39 units 21 units    Navigator    F/D Ratio .413    Focal Distance 61.95 in / 156.9 cm    Azimuth Travel 120° Arc    Elevation Travel 10° to 90°    Polarization Travel ±90°    Total Weight see below right    Crate Dimensions see below right    Units per 40 ft Container 27 units    Environmental Specifications    Wind Load Operational 60 mph    Survival 125 mph  Temperature Operational -40° to 140°F -40° to 60°C    Survival -60° to 180°F -51° to 82°C  Radial Ice Survival 1 in or  1/2 in + 60mph  Shock & Vibration As occurred during on shipment of air, truck or rail.  ");
searchme[s++]=new searchthing("itm0000207.html"," Patriot 4.5 Meter","RF Specifications C-Band Ku-Band  Frequency 3.625-4.2 GHz 10.95-12.75 GHz  Rx Gain 42.7 dBi 51.9 dBi  Rx 3 dB beamwidth 1.3 0.5  Cross Polarization >35 dB >35 dB  Beamwidth 1.3° .5°  VSWR 1.4:1 1.4:1  Antenna Noise @ 30°EL 25 K 25 K  Typical G/T (Midband)           with 50 K LNA 23 dB ---  Feed Interface CPR229 WR75  Mechanical Specifications Az-El Head Kingpost  F/D Ratio .35 .35  Focal Distance 62.0 in / 157.5 cm 62.0 in / 157.5 cm  Azimuth Travel 360° Continuous 132° Arc (Fixed) 116° Motorized  Elevation Travel 15° to 90° 15° to 90°  Polarization Travel ±90° ±90°  Mast Pipe Size 6.625" O.D. ---  Total Weight 964 lbs see below right  Crate Dimensions 11x46x42 in see below right  Units per 40 ft Container 20 units 14 units  Environmental Specifications    Wind Load Operational 60 mph    Survival 125 mph  Temperature Operational -40° to 140°F -40° to 60°C    Survival -60° to 180°F -51° to 82°C  Radial Ice Survival 1 in or  1/2 in + 60mph  Shock & Vibration As occurred during on shipment of air, truck or rail.  ");
searchme[s++]=new searchthing("0000024_1.html#itm0000207"," Patriot 4.5 Meter","RF Specifications C-Band Ku-Band  Frequency 3.625-4.2 GHz 10.95-12.75 GHz  Rx Gain 42.7 dBi 51.9 dBi  Rx 3 dB beamwidth 1.3 0.5  Cross Polarization >35 dB >35 dB  Beamwidth 1.3° .5°  VSWR 1.4:1 1.4:1  Antenna Noise @ 30°EL 25 K 25 K  Typical G/T (Midband)           with 50 K LNA 23 dB ---  Feed Interface CPR229 WR75  Mechanical Specifications Az-El Head Kingpost  F/D Ratio .35 .35  Focal Distance 62.0 in / 157.5 cm 62.0 in / 157.5 cm  Azimuth Travel 360° Continuous 132° Arc (Fixed) 116° Motorized  Elevation Travel 15° to 90° 15° to 90°  Polarization Travel ±90° ±90°  Mast Pipe Size 6.625" O.D. ---  Total Weight 964 lbs see below right  Crate Dimensions 11x46x42 in see below right  Units per 40 ft Container 20 units 14 units  Environmental Specifications    Wind Load Operational 60 mph    Survival 125 mph  Temperature Operational -40° to 140°F -40° to 60°C    Survival -60° to 180°F -51° to 82°C  Radial Ice Survival 1 in or  1/2 in + 60mph  Shock & Vibration As occurred during on shipment of air, truck or rail.  ");
searchme[s++]=new searchthing("itm0000208.html"," Patriot 5 Meter","RF Specifications C-Band Ku-Band  Frequency 3.7-4.2 GHz 10.95-12.75 GHz  Antenna Gain 44.1 dBi @ 4.0 GHz 53.2 dBi @ 11.725 GHz  Gain at 3 dB Beamwidth 1.1°  0.4°   VSWR 1.3:1 1.3:1  Antenna Noise @ 30°EL 25 K 25 K  First Sidelobe Level -20 dB (±0.5 dB) @ 4.0 GHz -16.5 dB (±0.5 dB) @ 12.0 GHz  Feed Interface CPR229F WR75   Mechanical Specifications    F/D Ratio .33  Focal Distance 64.3 in / 163.3 cm  Azimuth Travel 132° Arc (Fixed) 116° Motorized       Environmental Specifications    Wind Load Operational 60 mph    Survival 125 mph  Temperature Operational -40° to 140°F -40° to 60°C    Survival -60° to 180°F -51° to 82°C  Radial Ice Survival 1 in or  1/2 in + 60mph  Shock & Vibration As occurred during on shipment of air, truck or rail.  ");
searchme[s++]=new searchthing("0000024_1.html#itm0000208"," Patriot 5 Meter","RF Specifications C-Band Ku-Band  Frequency 3.7-4.2 GHz 10.95-12.75 GHz  Antenna Gain 44.1 dBi @ 4.0 GHz 53.2 dBi @ 11.725 GHz  Gain at 3 dB Beamwidth 1.1°  0.4°   VSWR 1.3:1 1.3:1  Antenna Noise @ 30°EL 25 K 25 K  First Sidelobe Level -20 dB (±0.5 dB) @ 4.0 GHz -16.5 dB (±0.5 dB) @ 12.0 GHz  Feed Interface CPR229F WR75   Mechanical Specifications    F/D Ratio .33  Focal Distance 64.3 in / 163.3 cm  Azimuth Travel 132° Arc (Fixed) 116° Motorized       Environmental Specifications    Wind Load Operational 60 mph    Survival 125 mph  Temperature Operational -40° to 140°F -40° to 60°C    Survival -60° to 180°F -51° to 82°C  Radial Ice Survival 1 in or  1/2 in + 60mph  Shock & Vibration As occurred during on shipment of air, truck or rail.  ");
searchme[s++]=new searchthing("itm0000214.html"," DH 2.4 Meter","2.4 M 8' Weight: 57.3 #  Thickness: .080  F/D Ratio: .375  KU Gain @ 12 Ghz.: 48.2 db  Wind Force @ 60° @ 100 MPH: 2400 lbs.  C Band Measured Gain @ 4 Ghz.: 38.6 db");
searchme[s++]=new searchthing("0000024_1.html#itm0000214"," DH 2.4 Meter","2.4 M 8' Weight: 57.3 #  Thickness: .080  F/D Ratio: .375  KU Gain @ 12 Ghz.: 48.2 db  Wind Force @ 60° @ 100 MPH: 2400 lbs.  C Band Measured Gain @ 4 Ghz.: 38.6 db");
searchme[s++]=new searchthing("itm0000215.html"," DH 3.0 Meter","3.0 M 10' Aperture Efficiency K Band - 68%  KU Measured Gain @ 12 Ghz: 49.9 db  Weight: 102# (.090) - 140# (.125)  Area: 75.93 sq. ft.  Material: 3003  F/D Ratio: .3  Wind Force @ 60° @ 100 MPH: 3890 #  Antenna Noise at >>45 degree look angle = 40 deg./K");
searchme[s++]=new searchthing("0000024_1.html#itm0000215"," DH 3.0 Meter","3.0 M 10' Aperture Efficiency K Band - 68%  KU Measured Gain @ 12 Ghz: 49.9 db  Weight: 102# (.090) - 140# (.125)  Area: 75.93 sq. ft.  Material: 3003  F/D Ratio: .3  Wind Force @ 60° @ 100 MPH: 3890 #  Antenna Noise at >>45 degree look angle = 40 deg./K");
searchme[s++]=new searchthing("itm0000216.html"," DH 3.7 Meter","3.7 M 12' Weight: 201 #  Thickness: .125  F/D Ratio: .4  KU Gain @ 12 Ghz. @ 65%: 51.1 db  1st Sidelobe: .8°  3 db Beamwidth: 1.4°  Wind Force @ 60° @ 90 MPH: 4200 lbs.  C Band Gain @ 4 Ghz.: 42.3 db");
searchme[s++]=new searchthing("0000024_1.html#itm0000216"," DH 3.7 Meter","3.7 M 12' Weight: 201 #  Thickness: .125  F/D Ratio: .4  KU Gain @ 12 Ghz. @ 65%: 51.1 db  1st Sidelobe: .8°  3 db Beamwidth: 1.4°  Wind Force @ 60° @ 90 MPH: 4200 lbs.  C Band Gain @ 4 Ghz.: 42.3 db");
searchme[s++]=new searchthing("itm0000217.html"," DH 4.5 Meter","4.5 M 14'9"  Weight: 304 #  Thickness: .125  F/D Ratio: .33  C Band Gain @ 4 Ghz.: 43.9 db  KU Gain @ 12 Ghz: 53.3 db  1st Sidelobe: 1.95°  3db Beamwidth: 1.2°  Wind Force @ 60° @ 90 MPH: 6600 lbs");
searchme[s++]=new searchthing("0000024_1.html#itm0000217"," DH 4.5 Meter","4.5 M 14'9"  Weight: 304 #  Thickness: .125  F/D Ratio: .33  C Band Gain @ 4 Ghz.: 43.9 db  KU Gain @ 12 Ghz: 53.3 db  1st Sidelobe: 1.95°  3db Beamwidth: 1.2°  Wind Force @ 60° @ 90 MPH: 6600 lbs");
searchme[s++]=new searchthing("itm0000218.html"," DH 5.0 Meter","5.0 M 16'4" C Band Measured Gain @ 4 Ghz: 44.3 db  Weight: 358  Area: 201 sq. ft.  Material: 3003  F/D Ratio: .3  Wind Force @ 60° @ 90 MPH: 7800 #  KU Measured gain @ 12 Ghz.: 54.2 db  Antenna Noise at >>45° look angle = 20°/K    Beamwidth (3.0 db)  0.9 degrees (E-plane)  0.95 degrees (H-plane)  Beamwidth (10.0 db)  1.7 degrees (E-plane)  1.8 degrees (H-plane)  Sidelobe = 1.1 degrees (E-plane)  All Sidelobes > -22 db  Antenna Gain, 2.0 degrees off axis = 23 db");
searchme[s++]=new searchthing("0000024_1.html#itm0000218"," DH 5.0 Meter","5.0 M 16'4" C Band Measured Gain @ 4 Ghz: 44.3 db  Weight: 358  Area: 201 sq. ft.  Material: 3003  F/D Ratio: .3  Wind Force @ 60° @ 90 MPH: 7800 #  KU Measured gain @ 12 Ghz.: 54.2 db  Antenna Noise at >>45° look angle = 20°/K    Beamwidth (3.0 db)  0.9 degrees (E-plane)  0.95 degrees (H-plane)  Beamwidth (10.0 db)  1.7 degrees (E-plane)  1.8 degrees (H-plane)  Sidelobe = 1.1 degrees (E-plane)  All Sidelobes > -22 db  Antenna Gain, 2.0 degrees off axis = 23 db");
searchme[s++]=new searchthing("itm0000210.html"," RC1500","The RC1500 is a single axis inclined orbit satellite tracking antenna controller which is designed to interface to antennas powered by 36 volt DC actuators with built-in limit switches and pulse type position sensors. If the beam width of the antenna is much greater than the width of the pattern of the satellite’s apparent motion single axis tracking of inclined orbit satellites can be successfully implemented. The RC1500 can either be used in conjunction with a steerable antenna whose plane of movement is aligned with the long dimension of the narrow figure eight pattern of the satellite’s apparent motion or with fixed antennas which employ a steerable feed assembly.  The RC1500 offers the following features ...  ·  An intuitive user interface based on a 2 by 16 liquid crystal display and a 16 key keypad.  ·   Interfaces with pulse based position sensors - reed switch, Hall effect, or optical.  ·   Servo based polarization control. An optional daughter board, designated RC2KPOL, can interface with a 5 to 24 volt DC powered rotating equipped with a potentiometer for position feedback.  ·   Serial communications via an RS-422 port. The RC1500 uses the industry standard SA Bus protocol.  ·   Rack Mounting (2 rack units high), 115/230 VAC Switch Selectable Power Input   --------------------------------------------------------------------------------  RC1500 Tracking Algorithms  The RC1500 provides tracking for inclined orbit satellites via Step Track, Search, and Memory Track algorithms. An analog voltage (in the range of 0 to 10 volts) proportional to signal strength is required for peaking the satellite. This voltage is usually provided by a receiver or modem AGC output but can also be generated by a beacon receiver.  Setup of the tracking system is straight forward. From the controller’s CONFIG mode the user enters the following information ...  ·  Antenna Size,   ·  Antenna Latitude and Longitude,   ·  Maximum Tracking Error in tenths of dB,  ·  Elevation Constant (the number of elevation position counts per degree of antenna elevation movement),   ·  AGC Polarity (positive polarity implies that a stronger satellite signal produces a greater AGC voltage),   ·  AGC Threshold (an AGC level above the threshold implies that a satellite signal is present).  When a track is initiated on a satellite the user is prompted for: the satellite’s longitude, the satellite’s current inclination, and the satellite’s frequency band(s) - C, Ku, C/Ku, L, X, Ka.  From this information the controller is able to automatically determine the optimum tracking parameters ...  · Step Track step size.  · Interval between Step Track peaking operations.  · Frequency of Memory Track antenna alignment operations.  ");
searchme[s++]=new searchthing("0000027_1.html#itm0000210"," RC1500","The RC1500 is a single axis inclined orbit satellite tracking antenna controller which is designed to interface to antennas powered by 36 volt DC actuators with built-in limit switches and pulse type position sensors. If the beam width of the antenna is much greater than the width of the pattern of the satellite’s apparent motion single axis tracking of inclined orbit satellites can be successfully implemented. The RC1500 can either be used in conjunction with a steerable antenna whose plane of movement is aligned with the long dimension of the narrow figure eight pattern of the satellite’s apparent motion or with fixed antennas which employ a steerable feed assembly.  The RC1500 offers the following features ...  ·  An intuitive user interface based on a 2 by 16 liquid crystal display and a 16 key keypad.  ·   Interfaces with pulse based position sensors - reed switch, Hall effect, or optical.  ·   Servo based polarization control. An optional daughter board, designated RC2KPOL, can interface with a 5 to 24 volt DC powered rotating equipped with a potentiometer for position feedback.  ·   Serial communications via an RS-422 port. The RC1500 uses the industry standard SA Bus protocol.  ·   Rack Mounting (2 rack units high), 115/230 VAC Switch Selectable Power Input   --------------------------------------------------------------------------------  RC1500 Tracking Algorithms  The RC1500 provides tracking for inclined orbit satellites via Step Track, Search, and Memory Track algorithms. An analog voltage (in the range of 0 to 10 volts) proportional to signal strength is required for peaking the satellite. This voltage is usually provided by a receiver or modem AGC output but can also be generated by a beacon receiver.  Setup of the tracking system is straight forward. From the controller’s CONFIG mode the user enters the following information ...  ·  Antenna Size,   ·  Antenna Latitude and Longitude,   ·  Maximum Tracking Error in tenths of dB,  ·  Elevation Constant (the number of elevation position counts per degree of antenna elevation movement),   ·  AGC Polarity (positive polarity implies that a stronger satellite signal produces a greater AGC voltage),   ·  AGC Threshold (an AGC level above the threshold implies that a satellite signal is present).  When a track is initiated on a satellite the user is prompted for: the satellite’s longitude, the satellite’s current inclination, and the satellite’s frequency band(s) - C, Ku, C/Ku, L, X, Ka.  From this information the controller is able to automatically determine the optimum tracking parameters ...  · Step Track step size.  · Interval between Step Track peaking operations.  · Frequency of Memory Track antenna alignment operations.  ");
searchme[s++]=new searchthing("itm0000211.html"," RC2000","The RC2000 family consists of the RC2000A and the RC2000C Satellite Antenna Controllers. The RC2000C supports inclined orbit satellite tracking. The RC2000A and RC2000C are based on the same platform. An RC2000A can be converted into an RC2000C by upgrading the controller’s software (stored in EPROM memory) and inserting/replacing a couple of IC’s on the controller’s digital board.  The following features are common to both the RC2000A and RC2000C ...    An intuitive user interface based on a 2 by 40 liquid crystal display with a 16 key     keypad.    Dual Speed, Solid State Adapti-DriveTM can deliver 8 amps (at 30 volts DC) to the antenna actuator. The drive features electronic over current protection and dynamic braking. An application note is available which describes a method to interface with motors that operate at different voltages - see the Application Information section.    Precise slow speed control is implemented by a software servo based system that  measures the rate at which position pulses are accumulated by the controller and adjusts the voltage applied to the drive to maintain a constant rate of movement.    Interfaces with pulse based position sensors - reed switch, Hall effect, or optical.    Servo based polarization control. An optional daughter board, designated RC2KPOL, can interface with a 5 to 24 volt DC powered rotating feed equipped with a potentiometer for position feedback.    Serial communications via an RS-422 port. The RC2000 uses the industry standard SA Bus protocol.    Rack Mounting (2 rack units high), 115/230 VAC Switch Selectable Power Input    Non-Volatile Memory retains satellite position data. The RC2000A can store location data for 50 geostationary satellites. The RC2000C stores location data for 35 satellites, 5 of which may be inclined.  RC2000C  The RC2000C provides tracking for inclined orbit satellites via Step Track, Search, and Memory Track algorithms. Three versions of the RC2000C are available: the RC2000C AZ/EL for use with elevation over azimuth type antenna mounts, the RC2000C POLAR for use with polar mounts which employ either a motorized declination or latitude angle adjustment, and the RC2000C EL/AZ for use with azimuth over elevation type antenna mounts. An analog voltage (in the range of 0 to 10 volts) proportional to signal strength is required for peaking the satellite. This voltage is usually provided by a receiver or modem AGC output but can also be generated by a beacon receiver.  Setup of the tracking system is straight forward. From the controller’s CONFIG mode the user enters the following information ...   Antenna Size,    Antenna Latitude and Longitude,    Maximum Tracking Error in tenths of dB,   Elevation Constant (the number of elevation position counts per degree of antenna elevation movement),    AGC Polarity (positive polarity implies that a stronger satellite signal produces a greater AGC voltage),    AGC Threshold (an AGC level above the threshold implies that a satellite signal is present).  When a track is initiated on a satellite the user is prompted for: the satellite’s longitude, the satellite’s current inclination, and the satellite’s frequency band(s) - C, Ku, C/Ku, L, X, Ka.  From this information the controller is able to automatically determine the optimum tracking parameters ...     Step Track azimuth and elevation step sizes.     Interval between Step Track peaking operations.     Frequency of Memory Track antenna alignment operations.     The shape of the Search Mode search region.  ");
searchme[s++]=new searchthing("0000027_1.html#itm0000211"," RC2000","The RC2000 family consists of the RC2000A and the RC2000C Satellite Antenna Controllers. The RC2000C supports inclined orbit satellite tracking. The RC2000A and RC2000C are based on the same platform. An RC2000A can be converted into an RC2000C by upgrading the controller’s software (stored in EPROM memory) and inserting/replacing a couple of IC’s on the controller’s digital board.  The following features are common to both the RC2000A and RC2000C ...    An intuitive user interface based on a 2 by 40 liquid crystal display with a 16 key     keypad.    Dual Speed, Solid State Adapti-DriveTM can deliver 8 amps (at 30 volts DC) to the antenna actuator. The drive features electronic over current protection and dynamic braking. An application note is available which describes a method to interface with motors that operate at different voltages - see the Application Information section.    Precise slow speed control is implemented by a software servo based system that  measures the rate at which position pulses are accumulated by the controller and adjusts the voltage applied to the drive to maintain a constant rate of movement.    Interfaces with pulse based position sensors - reed switch, Hall effect, or optical.    Servo based polarization control. An optional daughter board, designated RC2KPOL, can interface with a 5 to 24 volt DC powered rotating feed equipped with a potentiometer for position feedback.    Serial communications via an RS-422 port. The RC2000 uses the industry standard SA Bus protocol.    Rack Mounting (2 rack units high), 115/230 VAC Switch Selectable Power Input    Non-Volatile Memory retains satellite position data. The RC2000A can store location data for 50 geostationary satellites. The RC2000C stores location data for 35 satellites, 5 of which may be inclined.  RC2000C  The RC2000C provides tracking for inclined orbit satellites via Step Track, Search, and Memory Track algorithms. Three versions of the RC2000C are available: the RC2000C AZ/EL for use with elevation over azimuth type antenna mounts, the RC2000C POLAR for use with polar mounts which employ either a motorized declination or latitude angle adjustment, and the RC2000C EL/AZ for use with azimuth over elevation type antenna mounts. An analog voltage (in the range of 0 to 10 volts) proportional to signal strength is required for peaking the satellite. This voltage is usually provided by a receiver or modem AGC output but can also be generated by a beacon receiver.  Setup of the tracking system is straight forward. From the controller’s CONFIG mode the user enters the following information ...   Antenna Size,    Antenna Latitude and Longitude,    Maximum Tracking Error in tenths of dB,   Elevation Constant (the number of elevation position counts per degree of antenna elevation movement),    AGC Polarity (positive polarity implies that a stronger satellite signal produces a greater AGC voltage),    AGC Threshold (an AGC level above the threshold implies that a satellite signal is present).  When a track is initiated on a satellite the user is prompted for: the satellite’s longitude, the satellite’s current inclination, and the satellite’s frequency band(s) - C, Ku, C/Ku, L, X, Ka.  From this information the controller is able to automatically determine the optimum tracking parameters ...     Step Track azimuth and elevation step sizes.     Interval between Step Track peaking operations.     Frequency of Memory Track antenna alignment operations.     The shape of the Search Mode search region.  ");
searchme[s++]=new searchthing("itm0000212.html"," RC2500","The RC2500 Dual Axis Antenna Controller controls antennas which are fitted with resolver type position sensors and are powered via an Antenna Interface Unit (AIU) located on the antenna pad. Both tracking (RC2500B) and non-tracking (RC2500A) versions are available.  RC2500 antenna movement commands are communicated to the AIU via low voltage control circuits. The AIU contains the motor drive modules and is often equipped with a local jog control panel. The antenna limit switches are processed by the AIU and limit switch indications are relayed back to the RC2500.   Various versions of the RC2500 are available for retrofit to existing antenna systems or use with new installations. The existing synchros and cabling for position sensing would need to be replaced on most antennas with synchroresolvers compatible with the RC2500. These RC2500 versions include support for the following types of system applications.  Vertex 7134/7150: Plug compatible with AIU  Harris 9135: Plug compatible with AIU  Andrew APC 100/300: Plug compatible with AIU  Scientific Atlanta 8840: Wiring modifications required to AIU  Scientific Atlanta 8151: Wiring modifications required to AIU  Harris 7022: Wiring modifications required to AIU  NPL 9000: Wiring modifications required to AIU  Electrospace 93C-23: Wiring modifications required to AIU  Please contact RCI if you have any questions about support for your type of system.     The RC2500 offers the following features ...     Intuitive user interface based on a 2 x 40 liquid crystal display with a 16 key keypad.     Serial communications via an RS-422 port.   The RC2500 uses the industry standard SA Bus protocol.     Rack Mounting (2 rack units high), 115/230 VAC Switch Selectable Power Input  RC2500B  The RC2500B provides tracking for inclined orbit satellites via Step Track, Search, and Memory Track algorithms. For transmit applications the automatic search feature can be disabled. An analog voltage (in the range of -10 to +10 volts) proportional to signal strength is required for peaking the satellite. This voltage is usually provided by a receiver or modem AGC output but can also be generated by a beacon receiver.  Setup of the tracking system is straight forward. From the controller’s CONFIG mode the user enters the following information ...    Antenna Size,     Antenna Latitude and Longitude,     Maximum Tracking Error in tenths of dB,     Elevation Constant (the number of elevation position counts per  degree of antenna elevation movement),     AGC Polarity (positive polarity implies that a stronger satellite  signal produces a greater AGC voltage),     AGC Threshold (an AGC level above the threshold implies that a  satellite signal is present).  When a track is initiated on a satellite the user is prompted for: the satellite’s longitude, the satellite’s current inclination, and the satellite’s frequency band's) - C, Ku, C/Ku, L, X, Ka.  From this information the controller is able to automatically determine the optimum tracking parameters ...     Step Track azimuth and elevation step sizes.     Interval between Step Track peaking operations.     Frequency of Memory Track antenna alignment operations.     The shape of the Search Mode search region.  ");
searchme[s++]=new searchthing("0000027_1.html#itm0000212"," RC2500","The RC2500 Dual Axis Antenna Controller controls antennas which are fitted with resolver type position sensors and are powered via an Antenna Interface Unit (AIU) located on the antenna pad. Both tracking (RC2500B) and non-tracking (RC2500A) versions are available.  RC2500 antenna movement commands are communicated to the AIU via low voltage control circuits. The AIU contains the motor drive modules and is often equipped with a local jog control panel. The antenna limit switches are processed by the AIU and limit switch indications are relayed back to the RC2500.   Various versions of the RC2500 are available for retrofit to existing antenna systems or use with new installations. The existing synchros and cabling for position sensing would need to be replaced on most antennas with synchroresolvers compatible with the RC2500. These RC2500 versions include support for the following types of system applications.  Vertex 7134/7150: Plug compatible with AIU  Harris 9135: Plug compatible with AIU  Andrew APC 100/300: Plug compatible with AIU  Scientific Atlanta 8840: Wiring modifications required to AIU  Scientific Atlanta 8151: Wiring modifications required to AIU  Harris 7022: Wiring modifications required to AIU  NPL 9000: Wiring modifications required to AIU  Electrospace 93C-23: Wiring modifications required to AIU  Please contact RCI if you have any questions about support for your type of system.     The RC2500 offers the following features ...     Intuitive user interface based on a 2 x 40 liquid crystal display with a 16 key keypad.     Serial communications via an RS-422 port.   The RC2500 uses the industry standard SA Bus protocol.     Rack Mounting (2 rack units high), 115/230 VAC Switch Selectable Power Input  RC2500B  The RC2500B provides tracking for inclined orbit satellites via Step Track, Search, and Memory Track algorithms. For transmit applications the automatic search feature can be disabled. An analog voltage (in the range of -10 to +10 volts) proportional to signal strength is required for peaking the satellite. This voltage is usually provided by a receiver or modem AGC output but can also be generated by a beacon receiver.  Setup of the tracking system is straight forward. From the controller’s CONFIG mode the user enters the following information ...    Antenna Size,     Antenna Latitude and Longitude,     Maximum Tracking Error in tenths of dB,     Elevation Constant (the number of elevation position counts per  degree of antenna elevation movement),     AGC Polarity (positive polarity implies that a stronger satellite  signal produces a greater AGC voltage),     AGC Threshold (an AGC level above the threshold implies that a  satellite signal is present).  When a track is initiated on a satellite the user is prompted for: the satellite’s longitude, the satellite’s current inclination, and the satellite’s frequency band's) - C, Ku, C/Ku, L, X, Ka.  From this information the controller is able to automatically determine the optimum tracking parameters ...     Step Track azimuth and elevation step sizes.     Interval between Step Track peaking operations.     Frequency of Memory Track antenna alignment operations.     The shape of the Search Mode search region.  ");
searchme[s++]=new searchthing("itm0000201.html"," TS-36BRC","Thomson-Saginaw 36" Ball Screw Actuator with Reed Sensor.  The clamp kit is additional.");
searchme[s++]=new searchthing("0000029_1.html#itm0000201"," TS-36BRC","Thomson-Saginaw 36" Ball Screw Actuator with Reed Sensor.  The clamp kit is additional.");
searchme[s++]=new searchthing("itm0000213.html"," TS-24BRL","Thomson-Saginaw 24" Ball Screw Actuator with Reed Sensor.  The clamp kit is additional. ");
searchme[s++]=new searchthing("0000029_1.html#itm0000213"," TS-24BRL","Thomson-Saginaw 24" Ball Screw Actuator with Reed Sensor.  The clamp kit is additional. ");
searchme[s++]=new searchthing("itm0000219.html"," TS-36BHC","Thomson-Saginaw 36" Ball Screw Actuator with Hall Effect Sensor.  The clamp kit is additional.");
searchme[s++]=new searchthing("0000029_1.html#itm0000219"," TS-36BHC","Thomson-Saginaw 36" Ball Screw Actuator with Hall Effect Sensor.  The clamp kit is additional.");
searchme[s++]=new searchthing("itm0000220.html"," TS-CLMP","Actuator clamp kit for Thomson-Saginaw actuators.");
searchme[s++]=new searchthing("0000029_1.html#itm0000220"," TS-CLMP","Actuator clamp kit for Thomson-Saginaw actuators.");
searchme[s++]=new searchthing("itm0000221.html"," FLT-MFC-13961","C-Band TI Filter, 3.7 – 4.2Ghz  This waveguide bandpass filter virtually eliminates interference caused by navigational communications (radar) of commercial and military aircraft, as well as costal and marine vessels operating at frequencies above and below the C band.  Installed between the LNB and feedhorn.  This unit is ideal for multifeed applications.  Lightweight and low insertion loss. ");
searchme[s++]=new searchthing("0000030_1.html#itm0000221"," FLT-MFC-13961","C-Band TI Filter, 3.7 – 4.2Ghz  This waveguide bandpass filter virtually eliminates interference caused by navigational communications (radar) of commercial and military aircraft, as well as costal and marine vessels operating at frequencies above and below the C band.  Installed between the LNB and feedhorn.  This unit is ideal for multifeed applications.  Lightweight and low insertion loss. ");
searchme[s++]=new searchthing("itm0000222.html"," FLT-MFC-7893D-3442","C-Band TI Filter, 3.4 – 4.2Ghz  The FLT-MFC-7893D-3442 Extended C-Band “International” Filter can be used globally where there is access to the wider 3.4 – 4.2GHz satellite band.  It virtually eliminates all out of band interference such as military radar.  Installed between the LNB and feedhorn.  This unit is ideal for multifeed applications.  Lightweight and low insertion loss.");
searchme[s++]=new searchthing("0000030_1.html#itm0000222"," FLT-MFC-7893D-3442","C-Band TI Filter, 3.4 – 4.2Ghz  The FLT-MFC-7893D-3442 Extended C-Band “International” Filter can be used globally where there is access to the wider 3.4 – 4.2GHz satellite band.  It virtually eliminates all out of band interference such as military radar.  Installed between the LNB and feedhorn.  This unit is ideal for multifeed applications.  Lightweight and low insertion loss.");
searchme[s++]=new searchthing("itm0000223.html"," FLT-MFC-11383","C-Band TI Filter, 3.6 – 4.2Ghz  The FLT-MFC-11383 is also an Extended C-Band “International” Filter.  It operates over the 3.6 – 4.2GHz satellite band.  The filter offers super-selectivity by virtually eliminating all out of band interference such as military radar.  Installed between the LNB and feedhorn.  This unit is ideal for multifeed applications.  Lightweight and low insertion loss.");
searchme[s++]=new searchthing("0000030_1.html#itm0000223"," FLT-MFC-11383","C-Band TI Filter, 3.6 – 4.2Ghz  The FLT-MFC-11383 is also an Extended C-Band “International” Filter.  It operates over the 3.6 – 4.2GHz satellite band.  The filter offers super-selectivity by virtually eliminating all out of band interference such as military radar.  Installed between the LNB and feedhorn.  This unit is ideal for multifeed applications.  Lightweight and low insertion loss.");
searchme[s++]=new searchthing("itm0000209.html"," Norsat 4106","Input Frequency 11.7 - 12.2 GHz  Output Frequency 950 - 1450 MHz  Noise Figure 0.6 dB  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 150KHz  LO Frequency 10.75 GHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +24 VDC  Current Drain 120 mA typical  Operating Temperature -40°C to +60°C  Input Interface Flange, WR 75G  Output Interface 75 Ohm, Type "F" Female  Physical Size 3.3 x 1.6 x 1.6 in  Weight 4.2 oz  ");
searchme[s++]=new searchthing("0000033_1.html#itm0000209"," Norsat 4106","Input Frequency 11.7 - 12.2 GHz  Output Frequency 950 - 1450 MHz  Noise Figure 0.6 dB  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 150KHz  LO Frequency 10.75 GHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +24 VDC  Current Drain 120 mA typical  Operating Temperature -40°C to +60°C  Input Interface Flange, WR 75G  Output Interface 75 Ohm, Type "F" Female  Physical Size 3.3 x 1.6 x 1.6 in  Weight 4.2 oz  ");
searchme[s++]=new searchthing("itm0000235.html"," Norsat 4506","Input Frequency 11.7 - 12.2 GHz  Output Frequency 950 - 1450 MHz  Noise Figure 0.6 dB  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 500KHz  LO Frequency 10.75 GHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +24 VDC  Current Drain 120 mA typical  Operating Temperature -40°C to +60°C  Input Interface Flange, WR 75G  Output Interface 75 Ohm, Type "F" Female  Physical Size 3.3 x 1.6 x 1.6 in  Weight 4.2 oz  ");
searchme[s++]=new searchthing("0000033_1.html#itm0000235"," Norsat 4506","Input Frequency 11.7 - 12.2 GHz  Output Frequency 950 - 1450 MHz  Noise Figure 0.6 dB  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 500KHz  LO Frequency 10.75 GHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +24 VDC  Current Drain 120 mA typical  Operating Temperature -40°C to +60°C  Input Interface Flange, WR 75G  Output Interface 75 Ohm, Type "F" Female  Physical Size 3.3 x 1.6 x 1.6 in  Weight 4.2 oz  ");
searchme[s++]=new searchthing("itm0000236.html"," Norsat 4206","Input Frequency 11.7 - 12.2 GHz  Output Frequency 950 - 1450 MHz  Noise Figure 0.6 dB  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 250KHz  LO Frequency 10.75 GHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +24 VDC  Current Drain 120 mA typical  Operating Temperature -40°C to +60°C  Input Interface Flange, WR 75G  Output Interface 75 Ohm, Type "F" Female  Physical Size 3.3 x 1.6 x 1.6 in  Weight 4.2 oz  ");
searchme[s++]=new searchthing("0000033_1.html#itm0000236"," Norsat 4206","Input Frequency 11.7 - 12.2 GHz  Output Frequency 950 - 1450 MHz  Noise Figure 0.6 dB  Gain 60 dB Typical  Gain Flatness 1 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min  Output VSWR 2.5:1 Typical, 75 ohm  LO Stability ± 250KHz  LO Frequency 10.75 GHz  Phase Noise -65 dBc/Hz @ 1 KHz  DC Input +15 to +24 VDC  Current Drain 120 mA typical  Operating Temperature -40°C to +60°C  Input Interface Flange, WR 75G  Output Interface 75 Ohm, Type "F" Female  Physical Size 3.3 x 1.6 x 1.6 in  Weight 4.2 oz  ");
searchme[s++]=new searchthing("itm0000237.html"," Norsat 1207HA","Input Frequency 11.7 - 12.2 GHz  Output Frequency 950 - 1450 MHz  Noise Figure 0.7 dB  Gain 60 dB Typical  Gain Flatness 1.5 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min, 60 dB Typical  Output VSWR 2.2:1 Typical, 75 ohm  LO Stability ± 25KHz  LO Frequency 10.75 GHz  Phase Noise -75 dBc/Hz @ 1 KHz  DC Input +15 to +24 VDC  Current Drain 150 mA typical  Operating Temperature -40°C to +60°C  Input Interface Flange, WR 75G  Output Interface 75 Ohm, Type "F" Female  Physical Size 3.3 x 1.6 x 1.6 in  Weight 4.2 oz  ");
searchme[s++]=new searchthing("0000033_1.html#itm0000237"," Norsat 1207HA","Input Frequency 11.7 - 12.2 GHz  Output Frequency 950 - 1450 MHz  Noise Figure 0.7 dB  Gain 60 dB Typical  Gain Flatness 1.5 dBp-p max per 27 MHz segment  Image Rejection 45 dB Min, 60 dB Typical  Output VSWR 2.2:1 Typical, 75 ohm  LO Stability ± 25KHz  LO Frequency 10.75 GHz  Phase Noise -75 dBc/Hz @ 1 KHz  DC Input +15 to +24 VDC  Current Drain 150 mA typical  Operating Temperature -40°C to +60°C  Input Interface Flange, WR 75G  Output Interface 75 Ohm, Type "F" Female  Physical Size 3.3 x 1.6 x 1.6 in  Weight 4.2 oz  ");
}