GPS World, January 2013

Sponsored by receiver survey 2013 Cold start 3 Warm start 4 Reacquisition 5 No of ports Port type Baud rate Operating temperature degrees Celsius Power source Power consumption Watts Antenna type 6 Description or Comments 45s 15s 1s 4 2 RS 232 1 Bluetooth 1 TNC 1200 115200 20 to 65 INT EXT 9 18 V DC 7 W INT EXT Dual Frequency Geodetic and RTK GNSS receiver 45s 15s 1s 4 2 RS 232 1 Bluetooth 1 TNC 1200 115200 20 to 65 INT EXT 9 18 V DC 7 W INT EXT Triple Frequency Geodetic and RTK GNSS receiver 45s 15s 1s 4 2 RS 232 1 Bluetooth 1 TNC 1200 115200 20 to 65 INT EXT 9 18 V DC 7 W INT EXT Dual Frequency Geodetic and RTK GNSS TERRASTAR L Band receiver 45s 15s 1s 8 3 RS 232 1 Bluetooth 1 USB 1 Ethernet 2 TNC 1200 115200 20 to 65 EXT 9 30 V DC 11 W EXTERNAL 1 or 2 Dual or Triple Frequency Geodetic and RTK GNSS Heading TERRASTAR L band receiver 45s 35s 3s 3 RS 232 RS 232 USB 20 1 RS232 up to 9216 kbits sec RxD TxD CTS and RTS signals 40 to 85 external 08W in GPS L1 095W in GPS L1 L2 or GPS GLONASS L1 Ext active patch antenna 2 antenna connectors Compact Dual Frequency RTK OEM Board 2 antenna connectors for handheld integration BLADE Technology inside 45s 35s 3s 4 RS 232 LV TTL LV TTL USB 20 RS 232 up 9216 kbits sec LV TTL up to 5 Mbits sec USB 20 up to 12 Mbps 40 to 185 F external 19W GPS only 24W GPS GLONASS Ext active antenna L1 L2 GPS GLONASS GPS GLONASS SBAS Dual Frequency OEM Board Z BLADE Technology inside nr nr 3s 2 RS 230 300 115200 30 to 70 external 3 Patch active ER For aviation designed to FAA RTCA speci cations 45s 35s 3s 6 3x RS 232 USB 20 Bluetooth Ethernet RS 232 up 9216 kbits sec USB 20 up to 12 Mbps 22 to 149 F external 5W with one GNSS antenna Ext active antenna L1 L2 GPS GLONASS GPS GLONASS SBAS Dual board RTK Heading System Z BLADE Technology inside 90s 35s 3s 2 RS 232 300 115200 20 to 55 external 6 Patch with ground plane ER Precise heading pitch roll and 3D position 90s 35s 3s 3 RS 232 300 115200 30 to 70 external 12 Microstrip GPS beacon Uses SBAS signals for sub meter differential positioning 90s 35s 3s 3 RS 232 300 115200 30 to 60 external 13 Microstrip GPS beacon Sub meter GPS Beacon SBAS receiver 45s 35s 3s 3 4 2 3 RS 232 USB 20 22 to 140 F external 24 W 65 W GNSS GLONASS Galileo SBAS GNSS centric engine GLONASS only capable Z BLADE Technology inside 8 min 50 s 2 5 s 4 RS 422 9600 38400 25 to 60 ext int 55 patch E For LEO satellites 2min 20 s 2 5 s 11 RS 422 RS 232 9600 38400 40 to 85 ext 375 patch E Smart munitions 2min 20 s 2 5 s 11 RS 422 RS 232 9600 38400 40 to 85 ext 375 patch E Inertial system integration 2min 20 s 1s 1 1 RS 232 RS 422 300 19200 40 to 71 ext int 6 patch E Satellite launchers missiles 2min 20 s 5 s 1 1 RS 232 RS 422 300 38400 40 to 71 ext int 45 patch E A C PODS 2min 5s 1s 11 RS 422 RS 232 9600 115200 40 to 71 ext 14 4X patch E Artilery GPS Àight computer 2min 20s 2 5 s 11 RS 422 RS 232 115200 40 to 85 ext 45 patch E 10 MHz in 2x1PPs out 2min 13 s 3 s 2 TTL 9600 115200 40 to 85 ext 1 nr GPS for artilery 2min 6 s 3 s 2 TTL 9600 115200 40 to 85 ext int 3 nr GPS for artilery 2min 5s 1s 11 RS 422 RS 232 9600 115200 40 to 71 ext 14 4X patch E A J GNSS for high dynamics 2ms 2ms 2ms na na na na na na na SW based GPS receiver 2ms 2ms 2ms 2 Serial Parallel na TBD 33 TBD na RFIC module 30s 30s 1s 3 I2C SPI UART Up to 1 32 of reference clock 30 to 85 15 36 V 13mW na Single chip single die baseband and RF tuner 30s 30s 1s 3 UART SDIO SPI I2C PCM I2S UART 4M 30 to 85 12V 55V 10mW na Single chip single die GPS GLONASS Bluetooth FM RX TX 30s 30s 1s 2 UART I2C UART 4M 30 to 85 15 36 V 13mW na Single chip single die GPS GLONASS baseband and RF tuner 30s 30s 1s 96 GPIO HS UART x4 SPI I2C SDIO MMC x3 PCM I2S UART 4M 40 to 85 C Core 12V I O 33V Audio 3V 300mW @ 700MHz na Highly intergrated ARM11 Apps Processor VFPU GPS Baseband RF LNA with support of DDR2 30s 30s 1s 2 UART I2C UART 4M 30 to 85 15 36 V 13mW na Single chip single die GPS GLONASS baseband and RF tuner 33s 33s 1s 1 SPI 2 Mbps 40 to 85 Single 18v supply 20mW average na Single die GPS AGPS baseband and RF front end 33s 33s 1s 1 SPI 2 Mbps 40 to 85 Single 18v supply 20mW average na GPS AGPS Module 33s 33s 1s 1 SPI 2 Mbps 40 to 85 Single 18v supply 20mW average na Two dies solution GPS AGPS baseband and RF front end electronic compass 33s 33s 1s 1 APB 2 Mbps na na na na GPS AGPS baseband IP for integration with host processor system 33s 33s 1s 1 APB 8 Mbps na na na na GPS AGPS baseband IP for integration with host processor system na na na 1 Serial 12 26 Msps 40 to 85 Single 18v supply 30mW max na Single die GPS RF front end 45s 20s 1s 2 RS 232 19200 115200 20 to 70 C int LiPo ext 9 30V 5W active external 35s 34s 1s 2 UART SPI I2C user selectable 40 to 85 Ext 0008 E Single die tracker 35s 34s 1s 2 UART SPI I2C user selectable 40 to 85 Ext 0008 E Single die engine 35s 34s 1s na na user selectable 40 to 85 Ext 07 to 09 E SOC Apps Processor GPU GPS 35s 34s 1s na na user selectable 40 to 85 Ext 07 to 09 E SOC Apps Processor GPU GPS 35s 34s 1s na na user selectable 40 to 85 Ext 07 to 15 E SOC Apps Processor GPU video GPS 35s 34s 1s na na user selectable 40 to 85 Ext 07 to 15 E SOC Apps Processor GPU video GPS 35s 34s 1s na na user selectable 20 to 70 Ext 055 to 09 E SOC Apps Processor GPS 35s 34s 1s na na user selectable 20 to 70 Ext 055 to 09 E SOC Apps Processor GPS 35s 34s 1s na na user selectable 40 to 85 Ext 055 to 15 E SOC Apps Processor GPU GPS 33s 32s 1s 2 UART SPI I2C user selectable 40 to 85 Ext 0008 E Single die GNSS engine 33s 32s 1s 2 UART SPI I2C user selectable 40 to 85 Ext 0008 E single die tracker 40s 36s 1s 1 1 1 1 Serial A D USB Bluetooth 1200 115200 bps 30 to 70 int ext LiIonP 22 L1 L2 E GPS L1 L2 carrierphase and data collection WR 40s 36s 1s 2 1 1 1 Serial A D USB Bluetooth 1200 115200 bps 30 to 70 int ext LiIonP 32 L1 L2 GNSS E RTK VRS Precision post procecssing Precision GIS GSM modem opt WR 40s 36s 1s 11 PC Card PCMCIA USB 1200 115200 bps 40 to 85 ext 15 L1 L2 GNSS E RTK VRS Precision post procecssing Precision GIS GSM modem opt WR 40s 36s 1s 11 USB Bluetooth option 1200 115200 bps 40 to 85 int ext LiIonP 15 to 2 L1 L2 GNSS Internal RTK VRS Precision post procecssing Precision GIS GSM modem opt WR Fully wireless operation capable 40s 36s 1s 2 Serial 1200 115200 bps 40 to 85 ext 15 L1 L2 GNSS E Based on easy to upgrade modify FPGA design 40s 36 s 1s 2 Serial 1200 115200 bps 40 to 85 ext 15 L1 L2 GNSS E as above 34s 33s 1s 1 1 BT 57600 20 to 50 internal battery Active 27 db 5 min 2 min 1 min 2 1 Ethernet 1 RS 232 10 100 Base T 19200 0 to 50 External 10W L1 ER GPS Time Frequency 5 min 2 min 1 min 2 1 Ethernet 1 RS 232 10 100 Base T 19200 0 to 50 External 7W L1 ER GPS Time Frequency 5 min 2 min 1 min 2 1 Ethernet 1 RS 232 10 100 Base T 19200 0 to 50 External 7W L1 ER NTP and PTP IEEE 1588 5 min 2 min 1 min 2 1 Ethernet 1 RS 232 10 100 Base T 19200 0 to 50 External 7W L1 ER NTP and PTP IEEE 1588 ext external active 40s 38s 3s 4 RS 232 CMOS 40 to 85 ext 1W external active SAASM www gpsworld com January 2013 GPS World 5