GPS Satellite Navigation Systems

Description: The Global Positioning System IIF is a current iteration of the GPS satellite, which Boeing began building in 1978. The company has constructed more than 40 GPS satellites that cumulatively have provided more than 525 years of on-orbit service. GPS

Description: practical implementations of antennas for Global Navigation Satellite Systems (GNSS) Describes technological advancements for GPS, Glonass, Galileo and Compass Aims to address future issues such as multipath interference, in building operation, RF interference in mobile

Description: Ellipse-N is a small-sized high performance Inertial Navigation System (INS) with integrated GNSS receiver. It provides Roll, Pitch, Heading, Heave, and Navigation data. This light-weight sensor includes a MEMS-based Inertial Measurement Unit (IMU) integrating three gyroscopes

• Accuracy: 0.2000 ±% Full Scale
• Angular Rate Range: 450 to 1000 deg/sec
• Bandwidth: 250 Hz
• Electrical Output: Serial / Digital, Network / Fieldbus Output

Description: being developed. Engineering Satellite-Based Navigation and Timing: Global Navigation Satellite Systems, Signals, and Receivers provides the technical foundation for designing and analyzing satnav signals, systems, and receivers. Its contents and structure

Description: AIRINS, engineered for optimal integration and ease-of use, utilizes iXBlue’s expertise in fiber-optic gyroscopes (FOG), already in use in satellite control. AIRINS combines the latest motion sensing technology, electronics and embedded processing design in one single unit. This offers the

• Device Type: Optical
• Electrical Output: Serial / Digital
• Features: GPS Aided
• Linear Acceleration Measurement: Fiber Optic

Description: R&S®GPS129 are accessible via connectors on the rear panel. The global positioning system (GPS) is a satellite-based radio positioning, navigation, and time transfer system. GPS is based on accurately measuring the propagation time of signals

Description: IEC 61108-1:2003 Specifies the minimum performance standards, methods of testing and required test results for GPS shipborne receiver equipment, based on the relevant IMO Resolution, which uses the signals from the United States of America, Department of Defence (US DOD), Global Positioning

Description: -constellation GNSS receiver utilizing the GPS, GLONASS, BeiDou, and Galileo satellite constellations. Sensor measurements are fully calibrated, temperature-compensa ted, and mathematically-align ed to an orthogonal coordinate system for highly accurate outputs. The

• Additional Outputs: Magnetic Field (Magnetometer)
• Angular Rate Range: 300 deg/sec
• Bandwidth: 250 Hz
• Electrical Output: Serial / Digital

Description: . It carries on the technology advantage of our company in satellite navigation measurement. By GPS L1, L2, Beidou B1, B3 signals and heading algorithm, it precisely figure out antenna position value and the included angle between two antenna phase position center tie line and

Description: Specifies the minimum performance standards, methods of testing and required test results for GPS shipborne receiver equipment, based upon IMO Resolution A.819(19), which uses the signals from the USA Department of Defense Global Positioning System, in order to determine position.

Description: IEC 61108-1:2003 Specifies the minimum performance standards, methods of testing and required test results for GPS shipborne receiver equipment, based on the relevant IMO Resolution, which uses the signals from the United States of America, Department of Defence (US DOD), Global Positioning

Description: Dou) Industry leading –167 dBm navigation sensitivity Security and integrity protection Supports all satellite augmentation systems Advanced jamming and spoofing detection Product variants to meet performance and cost requirements Backward compatible with NEO-7 and NEO-6

• Supply Voltage: 1.8 V

Description: leading –167 dBm navigation sensitivity Security and integrity protection Supports all satellite augmentation systems Advanced jamming and spoofing detection Product variants to meet performance and cost requirements Backward compatible with NEO-7 and NEO-6 families

• Supply Voltage: 1.8 V

Description: Dou) Industry leading –167 dBm navigation sensitivity Security and integrity protection Supports all satellite augmentation systems Advanced jamming and spoofing detection Product variants to meet performance and cost requirements Backward compatible with NEO-7 and NEO-6

• Supply Voltage: 1.8 V

Description: Telit Jupiter SE868 V2 is a hybrid positioning system that combines GPS, GLONASS, and SBAS to provide a high performance position reporting and navigation solution. The SE868 V2 can navigate to -162 dBm and track to -166 dBm, providing improved performance in harsher

• Features: RoHS Compliant
• IC Package Type: QFN
• Interface: UART
• Supply Voltage: Other

Description: tracking applications, such as navigation, telematics and UAVs. The u-blox M9 standard precision GNSS platform, which delivers meter-level accuracy, succeeds the well-known u-blox M8 product range. u-blox M9 receivers support concurrent reception of four GNSS. The high number of visible

• Supply Voltage: 1.8 V

Description: The SE868 V3 is a positioning system that combines GPS, GLONASS, Beidou, Galileo, and SBAS to provide a high performance position reporting and navigation solution. The SE868 V3 can navigate to -162 dBm and track to -166 dBm, providing improved performance in harsh environments.

• Features: RoHS Compliant
• IC Package Type: Other
• Interface: I²C, SPI, UART
• Supply Voltage: 1.8 V

Description: SiRF-IV GPS Receiver for Positioning, Tracking and Navigation The F4 Series GPS receiver module is a self-contained high-performance GPS receiver. Based on the SiRFstar IV chipset, it provides exceptional sensitivity, even in dense foliage and urban canyons. The module’s

• Applications: Mobile / Wireless Systems, Other
• Features: RoHS
• Form Factor / Package: Surface Mount Technology (SMT)
• Modulation: Other

Description: for Linx RXM-GPS-SG-SiRF-III modules Rapid development: development system allows full interfacing and color display Application Examples Positioning and navigation Location and tracking Security / loss-prevention Surveying Fleet management Logistics

• Applications: Mobile / Wireless Systems, Other
• Features: RoHS
• Form Factor / Package: Surface Mount Technology (SMT)
• Modulation: Other

Description: GPS Development Tools Next-generation Global Navigation Satellite System (GNSS) receiver

Description: The MAX2769 is the industry's first global navigation satellite system (GNSS) receiver covering GPS, GLONASS, and Galileo navigation satellite systems on a single chip. This single-conversion, low-IF GNSS receiver is designed to provide high

• Form Factor / Package: Surface Mount Technology (SMT)
• Supply Current: 10 mA

Description: positioning products applied together with our eCall / ERAGLONASS compliant cellular modules can bring you readyto-use emergency automotive tracking solutions for the European and Russian markets. Typical applications include fleet management systems, European GPS-assisted road

• IC Package Type: Other
• Interface: UART
• Supply Voltage: 3 V, 3.3 V, 3.6V
• T_J: -40 to 85 C

Description: GPS Satellite Systems Wireless Applications Sub-microsecond Timing Description The VF-3201B offers monitor/control on both RS-232-C and Ethernet ports plus a “time print” RS-232-C port allowing interfacing to a wide range of equipment. This

• Application: Other Application
• Clock method: Crystal, External Signal
• Interface: Serial, Status Indicators, Other Interface
• Mounting: Rack Mount

Description: GPS Receiver for Positioning, Tracking and Navigation The FM Series GPS receiver module is a self-contained high-performance Global Positioning System receiver designed for navigation, tracking and positioning applications. Based on the MediaTek chipset, it can

• Form Factor / Package: Surface Mount Technology (SMT)
• Operating Frequency: 1575 MHz
• Operating Temperature: -40 to 85 C
• Sensitivity: -161 to -143 dBm

Description: eCall directive). The A-GPS receiver features very low power consumption, and adaptive micro-power controller to maintain hot start, position resolution accuracy of less than 2.5m, and a satellite based augmentation system, including GAGAN.

• Bias / Operating Current: 1.5 to 240 mA
• Device Type: Modem
• IC Package Type: BGA
• Interface: Other

Description: The WinSystems GNSS/GPS Receiver Module is a self-contained, high performance Global Navigation Satellite System receiver based on the MediaTek 3337 chip set. While consuming less power than competitive products, the 3337 chip set can still simultaneously acquire

• Application: General Lab and Industrial
• Connection to Host: Direct Backplane Interface
• Data Acquisition Device Type: Data Acquisition Computer Board
• Form Factor: Printed Circuit Board (PCB)

Description: Autonomous vehicles use global navigation satellite systems (GNSS) to provide a position within a few centimeters of truth. Centimeter positioning requires accurate measurement of each satellite's direct path propagation time. Multipath corrupts the propagation time

Description: output internally matched to 50 O - Only 1 external SMD component necessary - 2kV HBM ESD protection (including AI-pin) - Pb-free (RoHS compliant) package Target Applications: - Ideal for all Global Navigation Satellite Systems (GNSS) like GPS, GLONASS, Beidou, Galileo

• Maximum Gain: 16.2 dB
• Minimum Gain: 16.2 dB
• Noise Figure: 0.5500 dB
• Nominal Operating Current: 0.0049 amps

Description: output internally matched to 50 O - Only 1 external SMD component necessary - 2kV HBM ESD protection (including AI-pin) - Pb-free (RoHS compliant) package Target Applications: - Ideal for all Global Navigation Satellite Systems (GNSS) like GPS, GLONASS, Beidou, Galileo

• Maximum Gain: 19.6 dB
• Minimum Gain: 19.6 dB
• Noise Figure: 0.5500 dB
• Nominal Operating Current: 0.0025 amps

Description: The MAX12000 GPS front-end amplifier IC is designed for automotive and marine GPS satellite navigation antenna modules or for any application that needs to compensate for cable losses from the GPS antenna to receiver. Two unconditionally stable low-noise amplifier

• Package Type: Other
• RoHS Compliant: Yes

Description: The BGA231N7 is a front-end low noise amplifier for Global Navigation Satellite Systems (GNSS) from 1550 MHz to 1615 MHz like GPS, Galileo, GLONASS and COMPASS. The LNA provides 16.0 dB gain and 0.75 dB noise figure at a current consumption of 4.4 mA in the application

• Frequency Range: 1550 to 1615 MHz
• Maximum Gain: 16 dB
• Minimum Gain: 16 dB
• Noise Figure: 0.7500 dB

Description: The BGA825L6S is a front-end low noise amplifier for Global Navigation Satellite Systems (GNSS) from 1550 MHz to 1615 MHz like GPS, GLONASS, Beidou, Galileo and others. The LNA provides 17.0 dB gain and 0.6 dB noise figure at a current consumption of 4.8 mA. The BGA825L6S

• Frequency Range: 1550 to 1615 MHz
• Maximum Gain: 17 dB
• Minimum Gain: 17 dB
• Noise Figure: 0.6000 dB

Description: ISO 12188-1:2010 provides a procedure for evaluating and reporting the accuracy of navigation data determined using positioning devices that are based on GPS, GLONASS, Galileo or similar global navigation satellite systems (GNSS). It focuses on the performance of

Description: The SKY65605-21 is a Microwave Monolithic Integrated Circuit (MMIC) front-end low-noise amplifier (LNA) designed for BeiDou Satellite Navigation System/Global Positioning System/Global Navigation Satellite System (BDS/GPS/GNSS) receiver

• Amplifier Type: Low Noise Amplifier
• Frequency Range: 1559 to 1606 MHz
• Maximum Gain: Over 19 dB
• Minimum Gain: 19 dB

Description: The SKY65611-11 is a Microwave Monolithic Integrated Circuit (MMIC) front-end low-noise amplifier (LNA) designed for Global Positioning System/Global Navigation Satellite System (GPS/GLONASS)/Galile o and Beidou Navigation Satellite System

• Amplifier Type: Low Noise Amplifier
• Package Type: Surface Mount Technology (SMT)

Description: ISO 12188-1:2010 provides a procedure for evaluating and reporting the accuracy of navigation data determined using positioning devices that are based on GPS, GLONASS, Galileo or similar global navigation satellite systems (GNSS). It focuses on the performance of

Description: The SKY65624-682LF is a Microwave Monolithic Integrated Circuit (MMIC) front-end low-noise amplifier (LNA) designed for Global Positioning System/Global Navigation Satellite System (GPS/GLONASS)/Galile o and Beidou Navigation Satellite System

• Amplifier Type: Low Noise Amplifier
• Frequency Range: 1559 to 1606 MHz
• Maximum Gain: Over 17 dB
• Minimum Gain: 17 dB

Description: The SKY65725-81 is a shielded front-end module (FEM) with an integrated low noise amplifier (LNA) and pre-filter designed for Global Positioning System/Global Navigation Satellite System/Beidou Navigation Satellite System (GPS/GNSS/BDS)

• Amplifier Type: Low Noise Amplifier
• Frequency Range: 1559 to 1606 MHz
• Maximum Gain: Over 16 dB
• Maximum Operating Voltage: 1.9 volts

Description: The L76 is a single receiver GNSS module that integrates GPS (Global Positioning System) with GLONASS (Global Navigation Satellite System). With 33 tracking channels, 99 acquisition channels, and 210 PRN channels, L76 can acquire and track GPS and GLONASS

• Interface: UART, Other
• T_J: -40 to 85 C

Description: Tiny GNSS Receiver for Positioning, Tracking and Navigation The TM Series GNSS receiver module is a self-contained high-performance Global Satellite Navigation System receiver designed for navigation, tracking and positioning applications. Based on the MediaTek

• Interface: RS232, USB
• Supply Voltage: 2.7 V, Other

Description: Positioning in Wireless Communications Systems explains the principal differences and similarities of wireless communications systems and navigation systems. It discusses scenarios that are critical for dedicated navigation systems such as the Global

Description: The GNSS 2 click board features the Quectel L76 receiver module that can track GPS and GLONASS signals as part of a Global Navigation Satellite System (GNSS). The receiver also benefits from EASYâ?¢ and AlwaysLocateâ?¢ technologies that work together to predict

• Category: Development Suite / Kit
• Ports: Wireless
• Supported System: GPS, RF, Other

Description: ISO 17123-8:2007 specifies field procedures to be adopted when determining and evaluating the precision (repeatability) of Global Navigation Satellite System (GNSS) field measurement systems (this includes GPS, GLONASS as well as the future systems like

Description: The SKY65713-11 is a front-end module (FEM) with an integrated low-noise amplifier (LNA) and pre-filter designed for Beidou Global Positioning System/Global Navigation Satellite System (BDS/GPS/GNSS) receiver applications. The device provides high linearity,

• Amplifier Type: Low Noise Amplifier
• Applications: Terrestrial RF/Microwave Systems

Description: The SKY65605-21 is a Microwave Monolithic Integrated Circuit (MMIC) front-end low-noise amplifier (LNA) designed for BeiDou Satellite Navigation System/Global Positioning System/Global Navigation Satellite System (BDS/GPS/GNSS) receiver

• Amplifier Type: Low Noise Amplifier
• Applications: Terrestrial RF/Microwave Systems

Description: The SKY65611-11 is a Microwave Monolithic Integrated Circuit (MMIC) front-end low-noise amplifier (LNA) designed for Global Positioning System/Global Navigation Satellite System (GPS/GLONASS)/Galile o and Beidou Navigation Satellite System

• Amplifier Type: Low Noise Amplifier
• Applications: Terrestrial RF/Microwave Systems

Description: ISO 17123-8:2015 specifies field procedures to be adopted when determining and evaluating the precision (repeatability) of Global Navigation Satellite System (GNSS) field measurement systems (this includes GPS, GLONASS, as well as the future systems like

Description: MARITIME NAVIGATION AND RADIOCOMMUNICATION EQUIPMENT AND SYSTEMS -GLOBAL NAVIGATION SATELLITE SYSTEMS (GNSS) PART 1: GLOBAL POSITIONING SYSTEM (GPS) - RECEIVER EQUIPMENT - PERFORMANCE STANDARDS, METHODS OF TESTING AND REQUIRED TEST RESULTS

Description: MARITIME NAVIGATION AND RADIOCOMMUNICATION EQUIPMENT AND SYSTEMS -GLOBAL NAVIGATION SATELLITE SYSTEMS (GNSS) - PART 1: GLOBAL POSITIONING SYSTEM (GPS) - RECEIVER EQUIPMENT - PERFORMANCE STANDARDS, METHOD OF TESTING AND REQUIRED TEST RESULTS

Description: MARITIME NAVIGATION AND RADIOCOMMUNICATION EQUIPMENT AND SYSTEMS - GLOBAL NAVIGATION SATELLITE SYSTEMS (GNSS) PART 1: GLOBAL POSITIONING SYSTME (GPS) - RECEIVER EQUIPMENT - PERFORMANCE STANDARDS, METHODS OF TESTING AND REQUIRED TEST RESULTS