Products & Services
See also: Categories | Featured Products | Technical Articles | More Information-
Supplier: SBG Systems SAS
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
- Accuracy: 0.2000 ±% Full Scale
- Angular Rate Range: 450 to 1000 deg/sec
- Bandwidth: 250 Hz
- Electrical Output: Serial / Digital, Network / Fieldbus Output
-
Supplier: SBG Systems SAS
Description: Ellipse-D is a compact Inertial Navigation System with integrated Dual-antenna GNSS receiver for accurate Heading. It provides Roll, Pitch, Heading, Heave, and Navigation data. Ellipse-D includes a MEMS-based Inertial Measurement Unit (IMU) and runs an enhanced Extended
- Accuracy: 0.2000 ±% Full Scale
- Angular Rate Range: 450 to 1000 deg/sec
- Bandwidth: 250 Hz
- Electrical Output: Serial / Digital, Network / Fieldbus Output
-
Supplier: SBG Systems SAS
Description: Ellipse-E is a small-sized high performance Inertial Navigation System. It provides Roll, Pitch, Heading, and Heave, and computes Navigation data when connected to an external GPS. It accepts Odometer aiding to maintain the best accuracy in challenging environments. This
- Accuracy: 0.2000 ±% Full Scale
- Angular Rate Range: 450 to 1000 deg/sec
- Bandwidth: 250 Hz
- Electrical Output: Serial / Digital, Network / Fieldbus Output
-
-
Supplier: SBG Systems SAS
Description: Apogee-N is a highly accurate Inertial Navigation System with embedded GNSS receiver for real-time and post-processing operations. The ITAR Free Apogee-N is the most accurate INS/GNSS based on the robust and cost-effective MEMS technology. High Accuracy
- Angular Rate Range: 100 deg/sec
- Electrical Output: Serial / Digital, Network / Fieldbus Output
- Features: Data Recorder, GPS Aided
- Linear Acceleration Measurement: MEMS
-
Supplier: Northrop Grumman Corporation
Description: The LN-270 is a highly adaptable Inertial Navigation System/Global Positioning System (INS/GPS) that can be used for navigation or as a pointing/stabilizati on solution on land. Northrop Grumman's LN-270 is an integrated land navigator, used as a precision pointing
- Angular Rate Range: 1000 deg/sec
- Linear Acceleration Range: 13 +/-g
- Operating Temperature: -65.2 to 160 F
-
Supplier: Rohde & Schwarz USA, Inc.
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
-
Supplier: iXblue
Description: PHINS is an inertial navigation system providing position, true heading, attitude, speed, depth and heave. Its high accuracy inertial measurement unit is based on iXBlue’s fiber-optic gyroscope technology coupled with an embedded digital signal processor that runs an advanced
- Angular Rate Range: 750 deg/sec
- Device Type: Optical
- Electrical Output: Pulse / Frequency, Serial / Digital
- Features: GPS Aided
-
Supplier: Northrop Grumman Corporation
Description: The LN-120G is a Stellar-Inertial-GPS navigation system that provides precise navigation and sensor pointing with or without GPS. This system integrates stellar tracking and SAASM (Selective Availability Anti-Spoofing Module)-based GPS with a
-
Supplier: Telit IoT Solutions, Inc.
Description: modules bring you ready-to-use emergency automotive tracking solutions for the European and Russian markets. Typical applications include fleet management systems, European GPS-assisted road tolling systems, cellular base stations, in-car navigation systems,
- IC Package Type: Other
- Interface: UART
- Supply Voltage: Other
- TJ: -40 to 85 C
-
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 address
-
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
-
Supplier: Northrop Grumman Corporation
Description: Grumman Awarded U.S. Military Contract for Navigation Systems The LN-260 is a high performance, low cost INS/GPS that utilizes the state-of-the-art fiber-optic gyroscope (FOG)-based inertial navigation sensor assembly with 24 channel Selective Availability
- Operating Temperature: -40 to 160 F
-
Supplier: Telit IoT Solutions, Inc.
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: IEC 61108-7:2024 specifies the minimum performance standards, methods of testing and required test results for Satellite based augmentation system (SBAS) shipborne receiver equipment, which uses L1 signals from GPS and satellite based augmentation system (SBAS) in
-
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
-
Supplier: Telit IoT Solutions, Inc.
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
-
Supplier: Telit IoT Solutions, Inc.
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
- TJ: -40 to 85 C
-
Supplier: Northrop Grumman Corporation
Description: System and module BIT history storage LTN-101 FLAGSHIP™ Technology FLAGSHIP's™ performance and reliability are based on a series of design innovations: Four Mode Laser Gyro (FLAG) The patented FLAG combines two 18 cm Zero-lock™ Laser
-
Supplier: WINSYSTEMS, INC.
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)
-
Supplier: Linx Technologies
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
- Applications: Mobile / Wireless Systems, Other
- Features: RoHS
- Form Factor / Package: Surface Mount Technology (SMT)
- Modulation: Other
-
Supplier: Linx Technologies
Description: SiRF-IV GPS Receiver for Positioning, Tracking and Navigation The R4 Series GPS receiver module is a self-contained high-performance GPS receiver ideal for the engineer looking for an easy way to add GPS to their product. Based on the SiRF-IV chipset, it
- Applications: Mobile / Wireless Systems, Other
- Features: RoHS
- Form Factor / Package: Surface Mount Technology (SMT)
- Modulation: Other
-
Supplier: Linx Technologies
Description: The RM 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 simultaneously acquire on 66 channels and track on up to 22
- Form Factor / Package: Surface Mount Technology (SMT)
- Operating Frequency: 1575 MHz
- Operating Temperature: -40 to 85 C
- Source Type: DC (Battery) Power
-
Supplier: Linx Technologies
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
- Form Factor / Package: Surface Mount Technology (SMT)
- Operating Frequency: 1575 MHz
- Operating Temperature: -40 to 85 C
- Sensitivity: -161 to -143 dBm
-
Supplier: Infineon Technologies AG
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
-
Supplier: Infineon Technologies AG
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 is
- Frequency Range: 1550 to 1615 MHz
- Maximum Gain: 17 dB
- Minimum Gain: 17 dB
- Noise Figure: 0.6000 dB
-
Supplier: Infineon Technologies AG
Description: The BGA915N7 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 15.5 dB gain and 0.7 dB noise figure at a current consumption of 4.4 mA in the application
- Frequency Range: 1550 to 1615 MHz
- Maximum Gain: 15.5 dB
- Minimum Gain: 15.5 dB
- Noise Figure: 0.7000 dB
-
Supplier: Infineon Technologies AG
Description: The BGA925L6 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 and others. The LNA provides 15.8 dB gain and 0.65 dB noise figure at a current consumption of 4.8 mA in the
- Frequency Range: 1550 to 1615 MHz
- Maximum Gain: 15.8 dB
- Minimum Gain: 15.8 dB
- Noise Figure: 0.6500 dB
-
Supplier: CSA Group
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
-
Supplier: iXblue
Description: CTANS is a solid-state strapdown gyrocompass and motion sensor, based on fiber-optic gyroscope (FOG) technology. It is a 6-axis motion sensor that outputs highly accurate true heading, attitude, and motion data. IMO-certified, OCTANS is ideal for all surface vessel applications.
- Angular Rate Range: 750 deg/sec
- Device Type: Optical
- Electrical Output: Serial / Digital
- Features: Data Recorder, GPS Aided
-
Supplier: Vaisala
Description: the IEC 60945 international maritime standard. • Flexible integration • The vessel’s own gyrocompass and navigation system can be used to provide the required heading and ship speed, direction, and location information. However, an optional GPS compass
- Battery Powered: Yes
- Device Classification: Sensor System
- Height: 23.62 inch
- Interface Options: Serial Interface
-
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: 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
-
Supplier: CSA Group
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
-
Supplier: ZTE Corporation
Description: . MicroTCA-based open architecture, supporting third-party AMC and PrAMC modules High integration, good system compatibility and scalability, small volume, and antivibration design Flexible and abundant interfaces, supporting clock synchronization modes such as GPS, GLONASS, Bei
-
Supplier: Kernco, Inc.
Description: of control and communications networks over a wide physical area Enabling of sophisticated GPS receivers to lock directly to the PPS Y-code without recourse to first acquiring the C/A code Timing accuracy in the unavailability of the GPS system. Relative navigation
- Application: GPS Simulator
- Clock method: Atomic Clock
- Frequency: 1.00E7 Hz
- Interface: Serial
-
Supplier: Kernco, Inc.
Description: of control and communications networks over a wide physical area Enabling of sophisticated GPS receivers to lock directly to the PPS Y-code without recourse to first acquiring the C/A code Timing accuracy in the unavailability of the GPS system. Relative navigation
- Application: GPS Simulator
- Clock method: Atomic Clock
- Frequency: 1.00E7 Hz
- Interface: Serial
-
Supplier: RS Components, Ltd.
Description: environments such as dense urban areas and the SE868-V3 is Galileo-ready. Multi-constellation navigation in just one package. Support for ephemeris file injection (A-GPS). SBAS (Satellite Based Augmentation System) to increase positional accuracy. Integrated
- Category: Development Suite / Kit
- Ports: Wireless
- Supported System: RF
-
Supplier: RS Components, Ltd.
Description: . I²C bus or UART interface on mikroBUS socket. 3.3 V power supply on mikroBUS socket. Dimensions 42.9 x 25.4 mm RF Technology = GLONASS (GNSS), GPS Kit Classification = mikroBus Click Board For Use With = Asset Tracking for Navigation Devices Based on GPS & GLONASS,
- Category: Development Suite / Kit
- Ports: Wireless
- Supported System: RF
-
Description: research and new technologies Contains numerous application-based examples including the application of localization to drone navigation, capsule endoscopy localization, and satellite navigation and localization Reviews unique applications of position location systems,
-
Supplier: SAE International
Description: This document defines a set of standard application layer interfaces called JAUS Mobility Services . JAUS Services provide the means for software entities in an unmanned system or system of unmanned systems to communicate and coordinate their activities. The Mobility Services
-
Supplier: RS Components, Ltd.
Description: .9 x 25.4 mm RF Technology = GLONASS (GNSS), GPS Kit Classification = mikroBus Click Board For Use With = Navigation Devices based on GPS & GLONASS Global Positioning Systems Featured Device = L86 Kit Name = GNSS Click
- Category: Development Suite / Kit
- Ports: Wireless
- Supported System: RF
-
Supplier: SAE International
Description: capture surrounding traffic objects and used as vehicle for test drives. Post processing of recorded GPS raw data from the navigation system using an open source map service and the radar data allows an exact reproduction of the driven road including other traffic participants.
-
Supplier: SAE International
Description: comprehensive list of requirements for specific systems or functions, such as TCAS, ADS-B, GPS, weather, or shared display considerations (e.g., when should alerts be inhibited on a display system that simultaneously depicts navigation data integrated with terrain data or
-
Supplier: SAE International
Description: does not contain an exhaustive or comprehensive list of requirements for specific systems or functions, such as TCAS, ADS-B, GPS, weather, or shared display considerations (e.g., when should alerts be inhibited on a display system that simultaneously depicts navigation
-
Supplier: Allegro MicroSystems Inc.
Description: . The A8511 provides protection against output connector shorts through an integrated output disconnect switch. An optional external thermistor can be used to limit LED current based on panel temperature. Applications include: GPS navigation systems Automotive
- Form Factor: Integrated Circuit (IC)
-
Supplier: RS Components, Ltd.
Description: , Drones & Other RC Vehicles, Electric Quitars and other Amplified Instruments, Electric Vehicles, Electronic Sporting Equipment, Firewalls, GPS, Laptops, Medical Equipment, Military Equipment, Monitors and Displays, Navigation Systems, Networking Gear, PDA, Receivers, Satellite
- Chemistry: Other
- Form: Aerosol, Liquid
- Industry: Electronics
- Operating / Use Temperature: -40 to 248 F
-
Supplier: Airbus Group
Description: .75-in. rocket launchers. Included in the mission avionics are a flight management system with Doppler, GPS satellite navigation and SAR (search and rescue) modes; a digital moving map; a personal locator system; a loud speaker and a searchlight, among others.
Find Suppliers by Category Top
Featured Products Top
-
unmanned systems. Packages are being delivered by autonomous delivery devices, drones are used to monitor nuclear plants and active battlefields are in constant surveillance from above. Civilian navigation has entered our highways and sea-lanes. GPS systems also support our (read more)
Browse Electrical Connectors Datasheets for Omnetics Connector Corporation -
individual wheels. Additionally, accelerometers enhance ride and suspension control by adjusting suspension settings in real-time based on road conditions, and they support inertial navigation systems, ensuring precise vehicle positioning when GPS signals are unavailable. These applications make (read more)
Browse Accelerometers Datasheets for Silicon Designs, Inc. -
gas facilities around the globe. It inspects gas turbines, pipes, pressure vessels, heat exchangers and even vessel hulls. The robot’s impressive agility is based on its locomotion system, at the core of the concept initiated in 2009. The Swiss Federal Institute of Technology in (read more)
Browse Electrical Connectors Datasheets for LEMO USA, Inc. -
system that simultaneously monitors underslung loads and logs actual flight paths while also providing navigational guidance. The UK is home to 15% of the world upland peat moors and much of it is in danger from erosion, overgrazing, drying out and brush fires. These areas are essential to the (read more)
Browse Load Cells Datasheets for Sensor Technology, Ltd.
Conduct Research Top
-
Global Navigation Satellite System-GNSS
Global Navigation Satellite System (GNSS), also known as global satellite navigation system, is a space-based radio navigation that can provide users with all-weather 3-dimensional coordinates, speed and time information at any point on the earth's surface or in near-earth space. GPS. It consists
-
EETimes.com | Electronics Industry News for EEs & Engineering Managers
European radio-navigation system looks to one-up GPS Europeans are hoping that the planned Galileo radio navigation system enjoys smoother sailing than its namesake. Java variations could stall unified cell-phone platform Unique implementations and extensions of Java for emerging voice and data
-
EETimes.com | Electronics Industry News for EEs & Engineering Managers
XML derivatives seek to pry open telco switches Derivatives of the Internet's Extensible Markup Language are taking center stage in the effort to force open the formerly closed world of circuit-based switches in the telephone company central office. The advent of tools that leverage Web scripting
-
PREFACE TO THE SECOND EDITION
the following: New signal structures for GPS, GLONASS, and Galileo. New developments in augmentation systems for satellite navigation, including. (a) Wide-area differential GPS (WADGPS). (b) Local-area differential GPS (LADGPS). (c) Space-based augmentation systems (SBASs) (d) Ground-based
More Information Top
-
https://dspace.lib.cranfield.ac.uk/bitstream/1826/1604/1/JD%20Loizou%20PhD%20Thesis.pdf
There is a strong probability that GPS and augmented- GPS based navigation systems will become de facto international standards, through the way European civil aviation standards and regulations set by the Joint Aviation Authority (JAA) and EUROCAE tend to follow behind equivalent …
-
GPS navigation based autonomous driving system design for intelligent vehicles
GPS BASED NAVIGATION SYSTEM DESIGN .
-
The Application of Advanced Vehicle Navigation in BMW Driver Assistance Systems
The GPS based navigation system is one of the core elements of the floating car data concepts.
-
Customized architectures for faster route finding in GPS-based navigation systems
GPS based navigation systems became popular in dedicated handheld devices, and are now also found in modern cell phones, and other small personal devices.
-
Use of vehicle navigation in driver assistance systems
Combination of such sensors which give a local and dynamic perception of the environment and a GPS based navigation system , that combined with digitised map databases allows an accurate prediction of the road ahead, is another promoting approach.
-
Neural Information Processing
Automatic traffic sign detection is important in many ap- plications such as GPS based navigation systems , advanced driver as- sistance systems, and self-driving cars.
-
Pervasive Computing
Jensen et al. [9] presented a study on the impact of different GPS based nav- igation systems to the car driving behavior and performance.
-
Advances in Mechanical and Electronic Engineering
The services are provided to both PCs and user mobiles that, as pointed in many market studies, are the future versions of the current GPS based navigation systems .
-
http://www.ann-geophys.net/27/2539/2009/angeo-27-2539-2009.pdf
This study, therefore, highlights the intense threat to GPS based navigation sys- tems from space weather events.
-
Speed range prediction for subsequent intersections
For the GPS based navigation systems route guidance includes the shortest paths from source to destination according to their distance.