NEO-M9V ULTRA FAST 50Hz UDR and ADR Receiver with 50mm full band L1 L2 L5 Antenna and EMI protection. Ready for unwanted signal interference or multipath blocking.
This board designed for large scale drone or groud robots. Board have EMI and RFI protection and will be used with large current robots. This boards ready for unwanted signal interference or multipath blocking. The NEO-M9V Evaluation board makes evaluating the high performance of the u-blox 9 positioning engine simple. With a built-in USB interface for both power supply and high-speed data transfer, the need for an external power supply is eliminated. The NEO-M9V Breakout board is very compact, and it’s user-friendly interface and power supply options make it ideally suited for use in laboratories, vehicles and outdoor locations. Furthermore, the NEO-M9N breakout board can be used with a PDA or a notebook PC, making it the perfect companion through all stages of design-in projects. It’s a fully assembled and tested PCB for the NEO-M9V
The NEO-M9V module Based on the ultra-robust M9 platform, NEO-M9V is the first u-blox module to include both UDR and ADR options integrated into one receiver. The module also includes various dynamic models for after-market vehicles, motorcycles, and micromobility applications. All the components needed are on the module, including IMU. This makes the dead reckoning technology accessible and easy to use. Furthermore, the whole solution runs on the module which means that it is not necessary to run external libraries on the host.
This NEO-M9V GNSS module with dead reckoning technology delivers three times better accuracy than GNSS-only receivers, enabling a smooth urban navigation or tracking experience. In challenging environments, GNSS-only receivers typically have many outliers. In such conditions, statistical accuracy can easily exceed 10 meters. With NEO-M9V, there are few or no outliers. In typical urban scenarios, NEO-M9V offers sub-5-meter accuracy.
Maximum position availability is guaranteed, thanks to the concurrent reception of four global navigation satellite systems (GPS, Galileo, GLONASS, and BeiDou) and dead reckoning technology.
UDR enables fast time to market, and ADR improves the accuracy performance if there are long GNSS outages. Excellent RF interference mitigation thanks to SAW/LNA enables simple and fast RF designs including considerable cost savings from reduced design efforts.
With a built-in USB interface for both power supply and high-speed data transfer, the need for an external power supply is eliminated.
NEO-M9V receiver board features:
- 92-channel u-blox M9 engine GPS L1 C/A, QZSS L1 C/A/S, GLONASS L1OF BeiDou B1I (1561.098 MHz) only, Galileo E1B/C SBAS L1 C/A: WAAS, EGNOS, MSAS, GAGAN
- On-board Ultra low noise 3.3V voltage regulator and RF filter for noise blocking
- USB, and Uart (Tx,Rx)
- 50mm High Gain L1 L2 L5 full band patch antenna
- u-center GPS Evaluation Software
- Extensive visualization and evaluation features
- Flash memory for firmware upgrade and settings inside in the module (can save setings without battery)
- Battery for HOT module start
- 1 TTL UART port, 1 USB port
- Time pulse LED
- Power LED
- Dimensions: Round 80 mm hole distance 45x45mm
- Weight 46 gram
- EMI and RFI protection
- Ready for unwanted signal interference or multipath blocking
- Fully assembled and ready to use
- ULTRA FAST Update rate! UP to 50Hz
NEO-M9V features
- 92-channel u-blox M9 engine GPS L1 C/A, QZSS L1 C/A/S, GLONASS L1OF BeiDou B1I (1561.098 MHz) only, Galileo E1B/C SBAS L1 C/A: WAAS, EGNOS, MSAS, GAGAN
- Nav. update rate Up to 50 Hz (4 concurrent GNSS)
- Position accuracy 1.5 m CEP (with SBAS) or 2.0 m CEP (without SBAS)
- UDR position error 10% of distance traveled without GNSS (duration < 60 s)
- ADR position error 2% of distance traveled without GNSS
- Acquisition
- Cold starts: 24 s
- Aided cold starts: 2 s
- Reacquisition: 2 s
- Sensitivity Tracking & Nav: –160 dBm
- Reacquisition –159 dBm
- Cold starts (aided): –148 dBm
- Hot starts: –158 dBm
- Geofencing Up to 4 circular areas Software message or GPIO for waking up the host CPU
- RF interference and jamming detection and reporting
- Active GNSS in-band filtering
- Active GNSS in-band filtering Spoofing detection and reporting (consistency checks based on GNSS and sensors)
- Device integrity Secure boot of firmware Receiver configuration lock by command
- Secure interface Signed UBX messages (SHA-256) JTAG debug interface port locked
- Assistance GNSS AssistNow Online
- Active and passive Supported antennas
NEO-M9V Product Summary
NEO-M9V Data Sheet
NEO-M9V Hardware Integration Manual