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1. uBLox Max-7Q with Radiometrix NTX2B 2. uBlox NEO-M8T with Radiometrix NTX2B 3. uBlox NEO-M8T with Radiometrix MTX2 The NEO-M8T concurrent GNSS modules deliver high integrity, precision timing in demanding applications world-wide. Support for BeiDou and GLONASS constellations enables compliance with national requirements. Enhanced sensitivity and concurrent dual-constellation reception extend coverage and integrity to challenging signal environments. Survey-in and single SV timing reduce timing jitter, even at low signal levels, and enable synchronization to be maintained with as few as one single satellite in view. Support for low duty cycle operation reduces power consumption for battery-powered applications. Highlights: uBlox M8 Product Summary uBlox NEO-M8T Data Sheet
can use U-Center for Windows setting or test signal For the project we have 3 different models each with their different components which suffice your need: 1. ublox NEO-M8T GPS module & ublox Max7Q 2. Radiometrix NTX2B 434.xxx Mhz 10mW modules. Radiometrix MTX2 433.xxx Mhz 10mW modules. 3. TMP102 temp sensor to monitor Raspberry Pi temperature 4. BMP180 Barometric Pressure/Temp/Altitude Sensor 5. i2c HTU21D Digital Temp & Humidity Sensor 6. MCP3002 2 channel ADC voltage detect 7. 24c32 HAT EEPROM 8. TRACOPOWER 5V & 3.3V (TSR-1-2433 & TSR-1-2450) DC/DC converter (DC input Min 6.5V ) up to 96% efficiency - No heat-sink required ( for longer battery life) 5V provide to Raspberry Pi & Rs Pi P-HAB module board 9. Raspberry Pi Camera kit ( take photos save into SD card)
uBlox NEO-M8T with Radiometrix MTX2
uBlox NEO-M8T with Radiometrix NTX2B
uBlox Max-7Q with Radiometrix NTX2B |
GPS antenna & FM antenna & USB SDR Encoder (RTL2832U-based DVB-T devices (RTL-SDR
eduhap.py -s short data stream mode send GPS location and BMP085 Temp only , but all logs save to SD card eduhab.py -p send data also take photos every 30sec eduhab.py -c prid change the data stream "twick" to "prid"
log file save in SD card
data format EDUHAB1,00:33:27,253,52.472775,-1.90956,11,1,149.5,-24.3,57.6,-23.2,990.8,188.4,1.0,22.8 EDUHAB1 callsign 00:33:27 TIME 253 LOG COUNTER 52.472775,-1.90956 latitude, longitude GPS location 11 satellites --- ublox Max 7Q GPS module 1 flightmode --- ublox Max 7Q GPS module 149.5 altitude --- ublox Max 7Q GPS module -24.3 -24.3 -24.3 -24.3 -24.3 -24.3 temp DHT22 - Temp External GPIO17 57.6 humidity DHT22 - Humidity GPIO 17 -23.2 temp2 BMP085 - Temp External i2c adress 77dress 77 990.8 pressures2 BMP085 - Pressure i2c adress 77 188.4 alt2 BMP085 - altitude i2c adress 77 1.0 temp3 TMP102 - on board Temp i2c address 49 22.8 temp4 DS18B20 - Temp External 1-Wire GPIO 4 Tracking using a SDR software defined radio (SDR)io (SDR) Run sdrsharp.exe and you will see the following window:
open DL-Fldigi, click Configure → Sound Card Click Capture → SDR(Virtual Audio Cable) You should now be able to click on the payload as normal and decode : received data with checksum ok
received data with checksum error
short data stream mode
full data stream mode
Track balloon online
Raspberry Pi & P-HAB board inside the box
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