Overview
In an effort to improve the video capture system we're attempting to implement the system developed by Alex Csete at Copenhagen Suborbitals. Charlie G got in contact with Alex regarding his original design. The software repo for the encoder can be found here. The video overview of the system can be found here. The system notably required a custom amplifier designed by Copenhagen Suborbitals. It was a two amplifier system designed by Peter Mortensen. The primary amplifier was based on the kit here, however the output power of the HackRF was too low, so an additional amplifier was added to the circuit, and a custom PCB created to minimize the connections.
This architecture implements the COTS DVB-S2 standard for high definition digital video and transmits in the 23cm band (1.3 GHz). Copenhagen Suborbitals saw a very stable link at 3.5W RF at 7 km altitude. Rocket Team believes we have an opportunity to simplify this system by integrating additional COTS hardware.
WIP Idea
From a discussion between Charlie and Dennis.
HAM radio people use the DVB-T or DVB-S protocol for DATV (digital amateur TV) in Europe and in US (e.g. https://batc.org.uk/). There are commercial products which encode a hdmi picture and send it out over a DVB-T channel.
A device which we could use would be this one: http://www.hides.com.tw/product_HV320_eng.html (there are multiple available, unclear what kind of different features they offer).
Rocket Inventory:
- 3x Raspberry Pi 0 with camera (beware, need special camera cable: https://www.adafruit.com/product/3157)
- HV320 without PA (or equivalent model)
- PA (e.g. https://www.minikits.com.au/70cm-7W-Amplifier, or self designed)
- Antenna
Ground Station
- Notebook
- USB Receiving Adapter (e.g.http://www.hides.com.tw/product_ut120_eng.html)
- Antenna
Things to discuss:
- Frequency? (D: I would prefer 70cm/440MHz, easier to get PAs and is less problematic in regard to doppler)
- Bandwith? (HAMs usually use 2.4 MHz, commercial products use 5-8 MHz)
- Power? (run the PA+Modulator all the time or only at timeslots)
Ampli
Energy budget
| Device | Input voltage | Power usage | Usecase | Size | Weight |
|---|---|---|---|---|---|
| Raspi Zero | 5V | 240mA Source, 350mA max | Video recording (with camera) | PCB: W(65mm) x D(30mm) | |
| HV320E | 5V/12V | 1420 mA@5V | Encoding, Modulating, Transmitting | PCB: W(100mm) X D(70mm), Case: W(105 mm) x D(75 mm) x H(35 mm) | PCB: 55g, with Case:175g |
Bill of Materials
| Qty. | Device | Weight | Price |
|---|---|---|---|
| 3 | RaspberryPi 0 | 9g | $5.00 |
| 3 | PiCamera Module | 3g | $19.95 |
| 1 | HV320E Modulator | 55g (less case) | $280 |
| 1 | Amplifier | ~20g | ~50 |
| 1 | Power Distribution Board | ~40g | ??? |
| X | Heatsinks | ??? | ??? |
| X | Cables | ??? | ??? |
| 1 | Lithium Polymer Battery | ??? | ??? |
| Totals: | ~500g | $550 |
Some material:
https://kh6htv.files.wordpress.com/2017/12/an-28a-hv320rev18dec2017.pdf
http://www.von-info.ch/hb9afo/articles/DVB-T/HV320/HV-320_Transmitter_Box_QIG_v1.0_20151001-1.pdf
Experiences (in regard to range, bandwidth, etc): https://www.oe7forum.at/viewtopic.php?f=7&t=410&start=375#p2103, https://www.oe7forum.at/viewtopic.php?f=7&t=410&start=405#p2367