During the prototyping of the StrobIt Triggr, I found that I could only hit the maximum bit rate of approx 12000bps, this is a far cry from the reported 256Kbps, so what was I doing wrong?
- PIC16F88 running on internal 8MHz Clock – low cost and very popular, free development tools available, i.e. C compiler.
- Works in unlicensed 915MHz ISM Band(Australia/US), can work at 433Mhz by changing RF module(US/EU/Australia).
- RF uses FSK Modulation – Less prone to interference sources.
- All aspects of the RF module is configurable via the firmware, i.e. frequency, Tx power, receiver bandwidth, modulation, datarate etc.
- Indoor Range – ~30m+ works all through my house non line of sight, i.e. through multiple single brick walls, with transmitter at furtherest end, close to AV, TV & WIFI (i.e. interference sources) and receiver roaming throughout the house in different rooms, microwave oven also in the mix. No packets lost or dropped so far, but more testing needing to be done.
- Outdoor Range – Untested, but from indoor tests I would guess 150-250m easily.
Update: Outdoor Test Results here
- Antenna – Simple 8cm whip (i.e. a single piece of wire), these RF units are matched to 50Ohm so an SMA antenna could be used
- Sync to 1/125 – in theory it could easily sync upto 1/1000 as the Rf modules are capable of the bitrate necessary, however range will be affected by the higher the speed, also the processor / oscillator arrangement may need to be revised to handle the higher interrupt rate to process data, i.e may need to use a chip with onboard SPI support etc.
- Can act as Master or Slave.
- Can be programmed to use any frequency from 902Mhz to 928Mhz (using the 915Mhz module), using the 433Mhz Module will allow similar channels.
- Can be triggered by a contact closure on Trigger Input. i.e. from camera
- Can be manually triggered by test button.
- Trigger output is isolated upto 400V, i.e. can safely trigger old stobe units with high voltage on hotshoe / sync terminals
- Powered by x3 AA batteries. Currently no power management in the firmware.
- Cost per prototype board AUD$ ~25
Note on the costs:
- Most components are sourced via local retail outlets so are probably definately more expensive that sourcing elsewhere, i.e. this can be built a lot cheaper i.e. Sub $10 in parts.
- Some of the components I had lying around at home so I’ve just used market prices in my estimates.
- No freight was added to construction costs.
- Some components have minimium order quanties such as the RF module.