Will they this time actually be willing to sell it instead of clamping down on it with orders limited to one and doubling the price with periphery bundles that were the only way to get it, like they did with the zero?
I think i might use it to make an auto top off.
Settings bucket has the Prometheus enabled/disabled option, set it to false and start reef-pi, then update the relevant equipment name and enable Prometheus againThere is additional information on the troubleshooting webpage for how to do database edits see this
Down towards the bottom you will see this section - Using reef-pi db command
Looks like the bucket you are after is the "equipment" bucket. Take a look at that page along with the one I previously linked to should provide enough information to change what you need and get it working. Remember to make a copy of the db before applying any edits, that way you can always go back.
I've heard this happening a few times and looked quite extensively for some code to reset the bus but yeah nothing. This hardware/code reset sounds really interesting, could you explain how it could be done? I would love to add this to my controller and I just happen to have one GPIO pin free.
The bare minimum would be something like this:
Sensor power and the pull-up are both controlled by a single PFET. In this design, you could actually skip the PFET and power it directly from a Pi pin, but not preferred. However, this runs the sensor at 3.3V, and some of the cheap sensors really run better at 5V... so this is the bells and whistles version:
In this case, a high signal on the Pi Pin will turn on the sensor, and pull-up the 1-wire line via R1.
R2 is to pull the PFET gate up to 5V, which will keep it switched off unless Q2 is turned on. When Q2 is turned on by the high signal from the Pi, the gate of Q1 goes low so it turns on, and R2 limits current to ground.
R3 and C1 are the extra bonus parts - R3 will make sure any charge is bled away from the sensor (it may latch in a very low current state and may take awhile to reset), and C1 is good practice to decouple the power line.
1Wire sensors can be powered parasitically, so it may be valuable to add a large value (100k+) pull-down on the 1Wire bus line at all times. In theory you could do so by simply setting the 1Wire pin as a low output on the Pi, but the kernel driver owns the pin so its not straight forward.
Rob, the SHT31-D I believe is the Adafruit breakout board part number. If you are looking for the part number for the digital chip, it's SHT31-DIS-P2.5KS. They're about 5 bucks on digikey. Careful, they are tiny. about 2.5 mm sq.I know reef-pi supports the SHT31-D but how about the SHT31? How important is the D? I can't find what that represents. Someone asked me about this sensor but I'm unsure, anyone know? I assume its ok but...
SHT31 Weather-proof Temperature & Humidity Sensor
This is an SHT31 Temperature & Humidity sensor housed in a weather-proof enclosure. The sensor is designed to be waterproof so you can use it safely in outdoor projects...core-electronics.com.au
Basically a turn off and on, aka mimic an unplug. The pull-up power is also removed as 1-wire devices are supposed to work on a parasitic mode, powered only by a pull up. A lot of clone sensors can’t be powered like this, but in case a sensor is getting powered... (unlikely if it’s also holding the bus low).
Thanks! Ah so when a bus locks a Pi power cycle isn't required, just need to unplug and reattach all sensors connected? When you referred to a power cycle I thought you meant the Pi not the sensor.
Well if you think this can help with some cases I think it's worth it, I'm going to add it to my boards and that's awesome Ranjib might work it into the driver. Thanks again for the schematic, I would have never thought the pullup could go to a GPIO, that could be really useful for changing port configuration through software. That'll be useful when I have my dream controller finished in 10 years.Thats the operating theory. The Pi is basically just using a GPIO with the 1 wire kernel driver - there isn't any hardware state. That doesn't mean the kernel deadlocks somewhere in the driver state machine, but thats a different debugging problem
@Ranjib @Tom Bishop
Anybody?
