Koitrol – Pond monitoring

Nuts out gnome with the old switched junction box

Our pond was slowly losing water over time, and I wanted to be able to track whether it was normal (i.e. evaporation) or if there was a leak in the pond liner. While doing this, I figured adding some temperature sensors would be handy to know when to restart feeding – fish shouldn’t be fed while the water is less than 10C.

FUN FACT 1: Fish go into low activity mode over winter and won’t eat. Anything you feed will just sink and rot; affecting water quality.

Water and electronics don’t mix, so deciding on a water level sensor took a while. Capacitive systems will eventually corrode, ultrasonic ranging would work but drift over time (small error compounds leading to poor consistency) and float switches don’t show continuous change. I picked an etape sensor which is a thin tube with known resistance which changes as the surround liquid presses on it. The sensor has a second resistive element which is not affected by liquid level, but allows you to compensate for temperature changes.

Using an m5stack Atom Lite MCU, I first tried the built-in ADC which has poor linearity and is bad range (0-1.8v from memory?), so I switched to an external ADC121C021 over I2C which was much better. Popped a couple of DS18B20 waterproof temp probes on and we’re good to go.

FUN FACT 2: ADC stands for analog to digital converter. Its actually a very complicated network of resistors and capacitors to turn a wobbly voltage to a digital reading.

All of this was installed into a waterproof junction box with power in, and the two temperature sensors out. Using custom firmware, I had a websocket-backed web GUI and also a Blynk app to use on my phone. The web GUI allows for depth calibration – connect the returned resistance (in ohms) to a depth (mm). The ADC module was conformal coated incase of water ingress.

Sponges for mechanical mounting pressure and a delightful touch of colour.
Installed with no cable management
Web GIU
Blynk app

Pond-ering forward

The next step was to automate the pond filter. The pond has a basic box filter which has a UV lamp in the top which the water must first flow over, then through various compartments containing different foams before being spat out the from two pipes. After a while the bottom of the filter gets full of fish poop and other biological goodness.

To clean the filter, it must first be drained with a tap (quick de-sludge) on the bottom, and then the filters washed. Before draining, the UV lamp should be turned off, then the pump (the water cools the UV lamp in normal operation). Using switches to do this is the boomer way, so we’ll automate it and waste countless hours invest time into speeding this up in the future.

FUN FACT 3: UV light causes algae to die and clump together giving you clear water. A more cheerful name would be the Algae Genocider

Filter diagram

Using another Atom Lite, I hooked up a 4 channel relay board, two additional relays and a previous energy monitoring PCB I designed a while ago.

Should have cleaned the flux and that isn’t a bodge wire, I don’t make mistakes

The energy monitor board needs 3.3v but the MCU sends 5v. As the serial lines are not isolated from mains, I used a ADUM1201 and a B0505S isolated DC-DC converter into a linear voltage regulator (5v -> 3.3v) and packed it on a prototype board (gray box with arrows and + – on it).

V1. Energy monitoring board is in the light gray junction box with the serial lines out the bottom.

Using the relays, the filter and the pump (both 240V) can be controlled. Using a 150W waterproof 12V power supply, the remaining pond things can be controlled – lights, ball valve and bilge pump.

Originally I used a 12V to USB power supply (the Atom Lite uses USB C to power it) but I had issues with the 12V PSU browning out with the bilge pump (it doesn’t have soft-start, appears as dead short to the PSU on start up) so I just used a mains USB PSU instead.

Before the ball valve, I intended to use a solenoid value to control the sludge line, but solenoid valves required a minimum pressure to work which this gravity-fed system couldn’t supply. I also intended to use a small 12V pump to move the water, but it didn’t self-prime and kept running dry. In the end, I picked up a motorised ball-valve unit which you control by either sending power to 1 of two wires.

A standard relay with its NO and NC contacts will be perfect here – NC for the green/blue wire and NO for red.

I used some clear pipe so you can see the fish turds flying through while draining.

Ball-valve and an embarrassment of mismatched brass fittings with a nice telfon-tape scarf.

Everything was hooked up, some coding and another app later, I can turn lights on and off, drain the pond and see if its empty.

Barely any visible wires – score!
Night-time debugging. Shows the old 12V pump and unused solenoid valve
Web GUI

FINAL FOURTH FUNEST FACT: The pond level is mostly affected by evaporation. We don’t have a leak.

Pond with lights. I definitely didn’t just chuck the pump in

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