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This is my personal approach to make a controller for Gaggia Classic coffee machine. I have designed it from scratch integrating standard parts that can be found online. It main goal is to control boiler temperature and pump pressure, but actually i am adding more features as i have the time to implement it.

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Coffee Controller

This is my personal approach to make a controller for coffee machines. My first application was on my Gaggia Classic, now I moved the mod to a Rancilio Silvia Pro. I have designed it from scratch integrating standard parts that can be found online. It main goal is to control boiler temperature and pump pressure, but actually i am adding more features as i have the time to implement it.

This project is based on ESPHOME and HOME ASSISTANT. Hardware and implementation is very standard and can be used with other software/coding options like arduino IDE, but you will only find documentation here for the ESPHOME approach.

You can join me in discord to share your thoughts or ask something:

https://discord.gg/Esv4gray


The Basics

Here i will describe how this thing works, what i use and why.

Software

The software is written in a yaml file which uses the ESPHOME platform. It is a really straightforward and easy tool to work with. I understand that maybe its better for control applications to program at low level but this thing is simple and works really well.

Also i am using Homeassistant in my home, i designed the UI there so i can access through my phone, tablet, pc or whatever. I use graphana plugins to analyze data if i need (tuning controllers or checking new features) and influxDB to store data.

Hardware

As i decided to use esphome, i started using a WEMOS D1 MINI board with a ESP8266 chip. The rest of the hardware were been selected based on if it were supported in esphome or not.

Core controller

For core controller i choosed a WEMOS D1 mini board. For display data, i am using a 0,96 dual color OLED screen with SSD1306 chip, i2c bus communication. Main power is provided by a HiLink 220V to 5VDC box with is connected to wemos usb port (it did not support direct power pin connection).

Boiler control

For boiler control, i am replacing the boiler coffee thermostat with a M4 PT100 3-wire thermocouple. To read the PT100 i am using a MAX31865 board with SPI communication. This is connected to the main controller over the SPI bus.

Thermostat power terminals are connected to a SSR 40-DA, solid state relay with zerocross function. This is important to ensure a smooth on and off to the boiler. SSR is driven by a esp relay board without the relay ( XD ) just because i was too lazy to do a proper driver with a transistor. Controller is driving that relay board with a slow PWM, controlling the SSR. The PWM value is set by a PID controller running in controller software.

Like the thermostat, boiler control is always ON since the machine is turned on.

Pump Control

For pump control, i am not replacing anything of stock machine but adding things. First i am controlling the pump by pressure. I installed a pressure transducer 300 PSI after the pumo outlet. I disconnected the pump hose and installed a 3 way connector, with a hose that runs to the pressure transducer. Pressure sensor gives analog signal, which i read with an external ADS1115 board with i2c communication. I am not using the esp8266 adc, because ads1115 is faster, more accurate and gives you 4 ports for future expansion. I connected the ADS1115 to same i2c bus that connects the OLED screen.

To actuate over the pump I installed a Triac based controller board (Robotdyn AC dimmer 8A 400V) between the power line and pump. Triac is fired by the controller based on a zero-cross detection signal of Robotdyn board and a value given by a PID controlled which is reading the pressure, running in the controller. To prevent damage to Triac because high dV/dt and false triggers, i installed a RC snubber in parallel to the gate to protect it.

Note that controlling an inductive load (ulka pump is basically a solenoid with a spring) require some additional considerations in order to prevent injecting noise to the circuit and keep small electronics safe.

Last part is to let the controller know when you push the pump "on" switch. For that, i installed a "220V voltage detector" connected to the pump power line and neutral line. It gives an optocoupled logic signal which is read by a DI pin on the controller.

Wiring

I used silicone insulated wires, 16AWG for power and 22AWG for control inside the machine, with spade connectors. Inside the controller case i used flat ribbon cable with dupont connectors.

User Interface

For user interface i am using the home assistant frontend. i configured a page where i can set the parameters when i need to. Parameters that i can set are:

  • Boiler temperature set point
  • Preinfusion time
  • Preinfusion pressure
  • Brew pressure

Also i can deactivate the boiler heating element if i want it.

About

This is my personal approach to make a controller for Gaggia Classic coffee machine. I have designed it from scratch integrating standard parts that can be found online. It main goal is to control boiler temperature and pump pressure, but actually i am adding more features as i have the time to implement it.

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