a board to house different types of gas_sensors

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ReferencesQtyDescriptionManufacturerMPNManufacturerMPNManufacturerMPNManufacturerMPNManufacturerMPNDigikeyMouserRSNewarkFarnell
A1;1MQ-135 or any other MQ sensorMQ-
U1;1LM393PDIP-8ON Semiconductor
RV1;13362P-1-103 10k OhmBourns3362P-1-103
R1;1Resistor 4.7k ohm 250mW through-holeStackpole ElectronicsCF14JT270RYageoMFR-25FBF52-220RTE ConnectivityCFR16J270ROhmiteOD271JEKamayaRC1/4271JBCF14JT270RCT-ND791-RC1/4-271JB14836095W57362329504
R2; R3;2Resistor 220 ohm 250mW through-holeStackpole ElectronicsCF14JT270RYageoMFR-25FBF52-220RTE ConnectivityCFR16J270ROhmiteOD271JEKamayaRC1/4271JBCF14JT270RCT-ND791-RC1/4-271JB14836095W57362329504
C1;1100nF Capacitor DiscMulticompMCFYU6104Z6KEMETC052C104K5R5CAKEMETC052K104K5X5CAKEMETC052T104K5X5CSKEMETC321C104K5R5HABC1160CT-ND80C321C104K5R5HA852-327773M21542395773
J1;1CONN HEADER XH TOP 4POS 2.5MMJSTB4B-XH-A (LF)(SN)455-2249-ND820-15511516278

BeeHive - a flexible platform for connecting different sensors and actuators

Intro

This project started as a collaboration between Ihor Sobianin and Andre Chagas, after some chats about improving the FlyPi design.

Hardware

The idea here is to make a very flexible hardware system that is easy to expand/customize for lab applications. The very initial implementation consists of:

  • a hub PCB - which contains:

    • 2 voltage regulators that step down voltage from 12V to 5V and supply these 3 voltages to specific pins throughout the board.
    • a central slot for an ESP32 WROOM and the breakout of all its pins into JST connectors.
    • Two Mikroe MikroBus connectors (https://www.mikroe.com/mikrobus).
    • Two Sparkfun Qwiic connectore (https://www.sparkfun.com/qwiic).
    • A 3.3V onboard voltage regulator.
  • 4 switch array with an TPIC6B595 shift register and transistors.

  • 8 switch array with an TPIC6B595 shift register and transistors.

  • 12V5A breakout which is based on simple barrel jack connector and JST connectors

  • power supply which are based on the LM2596 T5 a step down switching regulator For more details see current design section below.

Software

On the software side of things we are initially running micropython, as this will offer a low entry barrier for researchers (as Python is more and more the chosen language for much of the scientific stack).

  • The current implementation runs stock micropython with OSC library for communication, as this will allow easy integration with Bonsai-RX, a powerful piece of software that has integrations with other interesting open source tools for science, such as open ephys, DeepLab Cut and other proprietary but useful tools, like high speed cameras, National Instruments DAQ systems.

  • The main wish software wise for this project is to make it compatible with Labthings.


The current design

The main hub:

Schematics
beehive.png
PCB
beehive_PCB

The power supply module:

Schematics
power_supply.png
PCB
PCB_power_supply.png

The transistor-switch hub for 8 devices:

Schematics
8_switch_array.png
PCB
PCB_8_switch_array.png