Three independent gas channels in one package Built with ATmega168PA Detectable gases include:Carbon monoxide (CO) , Nitrogen dioxide (NO2) , Hydrogen (H2) , Ammonia (NH3) , Methane (CH4) , etc Grove compat
- 10+: $35.91
- 20+: $33.92
- 50+: $31.92
How to choose a gas sensor?
Grove – Multichannel Gas sensor is an environment detecting sensor with a built-in MiCS-6814 which can detect many unhealthy gases. 3 gases can be measured simultaneously due to its three channels, so it can help you to monitor the concentration of more than one gas.
This sensor belongs to the Grove system, and you can plug it onto the Base shield and work with Arduino directly without any jumper wires. The interface is I2C, so plug it onto the I2C port of Base shield, then you can start to work on it.
We've released the Seeed Gas Sensor Selection Guide, it will help you choose the gas sensor that best suits your needs.
Three fully independent sensing elements on one package
Built with ATmega168PA
I2C interface with programmable address
Heating power can be shut down for low power
Detectable gases: Carbon monoxide (CO), Nitrogen dioxide (NO2), Hydrogen (H2), Ammonia (NH3), Methane (CH4), etc.
|Dimensions||89mm x140mm x6.8mm|
|Max Heating Power||88mW|
|Grove – Multichannel Gas Sensor||1|
|26AWG Grove Cable||1|
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Grove - Multichannel Gas Sensor
Grove – Multichannel Gas sensor is a environment detecting sensor with a built in MiCS-6814 which can detect many unhealthful gases, and three gases can be measured simultaneously due to its multi channels, so it can help you to monitor the concentration
The device unfortunately has an issue where its onboard microcontroller locks up, requiring a hard reset. This means the standard Grove interface can not restore operation. One must solder an additional control wire to the nRST pad on the back of the board and run it to a GPIO on Arduino in order to reset the sensor's microcontroller. Grove devices should work with only I2C.
Grove - Multichannel Gas Sensor We love the product works well with Arduino. Sadly, we are struggling to make it work with Raspberry Pi 3 (RPI-3). We believe and think this product would very well with RPI-3 fans.
Furthermore, we use a lot of your Grove Sensors and believe having Grove - Multichannel Gas Sensor work with RPI-3 would a feather in your cap.
With sincere regards & thank you
Dhirendra Damji - AKA Doc Yoda (email - firstname.lastname@example.org)
based in Tempe, Phoenix, Arizona, USA
A loyal customer who buy buys directly through your Website
received in good condition but shipping company charged a lot as extra fee at time of delivery The product is good but the shipping company associated with seeedstudio is not satisfies. Thry charge more that the value of product as custom duty.
The duty charged by government custom was near about the 15 percent of total value they charged. rest they charge as handling fee, other fee and etc.
SEESDSTUDIO should take some action as its not good deal for customer at the end.
Great Parts Works great.
I try to connect this module to Wio Tracker GPS, using the provided multi-channel gas library. I found out that the board (the Wio Tracker) stop working. the loop function stop working when gas.begin() is used. when comment it out. it start working again. Does the library of multi-channel gas has compatibility with Wio Tracker?Question by: Luqman Hakim on 2019-04-09 14:46:52
Hello, I am working a project for school and I am using an LCPExpresso board with I2C. Will this work with that? Do I have to have the base shield?Question by: admin on 2018-12-18 02:30:23
Hi Nick~Theoretically you can use it with LCPExpresso.However we only privode library for Arduino.I am not sure the Arduino Library is compatible with LPCXpresso IDE.If not you need to write the library yourself.I recommend you use Seeeduino V4.2 with this sensor.It will be simple and easy.RegardsAnswer by: admin on 2018-12-18 02:30:23
I've two Multichannel Gas Sensor and no one talk with MKR1000. First guess is oriented to the I2C voltage level of the MKR that's 3.3V so I've tried with a Seeeduino 4.2: first a 5V and all was good, then i switched at 3.3V and tried again... the Gas Sensor works again! So... why works a 3.3V with Seeeduino and won't work a 3.3V with MKR?Question by: admin on 2018-12-18 02:23:41
HI there, please drop mail to email@example.com thanks.Answer by: admin on 2018-12-18 02:23:41
I see from the wiki page that the Raspberry Pi is not supported, but the sensor has an I2C interface. What does it mean? It's just a software problem, that someone can solve writing the code? What happen if I attach it to the Raspberry Pi I2C interface?Question by: admin on 2018-12-18 02:23:26
Hi,friend! We only provide software library or code examples for Arduino platform in most cases. Hence,if you want to attach it to the Raspberry,you have to write your own software library.Answer by: admin on 2018-12-18 02:23:27
Hello dear friend! Is it the effective sensor for measure outdoor air quality? Especially have interest in NO2 and CO measuring in public project. Thank you.Question by: admin on 2018-12-18 02:21:03
Why increase the concentration of CO, C3H8, C4H10, H2 but not only CH4, NH3 or C2H5OH? Without NH4OH or C2H5OH (indoor air) The concentration of NH3 is 0.42 ppm The concentration of CO is 2.40 ppm The concentration of NO2 is 0.35 ppm The concentration of C3H8 is 274.31 ppm The concentration of C4H10 is 213.89 ppm The concentration of CH4 is 67.34 ppm The concentration of H2 is 0.29 ppm The concentration of C2H5OH is 0.73 ppm /////////////////////////////////////////////// With NH4OH The concentration of NH3 is 2.21 ppm The concentration of CO is 74.23 ppm The concentration of NO2 is 0.16 ppm The concentration of C3H8 is 3380.55 ppm The concentration of C4H10 is 1804.40 ppm The concentration of CH4 is 22208746.00 ppm The concentration of H2 is 54.83 ppm The concentration of C2H5OH is 67.19 ppm ///////////////////////////////////////////// With C2H5OH The concentration of NH3 is 2.04 ppm The concentration of CO is 1604.44 ppm The concentration of NO2 is 0.16 ppm The concentration of C3H8 is 2986.00 ppm The concentration of C4H10 is 1623.94 ppm The concentration of CH4 is ovf ppm The concentration of H2 is 5981.92 ppm The concentration of C2H5OH is 3840.37 ppmAnswer by: admin on 2018-12-18 02:21:03