CCS811 breakout :: FEATURES
CCS811 breakout :: INTERFACES, PADS and SOLDER JUMPERS
I2C and POWERING INTERFACEIn the left edge of the top PCB side, top to bottom:
1. Vin - POWER IN 3.3V / 5V (default) *
2. 3V3 - Vdd - LDO output (default) / LDO bypass IN **
3. SDA - I2C SDA [default, pulled up at Vin]***
4. SCL - I2C SCL [default, pullup up at Vin]***
5. GND - POWER and I2C GROUND
* Default, the I2C reference voltage follow the Vin voltage. If your board (Arduino/other) it's 5V compliant, connect +5V to Vin. Similar, for 3.3V compliant board(RPI/Arduino)connect 3.3V source to Vin.
** 3.3V voltage it's available on Vdd PAD, if Vin it's connected to 5V. Bypass LDO - see schema and read docs.
*** Default, the I2C reference voltage follows the Vin voltage! Read bellow about I2C reference voltage and s1 solder jumper.
SOLDER JUMPERSs1 : I2C reference [Vin or 3V3-bypass], default Vin *
s2 : CCS811 I2C address [0x5A/0x5B], default 0x5A *
s3 : reserved
* Read about s1 and s2 functionality bellow.
SIGNALS INTERFACE and MARKINGIn the left edge of the bottom PCB side, top to bottom:
6. CCS811 WAKE* input (active LOW)
7. CCS811 RESET* input (active LOW)
8. CCS811 INTERRUPT* output (w. pullup**)
nc. NOT CONNECTED
* In order to wake the CCS811 sensor, the WAKE signal must be shifted and kept at LOW level (connect directly to GND or controlled via MCU digital port).
* Read about CCS811 WAKE, RESET and INTERRUPTS in CCS811 documentation!
* Taking a look at howto posts and inside software examples may be quite helpful.
** Default HIGH.
Observe the sensor breakout marking on PCB board (here, CCS811 sensor is marked as populated).
CCS811 breakout :: Arduino / Raspberry PI basic interfacing
CCS811 breakout :: solder jumpers description; power scenarios
s1* - I2C reference voltage selector - shipped with circuit 1-2 closed and circuit 2-3 open (default mode).
In default mode, the I2C reference voltage follows the voltage applied to Vin! Default mode use cases:
- shield/MCU it's 5V compatible ==> connect Vin at 5V; the I2C reference it's 5V!
- SBC/shield/MCU it's 3.3V compatible ==>connect Vin at 3.3V; the I2C reference it's 3.3V!.
Alternate mode - I2C reference voltage follows the Vdd voltage! - modify s1 as: 1-2 circuit open, 2-3 circuit closed [carefully interrupt/cut the circuit line between pads 1 and 2, and solder over pads 2 and 3].
Alternate mode scenarios:
- apply 3.6-7V to Vin. The I2C reference voltage it's set at 3.3V! Also, at Vdd pad (LDO output) 3.3V (up to 100mA) it's available for third part powering (anyway, try to keep the sunk current as low as possible, in order to avoid thermal errors).
- keep Vin not connected. Apply 2.8 or 3.3V to Vdd (the LDO it's bypassed). The I2C reference voltage it's set at voltage applied to Vdd pad!
s2 - CCS811 I2C address - default circuit open, CCS811 having 0x5A as I2C address. Solder over s2 pads [circuit closed] in order to select the alternate I2C address [0x5B].
* Consult s-Sense block schema for more information. See projects/how to section.
s-Sense air quality and environmental sensors examples for Arduino and RaspberryPI may be downloaded from our download page.
CCS811 breakout :: DOCUMENTATION DOWNLOAD/ONLINE
The s-Sense environmental sensors documentation can be found here.
CCS811 breakout :: ARDUINO & RaspberryPI projects
CCS811 breakout :: ORDER ONLINEOrder online s-Sense air quality and environmental sensor breakout boards
CCS811 breakout :: ORDER FROM OUR DISTRIBUTORS
View/save pdf version of this page.
the alphabet : order online a-gsmII shield [new] b-gsmgnss shield [new] a-gsm shield c-uGSM shield (micro)
d-u3G shield (micro) f-audioOutputs adapter g-SPS boards i-hatGSM3G adapter j-328GSM3GLader adapter
h-nanoGSM shield (nano) l-LTE shield s-Sense sensor breakout boards [HOT] u-GSM shield - CAT M1 / NB IoT / LTE [newest]
xyz-mIoT integrated sensors IOT shield [newest] IoT product of week featured product [BME688 breakout]
Arduino and Raspberry PI how-to and tutorials
hottest project newest project newest hardware how to newest software tutorial view all tutorials
BME688 Arduino how to CCS811 Arduino how to HDC2010 Arduino how to BME680 Arduino how to BME280 Arduino how to
BMP280 Arduino how to CCS811 RPI how to HDC2010 RPI how to BME680 RPI how to BME280 RPI how to BMP280 RPI how to
Covid19 response resources:
ZOOM speaker (w. Arduino shield and a-gsmII) - covid19 response help for elderly peoples
PARP purified air flow controller for 12VDC blowers powered from 5V LiION power bank
temperature, humidity and pressure sensor temperature and pressure sensor BME280 Arduino how to BMP280 Arduino how to
BME280 RPI how to BMP280 RPI how to
our environmental and air quality sensor breakouts:
BME688 CCS811 + HDC2010 combo BME680 CCS811 BME280 BMP280 HDC2010
terms and conditions
|document version 0.9142 / 2020-08-07||© R&D Software Solutions srl|