VOC+NOx Sensor SGP41
Detecting Various Indoor Gas Pollutants on a Single Sensor Chip
The SGP41 is Sensirion’s new VOC and NOx sensor designed as digital smart switch and regulation unit for air treatment devices such as air purifiers.
The two sensor signals processed by Sensirion’s powerful Gas Index Algorithm can be directly used to automatically trigger the removal of indoor air gas pollutants by air treatment devices without the need for user–device interaction. This sensor solution is thus well-suited for constantly monitoring the VOC and NOx situation including potentially harmful events which are not perceived by humans. Furthermore, an automatic control of air treatment devices based on the SGP41 signals helps to save energy by turning them off once the VOC and/or NOx events have been taken care off. If you want to learn more about why it is important to measure VOCs and NOx, please, follow the link to our indoor air quality landing page.
SGP41 offers a solution for two complete sensors on a single chip facilitating design-in and saving design costs. Thanks to its very small DFN package (2.44 x 2.44 x 0.85 mm3) the sensor can be designed into applications with limited spaces. SGP41’s multi-pixel sensing element features an unmatched robustness against contaminating gases which are present in real-world applications enabling unique long-term stability as well as low drift. Sensirion’s state-of-the-art production process guarantees high reproducibility and reliability. Tape and reel packaging together with suitability for standard SMD assembly processes make the SGP41 predestined for high volume applications.
|Supply voltage range||1.7 to 3.6 V|
|Current consumption||3.2 to 4.5 mA (at 3.3 or 1.8 V respectively)|
|Measurement range ||0 to 1,000 ppm of ethanol equivalents|
0 to 10 ppm of NO2 equivalents
|Sensor output ||2 digital 16-bit raw signals|
|Processed output||Digital VOC and NOx Index signals|
|Response time ||< 10 s (tau 63 %) for VOC measurements|
< 250 s (tau 63 %) for NOx measurements
|Switch-on time||< 60 s|
|On-chip humidity compensation||Yes|
- Air purifiers
- Air exchange units
- Demand-controlled ventilation
- Kitchen hoods
|Name||Sensor Output||Device-to-Device Variation VOC|
Device-to-Device Variation NOx
|Supply Voltage V||Interface||Package Size (L x W x H) mm||Datasheet|
|SGP41||Digital raw signal, VOC/NOx Index1||< ± 15% m.v.2||< ± 50% m.v.2||1.7 to 3.6 V||I2C||2.44 x 2.44 x 0.85||Download||coming soon|
1VOC/NOx Index are the processed raw signals by Sensirion’s Gas Index Algorithm.
2Or 15 VOC/50 NOx Index points, whichever is larger.
Technology and Benefits
|Two sensors on a single chip||Cost reduction and easier design-in|
|Excellent longevity of > 10 years thanks to siloxane-resistance (MOXSens® Technology)||Reliable sensor hardware|
|Gas Index Algorithm||No signal processing programming by customer required|
|On-chip humidity compensation||Optimal performance in various environments|
|Low heat emission||Enhanced precision of RH&T readings, less backgrounds|
Typical MOX Sensors vs. SGP41
|User Experience||Typical MOX Sensor||SGP41|
|High sensitivity over large dynamic range|
|Excellent device-to-device variation in the field|
|Differentiation between fresh air and bad air events|
|Output independent on sensor age, starting conditions and environment|
|Reliable and stable sensor signal over lifetime (> 10 years)|
Start Evaluating the SGP41 Today
The SEK-SVM4x evaluation kit has been designed for easy and cost-efficient evaluation of Sensirion’s SGP40 VOC and SGP41 VOC+NOx sensor. The kit contains the SVM41 sensor module and is equipped with an SGP41, an SHT40 humidity sensor and a microcontroller featuring VOC and NOx Index, relative humidity and temperature outputs via either an I2C or UART interface.
In addition to the SVM41, the SEK-SVM4x comes with a UART-USB cable that allows for evaluation of the sensors, e.g., by Sensirion’s easy-to-use SEK-ControlCenter viewer software as well as a 6-pin jumper wire cable that enables fast prototyping, e.g., through integration into existing platforms (like Arduino, RaspberryPi, etc.).
Unique Performance Thanks to MOXSens® Technology
The sensing principle of the SGP is based on a heated film of metal-oxide (MOx) nanoparticles. Adsorbed oxygen on the metal-oxide particles reacts with the target gas and thereby releases electrons. This results in a change of the electrical resistance of the metal-oxide layer that is measured by the sensor.
The SGP multi-pixel gas sensor platform integrates four sensing elements − the pixels – into one small DFN package. Using Sensirion’s CMOSens® Technology, the SGP offers a complete sensor system on a single chip featuring a digital I2C interface, a temperature-controlled microhotplate, as well as preprocessed and calibrated indoor air quality signals.
Optimized metal-oxide sensing materials in combination with Sensirion’s multi-pixel gas measurement platform result in a unique resistance against contamination by siloxanes – MOXSens® Technology. Sensirion’s MOXSens® Technology enables highly sensitive and reliable gas measurements of indoor air pollutants such as volatile organic compounds and hydrogen.
Learn more here
Environmental conditions have a major impact on our well-being, comfort, and productivity. Sensirion’s sensor solutions provide detailed and reliable data on key environmental parameters such as humidity, temperature, volatile organic compounds (VOCs), particulate matter (PM2.5), formaldehyde and CO2. Environmental Sensing opens up new possibilities to create smarter devices that improve our comfort and well-being as well as increase energy efficiency in a wide variety of applications.
We accompany you through the entire product development process, from the initial idea to product launch and beyond. Our expertise ranges from prototype construction, design-in support and use-case development to inline testing at the mass production stage.