Low-Power Wireless Temperature and Humidity Sensor, and based on LoRaWAN communication, strong compatibility, wide coverage and with multiple probes to choose from.

ZONEWU LoRaWAN Oxygen Sensor is a cutting-edge wireless IoT gas sensor that integrates data acquisition, monitoring, and transmission capabilities. Combining a three-electrode electrochemical gas sensor with a high-performance microprocessor, it enables real-time ozone concentration tracking in environments. The built-in temperature and humidity sensors ensure precise detection of ambient conditions. This device delivers high sensitivity, superior resolution, compact size, low power consumption, robust stability, and exceptional interference resistance. Powered by the LoRaWAN protocol for long-range wireless transmission, it is ideal for industrial applications including environmental monitoring, manufacturing processes, agricultural operations, transportation systems, and indoor surveillance scenarios.

ZONEWU RS485 Soil Temperature and Humidity Sensor integrates soil moisture and soil temperature sensors, and has the advantages of easy portability, sealing, and high accuracy. It is an ideal choice for measuring soil moisture and soil temperature.

The RS485 chlorine gas transmitter designed by our company has the characteristics of fast response, high sensitivity, and strong anti-interference ability. Equipped with high-performance chlorine gas sensors and microprocessors, it has the characteristics of high detection accuracy, stable performance, and low power consumption. Suitable for chlorine gas concentration monitoring in industrial safety, environmental monitoring, industrial production and other places. This device adopts a wide voltage 50-28V DC power supply, 485 signal output, standard ModBus RTU communication protocol, can set ModBus address, can change baud rate, and has a communication distance of up to 2000 meters.

The carbon monoxide sensor developed by our company has the advantages of rapid response, high sensitivity, and strong anti-interference ability. Through self-developed compensation algorithms and multi-level standard gas calibration, the product also has the characteristics of long service life, high accuracy, good repeatability, and strong stability. This device is suitable for real-time monitoring of carbon monoxide concentration in warehouses, workshops, chemical plants, greenhouses, enclosed living spaces, and other places.

LoRaWAN leaf temperature and humidity sensor is a low-power IoT device designed specifically for plant physiological monitoring. It uses a leaf surface fitting probe and FDR measurement method to accurately collect leaf surface temperature and humidity. Unlike traditional air temperature and humidity monitoring, it directly reflects plant moisture status and transpiration efficiency. Has good sensitivity and can detect trace moisture residues on the surface of leaves. The leaf temperature and humidity transmitter adopts waterproof design, low power consumption, and can continuously monitor for a long time. Easy to install, can be hung inside the greenhouse or on tree branches for long-term uninterrupted monitoring. Widely used for measuring surface humidity of plants or objects in greenhouses, laboratories, aquaculture, production environments, artificial climate chambers, etc.

The LoRaWAN Cyanide Gas (HCN) sensor is an IoT wireless sensor developed based on LoRa wireless technology, with a built-in cyanide gas sensor and temperature and humidity sensors. It utilizes electrochemical principles to monitor the concentration, temperature, and humidity of cyanide gas in the environment in real-time. This system has the characteristics of high detection accuracy, stable performance, and low power consumption, and is widely used in environmental monitoring, industrial emission monitoring, chemical plants, and other fields.

The RS485 Cyanide Gas (HCN) sensor is an IoT wired sensor developed based on RS485 communication technology, with a built-in cyanide gas sensor and temperature and humidity sensors. It utilizes electrochemical principles to monitor the concentration, temperature, and humidity of cyanide gas in the environment in real-time. This system has the characteristics of high detection accuracy, stable performance, and low power consumption, and is widely used in environmental monitoring, industrial emission monitoring, chemical plants, and other fields.