The three-cup wind speed sensor is a wind speed measuring instrument independently developed and produced by our company. The sensor shell is made of aluminum material with very small dimensional tolerance. It has high weather resistance, high strength, corrosion resistance and waterproofness. The internal integrated photoelectric conversion mechanism, industrial microcomputer processor, standard current generator, current driver, etc. The circuit PCB adopts military-grade A-grade materials to ensure the stability of measurement parameters and electrical performance; the electronic components are all imported industrial-grade chips, which makes the overall anti-electromagnetic interference ability extremely reliable, and can ensure that the host can work normally in the range of -20℃~70℃ and humidity 5%~95%RH (no condensation). After the product upgrade, the output signal is diverse, and the wired output includes: analog signal (voltage, current), digital signal RS485; wireless output includes: LoRa, GPRS, 4G. Except for LoRa and Bluetooth, other forms of wireless output can be connected to the cloud platform, which can realize the monitoring and management of smart terminal data.
The wind direction sensor is used to measure the direction of the wind and convert the physical signal into an electrical signal. This signal can be directly transmitted to the recording device for processing. The sensor shell is made of aluminum material, which has high weather resistance, high strength, corrosion resistance and waterproofness; the internal circuits are all protected, and the entire sensor has good adaptability to harsh environments. The cable connector is a military plug with good corrosion and erosion resistance, which can ensure the long-term use of the instrument. At the same time, it cooperates with the internal imported bearing system to ensure the accuracy of wind direction collection.
The wind direction sensor uses a low-inertia wind vane and a precision potentiometer, which is sensitive and accurate. The precision signal processing unit can output various signals according to user needs. The circuit module PCB uses military-grade A-grade materials to ensure the stability of the measurement parameters and the quality of the electrical performance; the electronic components are all imported industrial-grade chips, which makes the overall extremely reliable anti-electromagnetic interference ability, and can ensure that the host can work normally in the range of -20℃~+70℃ and humidity 5%~95%RH (non-condensing). After the product upgrade, the output signals are diversified. The wired output includes: analog signals (voltage, current), digital signals RS485; the wireless output includes: LoRa, GPRS, 4G. Except for LoRa, other forms of wireless output can be connected to the cloud platform to realize the monitoring and management of smart terminal data.
The wind direction sensor is used to measure the direction of the wind and convert the physical signal into an electrical signal. This signal can be directly transmitted to the recording device for processing. The sensor shell is made of polycarbonate composite material, which has good anti-corrosion and anti-erosion characteristics; the internal circuits are all protected, and the entire sensor has good adaptability to harsh environments. The cable connector is a military plug, which has good anti-corrosion and anti-erosion properties, can ensure the long-term use of the instrument, and at the same time cooperate with the internal imported bearing system to ensure the accuracy of wind direction collection.
The wind direction sensor uses a low-inertia wind vane and a precision potentiometer, which is sensitive and accurate. The precision signal processing unit can output various signals according to user needs. The circuit module PCB uses military-grade A-grade materials to ensure the stability of the measurement parameters and the quality of the electrical performance; the electronic components are all imported industrial-grade chips, which makes the overall extremely reliable anti-electromagnetic interference ability, and can ensure that the host can work normally in the range of -20℃~+70℃ and humidity 0%~100%RH (non-condensing).
After the product upgrade, the output signals are diverse. The wired output includes: analog signals (voltage, current), digital signals RS485; the wireless output includes: LoRa, GPRS, 4G. Except for LoRa, other forms of wireless output can be connected to the cloud platform to realize the monitoring and management of smart terminal data. Among the wired outputs, the analog type is 16-position output, and the RS485 type is 16-position + 360-degree output.
The relative humidity of air is the ratio of the absolute humidity in the air to the saturated absolute humidity at the same temperature, and the result is a percentage. (That is, it refers to the percentage of the amount of water vapor in the air at a certain place to the saturated water vapor at that temperature within a certain period of time), expressed as RH. The rail-type temperature and humidity sensor uses imported digital temperature and humidity sensors, which have been finely calibrated during production, and the calibration data is stored in the internal memory. The relative humidity and temperature sensors have digital outputs and can be fully converted. They do not require complex verification and calibration processes. They are outstanding in terms of measurement accuracy, linearity, repeatability, conversion, consistency, etc. They are suitable for environmental equipment matching, instrument equipment integration, and general environmental testing.
The relative humidity of the air is the ratio of the absolute humidity in the air to the saturated absolute humidity at the same temperature, and the result is a percentage. (That is, the percentage of the amount of water vapor in the air at a certain place to the saturated water vapor at that temperature within a certain period of time), expressed as RH.
The air temperature and humidity sensor uses an imported digital temperature and humidity sensor, which has been finely calibrated during production, and the calibration data is stored in the internal memory. The relative humidity and temperature sensor has a digital output and can be fully converted. It does not require a complex verification and calibration process. It excels in measurement accuracy, linearity, repeatability, conversion, consistency, etc. It is suitable for environmental equipment matching, instrument equipment integration, and general environmental testing.
The relative humidity of the air is the ratio of the absolute humidity in the air to the saturated absolute humidity at the same temperature, and the result is a percentage. (That is, the percentage of the amount of water vapor in the air at a certain place to the saturated water vapor at that temperature within a certain period of time), expressed as RH.
The air temperature and humidity sensor uses an imported digital temperature and humidity sensor, which has been finely calibrated during production, and the calibration data is stored in the internal memory. The relative humidity and temperature sensor has a digital output and can be fully converted. It does not require a complex verification and calibration process. It excels in measurement accuracy, linearity, repeatability, conversion, consistency, etc. It is suitable for environmental equipment matching, instrument equipment integration, and general environmental testing.
The industrial noise transmitter is a high-precision sound metering instrument with a range of up to 30dB~130dB, which meets daily measurement needs and is widely used in various fields such as home, office, workshop, automobile measurement, industrial measurement, etc.
The equipment is made of stainless steel, so that the equipment can maintain its gloss after long-term use. The design of the shell thread is not only convenient for customers to install quickly on site, but also can be matched with the factory-provided bracket to solve many problems of direct on-site installation inconvenience, so that customers do not have to worry about installation problems, focus on their areas of expertise, and create value for customers more quickly.
The device can choose 485 output signal, the maximum communication distance is 2000 meters, standard modbus protocol, and support secondary development
The transmitter part of the leaf surface temperature sensor consists of a power module, a temperature sensor module, a transmitter module, a temperature compensation module and a data processing module, which completely solves the measurement error introduced by the platinum resistance due to its own characteristics. The transmitter has a zero drift circuit and a temperature compensation circuit, which has a high adaptability to the use environment. The leaf surface temperature sensor is widely used and can measure the temperature of a variety of powdered porous media and liquids. It has high accuracy. The stainless steel sheet has good stability and corrosion resistance, and can be made into a variety of shapes to meet the needs of different customers. It is an ideal choice for measuring temperature.
The XDB1003-3 series relay module from XIDIBEI SENSOR & CONTROL offers a versatile solution for relay control in industrial environments. It features two-way relay control and supports multiple input modes, including non-locking, self-locking, and interlocking linkage modes. With support for RS485 or RS232 communication interfaces and a configurable baud rate, the module is highly adaptable. It offers reliable performance with a wide voltage range (DC7-30V), optocoupler inputs, and relay outputs, making it ideal for various automation tasks. This module is designed for durability, with a rated voltage of up to 250VAC and a temperature range from -40℃ to 85℃.
The XDB1003-4 series from XIDIBEI SENSOR & CONTROL is a versatile relay module designed for industrial automation and control applications. It features two-way relay control, four-way switch input, and supports both RS485 and RS232 communication interfaces. The module offers multiple control modes including non-locking, self-locking, and interlocking linkage modes. It supports a wide operating voltage range of DC7-30V and has a durable design capable of handling up to 10A at 250VAC. With compatibility for Modbus RTU protocol and a configurable baud rate, the XDB1003-4 series is suitable for various automation tasks, offering reliable performance in extreme temperatures ranging from -40℃ to 85℃.
This sensor is widely used in air quality monitoring equipment, fresh air exchange systems, smart homes, and other occasions that require CO and temperature and humidity monitoring. The input power supply, sensing probe, and signal output of the sensor are completely isolated. Safe and reliable, aesthetically pleasing, and easy to install. Sensors use more advanced and expensive electrochemical probes, which have higher accuracy and stability compared to traditional semiconductor probes.
The ammonia sensor uses a professional ammonia concentration sensor probe as the core detection part; it has the characteristics of wide measurement range, high accuracy, good linearity, good versatility, easy use, easy installation, long transmission distance and moderate price.
The carbon dioxide sensor uses the non-dispersive infrared (NDIR) principle carbon dioxide sensor, which has been finely calibrated during production, and the calibration data is stored in the internal memory. The sensor has digital output and is fully convertible, and does not require a complex verification and calibration process. It is outstanding in terms of measurement accuracy, linearity, repeatability, convertibility, consistency, etc. It is designed with a temperature compensation circuit and can be used at different ambient temperatures. It is suitable for various fields that require the measurement of carbon dioxide concentration.
The light intensity sensor is a practical product with a variety of light measurement ranges and signal output types, which uses a highly sensitive photosensitive detector and a high-precision linear amplifier circuit. It has been rigorously tested and accurately produced. The sensor housing adopts a wall-mounted or outdoor radiation shield design. It has a delicate structure and beautiful appearance. It is a light intensity measurement product with a wide range of applications and extremely high cost performance.
This sensor is widely used in air quality monitoring equipment, fresh air exchange systems, smart homes, and other occasions that require CO and temperature and humidity monitoring. The input power supply, sensing probe, and signal output of the sensor are completely isolated. Safe and reliable, aesthetically pleasing, and easy to install. Sensors use more advanced and expensive electrochemical probes, which have higher accuracy and stability compared to traditional semiconductor probes.
