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Reliable Tire Pressure Sensor Supplier for car/bus - High-Quality TPMS System Sensors and Kits
By:Admin
When it comes to road safety, every component of a vehicle plays a crucial role. Among the crucial components, the tire pressure sensor has become an essential device that every car and bus owner should have. This device lets the driver know the real-time tire pressure, which can prevent accidents that may happen when tire pressure is too low or high.
If you're looking for a reliable tire pressure sensor supplier, Wellgain Auto Technology Co., Ltd. should be on top of your list. They're a specialist in producing high-quality TPMS (Tire Pressure Monitoring System) accessories for passenger cars and trucks.
Why Choose Wellgain Auto Technology Co., Ltd. as Your Tire Pressure Sensor Supplier?
1. Comprehensive product offerings
Wellgain Auto Technology Co., Ltd's product line includes TPMS for passenger cars, trucks, and buses. They have a wide selection of Internal and External Transmitter tire pressure sensors that are compatible with various tire sizes. They offer precise readings and help car owners maintain proper tire inflation.
2. Excellent manufacturing capabilities
Wellgain Auto Technology Co., Ltd. has a factory with modern production equipment and facilities. They have gained several international certifications, including ISO9001: 2008, CE, RoHS, and FCC, demonstrating that their manufacturing capabilities meet global standards. With their advanced production technology, they can manufacture high-quality tire pressure sensor products in large quantities.
3. Dedicated R&D team
Wellgain Auto Technology Co., Ltd. has a dedicated R&D team that's responsible for continuously updating their product line to provide better products to customers. They consistently research and develop new tire pressure sensor products that cater to various customer needs. As a result, the company has become a leading tire pressure sensor supplier in China.
4. High-quality products and services
Wellgain Auto Technology Co., Ltd. follows strict quality control measures in their production process, starting from raw material sourcing to product delivery. They have a team of experts that ensures each product undergoes thorough inspection before shipping. Additionally, the company provides excellent customer service and support to assist clients with any issues they may encounter.
Final thoughts
When it comes to reliable and accurate tire pressure sensors, Wellgain Auto Technology Co., Ltd. is a top-tier mechanic solution provider. They're committed to delivering high-quality products and services to their customers, making them an excellent tire pressure sensor supplier. If you're a car owner or run a transportation business, engage this firm for your tire pressure sensor needs.
Keywords: Tire Pressure Sensor, TPMS, Wellgain Auto Technology Co., Ltd., Passenger Car, Truck, Bus, Internal Transmitter, External Transmitter, Pressure Sensor Manufacturers, Pressure Transmitter Sensor, TPMS kit sensor, china.
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Guide to the Water in Fuel Sensor: How It Works and Its Significance
, Water Detection Sensor, Fuel Water Separator and Fuel Filter Sensor.Water is critical for most living organisms. However, when it comes to fuel-powered machines, water is the last thing required. Fuel and water don't mix as water can damage the machine's engine and reduce its efficiency. The Water in Fuel Sensor (WiF sensor) is a valuable tool for determining the presence of water in fuel.The WiF sensor is usually located in the fuel filter. Its primary function is to detect the presence of water in the system. It's connected to the electronic control unit (ECU) or the dashboard lamp via an electrical signal. With advances in technology, WiF sensors have become more accurate and precise, ensuring that the warning signal is triggered only when the water level reaches the warning level.Wastewater Level SensorWaste management plants are responsible for the treatment and disposal of wastewater. These plants contain a range of equipment that requires monitoring to ensure the efficient running of the plant. One such sensor is the wastewater level sensor.The wastewater level sensor is used to determine the level of wastewater in a given tank or basin. The sensor measures the level of the wastewater and relays the information to the system's control unit. The data obtained is useful in determining the rate at which wastewater is produced, allowing for better resource allocation and planning.Water Detection SensorWater detection sensors are becoming increasingly common in homes and commercial buildings. These sensors are designed to detect the presence of water in specific areas to prevent property damage and reduce the risk of electrocution. In commercial settings, water detection sensors are commonly installed in basements, server rooms, and data centers.Water detection sensors work by detecting the presence of water and creating an alarm to notify the user of its presence. Some sensors also come with wireless connectivity, allowing users to receive notifications on their smartphones in real-time. Since water detection sensors are easy to install and relatively inexpensive, they're an excellent investment to protect your property from water damage.Fuel Water SeparatorWater contamination in fuel can cause a range of problems, including engine damage and reduced efficiency. The fuel water separator acts as a filter that separates water from fuel before it reaches the engine. The separator traps the water and lets the fuel pass through, ensuring that the engine only receives clean fuel.Fuel Filter SensorThe fuel filter sensor alerts the operator when the fuel filter is clogged and needs changing. Clogged fuel filters can cause a range of problems, including reduced engine performance and engine shutdown. The fuel filter sensor monitors the rate of fuel flow and sends an alert to the operator when it detects a reduction in flow. Replacing a dirty fuel filter in a timely manner can prevent engine damage and reduce maintenance costs.ConclusionWater detection sensors, wastewater level sensors, fuel water separators, and fuel filter sensors are essential tools for protecting your machinery and property from water damage. The Water in Fuel Sensor or WiF Sensor is a crucial component that ensures the quality, efficiency and longevity of your fuel-powered machines. Investing in high-quality sensors will save you money in the long run, reducing the risk of costly repairs and maintenance.
How Sensors Monitor Our Bodies and the World Around Us
In recent years, sensors have become an increasingly popular way to monitor our bodies and the world around us. From fitness trackers to smart home devices, these small but powerful devices are changing the way we interact with technology and each other.One of the main benefits of sensors is their ability to collect data in real-time. By measuring everything from heart rate and blood pressure to temperature and humidity, sensors provide us with a wealth of information about our bodies and the environment we live in. This data can then be used to improve our health, increase our productivity, and even save lives.Of course, sensors are not a new technology. They have been used in a variety of applications for decades, from automotive and aerospace engineering to agriculture and manufacturing. However, it is only in recent years that sensors have become more accessible and affordable for everyday consumers.One of the most popular uses of sensors is in fitness trackers. These devices are designed to monitor our physical activity and provide us with feedback on how we can improve our fitness levels. They typically include a range of sensors, including accelerometers, gyroscopes, and heart rate monitors, that work together to provide accurate and detailed data on our movements, heart rate, and calorie burn.Another use of sensors is in smart home devices. These devices use sensors to detect movement, temperature, and humidity, allowing them to adjust their settings automatically to suit our preferences and save energy. For example, a smart thermostat can use sensors to detect when we are home or away and adjust the temperature accordingly, while a smart light bulb can use sensors to detect when we enter and leave a room and turn the lights on and off accordingly.But sensors are not just useful for consumer applications. They also have a wide range of applications in industry, healthcare, and environmental monitoring. For example, sensors can be used to monitor machinery in factories and detect when parts are wearing out, allowing for preventative maintenance and reducing downtime. In healthcare, sensors can be used to detect early warning signs of illness and alert medical professionals, allowing for earlier intervention and better outcomes. And in environmental monitoring, sensors can be used to detect air and water pollution levels, allowing for better management of resources and protection of public health.As sensors continue to become more sophisticated and affordable, their applications will only continue to expand. From self-driving cars to smart cities and beyond, sensors have the potential to revolutionize the way we live, work, and interact with the world around us. The only question now is how we will choose to use this technology to our advantage.
How to Connect a Pressure Sensor to Measure Water Tank Level for Your Boat
: A Must-Have for Accurate Monitoring of Water Levels on BoatsBoating enthusiasts understand the importance of having a reliable and accurate water tank level monitoring system. Many boats are equipped with sensors that measure the levels in the tanks, but they are often prone to inaccuracies due to a variety of factors. To ensure that you have a precise reading of your boat's water tank levels, a water tank pressure sensor is a must-have.A water tank pressure sensor is a transducer that converts the pressure exerted by the water in the tank into an electrical signal that can be interpreted by a monitoring system. Unlike traditional capacitive sensors that are affected by temperature and atmospheric pressure, a pressure sensor provides more accurate readings since it relies on the water pressure in the tank.Installing a water tank pressure sensor is a relatively straightforward process. It involves mounting the sensor on the water tank and routing the wires to the monitoring system. In most cases, the sensor can be installed without the need for drilling or major modifications to the boat's plumbing system.One of the benefits of using a water tank pressure sensor is that it enables you to monitor the water levels in real-time. With a reliable monitoring system in place, you can avoid the inconvenience of running out of water when you need it the most. Additionally, it helps you to optimize your water usage by giving you an accurate reading of the amount of water remaining in the tank.There are several factors to consider when choosing a water tank pressure sensor. First, you need to ensure that the sensor is compatible with your monitoring system. Some sensors are designed to work with specific brands of monitoring systems, so it's important to check the compatibility before making a purchase.Second, you need to consider the accuracy of the sensor. A good quality sensor should provide readings with a high level of accuracy, even under varying conditions. The sensor should be able to compensate for changes in temperature and pressure, which can affect the water pressure in the tank.Third, you need to consider the durability of the sensor. Since the sensor will be exposed to moisture and other environmental factors, it needs to be made from materials that are resistant to corrosion and wear. A stainless steel or brass sensor is a good choice since they are both durable and resistant to corrosion.In conclusion, a water tank pressure sensor is an essential component of any boat's water tank level monitoring system. It provides accurate and real-time readings of the water levels, enabling you to optimize your water usage and avoid running out of water unexpectedly. When choosing a water tank pressure sensor, consider factors such as compatibility, accuracy, and durability to ensure that you get the best quality sensor for your needs.
How to Choose a High-Quality Sound Level Meter
Sound Level Meter: A Must-Have Tool for Environmentalists and Safety ProfessionalsThe importance of measuring and monitoring sound levels cannot be overstated, especially in today's world where noise pollution is prevalent and detrimental to health. To do a proper job, one needs a well-engineered sound level meter that is accurate, reliable, and easy to use. This is where the role of {removed brand name} comes in - a company that has been at the forefront of sound measurement technology for over 50 years.{Removed brand name} sound level meters are widely used by environmentalists, acoustic engineers, occupational safety professionals, and anyone who wants to measure noise levels to protect the health and well-being of individuals, communities, and wildlife. These meters are designed to measure the sound pressure level in decibels (dB) in various applications such as construction sites, factories, airports, sporting events, and even in people's homes.The company's sound level meters are equipped with advanced features such as frequency analysis, data logging, and real-time measurements that help to analyze and record sound levels over time. Additionally, they are built to withstand harsh environments and are highly durable, ensuring longevity and reliability.One of the primary applications of sound level meters is environmental noise monitoring, where they are used to measure noise levels in areas close to major roads, airports, and industrial complexes. By using {removed brand name}'s sound level meters, environmentalists can determine if these noise levels are hazardous to human health - a crucial factor when considering the impacts of noise pollution. The data collected is used to develop effective noise control strategies that help reduce the occurrence of noise-induced hearing loss (NIHL) and other health risks.Another application of these sound level meters is in occupational safety monitoring, where noise-induced hearing loss is also a major concern. For instance, construction workers, airport workers, and manufacturing employees are all potentially exposed to high levels of noise that can cause permanent hearing loss and other debilitating health problems. By using these meters, occupational safety professionals can determine the noise exposure level and recommend appropriate hearing protection measures as needed.{Removed brand name} sound level meters are also useful in indoor environments, where excessive noise can disrupt productivity and cause annoyance or discomfort. This tool can measure sound levels in offices and homes to identify sources of noise and develop strategies for controlling them. This can involve modifying the design of buildings, installing sound-absorbing materials, or using quieter equipment.In conclusion, sound level meters are a vital tool for environmentalists and safety professionals in their efforts to reduce noise pollution and safeguard human health. The {removed brand name} sound level meter, with its advanced features and durability, is an excellent choice for anyone needing a highly accurate and reliable device for measuring sound levels. The company's commitment to innovation and quality ensures that their products are always at the forefront of sound measurement technology.
Catastrophic Accident at US Nuclear Power Plant Caused by Faulty Level Sensors
and Safety Measures for Nuclear Power Plants. Nuclear power plants are known for their reliable, clean, and safe generation of electricity. However, they are also notorious for their potential to cause accidents that can result in severe radiation exposure and contamination. One such incident took place on 28th March 1979, at the Three Mile Island nuclear power plant in the USA. The accident, which occurred in the # 2 reactor, resulted in the destruction of the TMI-2 reactor.The cause of the accident was a malfunction in the secondary cooling circuit, which allowed the temperature in the primary coolant to rise. This triggered an automatic shutdown of the reactor. However, the situation worsened when the level controls turned off the coolant to the reactor when they detected the presence of cooling water near the top of the tank. This was not because the tank was full; rather, it was because the water level in the tank was too low, causing it to boil and swell up to the top of the tank.To prevent accidents like these from happening, nuclear power plants use various safety measures, one of which is radar level sensors. These sensors are designed to continuously monitor the level of liquid in tanks and vessels, enabling real-time monitoring of fluid dynamics. They are ideal for nuclear power plants, where the accurate and reliable monitoring of fluid levels is essential for the safe operation of the plant.Radar level sensors work by sending electromagnetic waves into the tank, which reflect off the surface of the liquid and return to the sensor. By measuring the time it takes for the waves to return, the sensor can determine the exact level of the liquid in the tank. This information is then transmitted to a control system, which can automatically adjust the supply of coolant to the reactor to ensure that it remains within safe levels.In addition to radar level sensors, there are other safety measures that nuclear power plants use to prevent accidents. For example, they have redundant systems that can take over if one system fails. They also have safety protocols in place that can trigger an immediate shutdown in the event of an anomaly. Regular inspections and maintenance are also conducted to ensure that all systems are functioning correctly.In conclusion, the Three Mile Island accident, which occurred in 1979, was a sobering reminder of the potential dangers associated with nuclear power plants. Since then, significant improvements in safety measures, such as the use of radar level sensors, have made these plants much safer. However, as with any complex technology, it is essential to remain vigilant and continue to implement safety measures to prevent accidents from occurring in the future.
How to Monitor Water Levels: A DIY Guide for Rural Living
Water shortage is a major concern in many parts of the world. Having a steady and reliable source of water is essential for daily life, agriculture, and industry. On a farm with a borehole, the water is stored in a large tank. However, if the borehole pump fails, the water supply will be cut off, and it could take some time to fix the problem. Therefore, it's important to have a warning system in place that can detect the water level in the tank and alert the owner when it's getting low. One effective solution is to use an ultrasonic water level sensor.An ultrasonic water level sensor is a device that uses sound waves to measure the distance between the sensor and the water surface. The sensor emits a high-frequency sound wave that travels through the air and reflects off the surface of the water. The sensor then measures the time it takes for the sound wave to return to the sensor and calculates the distance between the sensor and the water surface. This information can be used to determine the water level in the tank and provide an accurate reading.There are several advantages to using an ultrasonic water level sensor. First, it's a non-contact measurement method, which means that there are no sensors or probes that need to be installed in the tank. This makes installation and maintenance much easier and reduces the risk of damage to the tank or the sensor. Second, ultrasonic sensors are very accurate and can measure the water level to within a few millimeters. Third, ultrasonic sensors are very reliable and can operate in a wide range of temperatures and weather conditions.To install an ultrasonic water level sensor, you will need to mount the sensor above the water tank and connect it to a microcontroller or a smart home platform like SmartThings. The sensor can be powered by a battery or a low-voltage power supply. Once the sensor is connected, you can set up alerts to notify you when the water level is getting low. These alerts can be sent via email, text message, or push notification, depending on your preferences.In conclusion, an ultrasonic water level sensor is an effective and reliable way to monitor the water level in a tank. It's easy to install, accurate, and can provide early warning of potential water shortages. By using an ultrasonic water level sensor, you can ensure that your farm or home has a steady and reliable water supply, even in the event of a pump failure.
Top Chinese Manufacturer with 20 Years of Experience in Silicon Pressure Sensors
: Benefits and ApplicationsPressure sensors are essential components in many industrial applications, as they help monitor and regulate pressure in a variety of environments. When it comes to silicon pressure sensors, they are among the most commonly used because of their high accuracy, low power consumption, and compact size. Silicon pressure sensors are designed to detect changes in pressure and provide an electrical output, making them ideal for use in a wide range of industries, including automotive, medical, aerospace, and manufacturing. In this article, we will explore the benefits and applications of silicon pressure sensors.Benefits of Silicon Pressure SensorsAccuracyOne of the primary benefits of silicon pressure sensors is their high accuracy. They can provide precise readings of pressure changes, making them ideal for critical applications such as aerospace and medical industries, where precision and accuracy are paramount.Compact SizeSilicon pressure sensors are also highly compact, making them easy to install in tight spaces. They are typically small enough to fit within electronic devices, which is why they are commonly used in medical devices and other portable equipment.Low Power ConsumptionSilicon pressure sensors require minimal power to function. This makes them ideal for battery-operated devices, such as wireless sensors and portable equipment, where energy conservation is important.DurabilitySilicon pressure sensors are highly durable and can withstand harsh environments. They can function in high temperatures, rugged locations, and corrosive environments without losing their accuracy. This makes them ideal for use in the automotive industry or other areas where sensors are exposed to harsh conditions.Applications of Silicon Pressure SensorsAerospace IndustrySilicon pressure sensors are widely used in the aerospace industry to monitor pressure changes in critical systems, such as fuel injection, hydraulic systems, and pneumatic systems. These sensors play a vital role in ensuring the safety and reliability of aerospace equipment.Automotive IndustrySilicon pressure sensors are used in the automotive industry to monitor fuel pressure, oil pressure, and transmission pressure. These sensors provide essential data to control engine performance, improve fuel economy, and enhance driver safety on the road.Medical IndustrySilicon pressure sensors are widely used in medical devices to monitor vital signs such as blood pressure, heart rate, and respiratory rate. Medical devices such as blood pressure monitors, ventilators, and infusion pumps use silicon pressure sensors to provide accurate and reliable data.Manufacturing IndustrySilicon pressure sensors are used in the manufacturing industry to monitor pressure changes in various processes, including chemical processing and water treatment. These sensors help control the flow of materials in manufacturing processes and maintain optimal conditions for production.ConclusionSilicon pressure sensors are versatile and durable sensors that have a wide range of applications across various industries. They provide high accuracy, low power consumption, and are compact, making them ideal for use in numerous portable devices. As technology continues to evolve, the applications of silicon pressure sensors are expected to grow, making them a critical component of modern industries.
Compact Single-Range Transmitters for Pressure Measurement
: The Key to Accurate Pressure MeasurementPressure measurement is a crucial aspect in many industries ranging from oil and gas production, process control, pharmaceutical manufacturing, to food processing. Accurate measurement ensures efficient production, reduced downtime, and enhanced safety. This is where pressure transmitters come into play.Among the available pressure transmitters in the market, the compact pressure transmitter stands out for its versatility and efficiency. The compact pressure transmitter is designed to provide the highest level of measurement accuracy, reliability, and ease of use over a wide range of applications. In this article, we will explore the concept of compact pressure transmitters and why they are crucial in pressure measurement.What is a Compact Pressure Transmitter?A compact pressure transmitter, as the name suggests, is a measuring instrument with a small and lightweight size that can easily fit into tight spaces. It consists of a pressure sensor that converts the pressure signal into an electrical signal, which is then transmitted to control systems for further processing.Compact pressure transmitters work based on the principle of piezoresistive measurements in conjunction with a Wheatstone bridge. When pressure is applied, the silicon piezoresistive sensor deforms, causing a change in the resistance of the strain gauge. The change in resistance is proportional to the applied pressure and is converted into an electrical signal that can be measured and interpreted.Features of Compact Pressure TransmittersCompact pressure transmitters come in different variants, with varying features depending on the intended application. However, some standard features exist across all models.1. High Accuracy: Compact pressure transmitters offer high accuracy and stability in pressure measurement. They have a precision of up to 0.1% of the full-scale range, reducing measurement errors and enhancing production efficiency.2. Versatility: The compact size of the transmitters makes them ideal for use in tight spaces where larger units cannot fit. They can also be used in different and harsh conditions since they are designed to be durable and withstand various environmental factors.3. Ease of Installation: Installing compact pressure transmitters is easy, thanks to their lightweight and small size. They can be installed using different methods such as threaded connections, flanges, and clamps, depending on the application.4. Digital Communication: Many compact pressure transmitters come with digital communication capabilities, such as HART, Foundation Fieldbus, and Profibus. This feature allows for remote configuration, calibration, and monitoring of the measuring devices.5. Low Power Consumption: Compact pressure transmitters consume low power compared to larger models, reducing energy costs and enabling production facilities to run more efficiently.Why Choose Compact Pressure Transmitters?Compact pressure transmitters are increasingly becoming the preferred choice for various applications. Here's why:1. Efficiency: Compact pressure transmitters offer high accuracy while taking up less space. They are also efficient in energy consumption, reducing production costs.2. Durability: These transmitters are designed to withstand extreme environmental factors and survive harsh conditions.3. Cost-Effective: Compact pressure transmitters are relatively cheaper than other measuring instruments, making them accessible to many industries for pressure measurement applications.4. Reduced Downtime: The high accuracy and stability of compact pressure transmitters reduce the likelihood of measurement errors and failures, preventing downtime and production losses.ConclusionCompact pressure transmitters play a crucial role in pressure measurement, offering high accuracy, efficiency, and versatility in a small and durable package. They are cost-effective, easy to install, and consume low power, making them the ideal choice for various industrial applications. Whether in oil and gas production, food processing, or pharmaceutical manufacturing, compact pressure transmitters are the key to accurate and reliable pressure measurement.
Smart Differential and Pressure Transmitters for High Performance and Reliability
Azbil Corporation Introduces the AT9000 Advanced Transmitter Model GTX: A High-Performance, Reliable Smart Pressure TransmitterAzbil Corporation, formerly Yamatake Corporation, has recently announced the launch of its new smart differential pressure and pressure transmitter – the AT9000 Advanced Transmitter Model GTX. Designed with microprocessors, the transmitter offers high performance and reliability, and transmits 420 mA DC analog or digital signals in proportion to the measured pressure.The AT9000 Advanced Transmitter Model GTX is an innovative transmitter that offers excellent features, including two-way communication between the transmitter and a CommStaffTM or HART(R) communicator. This allows for operations such as self-diagnosis, range resetting, and zero adjustment, to be easily performed. The smart differential pressure and pressure transmitter is equipped with a range of advanced features that make it ideal for a wide variety of applications.The AT9000 Advanced Transmitter Model GTX is a reliable and accurate transmitter that provides precise pressure readings. Its microprocessor ensures high accuracy and reliability, and it transmits the data in a quick and efficient manner. Its 420 mA DC analog or digital signals are proportional to the measured pressure and provide real-time data that can be used to make important decisions.One of the key features of the AT9000 Advanced Transmitter Model GTX is its versatility. It is suitable for use in a wide range of industrial applications, including the oil and gas industry, chemical processing, water treatment plants, pulp and paper processing, and many more. The transmitter can be used to measure differential pressure, gauge pressure, and absolute pressure, making it a versatile tool that can be used in a range of different applications.Another feature of the AT9000 Advanced Transmitter Model GTX is its user-friendly interface. Its two-way communication capability allows for easy operation and the transmitter can be used with a variety of communication protocols. This means that it can be used with a variety of communication devices, making it highly adaptable and suitable for use in a range of different environments.In addition to its high-performance features, the AT9000 Advanced Transmitter Model GTX is also designed with safety in mind. It is built to be highly durable and is suitable for use in hazardous areas. Its rugged design makes it resistant to harsh environments, and it is designed to withstand extreme temperatures, high humidity, and other challenging conditions.In summary, the AT9000 Advanced Transmitter Model GTX is a high-performance, reliable, and user-friendly smart differential pressure and pressure transmitter that offers a range of advanced features. Its microprocessor-driven technology ensures high accuracy and reliability, and its two-way communication capabilities make it easy to use with a variety of communication devices. It is highly versatile and suitable for use in a wide range of industrial applications, making it an excellent choice for any business looking to invest in a reliable and effective pressure transmitter.
Differential Pressure Transmitters for Measuring Pressure in Industrial Processes
Differential Pressure Transmitter: An Essential Tool in Measuring PressurePressure measuring is a crucial aspect in various manufacturing processes and other highly technical systems. It is important to ensure that the pressure levels are within the acceptable limits to ensure safety, productivity, and efficiency. This is where a pressure transmitter comes in to play; it measures and monitor pressure levels at all times. In case of high-pressure levels, the process has to be stopped immediately to avoid industrial tragedies.One of the widely used types of pressure transmitters is the low-pressure differential transmitter. It is mainly used to measure non-aggressive gases and compressed air in a compact version. Its applications are found in filter controls and air conditioning technology, and it is widely used in machine and plant engineering. The low-pressure differential transmitter is built with a piezoresistive silicon sensor and a compact and robust aluminum housing. It can measure differential pressures ranging from 06 mbar up to 0.1000 mbar. Its accuracy level is higher than other transmitters, and it remains a very efficient tool for measuring low-pressure levels.Another type of pressure transmitter is the industrial differential transmitter. It can measure pressure in the range of 0.04 bar through to 16 bar, and it is commonly used for measuring liquids, vapors, and gases. The output is 4-20mA or 0-10V, and it is either made of silicon or stainless steel, which is also piezoresistive. The transmitter’s accuracy level attained is