Overview of Reliable Long-wave Infrared Temperature Sensor for Industrial Use

Reliable Long-wave Infrared Temperature Sensor for Industrial Use is used to monitor the temperature during industrial production processes, which are crucial for equipment operation, product quality, and production safety. There are various types, such as thermal resistance thermometers, thermocouple thermometers, infrared thermometers, optical thermometers, etc., each with its advantages, disadvantages, and applicable ranges, which need to be selected according to specific usage environments and measurement requirements. Regularly inspect and calibrate to ensure accuracy and reliability, providing reliable temperature measurement data for industrial production. Choosing and using industrial thermometers correctly can ensure the smooth progress of the industrial output.

Characteristics of Reliable Long-wave Infrared Temperature Sensor for Industrial Use

High precision measurement: It usually has a high-precision temperature measurement function, which can accurately measure and display temperature values. This is thanks to the use of precision temperature sensors and measurement circuits.

Wide temperature range: able to adapt to a wide range of temperatures and measure and control industrial processes from extremely low to high temperatures. Different models of temperature controllers may have different temperature ranges, and users can choose the appropriate model according to their specific needs.

Multiple control modes: Usually supports multiple control modes, such as proportional control, PID control, fuzzy control, etc. These control modes can be selected and adjusted according to actual needs to achieve precise temperature control and stability.

Multiple output modes: With multiple output modes for communication and control with other devices or systems. Common output methods include analog output (such as current or voltage signals), digital output (such as RS485 communication interface), and relay output.

Large screen display: Provided with a large screen display, it can clearly display the current temperature, set temperature, and other related information. This allows users to visually monitor temperature changes and device status, making it convenient to operate and adjust parameters.

Strong anti-interference ability: There are often various sources of interference in industrial environments, such as electromagnetic interference, vibration, and temperature fluctuations. Industrial thermometers usually have strong anti-interference ability, and anti-interference design and filtering algorithms are adopted to reduce the impact of interference on temperature measurement and control.

Programmable function: With programmable function, users can customize settings and operations according to their needs. Users can set temperature curves, time control, and alarm functions through the programming interface to meet the needs of complex industrial processes.

Security protection function: usually has multiple security protection functions to ensure the safety of equipment and processes. For example, it can have functions such as over temperature protection, power outage memory, and fault alarm to prevent timely measures from being taken in case of temperature exceeding the safe range or equipment failure.

Easy installation: Industrial thermometers can be installed in various ways, such as axial, radial, and universal, making it convenient for users to use.

Good durability and reliability: Industrial thermometers are usually made of high-quality materials and processes, which have good durability and reliability and can work stably for a long time.”

Specification of Reliable Long-wave Infrared Temperature Sensor for Industrial Use

Here’s the specification content for the Reliable Long-wave Infrared Temperature Level Sensing Unit for Industrial Use:

This commercial long-wave infrared temperature sensing unit measures temperature levels accurately. It uses the 8 to 14 µm wavelength array. This range benefits numerous industrial materials. It sees the heat objects emit. The sensor does not require to touch the object. It gauges temperature levels from -20 ° C to 600 ° C. Some versions measure higher temperatures. The accuracy is normally ± 1% of the analysis. It may be ± 1.5 ° C. This depends upon the design. The optical resolution is essential. Typical ratios are 20:1 or 30:1. This informs you the target size required at a range. A 30:1 ratio is better for smaller sized targets far.

The sensing unit reacts quick. Normal response time is 150 nanoseconds. It can be 100 ms in some variations. This rate is crucial for rapid procedures. It outputs the temperature level signal. Requirement outputs are 4-20mA analog. Some models provide digital outcomes. RS485 Modbus is common. Others include USB. The sensing unit needs a power supply. Typical voltages are 12-24 VDC. It is constructed hard for manufacturing facilities. The housing is typically stainless steel. It has an IP67 ranking. This safeguards against dust and water jets. The sensor handles vibration well. It operates in warm areas. The operating temperature range is frequently -10 ° C to 70 ° C. It requires little maintenance. The lens stays clean much longer. The emissivity setting is flexible. This makes certain proper readings for different surfaces. The focus is dealt with or flexible. Repaired emphasis is less complex. Adjustable focus uses extra versatility. Mounting is very easy. Options include threaded barrels or flanges. It attaches to regulate systems quickly. Calibration is steady with time.

Applications of Reliable Long-wave Infrared Temperature Sensor for Industrial Use

Industrial setups require trustworthy temperature level tracking. Long-wave infrared sensing units provide this dependability. They measure heat without touching anything. You aim them at tools from a secure distance. They provide exact analyses quick. This is essential for lots of industrial jobs.

Watch electric motors, bearings, and gearboxes easily. These parts fume before falling short. The sensor places these locations early. You fix problems prior to machines break down. This saves money on repairs. It additionally stays clear of pricey production stops. Keeping things running smoothly issues.

In production, product temperature is typically vital. Assume steel handling or plastic molding. The sensing unit checks the temperature continuously. It guarantees products are warmed or cooled down correctly. Regular quality depends on this. You prevent making poor items. Scrap and waste go down.

Electrical systems profit as well. Overloaded circuits and loose links obtain precariously hot. The sensor discovers these hazards swiftly. You protect against fires and electric damage. Workers stay more secure. Inspecting panels is quicker and simpler. You don’t require to open enclosures.

High-temperature processes like heating systems require constant viewing. The sensor manages this severe warmth easily. It offers real-time temperature level information. Operators control the procedure specifically. Power efficiency improves. Item quality stays high. Maintenance crews recognize when heating system cellular linings wear. They intend repair work better.

Harsh manufacturing facility environments are tough. Dirt, steam, and vibration are common. These sensing units are developed to last here. They keep working precisely. You obtain reliable information day after day. Installment is typically simple. Assimilation with control systems is easy.

Company Profile

PDDN Photoelectron Technology Co., Ltd. is one of the leading enterprises in power electronics technology and power products, which is fully involved in developing solar inverters， transformers, voltage regulators, distribution cabinets, thyristors， modules， diodes， heaters, and other electronic devices or semiconductors. We will be committed to providing users with high-quality, efficient products and considerate service.

It accepts payment via Credit Card, T/T, West Union, and Paypal. PDDN will ship the goods to customers overseas through FedEx, DHL, by sea, or by air. If you want high-quality Reliable Long-wave Infrared Temperature Sensor for Industrial Use, please send us inquiries; we will be here to help you.

Payment Methods

L/C, T/T, Western Union, Paypal, Credit Card etc.

Shipment

By sea, by air, by express, as customers request.

Storage Conditions

1) Store in a dry environment at room temperature.

2) Avoid damp and high temperature.

3) Use immediately after opening the inner packing bag.

5 FAQs of Reliable Long-wave Infrared Temperature Sensor for Industrial Use

Reliable Long-wave Infrared Temperature Sensor for Industrial Use: Top 5 Questions Answered

1. How accurate is this sensor?
This sensor gives very good accuracy. It typically measures within ±1°C or ±1% of the actual temperature. This depends on the target object. The sensor works best when correctly aimed at the surface. Good setup matters a lot for best results.

2. Where should I install the sensor?
Mount the sensor pointing straight at the surface you need to measure. Keep the right distance. Check the sensor’s specifications for its field of view. Make sure nothing blocks the sensor’s view. Dust, steam, or dirty windows can mess up the reading. Pick a stable spot with low vibration.

3. What can cause wrong readings?
Several things can cause problems. Dirty air full of dust or smoke blocks the infrared signal. Steam or other gases also interfere. Very hot things near the target object can confuse the sensor. Sudden changes in the air temperature around the sensor affect it too. Dirty lenses give bad readings. Avoid these situations for reliable data.

4. Is this sensor tough enough for my factory?
Yes, this sensor is built for tough places. It handles dust, moisture, and vibration common in factories. It usually has a strong metal case. The protection rating is often IP65 or higher. This means it resists dust and water jets. It works in hot or cold areas within its operating range.

5. How often does it need checking?
You should check the sensor’s calibration regularly. How often depends on how critical your process is and your factory conditions. A good plan is checking it every six months or once a year. Compare it to a known accurate thermometer. This keeps your measurements trustworthy.