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    TURBIDITY SENSOR RANGE 0-300 NTU

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    COMMUNICATION PROTOCOL

    Hardware and software standards that govern data transmission between computers. The term "protocol" is very generic and is used for hundreds of different communications methods. A protocol may define the packet structure of the data transmitted or the control commands that manage the session, or both View
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    CARBON MONOXIDE CONTROL PANEL

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    DUCT CARBON DIOXIDE TRANSMITTER EMS KT-241

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    SENSORS VIETNAM- PROVIDE SERVICES MONITORING WIN TURBINE

    The complete condition monitoring solution for wind turbines by Sensors Vietnam – with extensive industry experience: The specialists at Gantner Instruments offer a tried and tested monitoring concept specifically tailored to wind turbines. Our unique solution was originally developed many years ago in close cooperation with wind turbine manufacturers, operators and service departments. View
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    CATELOGY SOLENOID VALVE

    Solenoid valves control the flow of fluids, air, gases and other media in many types of systems and products. Each valve is in turn controlled by an electric current that passes through the solenoid. These electromechanically operated valves come in a broad range of configurations and materials suitable for countless applications. View
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    SENSORS VIETNAM -DISTRIBUTION SOLENOID VALVE

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    SENSORS VIETNAM- DISTRIBUTION COLOR SENSORS OF ASTECH- GERMANY

    CROMLAVIEW color sensors are based on the three-range procedure and they process colors according to human perception. Color-sensitive filters, which emulate the tristimulus function of the human eye, facilitate the correct recognition of color values. In terms of color information, opaque solid objects can be evaluated in the epi-illumination method, transparent liquids in the transmitted light method and self-luminous objects… View
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    SENSORS VIETNAM- SYNCHRONIZATION GENERATOR SERVICES

    In an alternating current electric power system, synchronization is the process of matching the speed and frequency of a generator or other source to a running network. An AC generator cannot deliver power to an electrical grid unless it is running at the same frequency as the network. If two segments of a grid are disconnected, they cannot exchange AC… View

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Infrared (IR) temperature sensors emit an infrared energy beam focused by a lens onto a surface to detect the surface or object temperature. The reflected beam is received back in the sensor which converts the energy to an electrical signal that can be displayed in units of temperature.

Non-contact infrared temperature sensors (also known as pyrometers) are capable of measuring surface temperature with a much faster response time than thermocouples, and with similar or better accuracy.

When should you use an infrared temperature sensor?
Sometimes a non-contact sensor is preferred instead of a contact thermocouple. Situations include:

The target is moving. Rolling or rubbing thermocouples wear out, but infrared pyrometers do not.
You need a fast response time. Contact probes take time to heat up, but infrared temperature sensors provide a reading within a fraction of a second.
The target has a high voltage. Non-contact sensors can be positioned a safe distance away from conductors to avoid electrical arcing.
The target is vibrating. The pyrometer can be mounted elsewhere, where there is no vibration.
The target cannot be touched for sanitary reasons. There is no need to clean an infrared temperature sensor after every measurement, making them ideal for the food and pharmaceutical industries.
How do they work?
Every object on Earth is constantly emitting energy in the form of electromagnetic radiation: the furniture and walls in the room around you, the food you eat, even your own body. At the temperatures we see in everyday industrial applications, that energy is in the infrared (IR) part of the electromagnetic spectrum.

The hotter the object is, the more radiation is emitted. Infrared temperature sensors work by measuring the intensity of that energy and converting it into a meaningful temperature reading.

The response time of an infrared temperature sensor is a fraction of a second, compared to many seconds or even minutes for a contact probe.

How do you choose a suitable sensor? 
The right sensor will depend on the material being measured, the ambient conditions where the sensor is being used, and how you want to use the measured temperature. These are the things to consider when choosing a suitable sensor:

Target material and condition
Examples of high-emissivity materials
Examples of materials with high emissivity. Materials like these are easy to measure with general-purpose IR pyrometers.

As well as emitting infrared radiation, most materials are reflective to some extent. A shiny bare metal surface will reflect more IR energy than a matte painted surface. The sensor needs to know how much of the energy it is “seeing” has been emitted by the object as a result of its own temperature. This is done using the sensor’s emissivity setting.

Low-emissivity (reflective) metal rollers
Reflective metal surfaces are more challenging to measure using infrared temperature sensors. If the surface cannot be painted or coated to make it non-reflective, then a short-wavelength sensor should be used.

Emissivity is the opposite of reflectivity: a non-reflective surface will have a high emissivity. Wood, paper, thick plastics, food, water, asphalt, rubber and painted surfaces all have a high emissivity. These materials can be measured easily using simple, general-purpose sensors with a fixed emissivity setting (such as the PyroCouple), whereas reflective materials require a sensor with an adjustable emissivity setting, and sometimes a short measurement wavelength, for accurate results.

For reflective metals, the easiest way to achieve a good measurement is to make the surface non-reflective by painting or coating it with another material, if possible. But if not, you can still achieve good readings if you choose the right sensor. Contact Calex for advice. 

Size of measurement area
Infrared Temperature Sensors: Target Size and Optics

The pyrometer measures the average temperature of an area of the target surface, and the size of that area depends on two things: the optics of the sensor, and the distance between the sensor and the target. Choose the optics and measurement distance so that the measurement spot is smaller than the target.

Ambient temperature
Check the air temperature where the sensor will be placed, and make sure it is within the operating temperature limits of the sensor. Most general-purpose sensors can be used up to 70°C (depending on the model), however for higher ambient temperatures of up to 200°C, cooled, high-ambient or fibre optic models are available.

Obstructions
Steam, smoke, dust, flames and machinery in the sensor’s field of view can affect the accuracy of the temperature reading. They should be avoided as much as possible. If the air looks clear then you should be able to achieve good results quite easily.

Output type
What would you like to do with the temperature measurement? Sensors are available with temperature display, analogue or digital outputs, alarms and data logging.

How accurate are they?
The specified accuracy for most Calex infrared temperature sensors is within +/- 1°C or 1%.

In industry, repeatability is usually more important than accuracy to ensure consistent qualit

Fixed-mount infrared temperature sensors (pyrometers) for industrial, benchtop, laboratory and education applications.
Applications infrared temperature sensors
Food industry
Find out how to use infrared temperature sensors in food industry applications including confectionery manufacturing, flour mill rollstand temperature monitoring, food safety and measuring hot food products through glass.
Iron and steel industry
See how Calex short-wavelength pyrometers can be used as a high-performance, low-cost temperature measurement solution in the iron and steel industries, where the emissivity of the metal is predictable and good results are straightforward using a single-wavelength sensor. 
Glass industry
Infrared temperature sensors for glass. Find out how the surface temperature can be measured in float glass manufacturing, glass bottle production and annealing. Read more >>
Asphalt industry
Pyrometers for measuring road surface temperature. Good temperature monitoring is required in the road construction industry, where the adhesion and integrity of the asphalt surface depends on the surface temperature when it is laid. 
Power industry
Sensors for busbar temperature monitoring systems. Find out how copper busbar joints are monitored using Calex infrared temperature sensors to plan preventative maintenance and help spot deteriorating joints before they become a hazard. 
Automotive industry
IR temperature sensors for paint curing, paint mixing, thermoforming, tyre manufacturing and automotive testing applications, among many others. Read more >>
Plastics industry
Infrared temperature sensors for plastics. Measuring the temperature of plastics is easy and straightforward with infrared temperature sensors, as thick plastics can be measured with low-cost sensors. Calex also has a specialised sensor for measuring thin plastic film temperature. 

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