Drivers Electronic Temperature Instruments USB Devices



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    Food thermometers

    Food thermometers and food processing thermometers. Shop online for, meat thermometers, cooking thermometers and kitchen thermometers for every...

New USB device found, idVendor=0C45, idProduct=7401 Product: TEMPerV1.4 Manufacturer: RDing The device does generate a little heat of it's own. It's important to calibrate the readings with another temperature source. My device reads 2.0F high, so that's the adjustment that I am using. These devices are known to have 'sticky spots' or 'dead zones'. If you want to download an IVI driver or browse for noncertified drivers, you can download instrument drivers from the Instrument Driver Network. You also can download National Instruments drivers from NI Drivers and Updates on the National Instruments Web site. LabVIEW installs instrument driver files to the labview instr.lib directory. By Electronic Temperature Instruments Ltd. This allows creating custom lists for users and food items from within the mobile device, assignment of high and low temperature settings for each.

    Thermapen thermometers

    Thermapen thermometers are used worldwide in restaurants, hotels and kitchens - anywhere that perfectly cooked food is served. Meeting the EN...

    medical thermometers

    VACCINE DATA LOGGERS & VACCINE THERMOMETERS - Our range of vaccine data loggers & vaccine storage thermometers will ensure vaccines are kept at...

    industrial thermometers

    Industrial thermometers for every industry. ETI produce an industrial thermometer for every application - MicroTherma digital thermometers,...

Drivers Electronic Temperature Instruments Usb Devices Used

    bluetooth thermometers

    Bluetooth thermometers & data loggers to transmit data to your Android, Windows CE mobile or Bluetooth wireless device via a secure connection....

    fridge thermometers

    Fridge freezer thermometers & refrigeration thermometers. Quality fridge thermometers or freezer thermometers are essential to guarantee food is...

    oven thermometers

    Oven thermometers. ETI oven thermometers will ensure that food is properly cooked. A good oven thermometer will allow your food to be cooked...

    pocket digital thermometers

    Pocket Digital Thermometers - pocket thermometers, dial pocket thermometers, digital pocket thermometers, probe pocket thermometers from...

    dial thermometers

    Dial thermometers - a bi-metal dial thermometer is a simple to use, economical thermometer. These dial thermometers are ideal for everyday use...

    home and garden

    Home and garden thermometers designed to give you maximum functionality coupled with ease of use... for room thermometers, garden thermometers &...

    infrared thermometers

    ETI infrared thermometers and pyrometers. Select from the UK's largest range of infrared thermometers, including the Raytemp and BlueTherm IR...

    probe-wipes

    ProbeWipes A range of QAC free, anti-bacterial probe wipes, kitchen wipes and catering wipes to complement your ETI thermometer. Buy QAC free...

Whether it’s a thermometer or a thermocouple, different kinds of sensors measure temperature

Temperature is defined as the energy level of matter which can be evidenced by some change in that matter. Temperature measuring sensors come in a wide variety and have one thing in common: they all measure temperature by sensing some change in a physical characteristic.
The seven basic types of temperature measurement sensors discussed here are thermocouples, resistive temperature devices (RTDs, thermistors), infrared radiators, bimetallic devices, liquid expansion devices, molecular change-of-state and silicon diodes.

1. Thermocouples

Thermocouples are voltage devices that indicate temperature measurement with a change in voltage. As temperature goes up, the output voltage of the thermocouple rises - not necessarily linearly.
Often the thermocouple is located inside a metal or ceramic shield that protects it from exposure to a variety of environments. Metal-sheathed thermocouples also are available with many types of outer coatings, such as Teflon, for trouble-free use in acids and strong caustic solutions.

2. Resistive Temperature Measuring Devices

Resistive temperature measuring devices also are electrical. Rather than using a voltage as the thermocouple does, they take advantage of another characteristic of matter which changes with temperature - its resistance. The two types of resistive devices we deal with at OMEGA Engineering, Inc., in Stamford, Conn., are metallic, resistive temperature devices (RTDs) and thermistors.
In general, RTDs are more linear than are thermocouples. They increase in a positive direction, with resistance going up as temperature rises. On the other hand, the thermistor has an entirely different type of construction. It is an extremely nonlinear semiconductive device that will decrease in resistance as temperature rises.

3. Infrared Sensors

Infrared sensors are non-contacting sensors. As an example, if you hold up a typical infrared sensor to the front of your desk without contact, the sensor will tell you the temperature of the desk by virtue of its radiation–probably 68°F at normal room temperature.
In a non-contacting measurement of ice water, it will measure slightly under 0°C because of evaporation, which slightly lowers the expected temperature reading.

4. Bimetallic Devices

Electronic
Bimetallic devices take advantage of the expansion of metals when they are heated. In these devices, two metals are bonded together and mechanically linked to a pointer. When heated, one side of the bimetallic strip will expand more than the other. And when geared properly to a pointer, the temperature measurement is indicated.
Advantages of bimetallic devices are portability and independence from a power supply. However, they are not usually quite as accurate as are electrical devices, and you cannot easily record the temperature value as with electrical devices like thermocouples or RTDs; but portability is a definite advantage for the right application.

5. Thermometers

Thermometers are well-known liquid expansion devices also used for temperature measurement. Generally speaking, they come in two main classifications: the mercury type and the organic, usually red, liquid type. The distinction between the two is notable, because mercury devices have certain limitations when it comes to how they can be safely transported or shipped.
For example, mercury is considered an environmental contaminant, so breakage can be hazardous. Be sure to check the current restrictions for air transportation of mercury products before shipping.

6. Change-of-state Sensors

Change-of-state temperature sensors measure just that– a change in the state of a material brought about by a change in temperature, as in a change from ice to water and then to steam. Commercially available devices of this type are in the form of labels, pellets, crayons, or lacquers.
For example, labels may be used on steam traps. When the trap needs adjustment, it becomes hot; then, the white dot on the label will indicate the temperature rise by turning black. The dot remains black, even if the temperature returns to normal.
Change-of-state labels indicate temperature measurement in °F and °C. With these types of devices, the white dot turns black when exceeding the temperature shown; and it is a nonreversible sensor which remains black once it changes color. Temperature labels are useful when you need confirmation that temperature did not exceed a certain level, perhaps for engineering or legal reasons during shipment. Because change-of-state devices are nonelectrical like the bimetallic strip, they have an advantage in certain applications. Some forms of this family of sensors (lacquer, crayons) do not change color; the marks made by them simply disappear. The pellet version becomes visually deformed or melts away completely.
Limitations include a relatively slow response time. Therefore, if you have a temperature spike going up and then down very quickly, there may be no visible response. Accuracy also is not as high as with most of the other devices more commonly used in industry. However, within the realm of application where you need a non-reversing indication that does not require electrical power, they are very practical.
Other labels which are reversible operate on quite a different principle using a liquid crystal display. The display changes from black color to a tint of brown or blue or green, depending on the temperature achieved.
For example, a typical label is all black when below the temperatures that are sensed. As the temperature measurement rises, a color will appear at, say, the 33°F spot–first as blue, then green, and finally brown as it passes through the designated temperature. In any particular liquid crystal device, you usually will see two color spots adjacent to each other– the blue one slightly below the temperature indicator, and the brown one slightly above. This lets you estimate the temperature as being, say, between 85° and 90°F.
Although it is not perfectly precise, it does have the advantages of being a small, rugged, nonelectrical indicator that continuously updates temperature measurement.

7. Silicon Diode

The silicon diode sensor is a device that has been developed specifically for the cryogenic temperature range. Essentially, they are linear devices where the conductivity of the diode increases linearly in the low cryogenic regions.
Whatever sensor you select, it will not likely be operating by itself. Since most sensor choices overlap in temperature range and accuracy, selection of the sensor will depend on how it will be integrated into a system.

Drivers Electronic Temperature Instruments Usb Devices Adapter

This article was originally published on Dec. 28, 2000. It has been revised for clarity.