We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for thermostat.
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thermostat Product List and Ranking from 23 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Jul 30, 2025~Aug 26, 2025
This ranking is based on the number of page views on our site.

thermostat Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jul 30, 2025~Aug 26, 2025
This ranking is based on the number of page views on our site.

  1. null/null
  2. null/null
  3. 松尾電器産業 Tokyo//Industrial Electrical Equipment
  4. 4 日本GT Tokyo//Consumer Electronics
  5. 5 null/null
Go to Company Ranking

thermostat Product ranking

Last Updated: Aggregation Period:Jul 30, 2025~Aug 26, 2025
This ranking is based on the number of page views on our site.

  1. Japan Thermodisc Temperature Fuse/Thermostat JT
  2. Raychem Explosion-Proof Thermostat RAYSTAT-EX-02-J
  3. Reikem Thermostat T-M-10-S Series
  4. 4 ProdiGii Thermostat 大幸産業
  5. 5 Thermostat "TH Series" (Temperature Detection and Control Device) 山田電機製造

thermostat Product List

121~135 item / All 142 items

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Position of the temperature power sensor and electronic thermostat

Position of the temperature power sensor and electronic thermostat

The MET series is a temperature controller positioned directly above the TPS rank.

This is an introduction to the Temperature Power Sensor (TPS) and the Electronic Thermostat (MET). The "MET Series" is Matsuo's compact and high-performance control-type electronic thermostat. The "Temperature Power Sensor (TPS)" is Matsuo's high-precision, low differential, long-life, low-cost, and compact control-type thermostat product name. The MET Series is a temperature controller positioned just above the TPS. The Temperature Power Sensor (TPS) is a standard product that occupies the lowest price range for controller thermostats. For more details, please download the catalog.

  • Temperature and Humidity Control

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Issues when using a thermostat in a DC voltage circuit.

Issues when using a thermostat in a DC voltage circuit.

When using in a DC voltage circuit, care must be taken regarding contact wear.

When using a thermostat in a DC voltage circuit, it is important to pay attention to contact wear. Essentially, you should check the contact capacity according to the voltage/DIF. rank. In other words, for example, AC125V and DC12V can both handle up to 5A, while AC250V and DC24V can handle up to 3A at the same current. The mechanism by which contacts wear due to arcing consists of four elements: (a) the magnitude of the voltage, (b) the magnitude of the current, (c) the rate of contact separation and engagement, and (d) the material of the contacts and the condition of the contact surface. For more details, please download the catalog.

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Practical simple heat capacity measurement method

Practical simple heat capacity measurement method

If the change in ambient temperature is slow, the thermostat can adequately keep up with the temperature changes.

As a practical method for measuring heat capacity, the thermal time constant is an accurate way to grasp the heat capacity of an object, but it is somewhat too academic for everyday practical use. Therefore, as a practical guideline, I have summarized in a table how well the thermostat's temperature can adapt to changes in ambient temperature compared to the thermostat's simple heat capacity. If the rate of change in ambient temperature is fast, the thermostat's thermal adaptation will be delayed; however, if the rate of change is slow, it can be seen that the thermostat can adequately keep up with the temperature changes. For more details, please download the catalog.

  • Temperature and Humidity Control

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Display method of connection configuration

Display method of connection configuration

Due to manufacturing reasons, the display method of the thermostat as a controller is complex.

As a method of displaying the contact configuration, our company manufactures thermostats used as controllers, which makes the display method more complex than in the case of protectors. In written form, it can be expressed as follows: ● Items that open with rising temperature are designated as X, and those that close with rising temperature are designated as Y, indicating the operating temperature during temperature rise (high temperature side). For the same items, if the operating temperature during temperature drop (low temperature side) is emphasized, we use the symbols X-bar (a line over X) and Y-bar (a line over Y). X-bar represents items that close with a decrease in temperature, while Y-bar represents items that open with a decrease in temperature. For more details, please download the catalog.

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Applications of Temperature Power Sensors (TPS)

Applications of Temperature Power Sensors (TPS)

If it's cheap, high-performance, compact, and long-lasting, it will hit the market immediately, but that's not necessarily the case.

As for the applications of the Temperature Power Sensor (TPS), even if electrical products of a nature that have never existed before are created, it doesn't necessarily mean they will become hits just because they are "cheap, high-performance, compact, and long-lasting." This is not always the case. For example, "this product excels in this aspect compared to similar products currently on the market," "although this is more expensive compared to this, it excels in this aspect," and "household appliances were satisfactory with conventional products since they are used in large boxes, but for communication devices, conventional products do not fit, so the temperature power sensor is just right." After accumulating these points over 15 years, I feel that it has finally been recognized in the market and its evaluation has become established since entering the 21st century. For more details, please download the catalog.

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Knowledge for creating a good temperature control system.

Knowledge for creating a good temperature control system.

The thermal control system consists of four elements: the user, the heated object, and others.

We will introduce knowledge for creating a good temperature control system. A thermal control system consists of four elements: [User], [Power source such as heater or cooler], [Thermostat], and [Object to be heated]. Let's thoroughly investigate whether these four elements are being used in the best possible way. If we refine this sufficiently, there should be no defects. 1. For example, are you using an oversized heater to quickly raise the temperature of the object to the desired level relative to its heat capacity? If you can wait a little longer for the initial temperature rise, the lifespan may increase threefold. 2. Let's first reconfirm the ultimate goal of this temperature control and consider the surrounding materials. We should reconsider such matters. For more details, please download the catalog.

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Glossary of Thermostat Terms

Glossary of Thermostat Terms

This is an introduction to terms such as differential (response) tolerance (tolerance).

This is an introduction to the glossary of thermostat terminology. ● Differential (DIFF.) refers to the temperature difference in the ON/OFF state (also known as hysteresis). Control-type thermostats can maintain high precision in temperature control due to their small ON/OFF differential, but if the differential is too small, it can lead to an increased number of operations, resulting in a shorter lifespan. Therefore, it is important to select the optimal differential in the design. ● Tolerance refers to the allowable precision values for settings such as the target temperature. It is expressed as OFF setting value: 30℃±3 (℃) and DIFF.: 3–6 (℃). For more details, please download the catalog.

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