Control device Product List and Ranking from 264 Manufacturers, Suppliers and Companies

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

Control device Manufacturer, Suppliers and Company Rankings

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

八紘テクノ Tokyo//Industrial Electrical Equipment
アイエスエイ Tokyo//Industrial Electrical Equipment
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4 三基計装 Tokyo//Industrial Machinery
5 三橋製作所 Kyoto//Industrial Machinery

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Control device Product ranking

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

The sending speed can be controlled from low speed to high speed! 【Hydro Checker】
Torque control device "Permatork" 日本創販
LPC Control Panel "PW-1000" 三橋製作所
4 LAN-compatible input/output monitoring and control device "Comm Assist-io" ｉＮＤ
5 Composite Environmental Control Device "Fukugou-kun 3" 三基計装

Control device Product List

271～285 item / All 488 items

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Attitude Control Device for CubeSat 2

A space-grade low-cost attitude control system (including control computer, sensors, etc.) that can be used for three-axis attitude control of ultra-small satellites, CubeSats.

A posture control device that can be used for three-axis attitude control of ultra-small satellites, CubeSats. This device includes an attitude control computer, reaction wheels, magnetic torquers, three-axis geomagnetic sensors, MEMS gyros, sun sensors, and Earth sensors, packaging almost all the equipment necessary for attitude control. Additionally, it is possible to install an optional star tracker and redundant geomagnetic sensors.

Company：Advanced Technology Institute, LLC HQ
Price：Other

Other process controls
others

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Update Case 5 [Commercial Facility] Operational Improvement (Increased Energy Savings through Automated Control)

Added variable speed control based on temperature and carbon dioxide concentration. Improved average energy-saving rate to over 60%.

Before the update, the machine room was located far away, making it almost impossible to use frequency control with inverters. After the update, we improved the average energy-saving rate to over 60% by using temperature sensors and carbon dioxide concentration sensors to control the fan motor with an inverter. 【Features】 ○ Inverter control of the fan motor's rotation speed using temperature sensors and carbon dioxide concentration sensors ○ Target equipment: Inverters for air conditioning units and exhaust fans (400V/30.0kW, 18.5kW) For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

Inverter
air conditioning
Ventilation and Exhaust

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Case Study: Pump 2 [Commercial Facility] Inverterization of Cooling Water Pump

Monitor the temperature at the cooling water outlet and further reduce power consumption through inverter control except during the peak summer daytime.

The flow rate sent to the cold water pump was adjusted by throttling the valve, but significant reductions in electrical power consumption were achieved by controlling it with an inverter. By monitoring the temperature at the cold water outlet with a temperature sensor, the pump motor's rotation speed can be controlled by the inverter, allowing for further energy savings except during the peak summer daytime. 【Features】 ○ Control Method: Pump motor rotation speed controlled by inverter using a temperature sensor ○ Target Equipment: Absorption chiller/heater Cold water pump (200V/55.0kW) For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

Inverter
Flow Control
air conditioning

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Case Study: Pump 4 [Condominium] Inverterization of Chilled and Hot Water Pump

It is possible to convert pumps to inverters at a low cost.

By opening the valve and adjusting the inverter to the same flow rate as before, power consumption is reduced. Since control is not performed using sensors for temperature, pressure, or flow rate, it can be implemented at a low cost. Five inverters are compactly installed on one panel. 【Features】 ○ Control Method: Fixed frequency (constant flow) control ○ Target Equipment: Absorption chiller/heater 　　　　　　Primary chilled/heated water pump (2.2kW × 2 units), 　　　　　　Secondary chilled/heated water pump (3.7kW × 3 units) For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

Inverter
Flow Control
air conditioning

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Case Study: Pump 5 [Commercial Facility] Inverterization of Chilled Water Pump

By using a temperature sensor in conjunction, further power reduction is achieved through inverter control.

By opening the valve and adjusting the inverter to achieve the same flow rate as before, we reduce the power consumption of the pump. By using temperature control and variably controlling the inverter frequency, we implement further energy savings. Additionally, by using compressor current control for the turbo chiller, we prevent overload due to insufficient cooling water. 【Features】 ○ Control Method: Using temperature sensors to control the pump motor speed with an inverter ○ Target Equipment: Turbo chiller 　　　　　　Cooling water pump (75.0 kW), Chilled water primary pump (55.0 kW) For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

Inverter
Flow Control
air conditioning

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Case Study: Pump 7 [Sports Facility] - Inverterization of Filtration Pump

Inverter control considering the backwashing operation of the filtration device and the number of circulation cycles (turns).

We will implement a scheduled operation where the speed is high during business hours and low during non-business hours (such as nighttime and closed days). To maintain water quality, we will use inverter control that takes into account backwashing and circulation frequency (turns). We will use a low-cost inverter panel (EBL series) to shorten the investment recovery period. 【Features】 ○ Control methods: Time schedule control, temperature control, manual step speed control ○ Target equipment: Pool filtration pump (5.5kW) For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

Inverter
Flow Control
Filtration Equipment

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Case Study: Fan 3 [Accommodation Facility] Inverterization of Supply and Exhaust Fans

Detecting the operating status of kitchen equipment with sensors and controlling the intake and exhaust with an inverter to reduce power consumption.

By linking the supply and exhaust fans, the conditioned air is not unnecessarily lost to the outside, improving air conditioning efficiency and reducing power consumption. Since busy hours vary due to banquet schedules, instead of time-based control, the operation status of kitchen equipment is detected by sensors, and the supply and exhaust are controlled by inverters. During times when no heating or cooking is taking place, temperature sensors and carbon dioxide concentration sensors help reduce the drying of served food. 【Features】 ○ Control Method: Motor speed is controlled by inverter using temperature sensors and carbon dioxide concentration sensors ○ Target Equipment: Kitchen ventilation system Supply fan (30.0 kW), Exhaust fan (37.0 kW) For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

air conditioning
Ventilation and Exhaust
Inverter

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Case Study: Fan 4 [Office Building] - Inverterization of Cooling Tower Fan

Eliminating abnormal noise caused by fan belt slippage at startup with gentle acceleration of the inverter.

The gentle acceleration of the inverter eliminates abnormal noises caused by fan belt slippage at startup (noise reduction effect). By adding rotational control via the inverter to the start-stop control method using temperature sensors, significant power savings are achieved. Controlling three motors with one 18.5kW inverter helps to reduce manufacturing and installation costs. 【Features】 ○ Control Method: Inverter control of fan motor speed using temperature sensors ○ Target Equipment: Absorption chiller Cooling tower fans (5.5kW) × 3 units For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

Ventilation and Exhaust
Inverter
cooling tower

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Case Study: Fan 5 [Accommodation Facility] Inverterization of Supply and Exhaust Fans

Manage the operating status using the temperature of each exhaust duct and reduce power consumption by controlling the fan motor with an inverter.

In a kitchen where reducing airflow is difficult, the operating status is managed by the temperature of each exhaust duct, and the fan motor is controlled by an inverter. The coordination between the external air conditioning unit and the exhaust fan located at a distance is also controlled by the inverter. 【Features】 ○ Control Method: Fan motor speed is controlled by an inverter using temperature sensors. ○ Target Equipment: Kitchen ventilation system External air conditioning unit (11.0 kW), exhaust fan (7.5 kW) For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

Ventilation and Exhaust
Inverter
air conditioning

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Case Study: Blower 7 [Commercial Facility] Inverterization of Exhaust Fan

Reduce power by controlling the fan motor speed with an inverter using a carbon monoxide concentration sensor.

Control the fan motor speed using an inverter based on the carbon monoxide concentration sensor installed on the roadway. By controlling the motor speed with the inverter during off-peak hours (such as weekends and evenings), significant power savings can be achieved. 【Features】 ○ Control Method: Fan motor speed controlled by inverter using carbon monoxide concentration sensor ○ Target Equipment: Underground parking exhaust fans (22.0 kW × 3 units) For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

Ventilation and Exhaust
Inverter
air conditioning

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eHydroCOM

An electric, stepless capacity control device for reciprocating compressors developed by the creator of HydroCOM.

The continuously variable capacity control system/eHydroCOM for reciprocating compressors is designed as a "plug-and-play" solution. The system is fully electric and does not need to be connected to an oil or cooling water circuit. eHydroCOM enables capacity control with exceptional precision and robustness. It not only dynamically controls capacity changes in a stable process but also has a wide control range, eliminating the need for operational downtime. As a result, only the amount of gas required for the process is compressed, significantly reducing the compressor's energy consumption. Not only does it keep installation costs down, but its high energy efficiency and manageable maintenance costs provide a beneficial return on investment for customers, whether for new installations or retrofitting existing machines.

Company：ホルビガー日本
Price：Other

Hydraulic Equipment
Flow Control

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PRT Series "Pressure Sensor Type Bathtub Water Level Control"

Hygienic water level control system

The automatic backwashing sand filter device "PRT Series" supports pressure sensor-based water level control for all models! It is very hygienic as there is no stagnant water like in conventional electrode-type water level gauge piping. Water level settings can be configured via touch panel operation. There is no need to cut electrode rods like in electrode-type systems. If you want to change the water level settings after starting operation, it can be easily modified.

Company：サイエンス
Price：Other

Filtration Equipment

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Electromagnetic Holder High-Speed Controller 'RH-303A-6/24 Series'

Three types are available for selection according to performance enhancement and installation environment!

The "RH-303A-6/24 series" is an electromagnetic holder high-speed controller that can accommodate the acceleration of work handling, such as robotic hands. It supports a wide power supply range from AC100 to 220V and is equipped with weak excitation and demagnetization functions. (Selection between alternating damping and single reverse excitation is possible via dip switches.) We offer three types to choose from, including the "panel-mounted type," which features a simple structure of printed circuit board and chassis suitable for installation inside electrical panels, as well as "cover type" and "case storage type," allowing for performance enhancement and adaptation to installation environments. 【Features】 ■ Utilizes FET in the output circuit to achieve high-speed and stable demagnetization performance ■ Durable enough for high-frequency use ■ PWM output control ensures that even weak output settings are unaffected by power fluctuations and differences in power frequency ■ Provides stable output voltage ■ Selection of rated output voltage 24V/6V is possible via dip switches (also compatible with KE-1B) *For more details, please refer to the PDF documentation or feel free to contact us.