Inverter Control Device Product List and Ranking from 5 Manufacturers, Suppliers and Companies

Last Updated：Oct 01, 2025 Aggregation Period:Sep 03, 2025～Sep 30, 2025
This ranking is based on the number of page views on our site.

Inverter Control Device Manufacturer, Suppliers and Company Rankings

Last Updated：Oct 01, 2025 Aggregation Period:Sep 03, 2025～Sep 30, 2025
This ranking is based on the number of page views on our site.

八紘テクノ Tokyo//Industrial Electrical Equipment
原田本社 Hiroshima//Industrial Electrical Equipment
スリーベネフィッツ Tokyo//environment
4 東亜エレクトロニクス株式会社　東亜電機カンパニー Aichi//Industrial Electrical Equipment
5 ハウステンボス・技術センター Nagasaki//Energy

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Inverter Control Device Product ranking

Last Updated：Oct 01, 2025 Aggregation Period:Sep 03, 2025～Sep 30, 2025
This ranking is based on the number of page views on our site.

Significant reduction in power consumption of circulation pumps in hotels and accommodation facilities through inverter control. 原田本社
Zero initial investment, up to 60% reduction in electricity costs through inverterization of fan pumps. スリーベネフィッツ
Case Study: Fan 3 [Accommodation Facility] Inverterization of Supply and Exhaust Fans 八紘テクノ
Case Study: Fan 4 [Office Building] - Inverterization of Cooling Tower Fan 八紘テクノ
4 Case Study: Blower 7 [Commercial Facility] Inverterization of Exhaust Fan 八紘テクノ

Inverter Control Device Product List

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Power Saving System E-BRACE L Series

[Case Study Collection Giveaway] Low Cost, Lightweight, Compact Inverter Control Power Saving System

Are you overlooking something? Equipment that can be controlled by an inverter Please consider the next step for "cost reduction measures" and "global warming measures." Since it is low-cost, it offers excellent cost-effectiveness even for small motors that you may have previously given up on. Being lightweight and compact, it can be installed in tight spaces, leading to reduced construction costs. We have also implemented measures for lighting and heat sources, so if you are struggling with next year's plans, please consider this. For a limited time, we are offering a collection of case studies as a gift. Please take this opportunity to apply! For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

Control Panel

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Improvement Case 1 [Accommodation Facility] Stabilization of Hot Water Pump Temperature

Resolved 0 complaints from 5 to 6 per month. The discharge amount (temperature) during shower use is stable.

We addressed the issue of unstable hot water temperature during peak shower usage times in guest rooms by adding control to maintain a constant discharge pressure with an inverter. This allows us to consistently supply showers with stable temperatures to the guest rooms. 【Features】 ○ Control Method: Pressure Control ○ Target Equipment: Oil Supply Booster Pump (7.5kW) For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

Inverter
Pressure Control
Other environmental equipment

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Improvement Case 2 [Office Building] Stopping the Cooling Fan Belt Noise

Gentle acceleration is achieved by the inverter, eliminating belt squeal at startup and extending lifespan.

When the cooling fan starts, the belt that drives it slips, causing a squeaking noise as it rubs against the pulley. Due to its installation on the rooftop, complaints have arisen from nearby apartments. Because the fan turns on and off dozens of times a day depending on the set temperature, there have been many complaints, and the belt has also experienced significant wear. This issue has been improved by implementing gentle acceleration through an inverter, which eliminates the belt squeak and extends its lifespan. 【Features】 ○ Control method: Gentle acceleration operation using an inverter ○ Target equipment: Cooling fan (for air-cooled heat pump chiller) (5.5kW × 2 units) For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

cooling tower
Ventilation and Exhaust

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Update Case 3: Accommodation Facility - Operational Improvement, Continuous Operation Measures, and Simplification of Frequency Switching

Simplification of frequency variable operation according to seasons and busy periods.

Before the update, when a trouble occurred, the equipment would stop, and operations could not continue. The equipment manager adjusted the frequency using the up and down keys on the inverter while monitoring the operational status. After the update, in the event of an inverter malfunction, it automatically switches to commercial operation, allowing the equipment to continue running. A manual four-speed switch has been installed, making it easier to adjust the frequency to any desired level according to the season or busy periods. 【Features】 ○ Installation of a manual four-speed switch for simplified switching operations ○ Target equipment: Inverter for ventilation fans (400V/7.5kW) For more details, please contact us or download the catalog.

Company：八紘テクノ
Price：Other

Inverter
Ventilation and Exhaust
air conditioning

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Case Study: Pump 1 [Public Facility] Inverterization of Chilled and Hot Water Pump

Perform inverter operation to drive the pump with high efficiency and save electricity.

To adjust the flow, the valve that was partially closed has been opened, and by regulating the flow with an inverter, significant power savings have been achieved. The inverter operates at the optimal and minimal frequency based on signals from pressure and flow sensors, driving the pump with high efficiency for energy conservation. To prevent excess flow that cannot be reduced by the inverter during low demand periods, bypass valve control is also used. 【Features】 ○ Control Method: Pump motor speed is controlled by the inverter using pressure and flow sensors. ○ Target Equipment: Absorption chiller and hot/cold water generator Secondary hot/cold water pumps (11.0 kW) × 2 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 3 [Hospitals and Care Facilities] Inverterization of Chilled and Hot Water Pumps

Control the required flow rate with an inverter using a temperature sensor to reduce power consumption.

The flow rate is controlled by an inverter based on the temperature difference at the inlet and outlet of the absorption chiller, significantly reducing power consumption during light load conditions. By alternating the operation of two pumps controlled by a single inverter, installation costs are reduced. 【Features】 ○ Control Method: Temperature Control ○ Target Equipment: Air-Cooled Heat Pump Chiller Chilled and Hot Water Pumps (11.0kW × 2 alternating switch type) 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 6 [Public Facility] Inverter Conversion of Chilled and Hot Water Pump

Support with low-cost inverter panels (EBL series), shortening the investment recovery period for equipment.

By opening the valve and adjusting the inverter to the same flow rate as before, power consumption is reduced. For educational facilities, during breaks, the switch is operated to switch to low-speed operation for further energy savings. Since control using sensors for temperature, pressure, and flow rate is not performed, it can be implemented at a low cost. The low-cost inverter panel (EBL series) is used to shorten the investment recovery period. 【Features】 ○ Control method: The rotation speed of the pump motor is controlled by the inverter using a manual step-speed switch. ○ Target equipment: Absorption chiller/heater 　　　　　　Chilled/heated water pumps (11.0 kW × 2 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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Energy-saving measures for central air conditioning systems.

Proven at hotels within Huis Ten Bosch! 70% reduction achieved.

The "Clean Hit Inverter" is an energy-saving system for central air conditioning (chilled and hot water air conditioning) that uses variable flow control. The inverter adjusts the rotation speed of the chilled and hot water pump that sends air from the central air conditioner and the motors for the intake and exhaust fans of the outdoor air conditioning unit based on information from temperature sensors, reducing power consumption by 45% to 70%. Additionally, it has a built-in cumulative power meter, allowing for easy numerical confirmation of energy-saving effects on the controller panel. 【Features】 ■ Significant reduction in electricity costs while maintaining comfort ■ 45% to 70% reduction in power consumption (patented) ■ Improvement in overcooling and overheating ■ Visualization of energy-saving figures ■ Built-in cumulative power meter ■ Easy numerical confirmation *For more details, please refer to the PDF document or feel free to contact us.

Company：ハウステンボス・技術センター
Price：Other

Air purifiers
others

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Significant reduction in power consumption of circulation pumps in hotels and accommodation facilities through inverter control.

"What is an inverter?" and "The concept of inverter control" are clearly presented using diagrams and photos!

Now, as the movement towards "eco" initiatives, such as preventing global warming, spreads globally, measures to reduce environmental impact and cut power consumption have become urgent issues for all companies. That said, even if businesses and facilities are working on their own initiatives, they may not achieve the expected results. However, you can rest assured. By focusing on the load equipment that consumes the most electricity in facilities, we can provide comprehensive support for energy conservation and reduction of electricity costs. [Contents (excerpt)] ■ Introduction ■ What is an inverter? ■ Devices controlled by inverters ■ Mechanism for filtering pool water ■ Concept of inverter control *For more details, please refer to the PDF document or feel free to contact us.

Company：原田本社
Price：Other

Other clean room equipment and facilities

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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: 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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