Inverter Control Device Product List and Ranking from 6 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
エア・ガシズ・テクノス Tokyo//Industrial Machinery
原田本社 Hiroshima//Industrial Electrical Equipment
スリーベネフィッツ Tokyo//environment
5 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

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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.

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

Inverter Control Device Product List

16～22 item / All 22 items

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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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Zero initial investment, up to 60% reduction in electricity costs through inverterization of fan pumps.

Achieve 40-60% energy savings on fans and pumps with zero initial investment! This is an ESCO scheme that recovers inverter equipment costs based on the savings achieved.

"Features of the Service" ■ Energy-saving and Cost-saving - By controlling fans and pumps with inverters, we can reduce electricity consumption by 40-60%. - There is no impact on the current facilities or lines (the energy savings will be excessive compared to the rated flow and pressure). - The frequency control method will be adapted according to the existing system (pressure control, temperature control, fixed control, etc.). ■ Zero Initial Investment (ESCO Scheme) - The investment costs associated with inverter control will be borne by our company, and we will recover the investment costs from the savings on electricity bills. - In the unlikely event that there are no savings, we will refund the amount you paid. - We will also cover the costs for understanding operational control situations, maintenance, and repairs if the inverter equipment fails. ■ Examples of Target Facilities Facilities and factories using large fans and pumps are eligible. - Tenant buildings - Hospitals - Elderly care facilities - Government buildings - Commercial facilities - Industrial waste incineration facilities - Research institutes ■ Service Areas: Nationwide *We also provide case studies. For more details, please download the PDF or contact us.

Company：スリーベネフィッツ
Price：Other

inverter

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Energy-saving case study: Factory

Introduction of case studies on energy savings of 40% to 60% through inverter control with zero investment (ESCO) and performance-based rewards from subsidies!

"Service Features" ■ Energy Saving, Cost Reduction - By controlling fans and pumps with inverters, we can reduce electricity consumption by 40-60%. - There is no impact on the current facilities or lines (the energy savings will be excessive compared to the rated flow and pressure). - The frequency control method will be adapted according to the current system (pressure control, temperature control, fixed control, etc.). ■ Zero Initial Investment (ESCO Scheme) - The investment costs associated with inverter control will be borne by our company, and we will recover these costs from the savings on electricity bills. - In the unlikely event that there are no savings, we will refund the amount you paid. - We will also cover the costs for monitoring operational control, maintenance, and repairs in case of inverter equipment failure. ■ Subsidy Acquisition By obtaining government subsidies, we can reduce monthly service costs and maximize benefits for our customers. We will handle the subsidy application process. ■ Service Areas: Nationwide *Please note that we may decline proposals if they do not meet the ESCO profitability criteria. *We also provide case studies. For more details, please download the PDF or contact us.

Company：スリーベネフィッツ
Price：Other

Inverter
Induction motor
Incinerators and incinerators

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[Improvement Case] Key Points of Inverter Control for Pump Motors

A case where reducing the operating time of the pump motor led to a decrease in failures and an extended lifespan.

Here is an example of improvements in control panel design. In the pump motors used in production equipment within the factory, there was a situation where the motors were running even when the production equipment was not operational, leading to issues such as excessive electricity usage, noise, and vibration, which were detrimental to energy conservation and the environment. By incorporating inverter control to operate and stop the pump motors according to the operational status of the production equipment, we were able to adjust the flow rate and air volume of the pump motors only when necessary, resulting in significant reductions in electricity consumption. [Case Summary] ■ Issues - The continuous operation of the pump motors led to a high failure rate, and replacements were frequently required. ■ Results - By reducing the operating time of the pump motors through inverter control, we achieved a decrease in failures and an extended lifespan for the pump motors. *For more details, please download the PDF or feel free to contact us.

Company：東亜エレクトロニクス株式会社　東亜電機カンパニー
Price：Other

Control Panel

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