| |

Nidec Instruments Develops New Gas Water Heater Pump

November 6, 2023

Nidec Instruments Develops New Gas Water Heater Pump

Nidec Corporation has announced that Nidec Instruments Corporation, a wholly owned subsidiary of the Company, has newly developed a compact low-vibration and -noise pump for water heaters.

Nidec Instruments’ Latest Water Heater Pump

Recent years have witnessed a growing demand for water heater pumps to be not only light and compact, but low-vibration and -noise as well, so as not to cause noise issues when used late at night.

Nidec Instruments’ latest pump has developed for water heaters that do not generate any cold water immediately after being activated even in wintertime. For these “no-cold-water” water heaters, size and noise-level reduction has been an issue more than ever, as they need to have a pump that works even when hot water is not being used, and are often installed in rooms in condominium apartments.

Employing a sine wave drive-type sensor-less vector control IC – a component that enables a smoother rotation than the conventional square wave drive system – to control its rotor’s spin, the aforementioned product can keep its vibration and noise levels low. Further, the analysis of both motor vibration and the resonance frequency with water heaters to use this pump has enabled a resonance-avoiding design, making the product one of the quietest pumps in the industry.

In addition, to improve its winding space factor, the pump employs a curling core – which casts a motor core into a round shape after winding wires around a linear core – to be 20% lighter in volume than existing products.

As a member of the world’s leading comprehensive motor manufacturer, Nidec Instruments stays committed to proposing revolutionary solutions that contribute to creating a comfortable society.

More Information

For more details on the aforementioned product, please contact Sales Department 1 of Nidec Instruments’ Sales Division at +81-3-5740-3001. Thank you.

Source

Related Story

Nidec Develops Proof of Concept (PoC) for Digital Twin-Type Intelligent Motor®

Nidec Corporation has announced that it has developed a proof of concept (PoC) to realize an “Intelligent Motor® solution,” a system that the Company defined to adapt (i) Intelligent Motors®*1 , which are equipped with microcomputers and data coupling and time synchronization functions, and (ii) products with an Intelligent Motor®, to digital twin*2 .

Related Articles

Editor’s Pick: Featured Article

Weidmüller’s u-control 2000: The Automation Controller

Weidmüller’s u-control 2000: The Automation Controller

Weidmüller’s scalable engineering software, u-control 2000, adapts individually to your requirements. And, the u-control is powerful, compact and fully compatible with Weidmüller’s I/O system u-remote. This article looks at what makes u-control the heart of your automation.

Programmable logic controllers (PLCs) are one of the main components of any automated system. A typical control system has inputs, outputs, controllers (i.e., PLCs), and some type of human interaction with the system, a human machine interface (HMI), for example.

Read More

Latest Articles

  • Applications of Physical AI in Canadian Sectors

    June 23, 2026 Physical AI — the convergence of artificial intelligence with robotics and autonomous motion systems — is reshaping how Canadian industries operate. Across sectors from healthcare to mining, AI-enabled machines are performing tasks that were once entirely dependent on human intervention. But deploying Physical AI effectively requires more than sophisticated algorithms: it demands… Read More…

  • Case Study: Optimizing Harmonic Mitigation in Wastewater Treatment

    June 22, 2026 Segment and Application In a municipality, wastewater treatment plants typically stand out as the main consumers of electricity. The operational processes exhibit significant load variations throughout a 24-hour cycle, necessitating the use of AC drives to regulate pumps, blowers, and other motorized equipment in response to fluctuating demand. In one wastewater treatment… Read More…