HVAC Motor Control

The following tables list the units requiring motor control that are used in the two types of air conditioning system. The use of inverters and brushless DC motors is increasing in variable speed motor control applications requiring energy efficiency. In addition, an individual indoor unit or outdoor unit may contain multiple motors requiring control. Renesas offers development kits for the control systems most appropriate for three motor types: induction motors, brushless DC motors, and stepping motors.
Also we offer a wide range of products that are able to control multiple motors, from low end to high end, low power consumption, and microcontrollers equipped with floating point processors (FPUs).

Motor Control Units in Central
Air Conditioning Systems

UnitMotor Control Application
Outdoor-air processing unitFan
Heat sourceFan
Cooling towerFan
Feed water pumpPump
Cooling water pumpsPump

Motor Control Units in Individual
Air Conditioning Systems

UnitMotor Control Application
Indoor unitFan, damper
Outdoor unitFan,compressor
Outdoor-air processing unitFan

Recommended Devices for Motor Control

Recommended Devices for Motor Control

HVAC Communications

Regardless of the type of air conditioning system, generally speaking the various units are connected to a wired or wireless network to facilitate control and state management. In the context of building automation in particular, BACnet* is used to connect HVAC devices from different manufacturers and configure the building management system. Figure below shows conceptual diagrams of HVAC system communication in a central air conditioning system and an individual air conditioning system, respectively.
In the central air conditioning system, digital signals (DI and DO) and analog signals (4-20mA) are used for communication between sensors, VAV units, and general-purpose controllers. Due to the long distances involved and need for noise tolerance, Renesas offers communication solutions that employ power line communication (PLC).

  • *BACnet (Building Automation and Control Networking protocol) is an open protocol established in 1995 by the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE). In 2003 it was adopted as the international standard ISO 16484-5.

Overview of Building Air Conditioning Communication Network

Overview of Building Air Conditioning Communication Network

HVAC User Interface

They employ devices that use human machine interface (HMI) technology such as fan coil units (FCUs), variable air volume (VAV) and remote control for indoor machines to operate a screen in order to adjust the set temperature individually.
The recent trend is away from using fixed mechanical keys (mechanical switches) and toward the use of touch panels. These touch panels must be able to withstand demanding environmental conditions, including high noise levels, water, dirt, and temperature variations. Renesas offers HMI solutions that meet these challenges.

Sensor Products for HVAC

A sensor lineup, a technology required for building automation, has been added. Sensors for various cases can be introduced, supporting the improvement of air quality and the creation of comfortable building spaces.

IDT Sensor Product Lineup


Motor Control

Renesas motor control solutions aim to make buildings more efficient by reducing the power consumption of motors. A number of motor control methods are used to accommodate various product applications, and each poses its own difficulties during development.


These solutions are suitable for building security systems and deliver low cost and power efficiency alongside highly accurate measurement. Using these reference boards contributes to significantly shorter development time.


Renesas connectivity solutions are available for wireless communication (BLE and Sub-GHz) and wired communication (PLC) applications. They enable customers to build networks linking devices and systems without the need to install new wiring.

User Interface

Renesas HMI solutions comprise microcontrollers incorporating exclusive touch panel sensing technology and a custom development environment that facilitates quick development of high-grade products. There are also solutions that can be used to boost legibility and ease of use with interfaces supporting video and 3D-graphics.