Recom
Automotive

ROHM, a Japanese semiconductor manufacturer, foray into the Indian Electric Vehicle market, with the Low Power and Energy Efficient Solutions, Introduces a series of Power Supply IC featuring the Industry’s highest Step down., In: 60V Out: 2.5V for the next generation Electric vehicle ecosystem in India

1115_rohm press meet speakers+text 1

ROHM, a Japanese semiconductor manufacturer plans to foray into the Indian market with it’s low power and energy efficient power supplies to meet the growing demand for Electric Vehicles and other Hybrid-Electric-Vehicles (also called xEV).

Shivraj Gohil / Spacesuit Media

Shivraj Gohil / Spacesuit Media

ROHM is a major supplier of auto-electronic components providing energy efficient power solutions for xEV. The drive towards eco-friendly mobility across the world, means that Electric Vehicle is a key focus area for the company. Starting 2016, ROHM has started to extend support for Formula E, as an official technology partner to the Venturi Formula E team, that attracts motor sports fans from around the world. Also, ROHM is a key player in the Consumer electronics, with an array of power devices for Set Top Boxes, Smart phones, home infotainment to name a few. Smart infrastructure along with efficient power is a key focus area in IoT. In India, ROHM focus on Automotive and Industrial equipment.

“In 2006, ROHM ventured into India with a representative office, followed it up by establishing a fully owned subsidiary in 2011. In 2014, an R&D center was established in Bengaluru to technical support Indian customers. Combined with the years of experience from the global markets, and a strong local sales and support organization, we are all set to play a vital role in the Indian Electric Vehicle revolution.” Said Mr Nakamura, Managing Director, ROHM Semiconductor India.

“Advanced Driver Assistance System (ADAS) is working towards reducing the accidents due to human errors. Indian Automotive consumers will be benefitted from adopting some, if not all of the ADAS systems, like pedestrian avoidance, obstruction detection, automatic parking, etc. Besides, the number of electric motors in an automotive is steadily increasing, along with the electronics needed for the control. ROHM is working with some of the key enablers of some of these technologies to supply highly efficient semiconductor devices.” Said Mr Britto Edward, Head, Design Center, India.

ROHM today announced the availability of new power supply IC based on Nano Pulse Control Technology for the Indian market a 2MHz switching regulator with built-in MOSFET that achieves the highest step-down ratio in the industry. This is required for 48V automotive systems such as mild hybrid vehicles.

Nano pulse control DCDC 2

The latest switching regulator (BD9V100MUF-C) from ROHM, utilizes proprietary technology to reduce the minimum ON time to an unprecedented 9ns which is 10x shorter than the existing technology, thus enabling step-down operation from high input voltages like 60V to around 2.5V, at a constant frequency of 2MHz. It is very much useful in the new Automotive, Industrial & Solar energy segments. In addition, current-mode control provides easy phase compensation and use fewer external parts, while the integrated high-voltage MOSFET expands the input voltage range to 65V enabling wide adoption.

In recent years, mild hybrid vehicles with 48V systems provide better cost performance over full hybrid cars improving fuel efficiency over conventional 12V power supply systems. The automotive sector is experiencing strict emission norms, combined with the environmental awareness is very much focused on saving every single drop of energy.

Nano pulse control DCDC 3

The Industry always wanted a switching regulator operating at 2MHz operation for Automotive systems. Besides, there has not been a power supply IC capable of stepping down 48V to the 3.3V or 5V needed for low power devices inside the ECU, and typically such a regulator always used 2-stage step down, which this product will enable in a single stage, improving efficiency to a large extent.

Terminology

Nano Pulse Control:

Nano Pulse Control refers to the ultra-fast switching technology that can achieve very high step down ratio. It is a combination of analog circuit design, layout, besides other processes. It utilizes ROHM’s vertically integrated production system to the maximum. This technology contributes towards greater miniaturization in 48V applications ranging from mild hybrid vehicles and industrial robots to base station power supplies.

Formula E:

Formula E is an electric car equivalent of Formula-1, and uses the normal roads in the heart of the city, instead of the racing tracks. Ten teams with 20 drivers and 40 electric racing cars line up in Formula E with a change of cars half-way through. Power comes from a lithium-ion battery, so energy management is the key to success. Formula E CEO Alejandro Agag explains: “Formula E is the best place for developing new technologies. I’m certain that we can make a major contribution.”

Appendix: More Technical Information

ROHM has recently announced the availability of a DC/DC converter with built-in MOSFET that achieves the highest step-down ratio in the industry (at 2MHz) required for 48V automotive systems such as mild hybrid vehicles.

Nano pulse control DCDC 1

The BD9V100MUF-C integrates ultra-high-speed pulse control technology (Nano Pulse Control) created by combining proprietary circuit design and layout with original processes, enabling low voltage 2.5V output from 60V (max.) input at 2MHz (resulting in the industry’s highest step-down ratio: 24:1). This makes it possible to miniaturize peripheral components while at the same time configure voltage conversion from high to low voltages using a single IC whereas 2 or more ICs are conventionally required, contributing to greater miniaturization and simpler system design.

In recent years, in the automotive sector where energy savings and environmental performance are increasingly demanded, mild hybrid vehicles utilizing 48V systems that provide better cost performance than full hybrid cars and improve fuel efficiency over conventional 12V power supply systems are attracting increased attention.

However, while 2MHz operation is always required for automotive systems, until now there has not been a power supply IC capable of stepping down 48V to the 3.3V or 5V needed for ECU drive, typically involving 2-stage step down to an intermediate voltage such as 12V.

In response, ROHM leveraged its vertically integrated production system that includes analog design technology and power processes to develop an ultra-high-speed pulse control technology ‘Nano Pulse Control’ that achieves a 1-chip power system.

Key Features

Nano pulse control DCDC 4

 

 

 

 

 

 

 

Nano pulse control DCDC 5

The BD9V100MUF-C integrates ultra-high-speed pulse control technology (Nano Pulse Control) created by leveraging high voltage BiCDMOS processes and ultra-high-speed pulse control to achieve the industry’s highest step-down ratio through an unprecedented ON time of 9ns (switching ON time is the control pulse width of a power supply IC, in this case 10-9).

This makes low 3.3V or 5V (2.5V min.) output possible from high input voltages up to 60V for driving ECUs at 2MHz which will not affect the AM radio band (1.84MHz max.).

The ability to provide voltage conversion from high to low voltages in systems such as 48V power supplies used in mild hybrid vehicles with a single IC halves the number of parts required, reducing application size and simplifying system design, while high-frequency operation enables the use of smaller external components (i.e. coils)

Specifications

Part No. Input Voltage Range Output Voltag Output Voltage Accuracy Operating Frequency Max. Output Current Operating Temp. Range
BD9V100MUF-C 16V~60V 0.8V~5.5V ±2% 1.9~2.3MHz 1A (Max.) -40 ℃~125 ℃

Pricing: $8.7/pc (Sample)
Availability: July 2017 (Samples), December 2017 (OEM quantities)

Download Techmezine Android app on google play store: Download Now

 

 

 

Click to comment

Leave a Reply

Your email address will not be published. Required fields are marked *

To Top