industry news
Subscribe Now

Renesas Introduces Rugged and High Performance 100V Half-Bridge MOSFET Drivers

Robust HIP221x Drivers Combine High Speed and High Voltage to Extend Renesas’ 25-Year MOSFET Driver Legacy in Industrial and Consumer Applications
Düsseldorf, June 25, 2020  Renesas Electronics Corporation (TSE:6723), a premier supplier of advanced semiconductor solutions, today introduced the HIP2211 and HIP2210, a new pair of 100V half-bridge MOSFET drivers. The HIP2211 is a next-generation pin-compatible upgrade to Renesas’ popular ISL2111 bridge driver, while the new HIP2210 offers a tri-level PWM input to simplify power supply and motor drive design. The HIP2211 and HIP2210 are ideal for 48V telecom power supplies, Class-D audio amplifiers, solar inverters, and UPS inverters. They are also rugged enough to power the demanding 48V motor drives found in Li-ion battery-powered household and outdoor products, water pumps, and cooling fans.
The HIP221x drivers are designed to work reliably under difficult operating conditions, with the high-speed, high-voltage HS pin tolerating up to -10V continuously and slewing as quickly as 50V/ns. Comprehensive under-voltage protection works in tandem with the HIP2210’s programmable anti-shoot-through protection to ensure the driven MOSFETs are not damaged due to power supply or other external fault conditions. Renesas’ HIP221x drivers feature strong 3A source, 4A sink drivers with very fast 15ns typical propagation delay and 2ns typical delay matching, making them the optimal solution for high-frequency switching applications. Both the HIP2210 and HIP2211 are designed to complement Renesas microcontrollers in advanced DC/DC and brushless motor drive systems.
“The innovative HIP221x devices continue our 25-year heritage of developing industry leading Harris Intelligent Power (HIP) half-bridge drivers, said Philip Chesley, Vice President, Industrial and Communications Business Division at Renesas. “Robust noise tolerance, ultra-fast propagation delays, and high system efficiency are some of the key features our customers have come to rely on from our entire range of HIP half-bridge MOSFET drivers.”
 
Key Features of HIP2211 and HIP2210
  • 115VDC bootstrap supply maximum voltage (120V HS absolute maximum) supports 100V on the half-bridge
  • Wide VDD voltage operating range of 6V to 18V (20V absolute maximum)
  • HS pin tolerates up to -10V and 50V/ns slew rates
  • Integrated 0.5Ω typical bootstrap diode eliminates external discrete diodes
  • VDD and boot UVLO prevent low gate voltage drive to the NFETs
  • Adjustable dead time delay via RDT pin (HIP2210 only) prevents shoot-through conditions, adjustable from 35ns to 350ns with a single resistor
Pricing and Availability
The HIP2211 and HIP2210 are available now from Renesas’ worldwide distributors, both priced at $1.30 USD in 1,000-unit quantities. The HIP2211 is supplied in an 8-lead SOIC and a 10-lead 4mm x 4mm TDFN package. For more information and evaluation board, please visit: www.renesas.com/products/HIP2211.
 
The HIP2210 is supplied in a 10-lead 4mm x 4mm TDFN package. For more information and evaluation board, please visit: www.renesas.com/products/HIP2210. 
 
About Renesas Electronics Corporation
Renesas Electronics Corporation (TSE: 6723) delivers trusted embedded design innovation with complete semiconductor solutions that enable billions of connected, intelligent devices to enhance the way people work and live. A global leader in microcontrollers, analog, power, and SoC products, Renesas provides comprehensive solutions for a broad range of automotive, industrial, infrastructure, and IoT applications that help shape a limitless future. Learn more at renesas.com. Follow us on LinkedInFacebookTwitter, and YouTube.
 

Leave a Reply

featured blogs
Sep 25, 2020
What do you think about earphone-style electroencephalography sensors that would allow your boss to monitor your brainwaves and collect your brain data while you are at work?...
Sep 25, 2020
Weird weather is one the things making 2020 memorable. As I look my home office window (WFH – yet another 2020 “thing”!), it feels like mid-summer in late September. In some places like Key West or Palm Springs, that is normal. In Pennsylvania, it is not. My...
Sep 25, 2020
[From the last episode: We looked at different ways of accessing a single bit in a memory, including the use of multiplexors.] Today we'€™re going to look more specifically at memory cells '€“ these things we'€™ve been calling bit cells. We mentioned that there are many...
Sep 25, 2020
Normally, in May, I'd have been off to Unterschleißheim, a suburb of Munich where historically we've held what used to be called CDNLive EMEA. We renamed this CadenceLIVE Europe and... [[ Click on the title to access the full blog on the Cadence Community site...

Featured Video

Product Update: Synopsys and SK hynix Discuss HBM2E at 3.6Gbps

Sponsored by Synopsys

In this video interview hear from Keith Kim, Team Leader of DRAM Technical Marketing at SK hynix, discussing the wide adoption of HBM2E at 3.6Gbps and successful collaboration with Synopsys to validate the DesignWare HBM2E IP at the maximum speed.

Click here for more information about DesignWare DDR IP Solutions

Featured Paper

The Cryptography Handbook

Sponsored by Maxim Integrated

The Cryptography Handbook is designed to be a quick study guide for a product development engineer, taking an engineering rather than theoretical approach. In this series, we start with a general overview and then define the characteristics of a secure cryptographic system. We then describe various cryptographic concepts and provide an implementation-centric explanation of physically unclonable function (PUF) technology. We hope that this approach will give the busy engineer a quick understanding of the basic concepts of cryptography and provide a relatively fast way to integrate security in his/her design.

Click here to download the whitepaper

Featured Chalk Talk

ROHM BD71847AMWV PMIC for the NXP i.MM 8M Mini

Sponsored by Mouser Electronics and ROHM Semiconductor

Designing-in a power supply for today’s remarkable applications processors can be a hurdle for many embedded design teams. Creating a solutions that’s small, efficient, and inexpensive demands considerable engineering time and expertise. In this episode of Chalk Talk, Amelia Dalton chats with Kristopher Bahar of ROHM about some new power management ICs that are small, efficient, and inexpensive.

Click here for more information about ROHM Semiconductor BD71847AMWV Programmable Power Management IC