industry news
Subscribe Now

Sidense 1T-OTP Memory Available in ON Semiconductor 180 nm Process Technology

OTTAWA, Canada and PHOENIX, Arizona – March 31, 2011 – Sidense Corp., a leading developer of Logic Non-Volatile Memory (LNVM) one-time programmable (OTP) memory IP cores, and ON Semiconductor (Nasdaq: ONNN), a premier supplier of high performance silicon solutions for energy efficient electronics, have announced that Sidense has ported its 180 nanometer (nm) OTP memory SLP product line to ONC18, ON Semiconductor’s 180 nm digital and mixed-signal technology platform.   

This licensing agreement will make SLP macros available for use in ON Semiconductor’s Application Specific Standard Products (ASSPs) and for those customers who wish to include OTP IP in ASIC products fabricated by ON Semiconductor.  In addition, Sidense will now be able to support its customers who want to use SLP macros and ON Semiconductor’s foundry services.  Single SLP macro densities ranging up to 256 kilobits (Kbits) will be available. 

“With Sidense’s secure and reliable OTP macros embedded in our products, ON Semiconductor has an added advantage over our competitors in supplying our customers with leading-edge silicon products covering a wide range of applications,” said Bob Klosterboer, ON Semiconductor senior vice president of the Digital and Mixed Signal Product Group.  “We chose Sidense’s OTP intellectual property for its low power and small area and also because it doesn’t require any changes or additions to our standard process flow.” 

“We are very pleased to be teaming up with an industry leader such as ON Semiconductor,” stated Xerxes Wania, Sidense president and CEO.  “This relationship will give ON Semiconductor another valuable IP resource for any of its customers who want to use Sidense OTP for secure, reliable and cost effective memory. It will also enable Sidense to support our own customers who want to have ON Semiconductor available as a foundry resource.” 

About SLP

SLP is a smaller, lower power version of Sidense’s SiPROM product family with a maximum macro size of 256 Kbits.  Initially manufactured at 180nm, SLP macros target cost- and power-sensitive applications such as handheld communication devices, chip and product IDs, analog trimming and calibration, and code storage.   

About Sidense Corp.

Sidense Corp. provides secure, very dense and reliable non-volatile, one-time programmable (OTP) memory IP for use in standard-logic CMOS processes with no additional masks or process steps required and no impact on product yield.  The Company’s innovative one-transistor 1T-Fuse™ architecture provides the industry’s smallest footprint, most reliable and lowest power Logic Non-Volatile Memory (NVM) IP solution.  With over 70 patents granted or pending, Sidense OTP provides a field-programmable alternative solution to Flash, mask ROM and eFuse in many OTP and MTP applications. 

Sidense SiPROM, SLP and ULP memory products, embedded in over 150 customer designs, are available from 180nm down to 40nm and are scalable to 28nm and below.  The IP is offered at, and has been adopted by, all top-tier semiconductor foundries and selected IDMs.  Customers are using Sidense OTP for analog trimming, code storage, encryption keys such as HDCP, WHDI, RFID and Chip ID, medical, automotive, and configurable processors and logic.  For more information, please visit www.sidense.com. 

About ON Semiconductor

ON Semiconductor (Nasdaq: ONNN) is a premier supplier of high performance silicon solutions for energy efficient electronics. The company’s broad portfolio of power and signal management, logic, discrete and custom devices helps customers efficiently solve their design challenges in automotive, communications, computing, consumer, industrial, LED lighting, medical, military/aerospace and power applications. ON Semiconductor operates a world-class, value-added supply chain and a network of manufacturing facilities, sales offices and design centers in key markets throughout North America, Europe, and the Asia Pacific regions. For more information, visit http://www.onsemi.com. 

Leave a Reply

featured blogs
Nov 12, 2024
The release of Matter 1.4 brings feature updates like long idle time, Matter-certified HRAP devices, improved ecosystem support, and new Matter device types....
Nov 13, 2024
Implementing the classic 'hand coming out of bowl' when you can see there's no one under the table is very tempting'¦...

featured video

Introducing FPGAi – Innovations Unlocked by AI-enabled FPGAs

Sponsored by Intel

Altera Innovators Day presentation by Ilya Ganusov showing the advantages of FPGAs for implementing AI-based Systems. See additional videos on AI and other Altera Innovators Day in Altera’s YouTube channel playlists.

Learn more about FPGAs for Artificial Intelligence here

featured paper

Quantized Neural Networks for FPGA Inference

Sponsored by Intel

Implementing a low precision network in FPGA hardware for efficient inferencing provides numerous advantages when it comes to meeting demanding specifications. The increased flexibility allows optimization of throughput, overall power consumption, resource usage, device size, TOPs/watt, and deterministic latency. These are important benefits where scaling and efficiency are inherent requirements of the application.

Click to read more

featured chalk talk

Introducing the TCKE9 eFuse: Advanced Circuit Protection for Modern Electronics
Sponsored by Mouser Electronics and Toshiba
eFuse ICs provide better protection performance than conventional mechanical fuses. In this episode of Chalk Talk, Amelia Dalton and Talayeh Saderi from Toshiba chat about the what, where, and how of eFuse technology. They also investigate the benefits that Toshiba’s TCKE9 eFuses bring to server power management and how you can get started using a TCKE9 eFuse in your next design. 
Oct 29, 2024
19,431 views