NXP Shows World's Smallest 32-bit ARM Microcontroller

Apr 21, 2010
NXP Shows World's Smallest 32-bit ARM Microcontroller

NXP Semiconductors today announced sampling of the world's smallest general-market 32-bit microcontroller, the LPC1102, based on the Cortex-M0 processor. Unleashing unprecedented computing power in 5mm2 of PCB area, this device is targeted at very high volume applications requiring an ultra-miniature board footprint. NXP’s LPC1100 is the lowest-priced 32-bit MCU solution in the market, bringing higher value and ease of use than existing 8/16-bit microcontrollers through unprecedented performance, simplicity, low power, and more importantly, dramatic reductions in code size for all 8/16-bit applications.

As the newest member of the highly successful LPC1100 family, the addition of the LPC1102 delivers the same key features of low power, high performance and value, while adding the new dimension of miniaturization. The LPC1102, with 32KB of Flash and 8KB of RAM on-chip, is available in Wafer Level Chip Scale Packaging (WL-CSP) with dimensions of 2.17 mm2 x 2.32 mm2, thickness of 0.6 mm, and pitch of 0.5 mm.

“More and more of our customers are limited by PCB space as they design products that are racing toward continual miniaturization, while also being expected to deliver more features, performance, as well as longer battery life,” said Geoff Lees, vice president and general manager, microcontroller product line, . “The LPC1102 with its 2 x 2 mm footprint is the solution.”

“The very rapid roll-out and ongoing innovation by NXP is remarkable and demonstrates the strength and versatility of the ARM Cortex-M0 processor,” said Richard York, director of product marketing, Processor Division, ARM. “Clearly NXP is reaping the benefits as shown by its increasing product portfolio of innovative and successful new ARM processor-based products.”

Key product features include a 4-channel 10-bit ADC, one UART, one SPI, two 32-bit and two 16-bit timers, and one 24-bit system timer. SWD debugging and programming with four breakpoints and two watchpoints are also included. A total of eleven I/O functions also double as general purpose input and output GPIO for maximum flexibility. Offering very low power consumption with active mode current as low as 130uA/MHz, the LPC1102 features an internal IRC oscillator, accurate to ±1 percent over the industrial temperature and voltage range. It can also be clocked with an external source.

The LPC1102 will be supported by a wide range of third party development tools, as well as NXP’s LPCXpresso development platform featuring a powerful Eclipse-based IDE with an all-new intuitive NXP-designed user interface, optimized Cortex-M0 compiler and libraries. The LPC-Link debug probe and target board provides users with all the tools needed to accelerate product development and time-to-market. LPCXpresso supports the complete product design cycle, providing an end-to-end development solution. For more information, please visit the LPCXpresso page.

Samples are available for key customers at ESC 2010 Silicon Valley April 27-29 and later in May worldwide. Volume production will start in Q4 2010.

Explore further: Infineon offers application optimized bipolar power modules introducing cost-effective solder bond modules

add to favorites email to friend print save as pdf

Related Stories

NXP announces world's smallest high-performance MOSFET

Feb 25, 2008

NXP Semiconductors, the independent company founded by Philips, today announced a new range of small signal MOSFET devices housed in one of the world’s smallest packages, the SOT883. Boasting an ultra-small 1.0 x 0.6 mm ...

Philips unveils ultra-small 8-bit microcontroller family

Jan 17, 2005

Tiny new devices in 3 x 3 x 0.85mm package offer double the functionality of competing solutions Royal Philips Electronics today introduced two new members of the LPC900 8-bit microcontroller (MCU) family. These new dev ...

NXP drives energy efficiency with bipolar transistors

Mar 14, 2007

NXP, the independent semiconductor company founded by Philips, today announced the availability of its latest generation of low VCEsat transistors, which reduces power loss by 80 percent compared to general purpose transistors.

Recommended for you

A green data center with an autonomous power supply

46 minutes ago

A new data center in the United States is generating electricity for its servers entirely from renewable sources, converting biogas from a sewage treatment plant into electricity and water. Siemens implemented ...

After a data breach, it's consumers left holding the bag

1 hour ago

Shoppers have launched into the holiday buying season and retailers are looking forward to year-end sales that make up almost 20% of their annual receipts. But as you check out at a store or click "purchase" on your online shopping cart ...

Can we create an energy efficient Internet?

1 hour ago

With the number of Internet connected devices rapidly increasing, researchers from Melbourne are starting a new research program to reduce energy consumption of such devices.

Brain inspired data engineering

2 hours ago

What if next-generation ICT systems could be based on the brain's structure and its cognitive and adaptive processes? A groundbreaking paradigm of brain-inspired intelligent ICT architectures is being born.

E-Voting: Risky technology or great improvement?

2 hours ago

On this forthcoming weekend the Australian state election takes place, and in Victoria State they will be using a new e-voting system to improve secrecy, reliability and user-friendliness. But how secure are such systems? ...

User comments : 1

Adjust slider to filter visible comments by rank

Display comments: newest first

MikeLisanke
not rated yet May 01, 2010
No mention of the reduced 8/16 bit code sizes, except in title.

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.