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News Release from: Cambridge Consultants | Subject: HSDPA/HSUPA-compatible WCDMA design
Edited by the Electronicstalk Editorial
Team on 29 August 2007
Base station design reduces component
count
The HSDPA/HSUPA-compatible WCDMA design adapts an IC created for low-cost/high-volume handset applications to implement high-specification basestation radio.
Cambridge Consultants has designed a cellular basestation radio based on a consumer-grade handset component, to support picoChip's reference design for the 3G femtocell market The radio extends picoChip's reference design for a 3G home basestation, providing developers with an exceptionally low-cost implementation for a global market that is expected to grow to 100 million units per annum within a few years
This article was originally published on Electronicstalk on 5 Nov 2002 at 8.00am (UK)
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The HSDPA/HSUPA-compatible WCDMA design breaks new ground by adapting an IC created for low-cost/high-volume handset applications to implement the high-specification basestation radio, combined with an architectural split that exploits the very high computational performance available in the picoArray DSP device to perform the baseband and system control functions.
The resulting 3G home basestation design requires just these two major ICs - a bill of materials that meets the aggressive cost targets needed for this mass application.
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Alternative implementations can require more expensive carrier-class radio components, combined with processing cores based on both DSP and FPGA technologies.
The 3G basestation design supports HSDPA and HSUPA (high speed downlink packet access and uplink packet access) data rates of 7Mbit/s and 2Mbit/s respectively.
picoChip awarded the design contract to Cambridge Consultants because the product developer offered experience of designing radios for highly cost sensitive markets such as 2G, ZigBee, DECT and Bluetooth.
"There are numerous radio consultancies out there, but few with a track record in creating designs optimised for low-cost/high-volume consumer applications", says Rupert Baines, picoChip's VP of marketing.
"Cambridge Consultants gave us this skill, backed by the knowledge that our engineering teams work well together - as demonstrated on a successful previous WiMAX project".
"If this application is to succeed, the bill of materials has to be in the same ballpark as a WiFi access point, a market with a supplier base that has a lead of several years in driving down costs", adds Cambridge Consultants' Tim Fowler.
"A novel architectural split gave us the key - allowing us to use an existing consumer IC for the radio".
"We believe that this design could trim a year or more off the time it would normally take OEMs to get the costs of 3G access points down to the point needed for mass roll out".
The design is based on a commercial handset radio IC, and the PC202 picoArray - picoChip's device targeted at high-volume applications.
This latter multi-core DSP incorporates an array of processors, combined with an ARM 926EJ-S processor, and other resources needed to implement a baseband processor including a cryptographic engine and turbo coding logic.
Figures from ABI Research predict that there will be 102 million home basestation, or femtocell, users worldwide by 2011.
The femtocell handles cellular calls locally and traffic is then carried to the operator's core network via broadband connections.
This not only reduces the need for multiple handsets (or expensive 'dual-mode' cellular and WiFi terminals), it also allows network coverage and capacity to be increased in a cost-effective manner, exactly where they are most needed by the end user.
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