Microwave Engineering Europe - May 2008 - (Page 36)

36 products Expanded FM receiver portfolio features embedded antenna support and claims industry’s smallest footprint Silicon Laboratories has expanded its successful broadcast audio portfolio to include four new FM receivers. These latest additions include full-featured devices with embedded antenna support to enable FM radio reception without an external wired headset and claim to be the industry’s smallest devices for space-constrained applications. Leveraging the company’s proven RF technology, the FM receivers make it easy to add FM functionality to an array of applications from low-cost handsets and MP3 players, where small size and low power are imperative, to standalone FM radios, PCs, PDAs, smart phones and USB FM receivers. The Si4704 and Si4705 incorporate all of the worldclass features found in the company’s CMOS Si4700 FM tuner family and claim to be the industry’s first to support an embedded antenna. The patent-pending tunable resonance circuit incorporated on-chip provides optimal signal reception and excellent sound quality with a short embedded antenna, such as a wire or PCB trace that can be integrated inside the end product casing, enabling FM radio to be QFN package that is easy to assemble and forms robust solder joints without requiring any under fill or mechanical reinforcement. In addition to the small size, the Si4708 and Si4709 offer advanced FM seek algorithms, allowing consumers to more quickly seek and lock to available FM stations. The devices provide excellent selectivity using Silicon Labs’ proven digital low-IF receiver architecture, allowing consumers to listen to more channels with less interference than competing solutions. The Si4709 is the smallest FM receiver in the industry to provide RDS functionality. A full reference board with complete schematics, layout files and a robust software development environment is available to customers to facilitate evaluation and design and dramatically reduce development time compared to competing solutions that require a maze of components, which drives many manufacturers to buy expensive FM modules. Samples of the Si4704, Si4705, Si4708 and Si4709 are available now. www.mwee.com/207402090 added to any portable device without the need for an external headphone cable. This enables a truly wireless music experience for FM recording, clock radios and FM over speaker applications where a headset is not required. It also complements products with integrated Bluetooth® technology by allowing consumers to listen to radio over wireless headsets without having to attach a headphone cable to their portable receiver. In addition, the Si4705 provides a digital audio interface that allows easy recording of FM radio without the need for external analogto-digital converters, saving power, cost and board space. Requiring only 15 mm square of board space, Si4704/05 are layout-compatible with the company’s Si4710/11/12/13 FM transmitter, Si4720/21 FM transceiver and Si4730/31 AM/FM receiver, enabling one common platform among multiple designs. Both devices provide coverage of the expanded worldwide FM frequency band from 64 to 108 MHz. The third-generation Si4708 and Si4709 FM receivers claim to be the industry’s smallest and highest performance FM receivers, reducing required system board space by 44 percent compared to competing solutions to simplify design, save cost and improve manufacturability. These devices require only 8 mm square of board space and are packaged in a 2.5- x 2.5-mm 2.4 GHz ZigBee certified network processors provides engineers complete ZigBee functionality without the complexities of a full ZigBee stack Texas Instruments Incorporated has introduced the first product from the company’s new Z-Accel family of 2.4 GHz ZigBee-certified network processors. The CC2480 provides engineers complete ZigBee functionality without having to learn the complexities of a full ZigBee stack, making it easy to integrate ZigBee into a wide variety of applications, such as home and building automation and industrial monitoring and control, with minimal development effort. The device also allows customers the flexibility to work with any host microcontroller (MCU). Z-Accel is a comprehensive solution where TI’s ZigBee2006 stack, Z-Stack™ software, runs on a ZigBee processor and the application runs on an external MCU. The CC2480 handles all the timingcritical and processing-intensive ZigBee protocol tasks, while leaving the resources of the application MCU free to handle the application. The CC2480 communicates with any MCU via an SPI or UART interface, and it can be combined, for example, with TI’s MPS430 ultra-low power MCUs. The CC2480 targets ZigBee wireless network systems used in home and building automation, industrial monitoring and control, asset tracking, low-power wireless sensor networks, set-top boxes, remote controls, automated meter reading and medical applications. The device supports SimpleAPI, which has only 10 API calls to learn, and features excellent radio performance, low power consumption and an automatic low-power mode in idle periods. www.mwee.com/207402118 Microwave Engineering Europe ● May 2008 ● www.mwee.com http://www.mwee.com/207402090 http://www.mwee.com/207402118 http://www.mwee.com

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Microwave Engineering Europe - May 2008 News Contents Comment Cover Feature: How to Succeed as a GaAs Foundry Wireless Networking: Wireless Coverage Where Everybody WINS Wireless Networking: Achieving Good Coexistence in the 2.4 GHz ISM Band GPS and Satellite: GPS developments: Galileo Moves Forward with Successful Giove-B Satellite Launch — Broadcom Targets AGPS in Mobile Phones and Devices Raising the Bar for the Radio: Making 802.11n Work Reducing Power Consumption in Ultrawideband Chips WiMax Catches Second Test Wave Products Calendar

Microwave Engineering Europe - May 2008

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