Press Release Summary:
Designed to reduce development time in wireless infrastructure (WI) applications, TSW3000 evaluation module combines 16-bit, 500 MSPS interpolating DAC; clock synthesizer and jitter cleaner; direct quadrature modulator; and monolithic PLL frequency synthesizer. RF transmit signal chain demonstration kit provides complete RF transmitter from digital baseband to analog RF, addressing the RF transmission needs of wireless base station or fixed wireless access equipment.
Original Press Release:
High-Performance RF Transmit Signal Chain Demonstration Kit from TI Speeds Wireless Infrastructure Designs
DALLAS (Sept. 28, 2005) -- Texas Instruments Incorporated (TI) (NYSE: TXN) introduced today an easy-to-use radio frequency (RF) transmit signal chain demonstration kit that speeds time to market by cutting development time, risk and cost in wireless infrastructure (WI) applications. The demonstration kit provides a complete RF transmitter from digital baseband to analog RF, addressing the RF transmission needs of wireless base station or fixed wireless access equipment across all of today's wireless communication standards. (See www.ti.com/sc05200 for more information.)
The TSW3000 evaluation module (EVM) combines the DAC5687 16-bit, 500-MSPS interpolating digital-to-analog converter (DAC); the CDCM7005 low-phase-noise, low-jitter clock synthesizer and jitter cleaner; the TRF3702 low-noise direct quadrature modulator; and the TRF3750 high-performance, monolithic phase-locked loop (PLL) frequency synthesizer. Designers can use the kit as a working high-performance transmitter front-end chipset, as a tool to evaluate individual components' performance in an actual transmitter or as a means to verify system performance at the RF signal without incurring additional engineering costs.
The chipset minimizes noise and distortion, which are key performance issues in WI applications. When interfaced with the TRF3702 in-phase/quadrature (I/Q) modulator, the IQ compensation feature of the DAC5687 allows optimization of phase, gain and DC offset to maximize carrier suppression and sideband rejection, while maximizing power to the modulator. This, in turn, results in an excellent adjacent channel power ratio (ACPR) of 71 dB in a single-carrier WCDMA application at 30.72 MHz intermediate frequency (IF) with a RF local oscillator (LO) of 2.14 GHz. In a two-carrier WCDMA application, the chipset delivers an ACPR of 65 dB at 92.16 MHz IF with a RF LO of 2.14 GHz. In addition, the TSW3000 features I/Q modulation from 1.5 GHz to 2.5 GHz.
The TSW3000 provides a design solution that would otherwise cost WI base station manufacturers thousands of dollars in parts and labor and several months of design time. In addition, since all the components are manufactured and supported by TI, designers who use the kit as the basis for a reference design can enjoy one-stop shopping and take full advantage of TI's systems expertise and complete array of products, tools and technical support for high-speed designs.
The TSW3000 joins other TI tools and solutions for base station designers, including the GC5016 System Evaluation Kit (GC5016SEK) for evaluating TI's wideband quad digital down-converter/up-converter, and the TSW1100 data capture card and software for evaluating the company's WI-optimized high-speed analog-to-digital converters.
TI also offers a strong line of high performance, low power digital signal processors optimized for wireless infrastructure applications. TI is the only semiconductor provider to offer a complete signal chain solution, and nine of the top 10 3G base station OEMs use TI technology.
The TSW3000 is available today from TI. The price of $499 includes the EVM, User's Guide, software, termination resistors, datasheet for each component, power supply and parallel port cable.
About Texas Instruments
Texas Instruments Incorporated provides innovative DSP and analog technologies to meet our customers' real world signal processing requirements. In addition to Semiconductor, the company's businesses include Sensors & Controls, and Educational & Productivity Solutions. TI is headquartered in Dallas, Texas, and has manufacturing, design or sales operations in more than 25 countries.
Texas Instruments is traded on the New York Stock Exchange under the symbol TXN. More information is located on the World Wide Web at www.ti.com.
Please refer all reader inquiries to:
Texas Instruments Incorporated
Semiconductor Group, SC-05200
Literature Response Center
14950 FAA Blvd.
Fort Worth, TX 76155