• WLAN Solutions: TNETW1130 Converged Single-Chip MAC and Baseband Processor for IEE 802.11 a/b/g Product Bulletin
  (tnetw1130_prod_bulletin.pdf, 108 KB)
  03 Aug 2003 Download

For system-level WLAN designs targeted at true multimode operation, the TNETW1130 media access controller/baseband processor delivers a complete and converged single-chip solution. It supports full 54 megabits per second (Mbps) data-transfer speeds and all 802.11a/b/g WLAN standards.

OEM and ODM design teams can choose the TNETW130 with complete confidence in standards compliance. The TNETW1130 is a key part of the Wi-Fi Alliance’s 802.11g testing program.

• The TNETW1130 is used to certify interoperability of Wi-Fi® products meeting the IEEE 802.11g standard
• All products submitted for 802.11g Wi-Fi certification will be tested against TNETW1130-based reference designs. 
• The same reference designs will be used in the certification program that ensures interoperability in 802.11b and 802.11g mixed-mode networks.

Low Power – High Performance

TNETW1130 has also been optimized for low power consumption, particularly by employing techniques TI has pioneered in 802.11 standby power modes. For dual-band 2.4-GHz and 4.9 to 5.9-GHz operations supporting 802.11b, 802.11g and 802.11a, the TNETW1130 u tilizes a high performance single-chip radio frequency (RF) solution that includes an external power amplifier to achieve lower costs.

Key Features

• True dual-band 54 Mbps data in the 2.4-GHz and 5.2-GHz U-NII bands
• Hardware-accelerated Advanced Encryption Standard (AES) for mandatory (AES-CCMP)
• Wi-Fi Compliant 802.11g operation
• Compatible with all versions and additions to the 802.11 standard including draft standards
• Field-programmable architecture to supports standard changes
• Seamless interoperability and automatic fallback operation in the 2.4-GHz band between the higher-speed 802.11g and established 802.11b modes
• Auto-Band™ feature automatically selects between the 5.2-GHz and the 2.4-GHz bands and modulations based on user profile configurations
• ELP™ — Optimized low power consumption for maximum battery life
• Optional 802.11g+ mode provides 50% greater throughput over competitive 802.11g solutions