TriQuint Wins Chipset Reference Design to Deliver Gigabit Wi-Fi for Whole-Home HD Video Streaming & Other Demanding Multimedia Applications

A leading chipset supplier selects TriQuint’s new 5GHz WLAN modules to power the industry’s fastest 4x4 MU-MIMO 802.11ac Wi-Fi technology

HILLSBORO, Ore. — (BUSINESS WIRE) — May 19, 2014 — TriQuint Semiconductor, Inc. (NASDAQ: TQNT), a leading RF solutions supplier and technology innovator, today revealed that a leading chipset provider has selected its two new high-performance 5GHz WLAN front-end modules (FEMs) for the industry’s fastest commercially available 4x4 MU-MIMO 802.11ac chipset. With almost 2Gbps total throughput, the chipset streams flawless, carrier-grade IPTV to multiple devices in full 1080p or 4K Ultra HD resolution. TriQuint’s modules provide the improved linearity, power consumption and thermal performance critical for delivering high-quality HD video in Wi-Fi set-top boxes and media gateways.

TriQuint also launched a family of three high-performance filters to solve challenging Wi-Fi / LTE interference issues. Utilizing TriQuint’s bulk acoustic wave (BAW) technology, these advanced filters enable customers to extend Wi-Fi ranges while meeting stringent spectrum regulations worldwide. TriQuint has already secured multiple design wins for these filters in Wi-Fi access points, home media gateways and automotive infotainment markets.

“As demand for high-bandwidth Wi-Fi connectivity grows, our customers and chipset partners count on TriQuint to solve the toughest system challenges so they can deliver best-in-class wireless broadband capabilities,” said James Klein, Vice President for Infrastructure and Defense Products. “TriQuint continues to drive WLAN innovation and capture design wins for its high-performance BAW filters in several applications. We’re leveraging our broad in-house RF technology portfolio and integration expertise to deliver products for the fast-growing WLAN infrastructure connectivity market.”

According to a recent market report, shipments of consumer and enterprise WLAN access points will reach 170 million and 25 million respectively at the end of 2014. As new devices are rolled out with the faster 802.11ac Wi-Fi standard, sales are rapidly accelerating: 802.11ac devices are expected to represent 45% of consumer Wi-Fi equipment shipments at the end of 2014.*

Product Details

Note: All products are currently shipping

Part #   Description   Bands   Size (mm)   Key Features

TQP8080

  5GHz WLAN Front End Module with PA + Pdet, SP2T SW & LNA   802.11a/n/ac Wi-Fi   2.5 x 2.5 x 0.4  
  • Designed for high-throughput 802.11a/n/ac applications
  • Compensated bias network for stable performance over temperature and voltage
  • Typ. Pout (+25C, VDD=+5V) = 18dBm, EVM=1.8%, 802.11ac/MCS9/HT40
  • Typ. Pout (+25C, VDD=+5.0V) = 20dBm, EVM=3.0%, 802.11n/MCS7
  • Meets rigorous automotive reliability based on AEC-Q200 standard

TQL1600

  5GHz WLAN Front End Module with SPDT SW & LNA   802.11a/n/ac Wi-Fi   2.5 x 2.5 x 0.45  
  • Industry’s first 5GHz WLAN FEM in a 2x4 MIMO configuration
  • Optimized for 802.11a/n/ac applications
  • Combine with discrete high-power PA for simplified RF front end
  • Compensated bias network for stable performance over temperature and voltage

885062

  2.4GHz WLAN / LTE Coexistence Filter with advanced BAW technology   802.11a/n/ac Wi-Fi Bandpass   1.4 x 1.2 x 0.46  
  • Meets rigorous automotive reliability based on AEC-Q200 Standard
  • Superior rejection in adjacent LTE bands B38 / B40

885070

  2.4GHz WLAN / LTE Coexistence Band-edge Filter with advanced BAW technology   802.11a/n/ac Wi-Fi Bandpass   1.7 x 1.3 x 0.46  
  • First BAW filter to provide guaranteed band-edge rejection in restricted FCC bands at 2390MHz & 2483.5MHz
  • Market-leading insertion loss and out-of-band rejection enables higher data rates over longer ranges than other solutions
  • Replaces expensive ceramic blocks and reduces board area by ~20x
  • Extended temperature performance over -40 to 95º F

885071

  2.4GHz WLAN / LTE Coexistence Filter with advanced BAW technology   802.11a/n/ac Wi-Fi Bandpass   1.4 x 1.2 x 0.46  
  • Extremely steep skirts for low loss in the Wi-Fi and high band-edge and near-in rejection
  • Industry-leading power handling to transmit over longer distances
  • Superior rejection in adjacent LTE bands B7 / B41
  • Extended temperature performance over -40 to 95º F

1 | 2  Next Page »
Featured Video
Jobs
Senior Principal Software Engineer for Autodesk at San Francisco, California
Machine Learning Engineer 3D Geometry/ Multi-Modal for Autodesk at San Francisco, California
Principal Engineer for Autodesk at San Francisco, California
Manufacturing Test Engineer for Google at Prague, Czechia, Czech Republic
Mechanical Manufacturing Engineering Manager for Google at Sunnyvale, California
Mechanical Engineer 2 for Lam Research at Fremont, California
Upcoming Events
Digital Twins 2024 at the Gaylord National Resort & Convention Center in, MD. National Harbor MD - Dec 9 - 11, 2024
Commercial UAV Expo 2025 at Amsterdam Netherlands - Apr 8 - 10, 2025
Commercial UAV Expo 2025 at RAI Amsterdam Amsterdam Netherlands - Apr 8 - 11, 2025
BI2025 - 13th Annual Building Innovation Conference at Ritz-Carlton Tysons Corner McLean VA - May 19 - 21, 2025



© 2024 Internet Business Systems, Inc.
670 Aberdeen Way, Milpitas, CA 95035
+1 (408) 882-6554 — Contact Us, or visit our other sites:
TechJobsCafe - Technical Jobs and Resumes EDACafe - Electronic Design Automation GISCafe - Geographical Information Services  MCADCafe - Mechanical Design and Engineering ShareCG - Share Computer Graphic (CG) Animation, 3D Art and 3D Models
  Privacy PolicyAdvertise