QM77001E

Solving Network Congestion with Carrier Aggregation High-performance RF solutions from Qorvo® enable carrier aggregation Carrier Aggregation Explained Mobile network carriers and manufacturers are challenged with large data uploads and downloads. With the increase in video and social media content, the challenge has increased exponentially. Enter carrier aggregation (CA); a method used to address this challenge in the mobile ecosystem. Up to 20MHz LTE Carrier 1 Carrier Aggregated Data Pipe Up to 20MHz LTE Carrier 2 Up to 100MHz Up to 20MHz LTE Carrier 3 eNodeB Carrier aggregation combines multiple LTE component carriers to create higher-bandwidth services CA is a technique used to combine multiple LTE carrier signals to increase data rates and improve network performance. CA allows increased data rates and improved network performance in the uplink, downlink or both. In the table below describing LTE category downlink bandwidths and data rates, any bandwidth above 20MHz requires at least 2 component carriers (CC), above 40MHz requires at least 3 CC and above 60MHz requires at least 4 CC. Commercial LTE networks started with category 3 and 4 devices supporting 100 to 150Mbps with continuous 20MHz spectrum. As shown below, category 11/12 will bring 600Mbps during 2016, with expected rates of 1Gbps in the future. Aggregated DL BW DL Data Rate Modem Class 10MHz 75Mbps 15MHz 100Mbps LTE Category 3 450Mbps 20MHz 150Mbps LTE Category 4 3CA 2x2 MIMO 185Mbps 30MHz 225Mbps 40MHz 300Mbps 50MHz 375Mbps 60MHz 450Mbps LTE Category 9/10 80MHz 600Mbps LTE Category 11/12 Mbps 25MHz 1Gbps 600Mbps 300Mbps 20+20MHz 2x2 MIMO 150Mbps LTE Category 6/7 • Above assumes 64QAM in the downlink 4CA 2x2 MIMO Cat 11/12 Cat 9 Cat 6 10+10MHz 2x2 MIMO 2013 2014 2015 2016 DataCarrier Rate Evolution in Downlink Carrier aggregation data ratewith evolution forAggregation downlink • The scaling in data rate between 64QAM and 256QAM is a factor of 1.33 (8 bit symbol versus 6 bit symbol) CA Design Challenges and Qorvo’s Response Device Power Consumption CA increases device power consumption during large downloads. Large file download speeds increase at the cost of battery life. Qorvo addresses this challenge by providing filters and switches with low insertion loss and front-end modules with low current consumption and high linearity. Isolation/Cross-Isolation/Attenuation in Multiplexer Filters CA creates a higher probability of interferences. Multiband signals can interfere with each other due to insufficient filter attenuation. System desense can occur when isolation or cross-isolation between the Tx and Rx paths is insufficient, creating a scenario where the sensitivity of the receiver is degraded. Device Current Consumption (mA) With CA Without CA Time Large Data Transfer CA increases device power consumption during large downloads Antenna B1 Tx PA Isolation B1 Rx LNA Cross-Isolation B3 Tx Qorvo’s LowDriftTM BAW technology is ideally suited to optimize isolation and attenuation performance across bands to help designers mitigate these challenges. PA Isolation B3 Rx LNA Multiplexer Band 1 & 3 Band 1 + 3 multiplexer requires high isolation between Tx and Rx ports 2 qorvo.com Insertion Loss & Isolation in Diversity and Antenna Switch Modules Switches require ultra-high linearity and low insertion loss in a CA application. Any increase in insertion loss may result in an increase in system noise figure in the receiver path and reduces overall PA efficiency, reducing battery life and device signal range. Mobile devices feature high-speed up/down links to provide video and data. Receiver sensitivity can be affected by noise, which can affect signal reception. This noise can cause system desense. High switch isolation minimizes interference, leakage or desense from one port to the other. 2nd or 3rd harmonics can interfere with another frequency band due to insufficient isolation. In the figure to the right, B17’s uplink 3rd harmonic interferes with B4 downlink. High switch isolation is required to mitigate this situation. Antenna Rx B4 Tx Isolation Rx B17 Tx Duplexer Switch High switch isolation minimizes interference, leakage and desense 3rd Harmonic Qorvo switch technology is optimized for low insertion loss, high isolation and high power handling capability. These attributes along with wideband frequency coverage and a large portfolio breadth make Qorvo the one stop shop for CA switch applications. PA – Linearity in the Radio Environment Two or more component carriers in uplink CA is a major challenge. Mobile device designers must reduce harmonics, as well as intermodulation and cross-modulation products to meet stringent wireless regulatory standards. Therefore, the PA configuration must be tuned for very high linearity, even in a backed-off state. The tradeoff of linearity comes at the expense of efficiency and battery life. These tradeoffs as well as adjacent channel leakage, spurious emissions, sensitivity, selectivity and intermodulation all must be considered. Although discrete designs could provide some benefit, this approach comes at the expense of higher loss and longer development times. Using optimized Qorvo front-end module products like RF FlexTM, RF FusionTM and MMPA modules with best-in-class efficiency and linearity provides the performance and ease of use required for CA applications. Uplink B17 Downlink B17 Downlink B4 B17’s uplink 3rd harmonic interferes with B4 downlink ACLR (Linearity) Vs. Battery Life eNodeB Pout Tradeoff between linearity, efficiency and battery life qorvo.com 3 © Qorvo, Inc. | 2-2016 Qorvo’s Product Response Qorvo’s continuous innovation of its core RF solutions such as filters, amplifiers, switches and antenna tuning devices enables our customers to meet new design requirements like CA. Multiplexer Solutions Bands Part Number Description Size (mm) Bands 39 and 41 Wideband QM25001 Tx/Rx TDD Multiplexer 2.5x2.0 Bands 39 and 41 Narrow QM25011 Tx/Rx TDD Multiplexer 1.7x1.3 Bands 39 and 41 Narrow QM25012 DRx TDD Multiplexer 1.5x1.1 Band 1 and 3 QM25005 Tx/Rx FDD Multiplexer 3.0x2.0 Part Number Description Band Coverage B25, B66, B3, B7, B39 QM63001A Diversity Module with Diplexed B25+B66 to Enable CA 4.0x2.7 B1, B3, B25, B7, B39 QM63001 Diversity Module with Diplexed B1+B3 to Enable CA 4.0x2.7 Part Number Description Band Coverage SP4T + SP4T RF1680 Diversity Rx Switch Up to 3.8GHz SP6T + SP6T RF1681 Diversity Rx Switch Up to 3.8GHz SP9T + SP7T RF1682 Diversity Rx Switch Up to 3.8GHz SP6T + SP6T RF1683 Diversity Rx Switch with Integrated Diplexer Up to 3.8GHz SP7T + SP7T RF1890A Antenna Switch Module Up to 2.7GHz SP12T + SP9T RF1891 Antenna Switch Module Up to 2.7GHz Diversity Rx Modules Function Switch Solutions Function Integrated RFFE Modules Function Part Number Description B7, B30, B38, B40, B41 QM75001 RF Fusion HB Module (TDD and FDD) B7, B40, B41 QM78064 RF Fusion HB Module (TDD and FDD) Integrated B1, B2, B5, B8/Supporting UMTS/HSPA + LTE Bands RF7501C Integrated High-Performance Multi-Band PA Integrated B1, B2 (25), B5, B8/Supporting UMTS/HSPA + LTE Bands QM77003 Multi-Mode/Multi-Band GSM/EDGE/WCDMA/LTE Transmit Receive Module Integrated B1, B2, B5, B8/Supporting UMTS/HSPA + LTE Bands QM77001E Multi-Mode/Multi-Band GSM/EDGE/WCDMA/LTE Transmit Receive Module Transmit Modules Function Part Number Description Band Coverage SP9T + SP7T RF5228 RF Flex Tx Module (ASM + Diplexer + 2.5 GPa) >2.7GHz SP5T + SP7T with Dual (SP4T) Antenna Switch RF5238 RF Flex Tx Module (ASM + Diplexer + 2.5 GPa) >2.7GHz Qorvo and all around you are registered trademarks of Qorvo, Inc. in the U.S. and in other countries. www.qorvo.com info-mobile@qorvo.com