TQM676021 Data Sheet WCDMA / HSUPA Band I Tritium III PA Duplexer ModuleTM Features Functional Block Diagram RFIN Match Power Detector ANT RXOUT VDET VMODE VBA VCCBIAS VCC1 VCC2 VEN Bias Control Product Description The Tritium III PADTM is an integrated 3V Linear Power Amplifier, Duplexer and Transmit Filter Module including a highly accurate Output Power Detector designed for mobile UMTS handset applications, supporting HSUPA operation with transmission data-rates up to 10Mb/s. It features 2 output power modes, additional continuous bias in low power mode, low off and standby currents, and a separate pin for module enable. RF input and output matching is included within the module; therefore, minimal external circuitry is required. The Tritium III PADTM gives excellent RF performance with low current consumption resulting in longer talk times in portable applications. The tiny 7x4x1.1 mm surface mount package is ideal for new generation slim, small and light phones. Frequency Linear POUT(HSUPA) high power mode Applications Min Typ 1922.4 25..2 Max Units 1977.6 MHz 3G UMTS Handsets and Data-Cards Package Style Electrical Specifications Parameter Handset Tritium III PADTM (PA-Duplexer) Module for UMTS Band I (IMT2100 band) Specified for HSDPA Modulation (HSUPA capable) Integrates Power Amplifier, Highly Accurate Output Power Detector, Transmit Filter and Duplexer No Regulated Voltage Required Separate `Module Enable' Pin All RF Ports Matched to 50 Low Current Consumption: - 2 Power Modes - Continuous Bias in Low Power Mode - Extremely Low Idle Current (15mA typ.) in Low Power Mode Compatible for Low Collector Voltage Operation with DC-DC-Converters Compact 7 x 4 x 1.1 mm 16-Pin LGA Package dBm Maximum current high power mode 450 mA Idle current low power mode 15 mA ACPR (HSUPA) 5 MHz -45 dBc ALPR (HSUPA) 10 MHz -55 dBc Ant-to-RX Insertion Loss 2 dB Test Conditions: VCC1 = VCC2= 3.4 V, Ta = 25C Data Sheet For additional information and latest specifications, see our website: www.triquint.com Revision G, Jan 31, 2012 1