QPB9337 Dual-Channel Switch LNA Module Product Overview The QPB9337 is a highly integrated front-end module targeted for TDD base stations. The switch LNA module integrates a two-stage LNA and a high power switch in a dual channel configuration. The second stage LNA has integrated bypass mode. Power down and bypass capability for the LNAs can be controlled with control pins on the module. 32 Pin 6mmx6mm leadless SMT Package The QPB9337 can be utilized across the 2.33.8GHz range to provide 1.3dB noise figure for operation in the receive mode at 3.5 GHz and 0.8dB insertion loss in the Key Features transmit mode. The LNAs utilize Qorvos high performance 2.3 - 3.8 GHz Frequency Range E-pHEMT process while the SOI technology based switch supports input RF power signals of 8W average power. The 1.3 dB Noise Figure product only needs a +5V supply to operate the high power Second LNA with Bypass mode switch and the LNAs. Pin (Tx mode): 8W Pavg 35.6 dB Gain (Rx mode, High Gain state) The QPB9337 is packaged in a RoHS-compliant, compact 18 dB Gain (RX mode, Low Gain state) 6mm x 6mm surface-mount leadless package. The switch +31 dBm OIP3 (Rx mode, High Gain state) LNA module is targeted for wireless infrastructure applications configured for TDD-based MIMO 1.8V Logic Compatibility architectures. The module can be used for next generation 3 to 5V Operational for Switch and LNAs 5G or pre-5G solutions or small cell base-station applications. Functional Block Diagram Applications Wireless Infrastructure Small Cell BTS Pre-5G / 5G Massive MIMO systems TDD-based architectures Ordering Information Part No. Description QPB9337TR13 2500 pcs on a 13 reel QPB9337EVB-01 Evaluation Board Top View Datasheet, April 23, 2019 Subject to change without notice 1 of 13 www.qorvo.com QPB9337 Dual-Channel Switch LNA Module Absolute Maximum Ratings Recommended Operating Conditions Parameter Rating Parameter Min Typ Max Units Storage Temperature -65 to +150C LNA Voltage +3 +5 +5.25 V Supply Voltage Switch V +3 +5 +5.5 V DD +6 V (Pins 1, 8, 11, 19, 22, 30) T 40 +105 C CASE Pin at ANT, Rx mode, Average 19 dBm (8 dB PAR, 100% Duty Cycle, 105C) (1) Tj Rx Mode +190 C Pin at ANT, Tx mode, Average 39 dBm (1) Tj Tx Mode Pin 5W at max T +125 C (8dB PAR, 88% Duty Cycle, 8.8ms max, 105C) CASE Operation of this device outside the parameter ranges given Notes: above may cause permanent damage. 1. MTTF > 1e6 hours Electrical specifications are measured at specified test conditions. Specifications are not guaranteed over all recommended operating conditions. Electrical Specifications (1) Parameter Conditions Min Typ Max Units Operational Frequency Range 2300 3800 MHz Test Frequency 3500 MHz Rx mode, High Gain state 34 35.6 39 dB (2) Gain Rx mode, Low Gain state 17 18 22 dB Gain Flatness Rx mode, Any 100 MHz BW within band 0.3 dB (2) Noise Figure Rx mode, High Gain state 1.3 1.55 dB Rx mode, High Gain state 27 31 dBm (3) Output IP3 Rx mode, Low Gain state 24 29 dBm Rx mode, High Gain state 18 19 dBm (2) OP1dB Rx mode, Low Gain state 10 12 dBm (2) Insertion Loss Tx mode 0.8 1.5 dB VSWR ANT Port, and TX Port 1.5:1 2.0:1 -- Switch Isolation ANT to TX in Rx mode 25 dB Switch Isolation ANT to RX in Tx mode 40 dB Rx mode, High Gain state 39 dB Channel Isolation Tx mode 40 dB LNA Supply Voltage +5 V Rx mode, High gain state, Per channel 113 150 mA LNA Current Rx mode, Low gain state, Per channel 54 75 mA LNA Shutdown Current Per channel 9 mA V 0 +0.63 V LNA and Switch Control Voltage LOW (Pins 9, 12, 29 and 32) V VHIGH +1.17 VDD +0.3 Switch Current Tx mode 0.50 mA ANT-TX ON 0.90 s ANT-TX OFF 0.50 s Switching Time ANT-RX ON 1.00 s ANT-RX OFF 0.05 s Tx Mode 22.7 C/W Thermal Resistance Rx High Gain Mode 23.0 C/W Notes: 1. Test conditions unless otherwise noted: Temp=+25C, 50 system. 2. Trace loss de-embedded. 3. Pout/tone = +3dBm, f = 1MHz Datasheet, April 23, 2019 Subject to change without notice 2 of 13 www.qorvo.com