TQQ1231 LTE D % Q G G D % D GQ 8 Q O N L S Q BAW O L H S H U Applications x LTE Band 1 Band Uplink Diplexer Infrastructure x Base Station x General Purpose Wireless 6 Pin 3 x 3 mm leadless SMT Package Product Features Functional Block Diagram x 60 MHz Bandwidth Band 1 x MHz Bandwidth Band 3 GND 1 6 B3 Out x High Attenuation x Low Loss ANT In 2 5 GND x No External Matching Required x Single Input, Dual Output Operation 3 4 B1 Out GND x Small Size: 3.00 x 3.00 x 1.02 mm x Surface Mount Device Top View x RoHS Compliant, Pb-Free General Description Pin Configuration The TQQ1231 is an exceptionally high performance BAW Pin No. Label Diplexer R U I / 7 ( D Q G % D Q G % N Q X L S O This filter is 2 ANT In V H K G R X Q L D F W S R D P F x 3 mm package for base station 4 B1 Out applications. 6 B3 Out Low insertion loss, coupled with high attenuation makes 3, GND this filter an ideal choice for uplink RF filtering needs. The TQQ1231 is part of TriQuints extensive portfolio of RF BAW and SAW filters. Ordering Information Part No. Description TQQ1231 D Q G % D Q G % BAW Diplexer TQQ1231-EVB Evaluation Board U D 7 G G H Q L 6W D 5V 2500 pieces on a 7 reel Datasheet: Rev E 09-25-14 - 1 of 10 - Disclaimer: Subject to change without notice U L 7 L X 4 W Q www.triquint.com TQQ1231 LTE D % Q G GD % D GQ 8 Q O N L S Q BAW O L H S H U Absolute Maximum Ratings Recommended Operating Conditions Parameter Rating Parameter Min Typ Max Units Storage Temperature to +105& T 40 +105 C CASE RF Input Power Electrical specifications are measured at specified test (CW, +55 C for 10,000 hours) +30 dBm conditions. V U K R X R U I & : & +33 dBm V U R X K R U I & : & +30 dBm 7 7 ) 0 U V H D R U I & : & +27 dBm Operation of this device outside the parameter ranges given above may cause permanent damage. Operation W D & is possible but with lower MTTF. (1,2,3) Electrical Specifications Band 3 Operating Temperature Range: 0 to + & (4) Parameter Conditions Min Max Units Typ Passband 1710 - 1785 MHz Insertion Loss + 0 - 3.1 3.8 dB + 0 (+25& ) - 1.2 1.6 dB (5) Amplitude Ripple + 0 ( R W 5& ) - 1.2 2.2 dB 1710 1785 MHz - 25 40 ns (5) Group Delay Variation Any 5 MHz window in passband - 9 20 ns - Input 2.4:1 2.8:1 - VSWR Output - 2.4:1 2.8:1 - 0.9 720 MHz 30 44 - 720 1670 MHz 27 37 - 1670 1690 MHz ( 0 to +25 C) 12 39 - 1670 1690 MHz (+25 to +95 C) 10 39 - 1805 R W + 0 C) 40 55 - 1805 R W + 0 C) 35 55 - 1825 1880 MHz 45 55 - (6) Attenuation 1880 1920 MHz 38 45 - dB 1920 1980 MHz 38 42 - 1980 2110 MHz 33 36 - 2110 2170 MHz 32 39 - 2170 2660 MHz 20 22 - 2660 2690 MHz 24 28 - 2690 3600 MHz 10 24 - 3600 5000 MHz 10 25 - (7) - 50 - Ohms F S H P H G D Q , S X W 2 X W Q S X W , Notes: 1. All specifications are based on the TriQuint schematic for the main reference design. 2. Production test is performed at room temperature to a guard-banded specification to ensure electrical compliance over temperature. 3. Electrical margin has been built into the design to account for variation due to temperature drift and manufacturing tolerances. 4. Typical values are based on average measure UH W W X UD W V R Q H D UR P PH PS W H & ) unless otherwise noted. 5. This is defined as the difference between the maximum peak to adjacent valley amplitude change within the specified band. 6. W G % R UH FH I G H Q H 5 7. This is the optimum impedance in order to achieve the performance shown. Datasheet: Rev E 09-25-14 - 2 of 10 - Disclaimer: Subject to change without notice U L 7 L X 4 W Q www.triquint.com