QPQ1287 TDD B40 BAW Band Pass Filter (100MHz) Product Overview The QPQ1287 is a high performance Bulk Acoustic Wave (BAW) filter designed to meet the strict LTE rejection requirements for use in B40, Full Band 2300-2400 MHz. The QPQ1287 is specifically designed to meet the high performance expectations of insertion loss and rejection for LTE TDD systems under all operating conditions. 3 Pad 2.0mmx1.6mmx0.73mm SMT Package The QPQ1287 is manufactured using Qorvos world class A BAW technology and is housed in a compact, industry Key Features standard 2.0mmx1.6mmx0.73 package that is lead free and RoHS complaint. S Highly Selective BAW Filter Low Insertion Loss Over Full Bandwidth and Operating The QPQ1287 is part of Qorvos extensive portfolio of RF Conditions BAW and SAW filters. Performance over 20 to +90C Excellent Wi-Fi Rejection Single-Ended Operation Functional Block Diagram Internally Matched to 50 Ohms High Power Handling for Small Cells PIN 1 Location Small Size: 2.00x1.60x0.73mm RoHS compliant (2002/95/EC), Pb-free P RF In A 1 b Applications S Band 40 TD-LTE 23002400 MHz Band Small Cells Base Stations RF Out A 2 3 Pin Configuration - Single Ended Pin No. Label TOPxRAY TOPxRAY PINS 1 RF Input VIEW VIEW 2 RF Output Ordering Information 3 Ground Part No. Description QPQ1287SB Sample Bag with 5 pieces QPQ1287SR Sample Reel with 100 pieces QPQ1287TR7 7 Taped Reel with 2500 pieces TQQ6421 QPQ1287EVB Assembled Evaluation Board 01 UNIT, 01.60mm X 02.00mm, 7 LAYER, 0.40mm MOLD CAP, TOPxRAY 1:1 A3H TOPxRAY PINS Data Sheet June 21, 2017 Subject to change without notice 1 of 9 www.qorvo.com QPQ1287 TDD B40 BAW Band Pass Filter (100MHz) (1) Absolute Maximum Ratings Life Test Parameter Rating Conditions Rating Storage Temperature 40 to +125C PIN=+29 dBm, Temp.=+90C, >87600 hrs. (2) FD-LTE, 5MHz, 16QAM, PAR=8dB Operating Temperature 40 to +105C Notes: 1. Operation of this device outside the parameter ranges given may cause permanent damage. 2. Device will function but it is not guaranteed to meet electrical specifications (1) Electrical Specifications Test conditions unless otherwise specified. Temperature Range: -20 to +90 C (1, 2) (6) Parameter Conditions Min Typ Max Unit 2300 2310 MHz - 3.1 3.9 (2) Average Insertion Loss 2310 2380 MHz - 2.2 3.0 dB 2380 2390 MHz - 2.2 3.2 2390 2400 MHz - 2.7 3.9 Input / Output VSWR 2300.0 2400.0 MHz - 2.0:1 2.25:1 - Input / Output Return Loss 2300.0 2400.0 MHz 8.3 9.3 - dB (3) Amplitude Variation 2300.0 2400.0 MHz - 1.2 2.5 dB (over any 10 MHz window) 2305.0 2395.0 MHz - 0.8 1.5 (4) Group Delay Variation 2300.0 2400.0 MHz - 9.1 25 ns p-p (over any 10 MHz window) (4) Phase Ripple 2300.0 2400.0 MHz - 4.2 20 Deg. p-p (over any 10 MHz window) 2401 2423 MHz (Channel 1) 5 16 - 2406 2428 MHz (Channel 2) 10 28 - 2411 2433 MHz (Channel 3) 20 40 - (5) Attenuation in WIFI Band 2416 2463 MHz (Channel 49) 45 54 - 2446 2468 MHz (Channel 10) 45 51 - dB (Average per Channel using 802.11b Spectrum mask) 2451 2473 MHz (Channel 11) 45 49 - 2456 2478 MHz (Channel 12) 43 48 - 2461 2483 MHz (Channel 13) 43 47 - 2473 2495 MHz (Channel 14) 40 45 - 10 766 MHz 50 54 - 869 894 MHz 47 50 - 1150 1195 MHz 40 44 - (7) 1574.41576.4 MHz 35 38 - Attenuation 1710 2170 MHz 34 36 - dB 2500 2690 MHz 35 38 - 3400 3500 MHz 30 36 - 4600 4800 MHz 27 33 - 5150 5850 MHz 23 27 - 6000 8000 MHz 25 30 - nd (8) 2 Harmonic Pin = +29 dBm (23002400 MHz) 55 65 - dBc (9) Source/Load Impedance Single-ended - 50 - Notes: 1. All specifications are based on the QORVO schematic for the main reference design shown on page 5. 2. Average Insertion Loss is calculated by averaging S21 in dB for each measured point within defined frequency range . 3. Amplitude Variation is defined as the difference between the lowest loss and the highest loss within 10 MHz channels. 4. This is defined as the worst difference between a peak and adjacent valley within defined frequency points. 5. WIFI attenuation is calculated by averaging S21 in dB referenced to ZERO dB for each measured point within defined frequency range. 6. Typical values are an average of 20 pieces measured at a temperature of +25C. 7. Attenuation is referenced to zero dB 8. Non-Linear Response is not the same for Pin 2 input. 9. This is the optimum impedance in order to achieve the performance shown. Data Sheet June 21, 2017 Subject to change without notice 2 of 9 www.qorvo.com