856096 1090 MHz Filter Applications For cable tuner applications SMP-15, 3.8 x 3.8 x 1.27mm Product Features Functional Block Diagram Usable bandwidth 10MHz Gnd Low loss High attenuation 8 Input + 7 Gnd Balanced operation 1 Small size: 3.8 x 3.8 x 1.27mm Output - Input - 2 6 Ceramic Surface Mount Package (SMP) Hermetically sealed 5 Output + 3 Gnd RoHS (2002/95/EC) compliant, Pb-free P 4 b Gnd Top View General Description Pin Configuration Pin No. Label The 856096 is a high-performance IF SAW filter with a 1 Input+ center frequency of 1090 MHz and a usable bandwidth of 10 MHz 2 Input 5 Output + It features low loss with excellent attenuation, and is 6 Output designed to be used with a balanced input and output. 3,4,7,8 Ground Ordering Information Part No. Description 856096 Packaged Part 856096-EVB Evaluation board Standard T/R size = 4000 units/reel Data Sheet: Rev. C 14-06-16 Disclaimer: Subject to change without notice - 1 of 6 - 2014 TriQuint www.triquint.com 856096 1090 MHz Filter Absolute Maximum Ratings 1. Operation of this device outside the parameter ranges given Parameter Rating may cause permanent damage. (1) Storage Temperature -40 to +85C 2. Specifications are not guaranteed over all operable (2) conditions. Operable Temperature -40 to +85C (1) Electrical Specifications (2) Test conditions unless otherwise noted: Temperature Range -40 to +85C (3) (4) Parameter Conditions Min Typical Max Units Center Frequency - 1090 - MHz (5) Maximum Insertion Loss 10851095 MHz - 5.6 6.3 dB (6) Lower 1.25dB Band Edge - 1075 1085 MHz (6) Upper 1.25dB Band Edge 1095 1103 - (8) Amplitude Variation 10851095 MHz - 0.3 1.25 dB p-p (8) Group Delay Ripple 10851095 MHz - 4.5 20 ns p-p 500 1006MHz 55 62 - 1006 1050MHz 50 52 - (7) Absolute Attenuation dB 1140 1160MHz 50 62 - 11601600 55 58 - (9) Source/Load Impedance Balanced - 50 - Notes: 1. All specifications are based on the TriQuint schematic reference design shown on page 3. 2. In production, devices will be tested 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 the variations due to temperature drift and manufacturing tolerances. 4. Typical values are based on average measurements at room temperature. 5. Referenced to maximum loss within the specified frequency points. 6. Relative to insertion loss at center frequency. 7. Absolute attenuation measurements are referenced to zero dB. 8. Total variation over the defined frequency range. 9. This is the optimum impedance in order to achieve the performance shown Data Sheet: Rev. C 14-06-16 Disclaimer: Subject to change without notice - 2 of 6 - 2014 TriQuint www.triquint.com