885010 2442 GHz BAW Filter Applications WiFi/ ISM notch filter to enable coexistence between WiMAX/LTE/TD-LTE and WiFi/BT/ISM radios Applicable passbands: 2.6 GHz WiMAX/LTE, 2.3 GHz WiMAX/LTE, LTE Bands 7 and 38, TD-LTE Band 40, WCS, WiBro, Indian 2.3GHz 4G band Handsets Portable Hotspots Mobile Routers CSP-1713BT package: 1.7 x 1.3 x 0.46 mm Smart Meters Product Features Functional Block Diagram Rejects 2.4GHz WiFi/ISM bands Low Loss in 25022690 MHz bands: 6 9 8 7 WiMAX/LTE/TD-LTE/Bands 7 and 38 Low Loss in 23002360 MHz bands: 10 5 WiMAX/WCS/WiBro/Band 40/Indian 4G band Industry-leading small size: 1.7 x 1.3 x .46 mm 2 3 Power Handling: +28dBm (ave), +37.5dBm (peak) 4 1 Performance 30C to +85 C Ceramic chip-scale Package (CSP) Hermetically Sealed RoHS compliant, Pb-free General Description Pin Configuration 885010 is a high-performance Bulk Acoustic Wave Pin No. Label (BAW) notch filter designed to reject emissions in the 9 Input WiFi, Bluetooth, and ISM bands, while passing both the 6 Output 2.3GHz and 2.6GHz WiMAX/LTE/TD-LTE bands. 7 AUXI 885010 is specifically designed to enable coexistence of 8 N/C WiFi/BT/ISM and 4G signals within the same device or 1-5, 10 Ground in close proximity to one another. It is specified to support WiMAX requirements in the entire 24962690 MHz band and LTE Bands 7 and 38. The filter also passes the 2.3GHz band: WiBro, WCS, Band 40 and the Indian 4G band. The 885010 uses advanced and inexpensive packaging Ordering Information techniques to achieve an industry-leading 1.7 x 1.3 x .46 mm package. The filter exhibits excellent power Part No. Description handling capabilities. 885010 Packaged part 885010 is referenced on multiple designs with the 885010-EVB Evaluation board leading WiMAX chipset makers. Standard T/R size = 10,000 units/reel Data Sheet Rev J 02-18-15 - 1 of 6 - Disclaimer: Subject to change without notice 2015 TriQuint 885010 2442 GHz BAW Filter Absolute Maximum Ratings Parameter Rating 1. Operation of this device outside the parameter ranges given (1) Storage Temperature 40C to +85C may cause permanent damage. (2) 2. Specifications are not guaranteed over operating conditions. Operating Temperature 30C to +85C 3. Power handling capability supports WiMAX/OFDM (in passband, CW signal) (3) (OFDMPav) Input Power +28dBm applications. (in passband, CW signal) (3) (OFDMPmax) Input Power +37.5dBm (1) Electrical Specifications Conditions unless otherwise noted: Device Temperature = +25 C (2) Parameter Conditions Min Typ (+25C) Max Units Center Frequency - 2440 - MHz 2305 2360 MHz 2.8 3.5 2360 2380 MHz 5.0 - Maximum Insertion Loss 2496 2502 MHz - 3.5 - dB 2502 2520 MHz 1.8 3.0 25202690 MHz 1.5 2.5 2401 2403 MHz 14 20 (4) Absolute Attenuation 2403 2481 MHz 17 20 - dB 24812483 MHz 14 20 Amplitude Variation 24962506 MHz - 2.5 4.0 dBp-p Conditions unless otherwise noted: Device Temperature = 30C to +85C. (2) Parameter Conditions Min Typ (+25C) Max Units 2305 2360 MHz 3.8 at +85C. 4.5 2360 2380 MHz - 7.0 at +85C. Maximum Insertion Loss 2496 2502 MHz - 5.0 at 30C. - dB 2502 2520 MHz 4.0 2.3 at 30C. 25202690 MHz 1.8 3.5 2401 2403 MHz 10 12 at 30C. (4) Absolute attenuation 2403 2481 MHz 11 20 - dB 24812483 MHz 10 12 at +85C Input / Output Return Loss 2510 2520 MHz 6 12 - dB 2305 2360 MHz 0.4 1.5 Amplitude Variation 2510 2520 MHz - 0.6 1.5 dBp-p 25202690 MHz 1.0 1.5 (5) Source Impedance (single-ended) - 50 - (5) Load Impedance (single-ended) - 50 - Notes: 1. All specifications are based on the TriQuint schematic for the main reference design shown on page 3 2. In production, devices will be tested at room temperature to a guardbanded specification to ensure electrical compliance over temperature 3. Typical values are based on average measurements at room temperature, unless otherwise noted 4. Relative to zero dB 5. This is the optimum impedance in order to achieve the performance shown. Data Sheet Rev J 02-18-15 - 2 of 6 - Disclaimer: Subject to change without notice 2015 TriQuint