885062 2.4 GHz WLAN/BT LTE Co-Existence Filter RFMD + TriQuint = Qorvo Applications WiFi bandpass filter that enables the coexistence of 3G/4G/LTE/TD-LTE & WiFi signals High-power WLAN Access Points and Small Cells Band-edge filtering of WiFi signal emissions Smart Meters and 2.4GHz ISM Applications Set Top Box, Gateways and WiFi Routers CSP-5CT package: 1.4 x 1.2 x 0.46 mm Product Features Functional Block Diagram Low Loss in WLAN band with extended upper Top View Gnd corner for inclusion of Bluetooth High Rejection in B38/B40 bands Output 5 4 Industry leading small size: 1.4 x 1.2 x 0.46 mm Performance over -40 to +95 C Input 1 Ceramic chip-scale Package (CSP) 2 3 Gnd Hermetically sealed Pb RoHS compliant, Pb-free Gnd General Description Pin Configuration The 885062 is a high-performance, high power Bulk Pin No. Label Acoustic Wave (BAW) band-pass filter with 1 Input extremely steep skirts, simultaneously exhibiting low 4 Output loss in the WiFi band and high band-edge & near-in rejection. 2,3,5 Ground The 885062 enables coexistence of WiFi and LTE signals within the same device or in close proximity to one another. Its unique power handling capability Ordering Information allows for implementation into access points, small cell base stations, and other high power ISM band Part No. Description applications. 885062 Packaged part 885062-EVB Evaluation board The 885062 uses common module packaging Standard T/R size = 10,000 units/reel techniques to achieve the industry standard 1.4 x 1.2 x 0.46 mm footprint. The filter exhibits excellent power handling capabilities. Data Sheet: Rev J 12/10/15 - 1 of 8 - Disclaimer: Subject to change without notice 2015 TriQuint www.triquint.com/www.qorvo.com 885062 2.4 GHz WLAN/BT LTE Co-Existence Filter RFMD + TriQuint = Qorvo Absolute Maximum Ratings MTTF (3) Input Power +70C +85C +95C Parameter Rating (1) Storage Temperature +28dBm >14Mhours >5Mhours >2Mhours -55 to +125C (2) Operable Temperature -40 to +95C 1. Operation of this device outside the parameter ranges given may cause permanent damage. 2. Specifications are not guaranteed over all operable conditions. 3. Input Power with WLAN OFDM signal applied. (1) Electrical Specifications Conditions unless otherwise noted: Device Temperature = -30C to +85C. (2) Parameter Conditions Min Typ (+25C) Max Units 2402.5 2421.5 MHz (WiFi Ch.1) 1.7 2.2 2407.5 2426.5 MHz (WiFi Ch.2) 1.5 2.0 (3) Insertion Loss 2412.5 2471.5 MHz (WiFi Ch.3-11) - 1.5 1.9 dB 2457.5 2476.5 MHz (WiFi Ch.12) 1.6 2.1 2462.5 2481.5 MHz (WiFi Ch.13) 1.7 2.2 2402.5 2421.5 MHz (WiFi Ch.1) 0.8 1.5 2407.5 2426.5 MHz (WiFi Ch.2) 0.8 1.1 Amplitude Variation 2412.5 2471.5 MHz (WiFi Ch.3-11) - 0.9 1.1 dB 2457.5 2476.5 MHz (WiFi Ch.12) 0.4 1.0 2462.5 2481.5 MHz (WiFi Ch.13) 0.6 1.8 Input/Output VSWR 2402.5 2481.5 MHz (WiFi Ch.1-13) - 1.9 2.2 - (4) Impulse Response Length 2401 2483 MHz - 160 200 ns 100 2300 MHz 35 37 - dB (5) 2300 2365 MHz 48 53 - dB (5) 2365 2370 MHz 54 58 - dB (5) 2370 2375 MHz (+25 to +85C) 45 61 - dB (5) 2370 2375 MHz (-30 to +25C) 56 61 (5) 2375 2380 MHz (+25 to +85C) 25 49 (5) - dB 2375 2380 MHz (-30 to +25C) 34 49 (5) Attenuation 2500 2505 MHz (+25 to +85C) 29 41 - dB (5) 2500 2505 MHz (-30 to +25C) 20 41 (5) 2505 2570 MHz (+25 to +85C) 49 55 (5) - dB 2505 2570 MHz (-30 to +25C) 38 55 (5) 2570 2620 MHz 45 48 - dB (5) 2620 2690 MHz 44 46 - dB 4800 5000 MHz 38 43 - dB 7200 7500 MHz 36 40 - dB nd 2 Harmonics CW Tone = 2442 MHz 22.5 dBm - 60 - dBc rd 3 Harmonics CW Tone = 2442 MHz 22.5 dBm - 138 - dBc Notes: 1. In production, devices will be tested at room temperature to a guard-banded specification to ensure electrical compliance over temperature. 2. Electrical margin has been built into the design to account for the variations due to temperature drift and manufacturing tolerances. 3. Data is the integrated value of the linear s-parameter over the indicated band at the specified temperature. 4. Duration in ns between the maxima and the point 40 dB below the maxima. 5. Data is the integrated value of the linear s-parameter over 5 MHz range at the specified temperature. 6. An external impedance matching network with 3% tolerance will be necessary to achieve the stated specifications. 7. This is the optimum impedance in order to achieve the performance shown. Data Sheet: Rev J 12/10/15 - 2 of 8 - Disclaimer: Subject to change without notice 2015 TriQuint www.triquint.com/www.qorvo.com