857190 RFMD + TriQuint = Qorvo 2140 MHz SAW filter Applications General purpose RF filters SMP-12, 3.00 x 3.00 x 1.22 mm Product Features Functional Block Diagram Usable bandwidth 160 MHz 6 1 Gnd Gnd High attenuation Low Loss Excellent power handling Input Output 2 5 Single-ended operation Matching required for operation at 50 3 4 Gnd Gnd Small Size: 3.00 x 3.00 x 1.22 mm Ceramic Surface Mount Package (SMP) Hermetically sealed RoHS compliant, Pb-free Pb General Description Pin Configuration Single Ended EEEnded./Bal-B 857190 is a general purpose Uplink filter for Band 1. Pin No. Label This filter was specifically designed in a 3x3mm hermetic 2 Input package for Base Station and Repeater applications and is part of our wide portfolio of RF filters in the same 5 Output package. 1.3,4,6 Ground Low loss insertion loss, coupled with high attenuation and excellent power handling, makes this filter a natural choice for our customers Uplink RF filtering needs and Ordering Information other general purpose applications. The 160MHz bandwidth enables the usage in a predistorter Part No. Description rd th environment, where the 3 and 5 order intermodulation 857190 Product description results should not be distorted. 857190-EVB Evaluation board description Standard T/R size = 5000 units/reel Data Sheet: Rev D 07-31-2015 Disclaimer: Subject to change without notice - 1 of 6 - www.triquint.com 2015 TriQuint 857190 RFMD + TriQuint = Qorvo 2140 MHz SAW filter Absolute Maximum Ratings Parameter Rating (1) 1. Operation of this device outside the parameter ranges given Storage Temperature -40 to +85C may cause permanent damage. (2) RF Input Power +22 dBm 2. Input Power with applied CW signal at +55C for 125 hours (1) Electrical Specifications (2) Specified Temperature Range: -40C to +85C (3) (4) Parameter Conditions Min Typ Max Units Center Frequency - 2140 - MHz Maximum Insertion Loss 2110 2170 MHz - 2.7 3.2 dB (5) Amplitude Variation 2110 2170 MHz - 0.3 0.6 dB p-p (5) Amplitude Variation 2060 2220 MHz - 1.6 2.6 dB p-p Amplitude Variation(over 5 MHz 2110 2170 MHz - 0.1 0.2 dB p-p (5) span) Phase Ripple 2110 2170 MHz - 1.5 5 deg. p-p Phase Ripple(+25C to +85C) 2060 2220 MHz - 15 20 deg. p-p Phase Ripple (-40C to +24C) 2060 2220 MHz - 15 30 deg. p-p Phase Ripple(over 25 MHz 2110 2170 MHz - 1.0 3 deg. p-p span) Absolute Delay 2110 2170 MHz - 3.2 5 ns Group Delay Variation 2110 2170 MHz - 1.5 5 ns p-p Group Delay Variation 2060 2220 MHz - 3.8 10 ns p-p EVM (over any 3.84 MHz 2110 2170 MHz - 0.3 1.0 % (6) span) IIP3 (Tones 5 MHz separated, 2110 2170 MHz 44 50 - dBm (7) power > 5dBm per tone) (8) Temperature Drift 2110 2170 MHz - 0.23 0.3 dB 10 1802 MHz 20 22.3 - dB 1802 2000 MHz 10 24.0 - dB 2290 2429 MHz 10 21.5 - dB (9) Absolute Attenuation 2429 2465 MHz 25 31.2 - dB 2465 3707 MHz 18 21.5 - dB 3707 3768 MHz 20 31.5 - dB 3768 5179 MHz 20 28.5 - dB Input/Output VSWR 2110 2170 MHz - 1.7 2.2:1 - (10) Load/Source Impedance single-ended - 50 - Ohms Notes: 1. All specifications are based on the TriQuint schematic 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. 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. Amplitude Variation is defined as the difference between the lowest loss and the highest loss within defined frequency points 6. Measured with a RRC filtered QPSK modulated signal To be measured only during engineering development 7. To be measured only during engineering development 8. Temperature Drift specification is defined on Page 3 and is guaranteed by design and will not be measured in production. 9. Relative to the maximum insertion loss 10. This is the optimum impedance in order to achieve the performance shown Data Sheet: Rev D 07-31-2015 Disclaimer: Subject to change without notice - 2 of 6 - www.triquint.com 2015 TriQuint