Part Number 856063 140 MHz SAW Filter Preliminary Data Sheet Features For IF applications Typical 3 dB bandwidth of 1.5 MHz High attenuation Single-ended operation Ceramic Surface Mount Package (SMP) Replaces Sawtek P/N 851904 (BW 3dB = 1.5MHz) Hermetic RoHS compliant (2002/95/EC), Pb-free Pb Package Pin Configuration Surface Mount 19.00 x 6.50 x 1.75 mm Bottom View 1 2 3 4 5 1.75 NOM. 1.96 MAX. 10 9 8 7 6 0.76 19.0 1.91 1.80 Pin No. Description R0.51 5 RF output 6.50 10 RF input 1,6 Ground 2.31 1.02 2,3,4 Case ground 7,8,9 Case ground Dimensions shown are nominal in millimeters All tolerances are 0.15mm except overall length and width +0.15mm/-0.10mm Body: Al O ceramic 2 3 Lid: Kovar, Ni plated Terminations: Au plating 0.5 - 1.0m, over a 2 - 6m Ni plating Subject to change or obsolescence without notice Rev A 12-Oct-2005 Page 1 of 5 Part Number 856063 140 MHz SAW Filter Preliminary Data Sheet (1) Electrical Specifications (2) o Operating Temperature Range: 0 to +70 C (3) Parameter Minimum Typical Maximum Unit Center Frequency - 140 - MHz Minimum Insertion Loss - 21.9 25 dB (4) Lower 1 dB Bandedge - 139.363 139.45 MHz Upper 1 dB Bandedge 140.55 140.637 - MHz (4) Lower 3 dB Bandedge - 139.228 139.315 MHz Upper 3 dB Bandedge 140.685 140.761 - MHz (4) Lower 40 dB Bandedge 138.645 138.734 - MHz Upper 40 dB Bandedge - 141.291 141.355 MHz Amplitude Variation 139.45 - 140.55 MHz - 0.35 1 dB p-p Phase Linearity 139.45 - 140.55 MHz - 2.45 5.5 deg p-p Group Delay Variation 139.45 - 140.55 MHz - 90 160 ns p-p (4) Relative Attenuation 15 - 138.3 MHz 50 61.2 - dB 141.7 - 145 MHz 48 54.6 - dB 145 - 155 MHz 42 55.4 - dB 155 - 220 MHz 50 63.5 - dB 220 - 240 MHz 27 47.4 - dB 240 - 252 MHz 50 68.0 - dB 252 - 270 MHz 21 29.0 - dB 270 - 350 MHz 50 68.8 - dB (5) Terminating Source Impedance - 50 - (5) Terminating Load Impedance - 50 - Notes: 1. All specifications are based on the test circuit shown below 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 and manufacturing tolerances 4. All attenuation measurements are measured relative to minimum insertion loss 5. This is the optimum impedance in order to achieve the performance shown Test Circuit: Actual matching values may vary due to PCB layout and parasitics 68nH 10 5 50 22pF 50 50 Single-ended 1,2,3,4 6,7,8,9 Subject to change or obsolescence without notice Rev A 12-Oct-2005 Page 2 of 5