VI TELEFILTER Filter specification TFS 188 1/5 Measurement condition Ambient temperature: 23 C Input power level: dbm Terminating impedances for input: 5 Ω for output: 5 Ω Characteristics Remark: The maximum attenuation in the pass band is defined as the insertion loss a e. The nominal frequency f N is fixed at 188 MHz without any tolerance or limit. The values of absolute attenuation a abs are guaranteed for the whole operating temperature range. The frequency shift of the filter in the operating temperature range is included in the production tolerance scheme. D a t a typ. value tolerance / limit Insertion loss ae 3,4 db max. 5 db (reference level) Nominal frequency f N 188 MHz Centre frequency f C 188 MHz Passband PB 8,5 MHz f N ± 3 MHz Pass band ripple,6 db max. 3,5 db Absolute attenuation aabs 1 MHz 172 MHz 33 db min. 3 db 193 MHz 1935 MHz 17 db min. 13 db 1935 MHz 199 MHz 41 db min. 2 db 232 MHz 234 MHz 41 db min. 35 db 234 MHz 27 MHz 37 db min. 3 db 27 MHz 35 MHz 12 db min. 1 db VSWR within PB 2,5 max. 3, : 1 Input power level max. 13 dbm Operating temperature range OTR - - 1 C... + 7 C Storage temperature range - - 4 C... + 85 C Temperature coefficient of frequency TCf ** -36 ppm/k *) The terminating impedances depend on parasitics and q-values of matching elements and the board used, and are to be understood as reference values only. Should there be additional questions do not hesitate to ask for an application note or contact our design team. **) f(hz) = TC f (ppm/k) x (T-T ) x f To (MHz) Generated: Checked / Approved:
VI TELEFILTER Filter specification TFS 188 2/5 Filter characteristic -1-2 -1-2 9-3 -3 db magnitude in -4-5 -6-7 magnitude in db -4-5 -6-7 6 VSWR 3-8 -8-9 -9-1 1 384 758 1132 156 188 2254 2628 32 3376 375 frequency in MHz -1 183 184 185 186 187 188 189 19 191 192 193 frequency in MHz Construction and pin configuration (All dimensions in mm) 6 5 4 Date code: Year+week 1,2 Max. T6 S2 1 2 3 Data Code S 24 T 25 U 26 V 27... 3±,15,1 1,5 1 3,75 Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Input Output 6 4,6,6 5 Ω Test circuit L1 2 5 L2 SAW 1, 3, 4, 6
VI TELEFILTER Filter specification TFS 188 3/5 Stability characteristics After the following tests the filter shall meet the whole specification: 1. Shock: 5g, 1 ms, half sine wave, 3 shocks each plane; DIN IEC 68 T2-27 2. Vibration: 1 Hz to 5 Hz,,35 mm or 5 g respectively, 1 octave per min, 1 cycles per plan, 3 plans; DIN IEC 68 T2-6 3. Change of temperature: 4. Resistance to solder heat (reflow): -55 C to 125 C / 3 min. each / 1 cycles DIN IEC 68 part 2 14 Test N reflow possible: twice max.; for temperature conditions refer to the attached "Air reflow temperature conditions" on page 4; Packing Tape & Reel: IEC 286 3, with exeption of value for N and minimum bending radius; tape type II, embossed carrier tape with top cover tape on the upper side; max. pieces of filters peer reel: 9 reel of empty components at start: min. 3 mm reel of empty components at start including leader: min. 5 mm trailer: min. 3 mm Pull Off Direction Tape (all dimensions in mm) W : 8, ±,3 Po : 4, ±,1 Do : 1,5 +,1/- E : 1,75 ±,1 F : 3,5 ±,5 G(min) :,75 P2 : 2, ±,5 P1 : 4, ±,1 D1(min) : 1,5 Ao : 3,25 ±,1 Bo : 3,25 ±,1 Ct : 5,5 ±,1 t Ko Ct Do PIN Marker Date Code Typ Po D1 P1 P2 Ao Bo G G F E W W 2 Reel (all dimensions in mm) A : 33 W1 : 8,4 +1,5/- W2(max) : 14,4 N(min) : 5 C : 13, +,5/-,2 A C N W 1 The minimum bending radius is 45 mm.
VI TELEFILTER Filter specification TFS 188 4/5 Air reflow temperature conditions Conditions Exposure Average ramp-up rate (3 C to 217 C) less than 3 C/second > 1 C between 3 and 6 seconds > 15 C between 24 and 5 seconds > 217 C between 3 and 15 seconds Peak temperature max. 26 C Time within 5 C of actual peak temperature between 1 and 3 seconds Cool-down rate (Peak to 5 C) less than 6 C/second Time from 3 C to Peak temperature no greater than 3 seconds Temperature / C Chip-mount air reflow profile max. 26 C 217 C max. 3 s 1... 3 s 3... 15 s Time / s
VI TELEFILTER Filter specification TFS 188 5/5 History Version Reason of Changes Name Date 1. Generation of development specification Dr. Sabah 17.12.23 1.1 Change of formula for temperature coefficient of frequency, add of value of temperature coefficient of frequency Roizengaft 22.12.23 1.2 Add of typical values Dr. Sabah 8.1.24 1.3. Generation of filter specification Strehl 9.2.25 1.4. adjust upper stopband requirements Steiner 22.2.25 VSWR corrected