TR1000 RFM, TR1000 Datasheet
TR1000
Specifications of TR1000
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TR1000 Summary of contents
Page 1
... The TR1000 employs RFM’s amplifier- sequenced hybrid (ASH) architecture to achieve this unique blend of character- istics. All critical RF functions are contained in the hybrid, simplifying and speeding design-in. The receiver section of the TR1000 is sensitive and stable. A wide dynamic range log detector, in combination with digital AGC and a compound data slicer, provide robust performance in the presence of on-channel interference or noise ...
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... Vdc mV 10 P-P 85 ° Inches Min Nom Max .389 .395 .400 .265 .270 .275 .070 .076 .080 .065 .070 .075 .015 .020 .025 .035 .040 .045 .125 .130 .135 .055 .060 .065 Page TR1000 - 4/4/08 ...
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... Fair-Rite vendor 2506033017YO or equivalent ohm antenna 100 nH 50 ohm antenna R TH1 TH2 THLD 2 RREF 11 R REF GND2 10 LPF ADJ LPF Modulation Input Data Output Notes single bit ±5% ±5% ±5% ±1% ±5% ±5% tantalum ±5% NPO ±5% NPO Page TR1000 - 4/4/08 ...
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... RFA1 is on continuously, with an attenuator placed in front of it with a loss equivalent to 10*log duty factor is the average amount of time RFA1 is ON (up to 50%). SAW SAW Filter RFA1 Delay Line P1 Pulse Generator RF Data Pulse t PRI t PRC (RFA1 duty factor), where the 10 Detector & Data RFA2 Low-Pass Out Filter P2 Page TR1000 - 4/4/08 ...
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... CMPIN by separate series coupling capacitors. The AGC reset function is driven by the signal applied to CMPIN. BBOUT DS2 Ref Peak Detector C BBO dB Below PKDET 4 Peak Thld C PKD AGC DS1 Ref Thld Threshold Control THLD1 THLD2 R R TH1 TH2 R REF AND RXDATA 7 Page TR1000 - 4/4/08 ...
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... TXMOD pin. The transmitter RF output power is proportional to the input current to the TXMOD pin. A series resistor is used to adjust the peak transmitter output power. 1.5 dBm of output power requires about 450 µA of input current. can be adjusted PW1 Page TR1000 - 4/4/08 ...
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... LPF = 1445/R LPF is in kilohms. LPF = 1750/f FGD LPF is in µ kHz, and R in kilohms. LPF LPF = C /19.1, where AGC = C /4167, PKA PKD kilohms PR is given kilohms set PW2 is in kilohms PW , where f is LPF LPF = 1.21*R , where LPF Page TR1000 - 4/4/08 ...
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... PKA and t in µs slaved to attack time PKA user selected mode user selected mode user selected mode user selected mode user selected mode in kHz user selected LPF in kilohms user selected LPF in pF user selected BBO Notes PKD Page TR1000 - 4/4/08 ...
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... MAX MAX Description , the capacitor value C AGH given above provides a hold-in time between t AGC , the capacitor value C is: BBO PKD and 1.5* t PKA For this case: MAX BBO AGC AGH with variations PKA for internal BBO and BBC Page TR1000 - 4/4/08 ...
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... PRC PRC TXM between this pin and LPF from 4.5 kHz to 1.8 MHz. LPF is in kHz to RREF. The threshold is TH1 can be adjusted between 0.1 and PRI is given by kilohms is in kilohms and 1.3* f LPF LPF TH2 from start-to-start PRC Page TR1000 - 4/4/08 ...
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... RF amplifier). The ON pulse width t PW2 - 18.6, where µs and kilohms PW1 PW1 PW .435 0.000 Dimensions in inches. SM-20H PCB Pad Layout with a resistor R to ground (the ON pulse PW1 PW .370 .345 .305 .265 .225 .185 .145 .105 .09 .065 PW1 is given by: PW Page TR1000 - 4/4/08 ...
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... RF Monolithics, Inc. RF Output Power vs I 0.05 0.10 0.15 0.20 0.25 0. TXM TXM TXM 0.05 0.10 0.15 0.20 0.25 0. TXM Note: Specifications subject to change without notice. TXM 3.5 V 2.7 V 0.35 0.40 0.45 0.50 0.35 0.40 0.45 0.50 Page TR1000 - 4/4/08 ...