RFM63B Datasheet, PDF(32/90 Page) List of Unclassifed Manufacturers

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RFM63B Datasheet, PDF (32/90 Pages) List of Unclassifed Manufacturers – ISM TRANSCEIVER MODULE V1.1

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RFM63B

ADVANCED COMMUNICATIONS & SENSING

For proper operation, the Bit Synchronizer must first receive three bytes of alternating logic value preamble, i.e.

â0101â sequences. After this startup phase, the rising edge of DCLK signal is centered on the demodulated bit.

Subsequent data transitions will preserve this centering.

This has two implications:

â¢ Firstly, if the Bit Rates of Transmitter and Receiver are known to be the same, the RFM63B will be able to

receive an infinite unbalanced sequence (all â0sâ or all â1sâ) with no restriction.

â¢ If there is a difference in Bit Rate between Tx and Rx, the amount of adjacent bits at the same level that the

BitSync can withstand can be estimated as:

This implies approximately 6 consecutive unbalanced bytes when the Bit Rate precision is 1%, which is easily

achievable (crystal tolerance is in the range of 50 to 100 ppm).

3.4.12. Alternative Settings

Bit Synchronizer and Active channel filter settings are a function of the reference oscillator crystal frequency, FXTAL.

Settings other than those programmable with a 12.8 MHz crystal can be obtained by selection of the correct

reference oscillator frequency. Please contact your local Semtech representative for further details.

3.4.13. Data Output

After OOK or FSK demodulation, the baseband signal is made available to the user on , DATA, when

Continuous mode is selected.

In Buffered and Packet modes, the data is retrieved from the FIFO through the SPI interface.

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