RFM22B-868-S1 QUASAR, RFM22B-868-S1 Datasheet - Page 42

RFM22B-868-S1

Manufacturer Part Number

RFM22B-868-S1

Description

MODULE, TRANSCEIVER, 20DB,SMD,868MHZ

Manufacturer

QUASAR

Datasheet

1.RFM22B-868-D.pdf (70 pages)

Specifications of RFM22B-868-S1

Modulation Type

FSK, GFSK, OOK

Data Rate Max

256Kbps

Sensitivity

-121dBm

Supply Voltage Range

1.8V To 3.6V

Supply Current

85mA

Interface Type

SPI

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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R F M 2 2 B / 2 3 B

6.5. Data Whitening, Manchester Encoding, and CRC

Data whitening can be used to avoid extended sequences of 0s or 1s in the transmitted data stream to achieve a

more uniform spectrum. When enabled, the payload data bits are XORed with a pseudorandom sequence output

from the built-in PN9 generator. The generator is initialized at the beginning of the payload. The receiver recovers

the original data by repeating this operation. Manchester encoding can be used to ensure a dc-free transmission

and good synchronization properties. When Manchester encoding is used, the effective datarate is unchanged but

the actual datarate (preamble length, etc.) is doubled due to the nature of the encoding. The effective datarate

when using Manchester encoding is limited to 128 kbps. The implementation of Manchester encoding is shown in

Figure 24. Data whitening and Manchester encoding can be selected with "Register 70h. Modulation Mode Control

1". The CRC is configured via "Register 30h. Data Access Control." Figure 23 demonstrates the portions of the

packet which have Manchester encoding, data whitening, and CRC applied. CRC can be applied to only the data

portion of the packet or to the data, packet length and header fields. Figure 24 provides an example of how the

Manchester encoding is done and also the use of the Manchester invert (enmaniv) function.

6.6. Preamble Detector

The RFM22B/23B

bytes using the prealen[7:0] field in "Register 33h. Header Control 2" and "Register 34h. Preamble Length", as

described in “6.2. Packet Configuration”. The preamble detection threshold, preath[4:0] as set in "Register 35h.

Preamble Detection Control 1", is in units of 4 bits. The preamble detector searches for a preamble pattern with a

length of preath[4:0].

If a false preamble detect occurs, the receiver will continuing searching for the preamble when no sync word is

detected. Once preamble is detected (false or real) then the part will then start searching for sync. If no sync occurs

then a timeout will occur and the device will initiate search for preamble again. The timeout period is defined as the

sync word length plus four bits and will start after a non-preamble pattern is recognized after a valid preamble

detection. The preamble detector output may be programmed onto one of the GPIO or read in the interrupt status

registers.

Tel: +86-755-82973805

Figure 23. Operation of Data Whitening, Manchester Encoding, and CRC

Preamble = 0xFF

has integrated automatic preamble detection. The preamble length is configurable from 1–256

Preamble = 0x00

Preamble

Fax: +86-755-82973550

Figure 24. Manchester Coding Example

Sync

Address

Header/

First 4bits of the synch. word = 0x2

Manchester

E-mail: sales@hoperf.com

Length

CRC

Whitening

(Over data only)

Data

CRC

Data before Manchester

Data after Machester ( manppol = 1, enmaninv = 0)

Data after Machester ( manppol = 1, enmaninv = 1)

Data before Manchester

Data after Machester ( manppol = 0, enmaninv = 0)

Data after Machester ( manppol = 0, enmaninv = 1)

CRC

RFM22B-868-S1 QUASAR, RFM22B-868-S1 Datasheet - Page 42

RFM22B-868-S1

Specifications of RFM22B-868-S1

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