FX919B Datasheet, PDF(17/47 Page) CML Microcircuits – Excellent Radio Fading Performance

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FX919B Datasheet, PDF (17/47 Pages) CML Microcircuits – Excellent Radio Fading Performance

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4-Level FSK Modem Data Pump

FX919B Modem Tasks:

B2 B1 B0

Receive Mode

0 0 0 NULL

0 0 1 SFSH Search for FS + Header

0 1 0 RHB

Read Header Block

0 1 1 RILB

Read Intermediate or Last

Block

1 0 0 SFS

Search for Frame Sync

1 0 1 R4S

Read 4 symbols

1 1 0 NULL

1 1 1 RESET Cancel any current action

FX919B

NULL

T24S

THB

TIB

Transmit Mode

Transmit 24 symbols

Transmit Header Block

Transmit Intermediate Block

TLB

T4S

NULL

RESET

Transmit Last Block

Transmit 4 symbols

Cancel any current action

NULL: No effect

This 'task' is provided so that a AQSC or AQLEV command can be initiated without loading a new task.

SFSH: Search for Frame Sync plus Header Block

This task causes the modem to search the received signal for a valid 24-symbol Frame Sync sequence

followed by Header Block which has a correct CRC1 checksum.

The task continues until a valid Frame Sync plus Header Block has been found.

The search consists of two stages:

First of all the modem will attempt to match the incoming symbols against the 24-symbol Frame

Synchronisation pattern to within the tolerance defined by the FSTOL bits of the Control Register.

Once a match has been found, the modem will read in the next 66 symbols as if they were a 'Header'

block, decoding the symbols and checking the CRC1 checksum. If this is incorrect, the modem will

resume the search, looking for a fresh Frame Sync pattern.

If the received CRC1 is correct, the 10 decoded data bytes will be placed into the Data Block Buffer,

the BFREE and IRQ bits of the Status Register will be set to '1' and the CRCERR bit cleared to '0'.

On detecting that the BFREE bit of the Status Register has gone to '1', the ÂµC should read the 10 bytes from

the Data Block Buffer then write the next task to the modem's Command Register.

RHB: Read Header Block

This task causes the modem to read the next 66 symbols as a 'Header' Block, decoding them, placing the

resulting 10 data bytes and the 2 received CRC1 bytes into the Data Block Buffer, and setting the BFREE and

IRQ bits of the Status Register to '1' when the task is complete to indicate that the ÂµC may read the data from

the Data Block Buffer and write the next task to the modem's Command Register.

The CRCERR bit of the Status Register will be set to '1' or '0' depending on the validity of the received CRC1

checksum bytes.

RILB: Read 'Intermediate' or 'Last' Block

This task causes the modem to read the next 66 symbols as an 'Intermediate' or 'Last' block (the ÂµC should be

able to tell from the 'Header' block how many blocks are in the frame, and hence when to expect the 'Last'

block).

In each case, it will decode the 66 symbols and place the resulting 12 bytes into the Data Block Buffer, setting

the BFREE and IRQ bits of the Status Register to '1' when the task is complete.

D/919B/1

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