User's Manual

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Example No. 1

For configuring with

double bit header

and 8-byte buffer

size!

... To be continued

until the complete

memory range is

written. See next

Function Description

Examples for protocol sequence

Initializing the data carrier for the CRC_16 data checking

The processing of this command is similar to a write command. Start address and number of

bytes have to correspond to the maximum number of data to be used.

In this example the complete memory range of a data carrier with 192 bytes shall be used

(BIS L-10 _-01/L). Because 2 bytes are used for the CRC only 168 bytes can be used as data

bytes, hence: start address = 0, number of bytes = 168.

5.) Process subaddresses of the output buffer:

BIS L-60_2 Identification System:

2.) Process subaddresses of the input buffer in the

order shown:

3.) Process subaddresses of the output buffer: 4.) Process subaddresses of the output buffer:

6.) Process subaddresses of the output buffer:

Host:

1.) Process subaddresses of the output buffer in the

order shown:

Hex

/07

Hex

Set AA-Bit, invert TO-Bit01

Hex

Command designator 12

Hex

Start address 00

Hex

Start address 00

Hex

No. of bytes 92

Hex

No. of bytes 02

Hex

/07

Hex

Set AV-Bit

01...06

Hex

Enter first 6 bytes of data

Hex

/07

Hex

Invert TI-Bit

01...06

Hex

Enter the second 6 data bytes

Hex

/07

Hex

Invert TI-Bit

01...06

Hex

Copy first 6 data bytes

Process subaddress of the input buffer:

Hex

/07

Hex

Invert TO-Bit

01...06

Hex

Copy second 6 data bytes

Process subaddress of the input buffer:

Hex

/07

Hex

Invert TO-Bit

L60_2-019_828132_1007-e.p65

english38

Example No. 1

(continued)

For configuring with

double bit header

and 8-byte buffer

size!

Function Description

Examples for protocol sequence

Host: BIS L-60_2 Identification System:

9.) Process subaddresses of the output buffer: 10.)Process subaddresses of the input buffer:

7.) Process subaddresses of the output buffer: 8.) Process subaddresses of the output buffer:

01...06

Hex

Enter the remaining data byte

Hex

/07

Hex

Invert TI-Bit

Hex

/07

Hex

Reset AV-Bit

01...06

Hex

Copy the remaining data byte

Process subaddress of the input buffer:

Hex

/07

Hex

Set AE-Bit

Hex

/07

Hex

Reset AA-Bit and AE-Bit