SRIX4K-SBN18/1GE STMicroelectronics, SRIX4K-SBN18/1GE Datasheet - Page 25

SRIX4K-SBN18/1GE

Manufacturer Part Number

SRIX4K-SBN18/1GE

Description

IC MEM 13.56MHZ 4096BIT EEPROM

Manufacturer

STMicroelectronics

Series

SRIX4Kr

Datasheet

1.SRIX4K-A3S1GE.pdf (47 pages)

Specifications of SRIX4K-SBN18/1GE

Rf Type

Read / Write

Frequency

13.56MHz

Features

ISO14443-B

Package / Case

Wafer

For Use With

497-3704 - RFID EVALUATION KIT ISO14443-B

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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SRIX4K

7.1

Description of an anticollision sequence

The anticollision sequence is initiated by the Initiate() command which triggers all the

SRIX4K devices that are present in the reader field range, and that are in Inventory state.

Only SRIX4K devices in Inventory state will respond to the Pcall16() and Slot_marker(SN)

anticollision commands.

A new SRIX4K introduced in the field range during the anticollision sequence will not be

taken into account as it will not respond to the Pcall16() or Slot_marker(SN) command

(Ready state). To be considered during the anticollision sequence, it must have received the

Initiate() command and entered the Inventory state.

Table 3

example.)

Table 3.

After each Slot_marker() command, there may be several, one or no answers from the

SRIX4K devices. The reader must handle all the cases and store all the Chip_IDs, correctly

decoded. At the end of the anticollision sequence, after Slot_marker(15), the reader can

start working with one SRIX4K by issuing a Select() command containing the desired

Chip_ID. If a collision is detected during the anticollision sequence, the reader has to

generate a new sequence in order to identify all unidentified SRIX4K devices in the field.

The anticollision sequence can stop when all SRIX4K devices have been identified.

Step 1

Step 2

Step 3

Step 4

Step N

Step 17 Slot 15

Step 18

shows the elements of a standard anticollision sequence. (See

Init:

Slot 0

Slot 1

Slot 2

Slop N

Standard anticollision sequence

Send Initiate().

– If no answer is detected, go to step1.

– If only 1 answer is detected, select and access the SRIX4K. After accessing the

– If a collision (many answers) is detected, go to step2.

Send Pcall16().

– If no answer or collision is detected, go to step3.

– If 1 answer is detected, store the Chip_ID, Send Select() and go to step3.

Send Slot_marker(1).

– If no answer or collision is detected, go to step4.

– If 1 answer is detected, store the Chip_ID, Send Select() and go to step4.

Send Slot_marker(2).

– If no answer or collision is detected, go to step5.

– If 1 answer is detected, store the Chip_ID, Send Select() and go to step5.

Send Slot_marker(3 up to 14) ...

– If no answer or collision is detected, go to stepN+1.

– If 1 answer is detected, store the Chip_ID, Send Select() and go to stepN+1.

Send Slot_marker(15).

– If no answer or collision is detected, go to step18.

– If 1 answer is detected, store the Chip_ID, Send Select() and go to step18.

All the slots have been generated and the Chip_ID values should be stored into

the reader memory. Issue the Select(Chip_ID) command and access each

identified SRIX4K one by one. After accessing each SRIX4K, switch them into

Deselected or Deactivated state, depending on the application needs.

– If collisions were detected between Step2 and Step17, go to Step2.

– If no collision was detected between Step2 and Step17, go to Step1.

SRIX4K, deselect the tag and go to step1.

Figure 23

Anticollision

for an

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SRIX4K-SBN18/1GE STMicroelectronics, SRIX4K-SBN18/1GE Datasheet - Page 25

SRIX4K-SBN18/1GE

Specifications of SRIX4K-SBN18/1GE

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