AT24RF08-EK Atmel, AT24RF08-EK Datasheet - Page 7

AT24RF08-EK

Manufacturer Part Number

AT24RF08-EK

Description

KIT EVAL FOR AT24RF08CN-10SC

Manufacturer

Atmel

Type

Dual Access EEPROMr

Datasheets

1.AT24RF08CN-105C.pdf (21 pages)

2.AT24RF08-EK.pdf (2 pages)

3.AT24RF08-EK.pdf (1 pages)

Specifications of AT24RF08-EK

Contents

Atmel Asset ID Kit CDROM, 4 RFID Tags, Reader with Serial Port Cable and 9V Power Supply

For Use With/related Products

AT24RF08C

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Serial EEPROM Exceptions

In general, the two-wire serial interface on the AT24RF08C

functions identically to the AT24C08. The following

exceptions exist, as noted elsewhere within this document.

• Pins 1, 2 and 3 have a different usage.

• Access to various blocks may be restricted via the

• The two block address bits (B2 and B1) in the command

• Multi-byte reads do not cross block boundaries, but

• Operation of the serial bus at 400 kHz is not guaranteed.

• Maximum operating voltage is 5.5V, maximum operating

• The serial port will be reset whenever the PROT pin is

• If a multi byte read is in progress when an RFID write

• Under some circumstances, subsequent bytes within a

• If more than 16 bytes are written to the EEPROM with a

• If V

RFID Port Operation

The AT24RF08C includes a powerful and flexible RFID

communications port that permits moving data into or out of

the device through a simple coil antenna. Features include

a u to m a t i c s e r i a l n u m b er tr a ns m i s s i o n a s we l l a s

commands for explicit reads and writes to specified

locations within the EEPROM. Special capability has been

added to permit a tag to be individually identified and

selected when it is within the field at the same time as the

other tags.

The general strategy for implementing multiple tags within

the field is as follows:

Upon power-up, the tag waits a random period of time and

then transmits, as a header, a fixed pattern that occupies

four bit times. The value of each half-bit time is fixed at the

pattern 01 11 11 10. (this is interpreted as one half-bit time

with no modulation, 3-bit times of modulation and another

half-bit time of no modulation).

access protection circuitry.

byte are ignored with all read commands. They are set

only via the write command.

instead wrap to the beginning of the block.

temperature is 85×C.

low.

starts, all data will be read as all 1s.

multi-byte read may have their data returned as all 1s to

the serial port if a read is simultaneously requested from

the RFID port.

page write, overlapping bytes will have their values

corrupted.

WP and PROT pins when they are brought above 0V.

is 0V, the device draws current on the SDA, SCL,

Within the following listening window, the tag must receive

an acknowledge pulse from the reader. See the “Listening

Window” section for restrictions on this transmission.

If the tag does not see an acknowledge pulse during the

specific time within the listening window, but sees an

acknowledge pulse or command issued by the reader to

another tag, it goes into an infinite listening window until the

other tag is complete with its transaction.

If the tag does not see an acknowledge pulse or command

from the reader at any time, it will wait for a random length

of time before transmitting its four bit header again.

If it does receive this acknowledge pulse during the specific

time, then it will continuously transmit its complete ID

(defined below) with a three bit listening window between

frames, until a command is received from the reader.

After the ID has been properly received by the reader, the

tag will expect to receive a command from the reader

during the three bit listening window between ID frames.

One possible command is to set the

device to remain idle until the next power down or global

command. Remaining tags will then follow the same

procedure until each has its

ID Configuration

After the chip’s header field has been acknowledged, the

chip will transmit as its ID number, the first 12 EEPROM

bytes in the ID page, starting with byte 0. This transmission

will start 1664 ms after the end of the header transmission.

See “RFID Acknowledge Timing” on page 16.

This ID transmission will be preceded by a single start bit

that has a logical value of 1, and terminated by a single

stop bit that has a logical value of ‘0’. These start and stop

bits bracket each page or block of data transmitted by the

device as a result of a read or write command.

After transmission of the ID frame, the device will delay

transmission during a 3 bit listening window to listen for a

c o m m a n d to b e i n i t i a t e d b e f o r e r e p e a t i n g t h e I D

transmission again. Commands sent to selected tags must

be initiated during the t

window, as per the “Listening Window” section on page 9.

If a write is taking place to the EEPROM from the serial

port, the device will transmit to the reader a logical 0 in

place of the ID value until that write completes. If a write

from the serial port has started before the command is

issued by the reader, then the command will be aborted

and the 4 bit header sent. If a serial port write starts after a

r e a d c om m a n d ha s c o m m e n c ed , th e n a 0 w i l l b e

transmitted to the reader during the time that the EEPROM

is busy with the write. In some cases, reads from the serial

port will also cause data to temporarily be read as 0’s.

AT24RF08C

CDM1

QUIET

interval within this listening

bit set.

QUIET

bit, causing the

AT24RF08-EK Atmel, AT24RF08-EK Datasheet - Page 7

AT24RF08-EK

Specifications of AT24RF08-EK

Related parts for AT24RF08-EK