U3280M-NFBY Atmel, U3280M-NFBY Datasheet - Page 8

U3280M-NFBY

Manufacturer Part Number

U3280M-NFBY

Description

RF Wireless Misc RFID Interface IC 125kHz

Manufacturer

Atmel

Type

RF Identification/Immobilizationr

Datasheet

1.U3280M-NFB.pdf (21 pages)

Specifications of U3280M-NFBY

Operating Frequency

150 kHz

Operating Temperature Range

- 40 C to + 85 C

Package / Case

SOIC

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Mounting Style

SMD/SMT

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4.3.3

4.4

4.4.1

Serial Interface

U3280M

Buffer Capacitor C

Serial Protocol

The buffer capacitor connected at V

and the EEPROM during field supply. It smoothes the rectified AC from the coil and buffers the

supply voltage during modulation and gaps in the field. The size of this capacitor depends on the

application. It must be of a dimension so that during modulation and gaps the ripple on the sup-

ply voltage is in the range of 100 mV to 300 mV. During gaps and damping the capacitor is used

to supply the device, which means the size of the capacitor depends on the length of the gaps

and damping cycles.

Table 4-1.

The transponder interface has a serial interface to the microcontroller for read and write access

to the EEPROM. In a special mode, the serial interface can also be used to control the

Bi-phase/Manchester modulator or the power management of the U3280M.

The serial interface of the U3280M device must be controlled by a master device (normally the

microcontroller) which generates the serial clock and controls the access via the SCL and SDA

lines. SCL is used to clock the data in and out of the device. SDA is a bi-directional line and used

to transfer data into and out of the device. The following protocol is used for the data transfers.

• Data states on the SDA line change only when SCL is low.

• Changes in the SDA line while SCL is high will be interpreted as a START or STOP condition.

• A STOP condition is defined as a high-to-low transition on the SDA line while the SCL line is

• Each data transfer must be initialized with a START condition and terminated with a STOP

• A receiving device generates an acknowledge (A) after the reception of each byte. For that

high.

condition. The START condition awakens the device from standby mode, and the STOP

condition returns the device to standby mode.

purpose the master device must generate an extra clock pulse. If the reception was

successful, the receiving master or slave device pulls down the SDA line during that clock

cycle. If an acknowledge has not been detected (N) by the interface in transmit mode, it will

terminate further data transmissions and switch to receive mode. A master device must finish

its read operation by a not acknowledge and then issue a STOP condition to switch the

device to a known state.

No Field Supply During

Example for a 350 µA Supply Current, 200 mV Ripple at V

250 µs

500 µs

is used to buffer the supply voltage for the microcontroller

Necessary C

1000 nF

470 nF

4688D–RFID–03/07

U3280M-NFBY Atmel, U3280M-NFBY Datasheet - Page 8

U3280M-NFBY

Specifications of U3280M-NFBY

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