CR14-MQP/1GE STMicroelectronics, CR14-MQP/1GE Datasheet - Page 16

CR14-MQP/1GE

Manufacturer Part Number

CR14-MQP/1GE

Description

IC TYPE-B CHIP I2C ECO 16-SOIC N

Manufacturer

STMicroelectronics

Datasheet

1.CR14-MQP1GE.pdf (47 pages)

Specifications of CR14-MQP/1GE

Rf Type

Transceiver

Frequency

13.56MHz

Features

ISO14443-B

Package / Case

16-SOIC (0.154", 3.90mm Width)

Pin Count

Screening Level

Commercial

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

497-5719-1
497-5719-1
497-5719-5

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CR14 I²C protocol description

Table 6.

4.1

16/47

CR14

Select

CR14 I²C protocol description

The CR14 is compatible with the I²C serial bus memory standard, which is a two-wire serial

interface that uses a bi-directional data bus and serial clock.

The CR14 has a pre-programmed, 4-bit identification code, ’1010’ (as shown in

that corresponds to the I²C bus definition. With this code and the three Chip Enable inputs

(E2, E1, E0) up to eight CR14 devices can be connected to the I²C bus, and selected

individually.

The CR14 behaves as a slave device in the I²C protocol, with all CR14 operations

synchronized to the serial clock.

I²C Read and Write operations are initiated by a START condition, generated by the bus

master.

The START condition is followed by the Device Select Code and by a Read/Write bit (R/W).

It is terminated by an acknowledge bit. The Device Select Code consists of seven bits (as

shown in

●

When data is written to the CR14, the device inserts an acknowledge bit (9th bit) after the

bus master’s 8-bit transmission.

When the bus master reads data, it also acknowledges the receipt of the data Byte by

inserting an acknowledge bit (9th bit).

Data transfers are terminated by a STOP condition after an ACK for Write, or after a NoACK

for Read.

The CR14 supports the I²C protocol, as summarized in

Any device that sends data on to the bus, is defined as a transmitter, and any device that

reads the data, as a receiver.

The device that controls the data transfer is known as the master, and the other, as the

slave. A data transfer can only be initiated by the master, which also provides the serial

clock for synchronization. The CR14 is always a slave device in all I²C communications. All

data are transmitted Most Significant Bit (MSB) first.

Device select code

I²C start condition

START is identified by a High-to-Low transition of the Serial Data line, SDA, while the Serial

Clock, SCL, is stable in the High state. A START condition must precede any data transfer

command.

the Device Code (first four bits)

plus three bits corresponding to the states of the three Chip Enable inputs, E2, E1 and

E0, respectively

Table

6):

Device code

Doc ID 11922 Rev 2

Figure

Chip enable

Table

6),

CR14

CR14-MQP/1GE STMicroelectronics, CR14-MQP/1GE Datasheet - Page 16

CR14-MQP/1GE

Specifications of CR14-MQP/1GE

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