CR14-MQP STMicroelectronics, CR14-MQP Datasheet - Page 17
CR14-MQP
Manufacturer Part Number
CR14-MQP
Description
Manufacturer
STMicroelectronics
Datasheet
1.CR14-MQP.pdf
(47 pages)
Specifications of CR14-MQP
Pin Count
16
Screening Level
Commercial
Lead Free Status / Rohs Status
Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
CR14-MQP/1GE
Manufacturer:
RENESAS
Quantity:
30 000
CR14
4.2
4.3
4.4
The CR14 continuously monitors the SDA and SCL lines for a START condition (except
during Radio Frequency data exchanges), and will not respond unless one is sent.
I²C stop condition
STOP is identified by a Low-to-High transition of the Serial Data line, SDA, while the Serial
Clock, SCL, is stable in the High state.
A STOP condition terminates communications between the CR14 and the bus master.
A STOP condition at the end of an I²C Read command, after (and only after) a NoACK,
forces the CR14 into its stand-by state.
A STOP condition at the end of an I²C Write command triggers the Radio Frequency data
exchange between the CR14 and the PICC.
I²C acknowledge bit (ACK)
An acknowledge bit is used to indicate a successful data transfer on the I²C bus.
The bus transmitter, either master or slave, releases the Serial Data line, SDA, after sending
8 bits of data. During the 9th clock pulse the receiver pulls the SDA line Low to acknowledge
the receipt of the 8 data bits.
I²C data input
During data input, the CR14 samples the SDA bus signal on the rising edge of the Serial
Clock, SCL. For correct device operation, the SDA signal must be stable during the Low-to-
High Serial Clock transition, and the data must change only when the SCL line is Low.
Doc ID 11922 Rev 2
CR14 I²C protocol description
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