Figure 3-10. sample waveform for i, Figure 3-11. sample waveform for i – Cirrus Logic CS4953xx User Manual
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Figure 3-10. Sample Waveform for I
2
C Write Functional TIming
Note: The I
2
C slave is always responsible for driving the ACK for the address byte.
Figure 3-11. Sample Waveform for I
2
C Read Functional TIming
Notes:
1.
The I
2
C slave is drives the ACK for the address byte.
2. The I
2
C master is responsible for controlling ACK during I
2
C reads. In general, the receiver in an I
2
C transaction is responsible for
providing ACK.
3. SCP1_IRQ remains low until the rising edge of the clock for the last bit of the last byte read from the I
2
C slave.
4. A NACK is sent by the master after the last byte to indicate the end of the read cycle. This must be followed with an I
2
C Stop condition or
I
2
C Repeated-Start condition.
5. If there are more data words to read, IRQ will fall at the rising edge of CLK for the NACK. Otherwise, IRQ remains high until an I
2
C Stop
condition or an I
2
C Repeated-Start condition occurs.
Start
SCP1_CLK
SCP1_SDA
Data Byte 3 (MSB)
Stop
7-bit Address
R/
W
ACK
AC
K
Data Byte 2
AC
K
Data Byte 1
ACK
Data Byte 0 (LSB)
ACK
M
S
M
S
M
S
M
S
M
S
M
Notes: 1.
The
I
2
C slave is always responsible for driving the ACK for the address byte.
2. The I
2
C slave is responsible for driving the ACK during I
2
C writes.
Start
SCP1_CLK
SCP1_SDA
Data Byte 3 (MSB)
Stop
7-bit Address
R/
W
AC
K
AC
K
Data Byte 2
AC
K
Data Byte 1
AC
K
Data Byte 0 (LSB)
SCP1_IRQ#
N
ACK
M
S
S
M
S
M
S
M
S
M
M
M = Master Drives SDA
S = Slave Drives SDA