1 rise time for control port clock, Figure 21. i·c buffer example, 2 memory address pointer (map) – Cirrus Logic CS4341 User Manual
Page 21: 2a incr (auto map increment), 2b map0-3 (memory address pointer), 3 i·c mode, 3 i²c mode, Figure 21. i²c buffer example, Cs4341
CS4341
DS298F5
21
4.9.1
Rise Time for Control Port Clock
When excess capacitive loading is present on the I²C clock line, pin 6 (SCL/CCLK) may not have
sufficient hysteresis to meet the standard I²C rise time specification. This prevents the use of com-
mon I²C configurations with a resistor pull-up. A workaround is achieved by placing a Schmitt Trig-
ger buffer, a 74HC14 for example, on the SCL line just prior to the CS4341. This will not affect the
operation of the I²C bus as pin 6 is an input only.
4.9.2
Memory Address Pointer (MAP)
The MAP byte precedes the control port register byte during a write operation and is not available
again until after a start condition is initiated. During a read operation the byte transmitted after the
ACK will contain the data of the register pointed to by the MAP (see section 4.9.3 for write/read
details).
4.9.2a
INCR (Auto Map Increment)
The device has a MAP auto increment capability enabled by the INCR bit (the MSB) of the MAP.
If INCR is set to 0, MAP will stay constant for successive I²C writes or reads and SPI writes. If INCR
is set to 1, MAP will auto increment after each byte is written, allowing block reads or writes of suc-
cessive registers.
Default = ‘0’
0 - Disabled
1 - Enabled
4.9.2b
MAP0-3 (Memory Address Pointer)
Default = ‘0000’
4.9.3
I²C Mode
In the I²C Mode, data is clocked into and out of the bi-directional serial control data line, SDA, by
the serial control port clock, SCL. There is no CS pin. Pin AD0 enables the user to alter the chip
address (001000[AD0][R/W]) and should be tied to VA or AGND as required, before powering up
the device. If the device ever detects a high to low transition on the AD0/CS pin after power-up,
SPI mode will be selected.
7
6
5
4
3
2
1
0
INCR
Reserved
Reserved
Reserved
MAP3
MAP2
MAP1
MAP0
0
0
0
0
0
0
0
0
P in 6
V A
S C L
Figure 21. I²C Buffer Example