Datasheet
SLAVE
ADDRESS
R/W
REGISTER
ADDRESS
DATAA
A/A
PA
Frommastertoslave
Fromslavetomaster
A =acknowledge(SDA low)
=Notacknowledge(SDA high)
A
S=START condition
P =STOP condition
1 7 1 1 8 1 8 1 1
0 (write)
S
S
R/W R/W
A
A P
Frommastertoslave
Fromslavetomaster
Sr=RepeatedSTART
Sr
SLAVE
ADDRESS
SLAVE
ADDRESS
DATA
DATA
0 (write)
REGISTER
ADDRESS
A
A
A
A
1 (read)
A/A
(nbytes+
acknowledge)
A =acknowledge(SDA low)
=Notacknowledge(SDA high)
A
S=START condition
P =STOP condition
1 7 1 1 8 1 8 1 11 7 1 1
CONFIGURING AND MONITORING THE UCD9080
UCD9080
SLVS692E – SEPTEMBER 2006 – REVISED MAY 2008 ...................................................................................................................................................
www.ti.com
I
2
C Unidirectional Transfer
Figure 9. I
2
C Register Access With START/STOP
Registers that can be read are implemented using an I
2
C read operation, which uses the I
2
C combined format
that changes data direction during the transaction. This transaction uses an I
2
C repeated START during the
direction change.
I
2
C Combined Format
Figure 10. I
2
C Register Access With Repeated START
The UCD9080 also supports a feature that auto-increments the register address pointer for increased efficiency
when accessing sequential blocks of data. It is not necessary to issue separate I
2
C transactions.
The UCD9080 supports both configuration and monitoring using its I
2
C slave interface. A Microsoft Windows GUI
is available for configuring and monitoring the UCD9080. See the UCD9080 Power Supply Sequencer and
Monitor EVM user's guide (SLVU184 ).
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Product Folder Link(s) :UCD9080