11AAXXX/11LCXXX
FIGURE 3-4:
MAK (‘1’)
ACKNOWLEDGE BITS
3.3
Acknowledge
SAK (‘1’)
An Acknowledge routine occurs after each byte is
transmitted, including the start header. This routine
consists of two bits. The first bit is transmitted by the
master, and the second bit is transmitted by the slave.
Note: A MAK must always be transmitted
NoMAK (‘0’)
NoSAK(1)
following the start header.
The Master Acknowledge, or MAK, is signified by trans-
mitting a ‘1’, and informs the slave that the current
operation is to be continued. Conversely, a Not
Acknowledge, or NoMAK, is signified by transmitting a
‘0’, and is used to end the current operation (and initiate
the write cycle for write operations).
Note 1: A NoSAK is defined as any sequence that is not a
valid SAK.
3.4
Device Addressing
Note: When a NoMAK is used to end a WRITE
or WRSR instruction, the write cycle is
not initiated if no bytes of data have
been received.
A device address byte is the first byte received from the
master device following the start header. The device
address byte consists of a four-bit family code, for the
11XX this is set as ‘1010’. The last four bits of the
device address byte are the device code, which is
hardwired to ‘0000’.
The slave Acknowledge, or SAK, is also signified by
transmitting a ‘1’, and confirms proper communication.
However, unlike the NoMAK, the NoSAK is signified by
the lack of a middle edge during the bit period.
FIGURE 3-5:
DEVICE ADDRESS BYTE
ALLOCATION
Note: In order to guard against bus contention,
a NoSAK will occur after the start
header.
MAKSAK
SLAVE ADDRESS
A NoSAK will occur for the following events:
• Following the start header
• Following the device address, if no slave on the
bus matches the transmitted address
0
0
0
0
1
0
1
0
• Following the command byte, if the command is
invalid, including Read, CRRD, Write, WRSR,
SETAL, and ERAL during a write cycle.
3.5
Bus Conflict Protection
• If the slave becomes out of sync with the master
To help guard against high current conditions arising
from bus conflicts, the 11XX features a current-limited
output driver. The IOL and IOH specifications describe
the maximum current that can be sunk or sourced,
respectively, by the SCIO pin. The 11XX will vary the
output driver impedance to ensure that the maximum
current level is not exceeded.
• If a command is terminated prematurely by using
a NoMAK, with the exception of immediately after
the device address.
See Figure 3.3 and Figure 3-4 for details.
If a NoSAK is received from the slave after any byte
(except the start header), an error has occurred. The
master should then perform a standby pulse and begin
the desired command again.
FIGURE 3-3:
Master
ACKNOWLEDGE
ROUTINE
Slave
SAK
MAK
DS22067E-page 8
Preliminary
© 2008 Microchip Technology Inc.