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X40626V14-4.5A

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P22
10
FN8119.0
March 28, 2005
Figure 9. Page Write Operation
Figure 10. Writing 12 bytes to a 64-byte page starting at location 60 (Wrap around).
The master terminates the Data Byte loading by issuing
a stop condition, which causes the device to begin the
nonvolatile write cycle. As with the byte write operation,
all inputs are disabled until completion of the internal
write cycle. See Figure 9 for the address, acknowledge,
and data transfer sequence.
Stops and Write Modes
Stop conditions that terminate write operations must
be sent by the master after sending at least 1 full data
byte plus the subsequent ACK signal. If a stop is
issued in the middle of a data byte, or before 1 full
data byte plus its associated ACK is sent, then the
device will reset itself without performing the write. The
contents of the array will not be effected.
Acknowledge Polling
The disabling of the inputs during nonvolatile cycles
can be used to take advantage of the typical 5mS write
cycle time. Once the stop condition is issued to indi-
cate the end of the master’s byte load operation, the
device initiates the internal nonvolatile cycle. Acknowl-
edge polling can be initiated immediately. To do this,
the master issues a start condition followed by the
Slave Address Byte for a write or read operation. If the
device is still busy with the nonvolatile cycle then no
ACK will be returned. If the device has completed the
write operation, an ACK will be returned and the host
can then proceed with the read or write operation.
Refer to the flow chart in Figure 11.
S
T
A
R
T
S
T
O
P
A
C
K
A
C
K
A
C
K
A
C
K
A
C
K
Data
(0) (n)
0
S P
Data
1 0 1 0
(I n63)
Signals from
the Master
SDA Bus
Signals from
the Slave
Slave
Address
Byte 1
Word Address
Byte 0
Word Address
0
S
1
S
0
address
address
60
4 Bytes
63
8 Bytes
address
= 7
address pointer
ends here
Addr = 8
X40626
11
FN8119.0
March 28, 2005
Figure 11. Acknowledge Polling Sequence Serial Read Operations
Read operations are initiated in the same manner as
write operations with the exception that the R/W
bit of
the Slave Address Byte is set to one. There are three
basic read operations: Current Address Reads, Ran-
dom Reads, and Sequential Reads.
Current Address Read
Internally the device contains an address counter that
maintains the address of the last word read incre-
mented by one. Therefore, if the last read was to
address n, the next read operation would access data
from address n+1. On power-up, the address in the
address counter is 00H.
Upon receipt of the Slave Address Byte with the R/W
bit
set to one, the device issues an acknowledge and then
transmits the eight bits of the Data Byte. The master
terminates the read operation when it does not respond
with an acknowledge during the ninth clock and then
issues a stop condition. Refer to Figure 12 for the
address, acknowledge, and data transfer sequence.
It should be noted that the ninth clock cycle of the read
operation is not a “don’t care.” To terminate a read
operation, the master must either issue a stop condi-
tion during the ninth cycle or hold SDA HIGH during
the ninth clock cycle and then issue a stop condition.
Figure 12. Current Address Read Sequence
ACK
returned?
Issue Slave Address
Byte (Read or Write)
Byte load completed
by issuing STOP.
Enter ACK Polling
Issue STOP
Issue START
NO
YES
Nonvolatile Cycle
complete. Continue
command sequence?
Issue STOP
NO
Continue Normal
Read or Write
Command Sequence
PROCEED
YES
S
t
a
r
t
S
t
o
p
Slave
Address
Data
SDA Bus
Signals from
the Slave
Signals from
the Master
A
C
K
S
0
S
1
110100
X40626
12
FN8119.0
March 28, 2005
Random Read
Random read operation allows the master to access
any memory location in the array. Prior to issuing the
Slave Address Byte with the R/W
bit set to one, the
master must first perform a “dummy” write operation.
The master issues the start condition and the Slave
Address Byte, receives an acknowledge, then issues
the Word Address Bytes. After acknowledging receipts
of the Word Address Bytes, the master immediately
issues another start condition and the Slave Address
Byte with the R/W
bit set to one. This is followed by an
acknowledge from the device and then by the eight bit
word. The master terminates the read operation by not
responding with an acknowledge and then issuing a
stop condition. Refer to Figure 13 for the address,
acknowledge, and data transfer sequence.
Figure 13. Random Address Read Sequence
There is a similar operation, called “Set Current
Address” where the device does no operation, but
enters a new address into the address counter if a
stop is issued instead of the second start shown in Fig-
ure 13. The device goes into standby mode after the
stop and all bus activity will be ignored until a start is
detected. The next Current Address Read operation
reads from the newly loaded address. This operation
could be useful if the master knows the next address it
needs to read, but is not ready for the data.
Sequential Read
Sequential reads can be initiated as either a current
address read or random address read. The first Data
Byte is transmitted as with the other modes; however,
the master now responds with an acknowledge, indicat-
ing it requires additional data. The device continues to
output data for each acknowledge received. The master
terminates the read operation by not responding with an
acknowledge and then issuing a stop condition.
The data output is sequential, with the data from address
n followed by the data from address n + 1. The address
counter for read operations increments through all page
and column addresses, allowing the entire memory con-
tents to be serially read during one operation. At the end
of the address space the counter “rolls over” to address
0000H and the device continues to output data for each
acknowledge received. Refer to Figure 14 for the
acknowledge and data transfer sequence.
Signals from
the Master
SDA Bus
Signals from
the Slave
S
T
A
R
T
S
T
O
P
A
C
K
A
C
K
A
C
K
0
S
T
A
R
T
1
Data
A
C
K
S PS1010
Slave
Address
Byte 1
Word Address
Byte 0
Word Address
Slave
Address
S
1
S
0
1010
S
1
S
0
00
X40626
P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P22

X40626V14-4.5A

Mfr. #:
Buy X40626V14-4.5A
Manufacturer:
Renesas / Intersil
Description:
IC SUPERVISOR CPU DUAL 14-TSSOP
Lifecycle:
New from this manufacturer.
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