ISL12026IBZ Intersil, ISL12026IBZ Datasheet - Page 18
ISL12026IBZ
Manufacturer Part Number
ISL12026IBZ
Description
IC RTC/CALENDAR EEPROM 8-SOIC
Manufacturer
Intersil
Type
Clock/Calendar/EEPROMr
Specifications of ISL12026IBZ
Memory Size
4K (512 x 8)
Time Format
HH:MM:SS (12/24 hr)
Date Format
YY-MM-DD-dd
Interface
I²C, 2-Wire Serial
Voltage - Supply
2.7 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Clock Format
HH
Clock Ic Type
RTC
Interface Type
I2C, Serial
Memory Configuration
512 X 8
Supply Voltage Range
2.7V To 5.5V
Digital Ic Case Style
SOIC
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
ISL12026IBZ
Manufacturer:
INTELSEL
Quantity:
60
Part Number:
ISL12026IBZ
Manufacturer:
INTERSIL
Quantity:
20 000
Part Number:
ISL12026IBZ-T
Manufacturer:
INTERSIL
Quantity:
20 000
acknowledge during the ninth clock and issuing a stop
condition. Refer to Figure 19 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 condition during the
ninth cycle or hold SDA HIGH during the ninth clock cycle
and then issue a stop condition.
SIGNALS FROM
THE MASTER
SDA BUS
SIGNALS FROM
THE SLAVE
FIGURE 19. CURRENT ADDRESS READ SEQUENCE
FIGURE 20. ACKNOWLEDGE POLLING SEQUENCE
Issue Memory Array Slave
AFh (Read) or AEh (Write)
Cycle complete. Continue
command sequence?
Byte load completed
Enter ACK Polling
non-volatile write
Continue normal
by issuing STOP.
Read or Write
Issue START
Address Byte
PROCEED
command
returned?
sequence
ACK
A
R
S
T
T
YES
YES
1
ADDRESS
SLAVE
18
1
1
1
NO
NO
1
A
C
K
Issue STOP
Issue STOP
DATA
O
S
P
T
ISL12026
Random Read
Random read operations allow the master to access any
location in the ISL12026. Prior to issuing the Slave Address
Byte with the R/W bit set to zero, 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 receipt of each word
address byte, 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 data word. The master terminates the
read operation by not responding with an acknowledge and
then issuing a stop condition. Refer to Figure 21 for the
address, acknowledge, and data transfer sequence.
In a similar operation called “Set Current Address,” the
device sets the address if a stop is issued instead of the
second start shown in Figure 21. The ISL12026 then goes
into standby mode after the stop and all bus activity will be
ignored until a start is detected. This operation loads the new
address into the address counter. The next Current Address
Read operation will read 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, indicating 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 contents to
be serially read during one operation. At the end of the
address space the counter “rolls over” to the start of the
address space and the ISL12026 continues to output data
for each acknowledge received. Refer to Figure 22 for the
acknowledge and data transfer sequence.
October 23, 2006
FN8231.5
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