X96010V14IZ Intersil, X96010V14IZ Datasheet - Page 22
X96010V14IZ
Manufacturer Part Number
X96010V14IZ
Description
IC SENSOR CONDITIONER 14-TSSOP
Manufacturer
Intersil
Type
Sensor Conditionerr
Datasheet
1.X96010V14IZ.pdf
(26 pages)
Specifications of X96010V14IZ
Input Type
Voltage
Output Type
Voltage
Interface
2-Wire
Current - Supply
15mA
Mounting Type
Surface Mount
Package / Case
14-TSSOP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
X96010V14IZ
Manufacturer:
IDT
Quantity:
989
Slave Address Byte
Following a START condition, the master must output
a Slave Address Byte (Refer to figure 15.). This byte
includes three parts:
– The four MSBs (SA7 - SA4) are the Device Type
– The next three bits (SA3 - SA1) are the Device
– The LSB (SA0) is the R/W bit. This bit defines the
Figure 16. Acknowledge Polling Sequence
Identifier, which must always be set to 1010 in order
to select the X96010.
Address bits (AS2 - AS0). To access any part of the
X96010’s memory, the value of bits AS2, AS1, and
AS0 must correspond to the logic levels at pins A2,
A1, and A0 respectively.
operation to be performed on the device being
addressed. When the R/W bit is “1”, then a Read
operation is selected. A “0” selects a Write
operation (Refer to figure 15.)
complete. Continue command
Continue normal Read or Write
Issue Slave Address
Byte (Read or Write)
Issue START
Byte load completed by issuing
ACK returned?
command sequence
High Voltage
sequence.
STOP. Enter ACK Polling
PROCEED
YES
YES
22
NO
Issue STOP
Issue STOP
NO
X96010
Nonvolatile Write Acknowledge Polling
After a nonvolatile write command sequence is cor-
rectly issued (including the final STOP condition), the
X96010 initiates an internal high voltage write cycle.
This cycle typically requires 5 ms. During this time,
any Read or Write command is ignored by the
X96010. Write Acknowledge Polling is used to deter-
mine whether a high voltage write cycle is completed.
During acknowledge polling, the master first issues a
START condition followed by a Slave Address Byte.
The Slave Address Byte contains the X96010’s Device
Type Identifier and Device Address. The LSB of the
Slave Address (R/W) can be set to either 1 or 0 in this
case. If the device is busy within the high voltage
cycle, then no ACK is returned. If the high voltage
cycle is completed, an ACK is returned and the master
can then proceed with a new Read or Write operation.
(Refer to figure 16.).
Byte Write Operation
In order to perform a Byte Write operation to the mem-
ory array, the Write Enable Latch (WEL) bit of the Con-
trol 6 Register must first be set to “1”. (See “WEL:
Write Enable Latch (Volatile)” on page 13.)
For any Byte Write operation, the X96010 requires the
Slave Address Byte, an Address Byte, and a Data
Byte (See Figure 17). After each of them, the X96010
responds with an ACK. The master then terminates
the transfer by generating a STOP condition. At this
time, if all data bits are volatile, the X96010 is ready for
the next read or write operation. If some bits are non-
volatile, the X96010 begins the internal write cycle to
the nonvolatile memory. During the internal nonvolatile
write cycle, the X96010 does not respond to any
requests from the master. The SDA output is at high
impedance.
A Byte Write operation can access bytes at locations
80h through FEh directly, when setting the Address
Byte to 80h through FEh respectively. Setting the
Address Byte to FFh accesses the byte at location
100h. The other sixteen bytes, at locations FFh and
101h through 10Fh can only be accessed using Page
Write operations. The byte at location FFh can only be
written using a “Page Write” operation.
Writing to Control bytes which are located at byte
addresses 80h through 8Fh is a special case
described in the section “Writing to Control Registers” .
October 25, 2005
FN8214.1
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