ISL90728WIE627Z-TK Intersil, ISL90728WIE627Z-TK Datasheet - Page 6

ISL90728WIE627Z-TK

Manufacturer Part Number

ISL90728WIE627Z-TK

Description

IC XDCP 128-TAP 10OHM SC70-6

Manufacturer

Intersil

Series

XDCP™r

Datasheet

1.ISL90727WIE627Z-TK.pdf (8 pages)

Specifications of ISL90728WIE627Z-TK

Taps

128

Resistance (ohms)

10K

Number Of Circuits

Temperature Coefficient

45 ppm/°C Typical

Memory Type

Volatile

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

SC-70-6, SC-88, SOT-363

Resistance In Ohms

10K

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

ISL90728WIE627Z-TK

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While the ISL90727 and ISL90728 are being powered up,

the WR is reset to 40h (64 decimal), which locates R

roughly at the center between R

The WR and IVR can be read or written directly using the

The ISL90727 and ISL90728 support bidirectional bus

oriented protocol. The protocol defines any device that

sends data onto the bus as a transmitter and the receiving

device as the receiver. The device controlling the transfer is

a master and the device being controlled is the slave. The

master always initiates data transfers and provides the clock

for both transmit and receive operations. Therefore, the

ISL90727 and ISL90728 operate as slave devices in all

applications.

All communication over the I

sending the MSB of each byte of data first.

Protocol Conventions

Data states on the SDA line can change only during SCL

LOW periods. SDA state changes during SCL HIGH are

reserved for indicating START and STOP conditions (see

Figure 1). On power-up of the ISL90727 and ISL90728, the

SDA pin is in the input mode.

All I

which is a HIGH to LOW transition of SDA while SCL is HIGH.

The ISL90727 and ISL90728 continuously monitor the SDA

and SCL lines for the START condition and do not respond to

any command until this condition is met (see Figure 1). A

START condition is ignored during the power-up sequence and

during internal non-volatile write cycles.

All I

condition, which is a LOW to HIGH transition of SDA while

SCL is HIGH (see Figure 1).

An ACK, Acknowledge, is a software convention used to

indicate a successful data transfer. The transmitting device,

either master or slave, releases the SDA bus after

transmitting 8 bits. During the ninth clock cycle, the receiver

pulls the SDA line LOW to acknowledge the reception of the

eight bits of data (see Figure 2).

The ISL90727 and ISL90728 respond with an ACK after

recognition of a START condition followed by a valid

Identification Byte, and once again after successful receipt of

an Address Byte. The ISL90727 and ISL90728 also respond

with an ACK after receiving a Data Byte of a write operation.

The master must respond with an ACK after receiving a Data

Byte of a read operation.

A valid Identification Byte contains 0101110 as the seven

MSBs for the ISL90727 and 0111110 as the seven MSBs for

the ISL90728. The LSB in the Read/Write bit. Its value is “1”

C serial interface as described in the following sections.

C Serial Interface

C interface operations must begin with a START condition,

C interface operations must be terminated by a STOP

C interface is conducted by

and R

ISL90727, ISL90728

for a Read operation, and “0” for a Write operation (see

Table 1).

Write Operation

A Write operation requires a START condition, followed by a

valid Identification Byte, a valid Address Byte, a Data Byte,

and a STOP condition. After each of the three bytes, the

ISL90727 and ISL90728 respond with an ACK. At this time,

the device enters its standby state (see Figure 3).

Data Protection

A valid Identification Byte, Address Byte, and total number of

SCL pulses act as a protection of both volatile and

non-volatile registers. During a Write sequence, the Data

Byte is loaded into an internal shift register as it is received.

If the Address Byte is 0, the Data Byte is transferred to the

Wiper Register (WR) at the falling edge of the SCL pulse

that loads the last bit (LSB) of the Data Byte. If an address

other than 00h or an invalid slave address is sent, then the

device will respond with no ACK.

Read Operation

A Read operation consist of a three byte instruction followed

by one or more Data Bytes (See Figure 4). The master

initiates the operation issuing the following sequence: a

START, the Identification byte with the R/W bit set to “0”, an

Address Byte, a second START, and a second Identification

byte with the R/W bit set to “1”. After each of the three bytes,

the ISL90727 and ISL90728 respond with an ACK. Then the

ISL90727 and ISL90728 transmit the Data Byte as long as

the master responds with an ACK during the SCL cycle

following the eighth bit of each byte. The master then

terminates the read operation (issuing a STOP condition)

following the last bit of the Data Byte (see Figure 4).

ISL90727

ISL90728

TABLE 1. IDENTIFICATION BYTE FORMAT

MSB

October 10, 2008

FN8247.6

R/W

LSB

ISL90728WIE627Z-TK Intersil, ISL90728WIE627Z-TK Datasheet - Page 6

ISL90728WIE627Z-TK

Specifications of ISL90728WIE627Z-TK

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