ISL6296DH-T Intersil, ISL6296DH-T Datasheet - Page 10

ISL6296DH-T

Manufacturer Part Number

ISL6296DH-T

Description

IC BATT AUTHENTICATION SOT-23

Manufacturer

Intersil

Series

FlexiHash™r

Datasheet

1.ISL6296DHZ-T.pdf (19 pages)

Specifications of ISL6296DH-T

Function

Battery Authentication

Battery Type

Li-Ion, Li-Pol, NiMH

Voltage - Supply

2.6 V ~ 4.8 V

Operating Temperature

-25°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

SC-74A, SOT-753

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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XSD Host Bus Interface

Communication with the host is achieved through XSD, a

light-weight subset of Intersil’s ISD single-wire bus interface.

XSD is a programmable-rate pseudo-synchronous

bidirectional host-initiated instruction-based serial

communication interface that allows up to two slave devices

to be attached and addressed separately. It includes

features to enable quick and reliable communication. The

communication protocol is optimized for efficient transfer of

data between the device and the host. The list below

outlines the features supported by the XSD bus interface:

• Programmable bit rate up to 23kbps

• Up to 2 devices can be connected to the host and

• 16-Bit host instruction frame supports multi-Byte register

• Built-in communication error detection

• CRC generation capability

• Supports interrupt signaling

• Integrated bus inactivity detector for automatic activation

XSD BUS PHYSICAL MODEL

The physical model of the XSD bus is shown in Figure 7.

The model shows a single-wire connection between the host

and the device, not including the ground signal. The input

logic on the device side is designed to be compatible with

any voltage between 1.8V to 5.0V. The host interface should

contain an open-drain or open-collector output. The pull-up

resister R

voltage V

the host supply voltage should be used for pull-up.

DATA TRANSFER PROTOCOL

To initiate a transaction, the host first sends a 16-bit

instruction frame to the device, followed by data byte

frame(s) if the instruction is a write operation. The instruction

frame consists of a chip-select code, operation code,

information, as shown in Figure 9. If the instruction is a read

operation, the device will return 1 to 17 byte frames of data

OTP ROM Write-in-Progress

XSD Bus Error

addressed separately

read and write

of sleep mode

CONDITION

DDH

can be connected either to the host supply

or the device supply voltage V

ENABLE BIT

INTERRUPT

eEEW

(fixed)

eINT

STATUS FLAG

INTERRUPT

DDD

TABLE 1. INTERRUPT EVENT SUMMARY

sEEW

sACC

sBER

. Typically

ISL6296

Accessing the ISL6296 during an on-going ROM write process (used only

during initial OTP ROM programming).

XSD bus error or invalid instruction frame detected. Improper authentication

sequence detected.

Accessing protected registers.

back to the host. The serial data transfer always takes place

with the LSB first. The following explains the bus symbols

and the transaction frames are introduced in later sections.

BUS SIGNALING SYMBOLS

The XSD bus is nominally held high. Various bus symbols

and commands are generated by active-low pulse width

modulation. Following are the set of valid bus signaling

symbols supported by the XSD interface:

1) break (issued by host):

• used to wake the device up from Sleep mode (Note: a

• used to reset the device’s XSD bit counters and time

• used to signal a change in communication channel (from

2) break (issued by device):

• used as ‘device-ready’ indication to the host (after a

• used as an interrupt indicator

3) ‘1’ symbol:

• used for instruction and data coding

4) ‘0’ symbol:

• used for instruction and data coding

SYMBOL TIMING DEFINITIONS

Symbol timings are defined in terms of bit-time (BT),

determined by the selected bus transfer bit-rate

pre-programmed into the device’s OTP ROM location

0-00[5:4]. Selectable bus speeds are: 2.89kHz (x = 0.5),

5.78kHz (x = 1), 11.56kHz (x = 2) and 23.12kHz (x = 4).

An instruction or data frame consists of a sequence of ‘1’

and/or ‘0’ symbols. Figure 8 illustrates the timing definitions.

A ‘1’ symbol is nominally 0.3 BT wide while a ‘0’ symbol is

nominally 0.7 BT wide. One ‘1’ or ‘0’ symbol is represented

in each BT period. Any detected pulse width less than 0.124

BT wide will be interpreted as a glitch and will result in a bus

error. Tables 2 and 3 summarize the timing definitions of all

narrow ‘break’ can also be used to wake up the device

from the Sleep mode, as described in the Power-on Reset

“Power-On Reset (POR)” on page 6.

qualifiers

one slave device to another)

Soft-reset or wake up from Sleep mode)

INTERRUPT EVENT

March 21, 2008

FN9201.2

ISL6296DH-T Intersil, ISL6296DH-T Datasheet - Page 10

ISL6296DH-T

Specifications of ISL6296DH-T

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