ISL6296ADRTZ-T Intersil, ISL6296ADRTZ-T Datasheet - Page 13

ISL6296ADRTZ-T

Manufacturer Part Number

ISL6296ADRTZ-T

Description

IC AUTHENTICATION DEVICE 8-TDFN

Manufacturer

Intersil

Series

FlexiHash™r

Datasheet

1.ISL6296ADHZ-T.pdf (20 pages)

Specifications of ISL6296ADRTZ-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

8-TDFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Bus Transaction Protocol

The XSD bus for the ISL6296A defines three types of bus

transactions. Figure 11 shows the bus transaction protocol.

The blue color represents the signal sent by the host and the

green color stands for the signal sent by the device. Before

the transaction starts, the host should make sure that the

XSD device is not in the sleep mode. One method is to

always send a ‘break’ signal before starting the transaction,

as shown in Figure 11. If the device is not in the sleep mode,

the ‘break’ signal is not mandatory. The ‘break’ pulse width

may appear to be wider than what the host sends out

because of the reason explained in Figure 4. The symbols in

Figure 11 are explained in Table 7.

TABLE 7. SYMBOLS IN THE BUS TRANSACTION PROTOCOL

(B) Multi-Byte Read Instruction.

(A) Multi-Byte Write Instruction.

IFG

SYM

break

Stage

LSB

1st

Host inter-frame gap

Device inter-frame gap

Host turn-around time

Device turn-around time

FIGURE 11. XSD BUS TRANSACTION PROTOCOL. THE ‘BREAK’ SIGNAL IS OPTIONAL IF THE DEVICE IS AWAKE

DESCRIPTION

Stage

2nd

Read Instruction Frame

Stage

Read Instruction Frame

Write Instruction Frame

3rd

FIGURE 12. THE CRC CALCULATOR FOR THE PASSIVE CRC SUPPORT

0 BT

1 BT

MIN

Stage

4th

1 BT

TYP

800ms

MAX

ISL6296A

Stage

5th

Passive CRC Support

The CRC feature only supports the read transaction in the

ISL6296A. When the OPCODE in the instruction is ‘10’, an

8-bit CRC is automatically calculated for the data bytes

being transferred out. The CRC result is then appended after

the last data byte is read out.

CRC is generated using the DOW CRC polynomial as

determined in Equation 1:

The CRC generation algorithm is logically illustrated in

Figure 12. Prior to a new CRC calculation, the LFSR (linear

feedback shift register) is initialized to zero. The read data to

be transmitted out is concurrently shifted into the CRC

calculator. After the actual data is transmitted out, the final

content of the LFSR is the resulting CRC value. This value is

transmitted out after the read data, with LSB being

transmitted out first.

POLYNOM

TA D

IFG H

(output from slave)

Data Frame

Data Frame 1

Stage

Data Frame 1

6th

Stage

7th

TA H

IFG D

IFG

Stage

MSB

8th

Next Instruction

(output from slave)

Data Frame 2

Frame

April 15, 2010

Output

Serial

FN6567.3

(EQ. 1)

ISL6296ADRTZ-T Intersil, ISL6296ADRTZ-T Datasheet - Page 13

ISL6296ADRTZ-T

Specifications of ISL6296ADRTZ-T

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