ISL97673IRZ Intersil, ISL97673IRZ Datasheet - Page 18

ISL97673IRZ

Manufacturer Part Number

ISL97673IRZ

Description

IC LED DVR PWM CTRL 6CH 20QFN

Manufacturer

Intersil

Datasheet

1.ISL97673IRZ.pdf (27 pages)

Specifications of ISL97673IRZ

Topology

PWM, Step-Up (Boost)

Number Of Outputs

Internal Driver

Yes

Type - Primary

Automotive, Backlight

Type - Secondary

RGB, White LED

Frequency

600kHz, 1.2MHz

Voltage - Supply

4.5 V ~ 26.5 V

Voltage - Output

Mounting Type

Surface Mount

Package / Case

20-VFQFN Exposed Pad

Operating Temperature

-40°C ~ 85°C

Current - Output / Channel

40mA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 18 of 27
Download datasheet (563Kb)

Write Byte

The Write Byte protocol is only three bytes long. The first

byte starts with the slave address followed by the

“command code,” which translates to the “register index”

being written. The third byte contains the data byte that

must be written into the register selected by the

“command code”. A shaded label is used on cycles during

which the slaved backlight controller “owns” or “drives”

the Data line. All other cycles are driven by the “host

master.”

Read Byte

As shown in the Figure 27, the four byte long Read Byte

protocol starts out with the slave address followed by

the “command code” which translates to the “register

index.” Subsequently, the bus direction turns around

with the re-broadcast of the slave address with bit 0

indicating a read (“R”) cycle. The fourth byte contains

the data being returned by the backlight controller. That

byte value in the data byte reflects the value of the

Note the bus directions, which are highlighted by the

shaded label that is used on cycles during which the

slaved backlight controller “owns” or “drives” the Data

line. All other cycles are driven by the “host master.”

Slave Device Address

The slave address contains 7 MSB plus one LSB as R/W

bit, but these 8 bits are usually called Slave Address

bytes. As shown in Figure 28, the high nibble of the Slave

Address byte is 0x5 or 0101b to denote the “backlight

controller class.” Bit 3 in the lower nibble of the Slave

Address byte is 1. Bit 0 is always the R/W bit, as

specified by the SMBus/I

document, the device address will always be expressed

as a full 8-bit address instead of the shorter 7-bit address

typically used in other backlight controller specifications

to avoid confusion. Therefore, if the device is in the write

Master to Slave

Slave to Master

Slave Address

Master to Slave

Slave to Master

Slave Address

C protocol. Note: In this

Command

Code

FIGURE 26. WRITE BYTE PROTOCOL

FIGURE 27. READ BYTE PROTOCOL

Command Code

ISL97673

mode where bit 0 is 0, the slave address byte is 0x58 or

01011000b. If the device is in the read mode where bit 0

is 1, the slave address byte is 0x59 or 01011001b.

The backlight controller may sense the state of the pins

at POR or during normal operation. The pins will not

change state while the device is in operation.

SMBus/I

The backlight controller registers are Byte wide and

accessible via the SMBus/I

protocols. Their bit assignments are provided in the

following sections with reserved bits containing a

default value of “0”.

Slave Address

FIGURE 28. SLAVE ADDRESS BYTE DEFINITION

MSB

C Register Definitions

IDENTIFIER

DEVICE

Data byte

C Read/Write Byte

Data Byte

ADDRESS

DEVICE

June 24, 2010

LSB

R/W

FN7633.0

ISL97673IRZ Intersil, ISL97673IRZ Datasheet - Page 18

ISL97673IRZ

Specifications of ISL97673IRZ

Related parts for ISL97673IRZ