LT1786F Linear Technology, LT1786F Datasheet - Page 12

LT1786F

Manufacturer Part Number

LT1786F

Description

SMBus Programmable CCFL Switching Regulator

Manufacturer

Linear Technology

Datasheet

1.LT1786F.pdf (20 pages)

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battery drain. Additionally, all components, including PC

board and hardware, usually must fit within the LCD

enclosure with a height restriction of 5mm to 10mm.

The CCFL regulator drives an inductor that acts as a

switched-mode current source for a current-driven Royer-

class converter with efficiencies as high as 90%. The

control loop forces the CCFL PWM to modulate the aver-

age inductor current to maintain constant current in the

lamp. The constant current value, and thus lamp intensity,

is programmable. This drive technique provides a wide

range of intensity control. A unique lamp-current pro-

gramming block permits either grounded lamp or floating

lamp configurations. Grounded lamp circuits directly sense

one-half of average lamp current. Floating lamp circuits

directly sense the Royer’s primary-side converter current.

Floating-lamp circuits provide symmetric differential drive

to the lamp and reduce the parasitic loss from stray lamp-

to-frame capacitance, extending illumination range.

Block Diagram Operation

The LT1786F is a fixed frequency, current mode switching

regulator. A fixed frequency, current mode switcher con-

trols switch duty cycle directly by switch current rather

than by output voltage. Referring to the block diagram for

the LT1786F, the switch turns ON at the start of each

oscillator cycle. The switch turns OFF when switch current

reaches a predetermined level. The control of output lamp

current is obtained by using the output of a unique

programming block to set current trip level. The current

mode switching technique has several advantages. First,

it provides excellent rejection of input voltage variations.

Second, it reduces the 90 phase shift at mid-frequencies

in the energy storage inductor. This simplifies closed-loop

frequency compensation under widely varying input

voltage or output load conditions. Finally, it allows simple

pulse-by-pulse current limiting to provide maximum

switch protection under output overload or short-circuit

conditions.

The LT1786F incorporates a low dropout internal regula-

tor that provides a 2.4V supply for most of the internal

circuitry. This low dropout design allows input voltage to

vary from 3V to 6.5V with little change in quiescent

current. An active low shutdown pin typically reduces total

LT1786F

APPLICATIONS

INFORMATION

supply current to 150 A by shutting off the 2.4V regulator

and locks out switching action for standby operation. The

IC incorporates undervoltage lockout by sensing regulator

dropout and locking out switching below about 2.5V. The

regulator also provides thermal shutdown protection that

locks out switching in the presence of excessive junction

temperatures.

A 200kHz oscillator is the basic clock for all internal timing.

The oscillator turns on the output switch via its own logic

and driver circuitry. Adaptive anti-sat circuitry detects the

onset of saturation in the power switch and adjusts base

drive current instantaneously to limit switch saturation.

This minimizes driver dissipation and provides rapid turn-

off of the switch. The CCFL power switch is guaranteed to

provide a minimum of 1.25A in the LT1786F. The antisat

circuitry provides a ratio of switch current to driver current

of about 50:1.

Digital Interface

The LT1786F communicates with an SMBus host using

the standard 2-wire SMBus interface. The Timing Diagram

shows the signals on the SMBus. The two bus lines SDA

and SCL must be high when the bus is not in use. External

pull-up resistors or current sources are required at these

lines.

The LT1786F is a receive-only (slave) device. The master

must apply the following Write Byte protocol to commu-

nicate with the LT1786F:

S = Start Conditon, WR = Write Bit, A = Acknowledge Bit, P = Stop Condition

The master initiates communication with the LT1786F

with a START condition (see SMBus Operating Sequence)

and a 7-bit address followed by the write bit = 0. The

LT1786F acknowledges and the master delivers the

command byte. The LT1786F acknowledges and latches

the active bits of the command byte into register A (see

Block Diagram) at the falling edge of the acknowledge

pulse. The master sends the data byte and the LT1786F

acknowledges the data byte. The data byte is latched into

and the DAC current output assumes the new 6-bit data

S Slave Address WR

A Command Byte A

Data Byte

LT1786F Linear Technology, LT1786F Datasheet - Page 12

LT1786F

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