LT1786F Linear Technology, LT1786F Datasheet - Page 8

LT1786F

Manufacturer Part Number

LT1786F

Description

SMBus Programmable CCFL Switching Regulator

Manufacturer

Linear Technology

Datasheet

1.LT1786F.pdf (20 pages)

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LT1786F

AGND (Pin 5): This is the low current analog ground. It is

the negative sense terminal for the internal 1.24V refer-

ence and the I

Connect low current signal paths that terminate to ground

and frequency compensation components that terminate

to ground directly to this pin for best regulation and

performance.

SHDN (Pin 6): Pulling this pin low causes regulator

shutdown with quiescent current typically reduced to

150 A. In this condition, the DAC circuitry remains alive

and the DAC I

use a pull-up resistor to force a logic high level (maximum

of 6V). The pin can be floated and an internal current

source will pull the pin to a logic high level. However, poor

PCB layout techniques can permit switching noise to inject

into this pin and cause erratic operation. LTC recommends

the use of a pull-up resistor. If the SMBSUS pin is pulled

low or Bit 7 = 1 in the Command Byte, complete IC

shutdown is enabled. An internal open drain N-channel

device turns on and pulls the SHDN pin low. The N-channel

can sink up to 1.6mA.

SMBSUS (Pin 7): Pulling this pin low causes complete

shutdown for the IC with quiescent current typically

reduced to 40 A. In this SMBus suspend condition, the

DAC retains its last output current setting and returns to

this level when the logic low signal at this pin is removed.

If this pin is not used, use a pull-up resistor to force a

logic high level or tie it directly to V

techniques can permit switching noise to inject into this

pin and cause erratic operation. A small value capacitor

may be required to filter out this noise. Setting Bit 7 = 1

in the Command Byte also enables an SMBus suspend

condition. Enabling an SMBus suspend condition turns

on an internal open drain N-channel device which pulls

the SHDN pin low. The N-channel device sinks up to

1.6mA at the SHDN pin.

ADR (Pin 8): This is the SMBus address select pin. Tie this

pin to either V

addresses to which the LT1786F will respond. If the ADR

FUNCTIONS

OUT

CCFL

level is maintained. If this pin is not used,

or GND to select one of two SMBus

summing voltage in the LT1786F.

. Poor PCB layout

pin is tied to GND, the SMBus address is set to 58 (HEX)

and the DAC I

is tied to V

the DAC I

required for the DAC I

to keep the CCFL regulator off until the required value has

been programmed for the DAC via the SMBus.

SDA (Pin 9): This is the SMBus bidirectional data input and

digital output pin. Data is shifted into the SDA pin and

acknowledged by the SDA pin. SDA is a high impedance

pin while data is shifted into the pin and an open-drain

N-channel output during acknowledges. SDA requires a

pull-up resistor or current source to V

SCL (Pin 10): This is the SMBus clock input pin. Data is

shifted into the SDA pin at the rising edges of the SCL clock

during data transfer. SCL is a high impedance pin. SCL

requires a pull-up resistor or current source to V

provides a full-scale output current of 100 A 4 A over

temperature. Initial accuracy is 100 A 2 A.The pin can

be biased from – 10V to (V

tied directly to the I

current which sets the operating lamp current. The I

pin has very little bias voltage change when tied to the I

pin as I

sourced from the I

IC accepts an input voltage range of 3V minimum to 6.5V

maximum with little change in quiescent current (zero

switch current). An internal, low-dropout regulator pro-

vides a 2.4V supply for most of the internal circuitry.

Supply current increases as switch current increases at a

rate approximately 1/50 of switch current. This corre-

sponds to a forced Beta of 50 for the power switch. The IC

incorporates undervoltage lockout by sensing regulator

dropout and locking out switching for input voltages

below 2.5V. Hysteresis is not used to maximize the range

of input voltage. The typical input voltage is a 3.3V or 5V

logic supply.

OUT

(Pin 12): This is the supply pin for the LT1786F. The

(Pin 11): This pin is the current output for the DAC and

CCFL

OUT

, the SMBus address is set to 5A (HEX) and

powers up to half scale. If a different value is

is regulated. The programming current is

OUT

powers up to zero scale. If the ADR pin

CCFL

OUT

pin and provides the programming

pin and sunk by the I

on power-up, use the SHDN pin

– 1.3V). This pin is typically

CCFL

pin.

CCFL

OUT

LT1786F Linear Technology, LT1786F Datasheet - Page 8

LT1786F

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