ISL6421A_15 Datasheet, PDF(6/12 Page) Intersil Corporation – Single Output LNB Supply and Control Voltage Regulator with I2C Interface for Advanced Satellite Set-top Box Designs

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ISL6421A_15 Datasheet, PDF (6/12 Pages) Intersil Corporation – Single Output LNB Supply and Control Voltage Regulator with I2C Interface for Advanced Satellite Set-top Box Designs

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ISL6421A

Functional Pin Description (Continued)

SYMBOL

FUNCTION

VCC

Main power supply to the chip.

GATE

This is the device output of the PWM. This high current driver output is capable of driving the gate of a power FET.

This output is actively held low when Vcc is below the UVLO threshold.

VOUT

Output voltage for the LNB.

ADDRESS

Address pin to select two different addresses per voltage level at this pin.

COMP

Error amp output used for compensation.

Feedback pin for the PWM.

CPVOUT, CPSWIN,

CPSWOUT

Charge pump connections.

SEL18V

When connected HIGH, this pin will change the output of the PWM to 18V. Only available on the QFN package option.

Functional Description

The ISL6421A is a single output voltage regulator controlled

by an I2C bus, making it an ideal choice for advanced

satellite set-top box and personal video recorder

applications. Both supply and control voltage outputs for a

low noise block (LNB) are available simultaneously in any

output configuration. The device utilizes a built-in DC/DC

step-converter which, from a single supply source ranging

from 8V to 14V, generates the voltage that enables the linear

post-regulator to work with a minimum of dissipated power.

An undervoltage lockout circuit disables the circuit when

VCC drops below a fixed threshold (7.5V typ).

DiSEqC Encoding

The internal oscillator is factory-trimmed to provide a tone of

22kHz in accordance with DiSeqC standards. No further

adjustment is required. The 22kHz oscillator can be

controlled either by the I2C interface (ENT bit) or by a

dedicated pin (DSQIN) that allows immediate DiSEqC data

encoding for the LNB. All the functions of this IC are

controlled via the I2C bus by writing to the system registers

(SR). The same registers can be read back, and two bits will

report the diagnostic status. The internal oscillator operates

the converters at ten times the tone frequency. The device

offers full I2C compatible functionality, 3.3V or 5V, and up to

400kHz operation.

If the Tone Enable (ENT) bit is set LOW through I2C, then

the DSQIN terminal activates the internal tone signal,

modulating the dc output with a 0.3V, 22kHz, symmetrical

waveform. The presence of this signal usually gives the LNB

information about the band to be received.

Burst coding of the 22kHz tone can be accomplished due to

the fast response of the DSQIN input and rapid tone

response. This allows implementation of the DiSEqC

(EUTELSAT) protocols.

When the ENT bit is set HIGH, a continuous 22kHz tone is

generated regardless of the DSQIN pin logic status. The

ENT bit must be set LOW when the DSQIN pin is used for

DiSEqC encoding.

Linear Regulator

The output linear regulator will sink and source current. This

feature allows full modulation capability into capacitive loads

as high as 0.25ÂµF. In order to minimize the power

dissipation, the output voltage of the internal step-up

converter is adjusted to allow the linear regulator to work at

minimum dropout.

When the device is put in the shutdown mode (EN = LOW),

the PWM power block is disabled. When the regulator block

is active (EN = HIGH), the output can be logic controlled to

be 13V or 18V (typical) by means of the VSEL bit (Voltage

Select) for remote controlling of non-DiSEqC LNBs.

Additionally, it is possible to increment by 1V (typical) the

selected voltage value to compensate for the excess voltage

drop along the coaxial cable (LLC bit HIGH).

Output Timing

The programmed output voltage rise and fall times can be

set by an external capacitor. The output rise and fall times

will be approximately 3400 times the TCAP value. For the

recommended range of 0.47ÂµF to 2.2ÂµF, the rise and fall

time would be 1.6ms to 7.6ms. Using a 0.47ÂµF capacitor

insures the PWM stays below its overcurrent threshold when

charging a 120ÂµF VSW filter cap during the worst case 13V

to 19V transition. A typical value of 1.0ÂµF is recommended.

This feature affects the programmed voltage rise and fall

times.

Current Limiting

The current limiting block can operate either statically

(simple current clamp) or dynamically. The threshold is

between 500mA and 625mA. When the DCL (Dynamic

Current Limiting) bit is set to LOW, the overcurrent protection

circuit works dynamically. That is, as soon as an overload is

detected, the output is shut down for a time TOFF, typically

FN9167.3

March 9, 2006

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