LTC1539_15 Datasheet, PDF(4/32 Page) Linear Technology – Dual High Efficiency, Low Noise, Synchronous Step-Down Switching Regulators

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LTC1539_15 Datasheet, PDF (4/32 Pages) Linear Technology – Dual High Efficiency, Low Noise, Synchronous Step-Down Switching Regulators

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LTC1538-AUX/LTC1539

ELECTRICAL CHARACTERISTICS TA = 25Â°C, VIN = 15V, VRUN/SS1,2 = 5V unless otherwise noted.

SYMBOL

PARAMETER

Low-Battery Comparator

VSATLBO

LBO Saturation Voltage

ILLBO

LBO Leakage

VTHLB1

LBI Trip Voltage

IINLB1

LBI Input Current

VHYSLBO

LBO Hysteresis

Auxiliary Regulator/Comparator

IAUXDR

AUXDR Current

Max Current Sinking Capability

Control Current

Leakage when OFF

IINAUXFB

IINAUXON

VTHAUXON

VSATAUXDR

VAUXFB

AUXFB Input Current

AUXON Input Current

AUXON Trip Voltage

AUXDR Saturation Voltage

AUXFB Voltage

VTHAUXDR

AUXFB Divider Disconnect Voltage

CONDITIONS

ILBO = 1.6mA, VLBI = 1.1V

VLBO = 12V, VLBI = 1.4V

High to Low Transition on LBO

VLBI = 1.19V

VEXTVCC = 0V

VAUXDR = 4V, VAUXFB = 1.0V, VAUXON = 5V

VAUXDR = 5V, VAUXFB = 1.5V, VAUXON = 5V

VAUXDR = 24V, VAUXFB = 1.5V, VAUXON = 0V

VAUXFB = 1.19V, VAUXON = 5V

VAUXON = 5V

VAUXDR = 4V, VAUXFB = 1V

IAUXDR = 1.6mA, VAUXFB = 1V, VAUXON = 5V

VAUXON = 5V, 11V < VAUXDR < 24V (Note 5)

VAUXON = 5V, 3V < VAUXDR < 7V

VAUXON = 5V (Note 5); Ramping Negative

MIN TYP MAX UNITS

0.6

0.01

ÂµA

q 1.16 1.19 1.22

ÂµA

0.01

ÂµA

0.01

ÂµA

0.01

ÂµA

1.0

1.19

1.4

0.4

0.8

q 11.5 12.00 12.5

q 1.14 1.19 1.24

7.5

8.5

9.5

The q denotes specifications which apply over the full operating

temperature range.

Note 1: TJ is calculated from the ambient temperature TA and power

dissipation PD according to the following formulas:

LTC1538CG-AUX: TJ = TA + (PD)(95Â°C/W)

LTC1539CGW: TJ = TA + (PD)(85Â°C/W)

Note 2: The LTC1538-AUX and LTC1539 are tested in a feedback loop

which servos VOSENSE1,2 to the balance point for the error amplifier

(VITH1,2 = 1.19V).

Note 3: Dynamic supply current is higher due to the gate charge being

delivered at the switching frequency. See Applications Information.

Note 4: Oscillator frequency is tested by measuring the COSC charge and

discharge current (IOSC) and applying the formula:

fOSC (kHz) = 8.4(108)[COSC (pF) + 11]-1 (1/ICHG + 1/IDISC) â1

Note 5: The auxiliary regulator is tested in a feedback loop which servos

VAUXFB to the balance point for the error amplifier. For applications with

VAUXDR > 9.5V, VAUXFB uses an internal resistive divider. See Applications

Information section.

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