ISL6236IRZA-TKR5281 Intersil, ISL6236IRZA-TKR5281 Datasheet - Page 26

ISL6236IRZA-TKR5281

Manufacturer Part Number

ISL6236IRZA-TKR5281

Description

IC QUAD OUT POWER CONTROL 32-QFN

Manufacturer

Intersil

Datasheet

1.ISL6236IRZA-TKR5281.pdf (35 pages)

Specifications of ISL6236IRZA-TKR5281

Applications

Controller, Notebook Computers

Voltage - Input

5.5 ~ 25 V

Number Of Outputs

Operating Temperature

-40°C ~ 100°C

Mounting Type

Surface Mount

Package / Case

32-VQFN Exposed Pad, 32-HVQFN, 32-SQFN, 32-DHVQFN

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Other names

ISL6236IRZA-TKR5281TR

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full-load efficiency (assuming that the coil resistance remains

fixed) and less output voltage ripple. Penalties for using

higher inductor values include larger physical size and

degraded load-transient response (especially at low

input-voltage levels).

DC output accuracy specifications refer to the trip level of the

error comparator. When the inductor is in continuous

conduction, the output voltage has a DC regulation higher

than the trip level by 50% of the ripple. In discontinuous

conduction (SKIP = GND, light load), the output voltage has

a DC regulation higher than the trip level by approximately

1.0% due to slope compensation.

Forced-PWM Mode

The low-noise, forced-PWM (SKIP = VCC) mode disables

the zero-crossing comparator, which controls the low-side

switch ON-time. Disabling the zero-crossing detector causes

the low-side, gate-drive waveform to become the

complement of the high-side, gate-drive waveform. The

inductor current reverses at light loads as the PWM loop

strives to maintain a duty ratio of V

forced-PWM mode is to keep the switching frequency fairly

constant, but it comes at a cost: the no-load battery current

can be 10mA to 50mA, depending on switching frequency

and the external MOSFETs.

Forced-PWM mode is most useful for reducing

audio-frequency noise, improving load-transient response,

providing sink-current capability for dynamic output voltage

adjustment, and improving the cross-regulation of

multiple-output applications that use a flyback transformer or

coupled inductor.

Enhanced Ultrasonic Mode

(25kHz (min) Pulse Skipping)

Leaving SKIP unconnected or connecting SKIP to REF

activates a unique pulse-skipping mode with a minimum

switching frequency of 25kHz. This ultrasonic pulse-skipping

mode eliminates audio-frequency modulation that would

otherwise be present when a lightly loaded controller

automatically skips pulses. In ultrasonic mode, the controller

automatically transitions to fixed-frequency PWM operation

when the load reaches the same critical conduction point

(ILOAD(SKIP)).

An ultrasonic pulse occurs when the controller detects that

no switching has occurred within the last 20µs. Once

triggered, the ultrasonic controller pulls LGATE high, turning

on the low-side MOSFET to induce a negative inductor

current. After FB drops below the regulation point, the

controller turns off the low-side MOSFET (LGATE pulled low)

and triggers a constant ON-time (UGATE driven high). When

the ON-time has expired, the controller re-enables the

low-side MOSFET until the controller detects that the

inductor current dropped below the zero-crossing threshold.

Starting with a LGATE pulse greatly reduces the peak output

OUT

. The benefit of

ISL6236

voltage when compared to starting with a UGATE pulse, as

long as VFB < VREF, LGATE is off and UGATE is on, similar

to pure SKIP mode.

Reference and Linear Regulators (VREF3,

REF, LDO and 14V Charge Pump)

The 3.3V reference (VREF3) is accurate to ±1.5%

over-temperature, making VREF3 useful as a precision

system reference. VREF3 can supply up to 5mA for external

loads. Bypass VREF3 to GND with a 0.01µF capacitor.

Leave it open if there is no load.

The 2V reference (REF) is accurate to ±1% over-temperature,

also making REF useful as a precision system reference.

Bypass REF to GND with a 0.1µF (min) capacitor. REF can

supply up to 50µA for external loads.

An internal regulator produces a fixed 5V

(LDOREFIN < 0.2V) or 3.3V (LDOREFIN > VCC - 1V). In an

adjustable mode, the LDO output can be set from 0.7V to

4.5V. The LDO output voltage is equal to two times the

LDOREFIN voltage. The LDO regulator can supply up to

100mA for external loads. Bypass LDO with a minimum

4.7µF ceramic capacitor. When the LDOREFIN < 0.2V and

BYP voltage is 5V, the LDO bootstrap-switchover to an

internal 0.7Ω P-Channel MOSFET switch connects BYP to

LDO pin while simultaneously shutting down the internal

linear regulator. These actions bootstrap the device,

powering the loads from the BYP input voltages, rather than

through internal linear regulators from the battery. Similarly,

when the BYP = 3.3V and LDOREFIN = VCC, the LDO

bootstrap-switchover to an internal 1.5Ω P-Channel

MOSFET switch connects BYP to LDO pin while

simultaneously shutting down the internal linear regulator.

No switchover action in adjustable mode.

In Figure 68, the external 14V charge pump is driven by

LGATE1. When LGATE1 is low, D1a charged C8 sourced

from OUT1. C8 voltage is equal to OUT1 minus a diode

drop. When LGATE1 transitions to high, the charges from C8

will transfer to C

FB<Reg.Point

FIGURE 72. ULTRASONIC CURRENT WAVEFORMS

FB<REG.POINT

through D1b and charge it to VLGATE1

40µs (MAX)

ON-TIME (t

)

ON )

)

Zero-Crossing

ZERO-CROSSING

Detection

DETECTION

INDUCTOR

CURRENT

April 29, 2010

FN6373.6

ISL6236IRZA-TKR5281 Intersil, ISL6236IRZA-TKR5281 Datasheet - Page 26

ISL6236IRZA-TKR5281

Specifications of ISL6236IRZA-TKR5281

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