ISL78200 Datasheet, PDF(13/19 Page) Intersil Corporation – 2.5A Regulator with Integrated High-Side MOSFET for Synchronous Buck or Boost Buck Converter

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ISL78200 Datasheet, PDF (13/19 Pages) Intersil Corporation – 2.5A Regulator with Integrated High-Side MOSFET for Synchronous Buck or Boost Buck Converter

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ISL78200

Functional Description

Initialization

Initially, the ISL78200 continually monitors the voltage at EN pin.

When the voltage on EN pin exceeds its rising threshold, the

internal LDO will start-up to build up VCC. After Power-On Reset

(POR) circuits detect that VCC voltage has exceeded the POR

threshold, the soft-start will be initiated.

Soft-Start

The soft-start (SS) ramp is built up in the external capacitor on

the SS pin that is charged by an internal 5ÂµA current source.

CSS[Î¼F] = 6.5 â tSS[S]

(EQ. 1)

The SS ramp starts from 0V to a voltage above 0.8V. Once SS

reaches 0.8V, the bandgap reference takes over and the IC goes

into steady state operation.

The SS plays a vital role in the hiccup mode of operation. The IC

works as cycle-by-cycle peak current limiting at overload

condition. When a harsh condition occurs and the current in the

upper side MOSFET reaches the second overcurrent threshold,

the SS pin is pulled to ground and a dummy soft-start cycle is

initiated. At the dummy SS cycle, the current to charge the

soft-start cap is cut down to 1/5 of its normal value. Therefore, a

dummy SS cycle takes 5 times that of the regular SS cycle.

During the dummy SS period, the control loop is disabled and no

PWM output. At the end of this cycle, it will start the normal SS.

The hiccup mode persists until the second overcurrent threshold

is no longer reached.

The ISL78200 is capable of start-up with prebiased output.

PWM Control

Pulling the MODE pin to GND will set the IC in forced PWM mode.

The ISL78200 employs the peak current mode PWM control for

fast transient response and cycle-by-cycle current limiting. See

page 4 for the block diagram.

The PWM operation is initialized by the clock from the oscillator.

The upper MOSFET is turned on by the clock at the beginning of a

PWM cycle and the current in the MOSFET starts to ramp up.

When the sum of the current sense signal and the slope

compensation signal reaches the error amplifier output voltage

level, the PWM comparator is triggered to shut down the PWM

logic to turn off the high side MOSFET. The high side MOSFET

stays off until the next clock signal comes for the next cycle.

The output voltage is sensed by a resistor divider from VOUT to the

FB pin. The difference between the FB voltage and 0.8V

reference is amplified and compensated to generate the error

voltage signal at the COMP pin. Then the COMP pin signal is

compared with the current ramp signal to shut down the PWM.

PFM Mode Operation

To pull the MODE pin HIGH (>2.5V) or leave the MODE pin floating

will set the IC to have PFM (Pulse Frequency Modulation)

operation in light load. In PFM mode, the switching frequency is

dramatically reduced to minimize the switching loss. The

ISL78200 enters PFM mode when the MOSFET peak current is

lower than the PWM/PFM boundary current threshold. This

threshold is 700mA as default when there is no programming

resistor at MODE pin. It can also be programmed by a resistor at

the MODE pin to ground (see Equation 2).

RMODE

-----1---1----8---5----0---0------

IPFM + 0.2

(EQ. 2)

where IPFM is the desired PWM/PFM boundary current threshold

and RMODE is the programming resistor.

500

400

300

200

100

0.0

0.2

0.4

0.6

0.8

1.0

1.2

1.4

IPFM (A)

FIGURE 27. RMODE vs IPFM

Synchronous and

Non-Synchronous Buck

The ISL78200 supports both synchronous and non-synchronous

buck operations. For a non-synchronous buck operation when a

power diode is used as the low side power device, the LGATE

driver can be disabled with LGATE connected to VCC (before IC

start-up).

Input Voltage

With the part switching, the operating ISL78200 input voltage

must be under 40V. This recommendation allows for short

voltage ringing spikes (within a couple of ns time range) due to

part switching while not exceeding 44V as Absolute Maximum

Ratings.

Output Voltage

The ISL78200 output voltage can be programmed down to 0.8V

by a resistor divider from VOUT to FB. The maximum achievable

voltage is (VIN * DMAX - VDROP), where VDROP is the voltage drop

in the power path including mainly the MOSFET rDS(ON) and

inductor DCR. The maximum duty cycle DMAX is decided by

(1/Fs-tMINOFF).

FN7641.0

September 22, 2011

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