ISL6567CRZ Intersil, ISL6567CRZ Datasheet - Page 14

ISL6567CRZ

Manufacturer Part Number

ISL6567CRZ

Description

IC CTLR PWM 2PHASE BUCK 24-QFN

Manufacturer

Intersil

Datasheet

1.ISL6567CRZ.pdf (26 pages)

Specifications of ISL6567CRZ

Pwm Type

Voltage Mode

Number Of Outputs

Frequency - Max

1.5MHz

Duty Cycle

66%

Voltage - Supply

4.9 V ~ 5.5 V

Buck

Yes

Boost

Flyback

Inverting

Doubler

Divider

Cuk

Isolated

Operating Temperature

0°C ~ 70°C

Package / Case

24-VQFN

Frequency-max

1.5MHz

Rohs Compliant

YES

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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DIFFERENTIAL AMPLIFIER’S UNITY GAIN NETWORK

The differential amplifier on the ISL6567 utilizes a typical

resistive network along with active compensating circuitry to

set its unity gain. This resistive network can affect the DC

regulation setpoint in proportion to its relative magnitude

compared to the external output voltage setting resistor

divider. Figure 10 details the internal resistive network. For

minimal impact on the output voltage setting, follow the

guidelines presented in “Setting the Output Voltage” on

page 13.

EXTERNAL REFERENCE OPERATION

The ISL6567 is capable of accepting an external voltage and

using it as a reference for its output regulation. To enable this

mode of operation, the MON pin potential has to be below

3.5V and the reference voltage has to be connected to the

REFTRK pin. The internal or external reference mode of

operation is latched in every time the POR is released or the

ISL6567 is enabled. The highest magnitude external

reference fed to the REFTRK pin that the ISL6567 can follow

is limited to 2.3V. The ISL6567 utilizes a small initial negative

offset (typically about 50mV) in the voltage loop at the

beginning of it soft-start, to counteract any positive offsets

that may have undesirable effects. As this initial offset is

phased out as the reference is ramped up to around 200mV,

in order to avoid an error in the output regulation level, it is

recommended the external reference has an amplitude

(final, DC level) exceeding 300mV.

While in external reference (ER) mode, the threshold

sensitive MON pin can be used to control when the ISL6567

starts to monitor the output for PGOOD and OVP protection

purposes. As shown in Figure 11, connect the MON pin to

the voltage to be monitored via a resistor divider. An internal

current source helps set a user-adjustable monitor threshold

hysteresis. Choose resistor values according to desired

hysteresis voltage, V

FIGURE 11. SETTING THE MONITORING THRESHOLD AND

COMPARATOR

------- -

VCC

MON

HYSTERESIS

(10µA)

(300mV)

REF

ISL6567

, and desired rising threshold, V

----------------------------

–

⋅

VDIFF

MON

EXTERNAL CIRCUIT

REF

(EQ. 9)

ISL6567

Make note that, in these equations, V

reference of the MON comparator (300mV).

Intersil recommends the MON threshold is set to be tripped

when the external reference voltage reaches at least 90% of

the final DC value. Since PGOOD and OVP monitoring are

relative to the external reference magnitude, it is important to

understand that the PGOOD and OVP thresholds will move

in proportion to the moving reference (externally soft-started

reference). Thus, the absolute thresholds of PGOOD and

OVP.

ISL6567 POWER-GOOD OPERATION

The open-collector PGOOD output reports on the quality of

the regulated output voltage. Once the ISL6567 is enabled

and the MON pin is above its threshold, PGOOD goes open

circuit when the output enters the power-good window (see

the “Electrical Specifications” table starting on page 5, and

stays open for as long as the output remains within the

specified window. The PGOOD is immediately pulled low if

the ISL6567 is disabled by removal of bias, toggling of the

EN pin, or upon encountering of an overcurrent event;

PGOOD is allowed to report the status of the output as soon

as operation is resumed following any of these events.

The MON pin is used in external-reference configurations,

where the reference is controlled by a circuit external to the

ISL6567. As such, the ISL6567 has no way of ‘knowing’

when the external reference has stabilized to its full value, or

is within a certain percentage of its final value. Thus, the

To V

TARGET

-------------------------- -

TARGET

FIGURE 12. RATIOMETRIC VOLTAGE TRACKING

OUT

REFTRK

--------------------- -

TARGET

REF

OUT

E/A

ISL6567

REF

refers to the

EXT CIRCUIT

VDIFF

RGND

VSEN

To V

May 28, 2009

FN9243.3

OUT

ISL6567CRZ Intersil, ISL6567CRZ Datasheet - Page 14

ISL6567CRZ

Specifications of ISL6567CRZ

Available stocks

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