ISL6266AHRZ Intersil, ISL6266AHRZ Datasheet - Page 19

ISL6266AHRZ

Manufacturer Part Number

ISL6266AHRZ

Description

IC CORE CTRLR 2PHASE 48-QFN

Manufacturer

Intersil

Datasheet

1.ISL6266HRZ.pdf (30 pages)

Specifications of ISL6266AHRZ

Applications

Converter, Intel IMVP-6

Voltage - Input

5 ~ 25 V

Number Of Outputs

Voltage - Output

0.3 ~ 1.5 V

Operating Temperature

-10°C ~ 100°C

Mounting Type

Surface Mount

Package / Case

48-VQFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ISL6266AHRZ

Manufacturer:

Intersil

Quantity:

545

Company:

H&T Electronics

Part Number:

ISL6266AHRZ

Quantity:

Company:

Meier Automation Equipment Co., Limited

Part Number:

ISL6266AHRZ-T

Manufacturer:

INTERSIL

Quantity:

20 000

Current page: 19 of 30
Download datasheet (652Kb)

minus the output voltage, VO´, is a high-bandwidth analog of

the total inductor current. This voltage is used as an input to

a differential amplifier to achieve the IMVP-6+ load line, and

also as the input to the overcurrent protection circuit.

When using inductor DCR current sensing, a single NTC

element is used to compensate the positive temperature

coefficient of the copper winding thus maintaining the

load-line accuracy.

In addition to monitoring the total current (used for DROOP

and overcurrent protection), the individual channel average

currents are also monitored and used for balancing the load

between channels. The IBAL circuit will adjust the channel

pulse-widths up or down relative to the other channel to

cause the voltages presented at the ISEN pins to be equal.

The ISL6266A controller can be configured for two-channel

operation, with the channels operating 180° apart. The

channel PWM frequency is determined by the value of

Input and output ripple frequencies will be the channel PWM

frequency multiplied by the number of active channels.

High Efficiency Operation Mode

The ISL6266A has several operating modes to optimize

efficiency. The controller's operational modes are designed

to work in conjunction with the Intel IMVP-6+ control signals

to maintain the optimal system configuration for all IMVP-6+

conditions. These operating modes are established by the

IMVP-6+ control signal inputs PSI#, DPRSLPVR, and

DPRSTP# as shown in Table 2. At high current levels, the

system will operate with both phases fully active, responding

rapidly to transients and delivering maximum power to the

load. At reduced load-current levels, one of the phases may

NOTE:

5. The negative VID slew rate when DPRSTP# = 0 and DPRSLPVR = 1 is limited to no faster than the slow slew rate. However, slower slew rates

DPRSLPVR

FSET

can be seen. To conserve power, the ISL6266A will tri-state UGATE and LGATE and let the load gradually pull the core voltage back into

regulation.

connected to pin VW as shown in Figures 32 and 33.

DPRSTP#

TABLE 2. CONTROL SIGNAL TRUTH TABLES FOR OPERATION MODES OF ISL6266 AND ISL6266A

PSI#

1-phase CCM

2-phase CCM

1-phase CCM

2-phase CCM

1-phase diode emulation

1-phase CCM

2-phase CCM

ISL6266

ISL6266, ISL6266A

1-phase diode emulation

2-phase CCM

1-phase diode emulation

2-phase CCM

1-phase diode emulation

2-phase CCM

be idled. This configuration will minimize switching losses,

while still maintaining transient response capability. At the

lowest current levels, the controller automatically configures

the system to operate in single-phase automatic-DCM

mode, thus achieving the highest possible efficiency. In this

mode of operation, the lower MOSFET will be configured to

automatically detect and prevent discharge current flowing

from the output capacitor through the inductors, and the

switching frequency will be proportionately reduced, thus

greatly reducing both conduction and switching losses.

Smooth mode transitions are facilitated by the R

Technology™, which correctly maintains the internally

synthesized ripple currents throughout mode transitions. The

controller is thus able to deliver the appropriate current to the

load throughout mode transitions. The controller contains

embedded mode-transition algorithms that maintain

voltage-regulation for all control signal input sequences and

durations.

While the ISL6266A will respond according to the logic

states shown in Table 2, it can deviate from the commanded

state during sleep state exit. If the core voltage is directed by

the CPU to make a VID change that causes excessive

output capacitor inrush current when going from 1-phase

DCM to 1-phase CCM, the controller will automatically add

Phase 2 until the VID transition is complete. This is

beneficial for designs that have very large C

The controller contains internal counters that prevent

spurious control signal glitches from resulting in unwanted

mode transitions. Control signals of less than two switching

periods do not result in phase-idling.

ISL6266A

VID SLEW RATE

slow (Note 5)

slow

fast

OUT

CPU MODE

awake

sleep

values.

June 14, 2010

FN6398.3

ISL6266AHRZ Intersil, ISL6266AHRZ Datasheet - Page 19

ISL6266AHRZ

Specifications of ISL6266AHRZ

Available stocks

Related parts for ISL6266AHRZ