ISL6366 Datasheet, PDF(29/44 Page) Intersil Corporation – Dual 6-Phase + 1-Phase PWM Controller for VR12/IMVP7 Applications

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ISL6366 Datasheet, PDF (29/44 Pages) Intersil Corporation – Dual 6-Phase + 1-Phase PWM Controller for VR12/IMVP7 Applications

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ISL6366

Two actions are taken by ISL6366 to protect the microprocessor

load when an overvoltage condition occurs.

At the inception of an overvoltage event, all PWM outputs are

commanded low instantly. This causes the Intersil drivers to turn on

the lower MOSFETs and pull the output voltage below a level to avoid

damaging the load. When the output voltage falls below the DAC

plus 107mV, PWM signals enter a high-impedance state. The Intersil

drivers respond to the high-impedance input by turning off both

upper and lower MOSFETs. If the overvoltage condition reoccurs,

ISL6366 will again command the lower MOSFETs to turn on.

ISL6366 will continue to protect the load in this fashion as long as

the overvoltage condition occurs.

Once an overvoltage condition is detected, the respective VR#

ceases the normal PWM operation and pulls its VR_Ready low

until ISL6366 is reset. Cycling the voltage VCC below the

POR-falling threshold will reset the controller. Cycling the EN_VTT,

or EN_PWR will also reset the controller.

VR_RDY

average current is measured. The average current is continually

compared with a constant 100ÂµA reference current, as shown in

Figure 17. Once the average current exceeds the reference

current, a comparator triggers the converter to shutdown. In

addition, the current out of the IMON pin is equal to the sensed

average current IAVG. With a resistor from IMON to GND, the

voltage at IMON will be proportional to the sensed average current

and the resistor value. The ISL6366 continuously monitors the

voltage at the IMON pin. If the voltage at the IMON pin is higher

than 1.12V, a precision comparator triggers the overcurrent

shutdown. Since the internal current comparator has wider

tolerance than the voltage comparator, the IMON voltage

comparator is the preferred one for OCP trip. Hence, the resistor

between IMON and GND can be scaled such that the overcurrent

protection threshold is tripping lower than 100ÂµA. For example,

the overcurrent threshold for the sensed average current IAVG can

be set to 95ÂµA by using a 11.8kÎ© resistor from IMON to GND.

Thus, the internal 100ÂµA comparator might only be triggered at its

lower corner. However, IMON OCP trip should NOT be too far away

from 140ÂµA, which is used for cycle-by-cycle protection and

inductor saturation.

100ÂµA

IAVG

OUTPUT CURRENT

SOFT-START, FAULT

AND CONTROL LOGIC

VSEN

VID + 0.179V

ISL6366

1.12V

IMON

FIGURE 17. VR_RDY AND PROTECTION CIRCUITRY

Overcurrent Protection

ISL6366 has two levels of overcurrent protection. Each phase is

protected from a sustained overcurrent condition by limiting its

peak current, while the combined phase currents are protected on

an instantaneous basis.

For the individual channel overcurrent protection, ISL6366

continuously compares the sensed peak current (~50ns filter)

signal of each channel with the 140ÂµA reference current. If one

channel current exceeds the reference current, ISL6366 will pull

PWM signal of this channel to low for the rest of the switching

cycle. This PWM signal can be turned on next cycle if the sensed

channel current is less than the 140ÂµA reference current. The

peak current limit of individual channel will only use for cycle-by-

cycle current limiting and will not trigger the converter to

shutdown.

In instantaneous protection mode, ISL6366 utilizes the sensed

average current IAVG to detect an overcurrent condition. See

âCurrent Sensingâ on page 17 for more details on how the

OUTPUT VOLTAGE

2ms/DIV

FIGURE 18. OVERCURRENT BEHAVIOR IN HICCUP MODE. FSW =

500kHz

At the beginning of overcurrent shutdown, the controller places all

PWM signals in a high-impedance state, commanding the Intersil

MOSFET driver ICs to turn off both upper and lower MOSFETs. The

system remains in this state a period of 8ms. If the controller is still

enabled at the end of this wait period, it will attempt a soft-start. If

the fault remains, the trip-retry cycles will continue indefinitely (as

shown in Figure 18) until either controller is disabled or the fault is

cleared. Note that the energy delivered during trip-retry cycling is

much less than during full-load operation, so there is no thermal

hazard during this kind of operation.

Thermal Monitoring (VR_HOT#)

VR_HOT# indicates the temperature status of the voltage

regulator. VR_HOT# is an open-drain output, and an external pull-

up resistor is required. This signal is valid only after the controller

is enabled.

The VR_HOT# signal can be used to inform the system that the

temperature of the voltage regulator is too high and the CPU

should reduce its power consumption. The VR_HOT# signal may

be tied to the CPUâs PROC_HOT signal.

FN6964.0

January 3, 2011

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