ISL6334CCRZ Intersil, ISL6334CCRZ Datasheet - Page 21

ISL6334CCRZ

Manufacturer Part Number

ISL6334CCRZ

Description

IC CTRLR PWM SYNC BUCK 40-QFN

Manufacturer

Intersil

Datasheet

1.ISL6334CCRZ.pdf (30 pages)

Specifications of ISL6334CCRZ

Applications

Controller, Intel VR11.1

Voltage - Input

3 ~ 12 V

Number Of Outputs

Voltage - Output

0.5 ~ 1.6 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

40-VFQFN, 40-VFQFPN

Rohs Compliant

YES

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 21 of 30
Download datasheet (789Kb)

1.1V, the minimum time to validate the VID input is 500ns.

Therefore, the minimum t

During t

the DAC voltage change at 6.25mV per step. The time for

each step is determined by the frequency of the soft-start

oscillator, which is defined by the resistor R

GND. The second soft-start ramp time t

calculated based on Equations 15 and 16:

For example, when VID is set to 1.5V and the R

100kΩ, the first soft-start ramp time t

second soft-start ramp time t

After the DAC voltage reaches the final VID setting,

VR_RDY will be set to high with the fixed delay t

typical value for t

released, the controller disregards the PSI# input and

always operates in normal CCM PWM mode.

Current Sense Output

The current flowing out of the IMON pin is equal to the

sensed average current inside ISL6334B, ISL6334C. In

typical applications, a resistor is placed from the IMON pin to

GND to generate a voltage, which is proportional to the load

current and the resistor value, as shown in Equation 17:

where V

resistor between the IMON pin and GND, I

output current of the converter, R

connected to the ISEN+ pin, N is the active channel number,

and R

either the DCR of the inductor or R

sensing method.

The resistor from the IMON pin to GND should be chosen to

ensure that the voltage at the IMON pin is less than 1.11V

under the maximum load current. If the IMON pin voltage is

higher than 1.11V, overcurrent shutdown will be triggered, as

described in “Overcurrent Protection” on page 22.

A small capacitor can be placed between the IMON pin and

GND to reduce the noise impact. If this pin is not used, tie it

to GND.

Fault Monitoring and Protection

The ISL6334B, ISL6334C actively monitors output voltage and

current to detect fault conditions. Fault monitors trigger

protective measures to prevent damage to a microprocessor

load. One common power-good indicator is provided for linking

to external system monitors. The schematic in Figure 10

IOUT

(

------------------------------------------------ - μs

1.1 R

------------------------ μs

6.25 25

is the DC resistance of the current sense element,

IMON

VID

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

⋅

and t

6.25 25

IOUT

⋅

–

1.1

is the voltage at the IMON pin, R

(

⋅

----------------- - I

) R

⋅

ISEN

)

, ISL6334B, ISL6334C digitally controls

is 85µs. Before the VR_RDY is

(

LOAD

)

is about 86µs.

will be 256µs.

ISEN

SENSE

is the sense resistor

will be 704µs and the

depending on the

LOAD

and t

from SS pin to

IMON

is the total

ISL6334B, ISL6334C

can be

. The

is set at

(EQ. 16)

(EQ. 15)

(EQ. 17)

is the

outlines the interaction between the fault monitors and the

VR_RDY signal.

VR_RDY Signal

The VR_RDY pin is an open-drain logic output which

indicates that the soft-start period has completed and the

output voltage is within the regulated range. VR_RDY is

pulled low during shutdown and releases high after a

successful soft-start and a fixed delay t

pulled low when an undervoltage or overvoltage condition is

detected, or the controller is disabled by a reset from

EN_PWR, EN_VTT, POR, or VID OFF-code.

Undervoltage Detection

The undervoltage threshold is set at 50% of the VID code.

When the output voltage at VSEN is below the undervoltage

threshold, VR_RDY is pulled low.

Overvoltage Protection

Regardless of the VR being enabled or not, the ISL6334B,

ISL6334C overvoltage protection (OVP) circuit will be active

after its POR. The OVP thresholds are different under different

operation conditions. When VR is not enabled and during the

soft-start intervals t

1.273V. Once the controller detects valid VID input, the OVP

trip point will be changed to DAC plus 175mV.

Two actions are taken by ISL6334B, ISL6334C to protect the

microprocessor load when an overvoltage condition occurs.

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

commanded low instantly (less than 20ns). 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 VDIFF voltage falls below the DAC plus 75mV, PWM

signals enter a high-impedance state. The Intersil drivers

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

VDIFF

FIGURE 10. VR_RDY AND PROTECTION CIRCUITRY

VID + 0.175V

50%

AND CONTROL LOGIC

DAC

, t

SOFT-START, FAULT

and t

, the OVP threshold is

. VR_RDY will be

105µA

AVG

1.11V

August 31, 2010

FN6689.2

IMON

ISL6334CCRZ Intersil, ISL6334CCRZ Datasheet - Page 21

ISL6334CCRZ

Specifications of ISL6334CCRZ

Related parts for ISL6334CCRZ