ISL6366 Datasheet, PDF(16/44 Page) Intersil Corporation – Dual 6-Phase + 1-Phase PWM Controller for VR12/IMVP7 Applications

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ISL6366 Datasheet, PDF (16/44 Pages) Intersil Corporation – Dual 6-Phase + 1-Phase PWM Controller for VR12/IMVP7 Applications

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ISL6366

The CPU can enter four distinct power states as shown in Table 2.

The ISL6366 supports all states, but it treats PSI2 and PSI3 the

same. In addition, the setDecay mode will automatically enter PSI2

State while decaying the output voltage. However, prior to the end of

soft-start (i.e: VR_RDY goes high), the lower power mode

(PSI1/2/3/Decay) is NOT enabled.

TABLE 2. POWER STATE COMMAND FROM CPU

STATE

DESCRIPTION

PSI0 High Power Mode, All Phases are running

PSI1 Low Power Mode

PSI2 Very Low Power Mode

PSI3 Ultra Low Power Mode, treated as PSI2

Decay Automatically entering PSI2 and Ramping down the output

voltage to a target voltage in Decay Mode

When the SVID bus sends PSI1/2/3 or Set VID Decay command, it

indicates the low power mode operation of the processor. The

controller will start phase shedding the next switching pulse. The

controller allows to drop the number of active phases according to

the logic on Table 3 for high light load efficiency performance. The

âNPSIâ register and SICI pin are to program the controller in

operation of non-coupled (SI), 2-phase coupled, or (N-x)-Phase

coupled inductors. Different cases yield different PWM output

behaviors on both dropped phase(s) and operational phase(s) as

PSI# is asserted and de-asserted. When CPU sends PSI0 command,

it will pull the controller back to normal CCM PWM operation to

sustain an immediate heavy transient load and high efficiency. Note

that âN-xâ means N-x phase coupled and x phase(s) are uncoupled.

For 2-Phase coupled inductor (CI) operation, both coupled phases

should be 180Â° out of phase. In low power states

(PSI1/2/3/Decay), the opposite phase of the operational phase

will turn on its Low-side MOSFET to circulate inductor current to

minimize conduction loss when Phase 1 is high.

When PSI1 is asserted, the VR0 is in single-phase CCM operation

with PWM1, or 2-phase CCM operation with PWM1 and 2, 3 or 4,

as shown in Table 1. The number of operational phases is

configured by âNPSIâ register, shown in Table 3. In PSI2/3/Decay

State, only single phase is in DCM/CCM operation, which is

programmed by the âDEâ register; the opposite PWM 2, 3, or 4

(depending upon configured maximum phase number as in

Table 1) of the PWM1 however will pull low at PWM1 high in CI

applications.

TABLE 3. PHASE DROPPING CONFIGURATION AT PSI1 AND

PSI2/3/DECAY

SICI NPSI CODE

PSI1 Mode

PSI2/3

& DECAY

0 SI1 SI, (N-1)-CI

1-Phase

SI2 SI, (N-2)-CI

2-Phase

1-Phase

1 0 CI1 2-Phase CI 1-Phase

1-Phase

1 1 CI2 2-Phase CI 2-Phase

1-Phase

NOTE: For 2-Phase CI option, the dropped coupled phase turns on LGATE

to circulate current when PWM1 is high.

The VR1 output can be disabled by pulling PWMS to VCC while the

respective address is released for use with a different VR controller.

For proper operation of VR0, the VR1âs respective pins should be

configured as described in âDisabling Outputâ on page 35.

While the controller is operational (VCC above POR, EN_VTT and

EN_PWR are both high, valid VID inputs), it can pull the PWM pins

to ~40% of VCC (~2V for 5V VCC bias) during various stages, such

as soft-start delay, phase shedding operation, or fault conditions

(OC or OV events). The matching driver's internal PWM resistor

divider can further raise the PWM potential, but not lower it

below the level set by the controller IC. Therefore, the controller's

PWM outputs are directly compatible with Intersil drivers that

require 5V PWM signal amplitudes. Drivers requiring 3.3V PWM

signal amplitudes are generally incompatible.

Diode Emulation Operation

To improve light efficiency, the ISL6366 can enter diode emulation

operation in PSI2/3 or Decay mode. Users however should select

Intersil VR12/IMVP7 compatible drivers: ISL6627 or ISL6625 for

PSI# channel(s). The diode emulation should be disabled if

non-compatible power stages or drivers are used.

Switching Frequency

Both VR0 and VR1 can independently set switching frequency,

which is determined by the selection of the frequency-setting

resistor, RT, which is connected from FS or FSS pin to GND or

VCC. Equation 4 and Figure 4 are provided to assist in selecting

the correct resistor value.

5------â---1---0---1---0--

FSW

(EQ. 4)

where FSW is the switching frequency of each phase.

Independent frequency for VR0 and VR1 allows for cost,

efficiency, and performance optimization. Proximity between the

power trains of the two regulators imposed by the

space-constrained layouts can lead to cross-coupling. To

minimize the effect of cross-coupling between regulators, select

operating frequencies at least 50kHz apart.

SWITCHING FREQUENCY (Hz)

FIGURE 4. SWITCHING FREQUENCY vs RT

FN6964.0

January 3, 2011

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