Table 5. skip settings – Rainbow Electronics MAX8707 User Manual

MAX8707

Multiphase, Fixed-Frequency Controller for
AMD Hammer CPU Core Power Supplies

26

______________________________________________________________________________________

SKIP

(INPUT)

SUS

(INPUT)

MODE

DRSKP

(OUTPUT)

OPERATION

Low

(GND)

Multiphase

Forced-PWM

High

(V

DD

)

The controller operates with a constant switching
frequency, providing low-noise forced-PWM operation. The
controller disables the zero-crossing comparators, forcing
the low-side gate-drive waveform to constantly be the
complement of the high-side gate-drive waveform.

Low

(GND)

High

(3.3V or V

CC

)

1-Phase Pulse

Skipping

Low

(PGND)

The controller automatically switches to pulse-skipping
operation 20µs after the target voltage reaches the SUSV
voltage. Pulse-skipping operation forces the controller into
PFM operation under light loads. Phase 1 remains active
while the other three phases are disabled—PWM2, PWM3,
and PWM4 pulled low.

High

(>1.2V)

Don’t Care

1-Phase Pulse

Skipping

Low

(PGND)

Pulse-skipping operation forces the controller into PFM
operation under light loads. Phase 1 remains active while
the other three phases are disabled—PWM2, PWM3, and
PWM4 pulled low.

Table 5. SKIP Settings

Idle Mode is a trademark of Maxim Integrated Products, Inc.

sense voltage exceeds the Idle Mode

 current-sense

threshold (V

IDLE

= 0.1 x V

PKLIMIT

). Under heavy-load

conditions, the continuous inductor current remains
above the Idle-Mode current-sense threshold, so the
on-time depends only on the feedback-voltage thresh-
old. Under light-load conditions, the controller remains
above the feedback-voltage threshold, so the on-time
duration depends solely on the Idle-Mode current-
sense threshold, which is approximately 10% of the full-
load current-limit threshold set by ILIM(PK).

When the controller enters suspend mode while SKIP is
pulled high, the multiphase controller immediately dis-
ables three phases, and only the main phase (PWM1)
remains active. When pulse skipping, the controller
blanks the upper VROK threshold and the OVP threshold
tracks the selected VID DAC code. The MAX8707 auto-
matically uses forced-PWM operation during soft-start
and soft-shutdown, regardless of the SKIP configuration.

Idle-Mode Current Sense Threshold

The Idle-Mode current-sense threshold forces a lightly
loaded regulator to source a minimum amount of ener-
gy with each on-time since the controller cannot termi-
nate the on-time until the current-sense voltage
exceeds the Idle-Mode current-sense threshold (V

IDLE

= 0.1 x V

PKLIMIT

). Since the zero-crossing comparator

prevents the switching regulator from sinking current,
the controller must skip pulses to avoid overcharging
the output. When the clock edge occurs, if the output
voltage still exceeds the feedback threshold, the con-

troller does not initiate another on-time. This forces the
controller to actually regulate the valley of the output
voltage ripple under light-load conditions.

Automatic Pulse-Skipping Crossover

In skip mode, the MAX8707 disables three phases and
forces DRSKP low to instruct the skip-mode drivers to
activate their zero-crossing comparators. Therefore, an
inherent automatic switchover to PFM takes place at light
loads (

Figure

6), resulting in a highly efficient operating

mode. This switchover is affected by a comparator that
truncates the low-side switch on-time at the inductor cur-
rent’s zero crossing. The driver’s zero-crossing compara-
tor senses the inductor current across the low-side
MOSFET (refer to the skip-mode driver data sheet).
Once V

LX

- V

PGND

drops below the zero-crossing

threshold, the driver forces DL low. This mechanism
causes the threshold between pulse-skipping PFM and
nonskipping PWM operation to coincide with the bound-
ary between continuous and discontinuous inductor-cur-
rent operation (also known as the critical conduction
point). The load-current level at which the PFM/PWM
crossover occurs, I

LOAD(SKIP)

, is given by:

The switching waveforms may appear noisy and asyn-
chronous when light loading causes pulse-skipping
operation, but this is a normal operating condition that

I

V

V

V

V f

L

LOAD SKIP

OUT

IN

OUT

IN SW

(

)

=

−

(

)

2