MAX17036 Maxim Integrated Products, MAX17036 Datasheet - Page 23

MAX17036

Manufacturer Part Number

MAX17036

Description

(MAX17030 / MAX17036) 1/2/3-Phase Quick-PWM IMVP-6.5 VID Controllers

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX17036.pdf (38 pages)

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w w w . D a t a S h e e t 4 U . c o m

The current-limit circuit employs a unique “valley” cur-

rent-sensing algorithm that senses the voltage across

the current-sense resistors or inductor DCR at the cur-

rent-sense inputs (CSP_ to CSN_). If the current-sense

signal of the selected phase is above the current-limit

threshold, the PWM controller does not initiate a new

cycle until the inductor current of the selected phase

drops below the valley current-limit threshold. When

any one phase exceeds the current limit, all phases are

effectively current limited since the interleaved con-

troller does not initiate a cycle with the next phase.

Since only the valley current is actively limited, the actu-

al peak current is greater than the current-limit thresh-

old by an amount equal to the inductor ripple current.

Therefore, the exact current-limit characteristic and

maximum load capability are a function of the current-

sense resistance, inductor value, and battery voltage.

The positive valley current-limit threshold voltage at

CSP to CSN equals precisely 1/10 of the differential

TIME to ILIM voltage over a 0.1V to 0.5V range (10mV

to 50mV current-sense range). Connect ILIM directly to

22.5mV (typ).

The negative current-limit threshold (forced-PWM mode

only) is nominally -125% of the corresponding valley

current-limit threshold. When the inductor current drops

below the negative current limit, the controller immedi-

ately activates an on-time pulse—DL turns off, and DH

turns on—allowing the inductor current to remain above

the negative current threshold.

Carefully observe the PCB layout guidelines to ensure

that noise and DC errors do not corrupt the current-sense

signals seen by the current-sense inputs (CSP_, CSN_).

The MAX17030/MAX17036 include a transconductance

amplifier for adding gain to the voltage-positioning sense

path. The amplifier’s input is generated by summing the

current-sense inputs, which differentially sense the volt-

age across either current-sense resistors or the induc-

tor’s DCR. The amplifier’s output connects directly to the

regulator’s voltage-positioned feedback input (FB), so

the resistance between FB and the output-voltage sense

point determines the voltage-positioning gain:

where the target voltage (V

Nominal Output Voltage Selection section, and the FB

to set the default current-limit threshold setting of

Feedback Adjustment Amplifiers

OUT

______________________________________________________________________________________

Voltage-Positioning Amplifier

TARGET

−

(Steady-State Droop)

R I

FB FB

) is defined in the

Current Limit

IMVP-6.5 VID Controllers

1/2/3-Phase Quick-PWM

amplifier’s output current (I

sum of the current-sense voltages:

where V

sense voltage, and G

defined in the Electrical Characteristics .

The MAX17030/MAX17036 include differential, remote-

sense inputs to eliminate the effects of voltage drops

along the PCB traces and through the processor’s

power pins. The feedback-sense node connects to the

voltage-positioning resistor (R

(GNDS) input connects to an amplifier that adds an off-

set directly to the target voltage, effectively adjusting

the output voltage to counteract the voltage drop in the

ground path. Connect the voltage-positioning resistor

processor’s remote sense outputs as shown in Figure 1.

An internal integrator amplifier forces the DC average of

the FB voltage to equal the target voltage, allowing

accurate DC output-voltage regulation regardless of the

output ripple voltage.

The MAX17030/MAX17036 disable the integrator by

connecting the amplifier inputs together at the begin-

ning of all VID transitions done in pulse-skipping mode

(DPRSLPVR = high). The integrator remains disabled

until 20µs after the transition is completed (the internal

target settles) and the output is in regulation (edge

detected on the error comparator).

When a transient occurs, the response time of the con-

troller depends on how quickly it can slew the inductor

current. Multiphase controllers that remain 120° out-of-

phase when a transient occurs actually respond slower

than an equivalent single-phase controller. In order to

provide fast transient response, the MAX17030/

MAX17036 support a phase overlap mode, which

allows the triple regulators to operate in-phase when

heavy load transients are detected, effectively reducing

the response time. After any high-side MOSFET turns

off, if the output voltage does not exceed the regulation

voltage when the minimum off-time expires, the con-

troller simultaneously turns on all high-side MOSFETs

with the same on-time during the next on-time cycle.

The phases remain overlapped until the output voltage

exceeds the regulation voltage after the minimum

) and ground sense (GNDS) input directly to the

CSX

= V

CSP

Transient Overlap Operation

- V

m FB

CSN

m(FB)

(

Differential Remote Sense

)

is the differential current-

∑

) is determined by the

is typically 400µS as

). The ground-sense

CSX

Integrator Amplifier

MAX17036 Maxim Integrated Products, MAX17036 Datasheet - Page 23

MAX17036

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