MAX17080GTL+ Maxim Integrated Products, MAX17080GTL+ Datasheet - Page 26

MAX17080GTL+

Manufacturer Part Number

MAX17080GTL+

Description

IC CONTROLLER AMD SVI 40-TQFN

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX17080GTL.pdf (48 pages)

Specifications of MAX17080GTL+

Applications

Controller, AMD SVI

Voltage - Input

2.7 ~ 5.5 V

Number Of Outputs

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

40-TQFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

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AMD 2-/3-Output Mobile Serial

VID Controller

where V

sense voltage, and Gm

defined in the Electrical Characteristics table.

AC droop is required for stable operation of the

MAX17080. A minimum of 1.5mV/A is recommended.

AC droop must not be disabled.

The MAX17080 controller includes independent differen-

tial, remote-sense inputs for each CPU core to eliminate

the effects of voltage drops along the PCB traces and

through the processor’s power pins. The feedback-sense

(FBDC_) input connects to the remote-sensed output

through the resistance at FBDC_ (R

sense (GNDS_) input connects to an amplifier that adds

an offset directly to the target voltage, effectively

adjusting the output voltage to counteract the voltage

drop in the ground path. Connect the feedback-sense

(FBDC_) R

input directly to the respective CPU core’s remote-

sense outputs as shown in Figure 2.

GNDS1 and GNDS2 are dual-function pins. At power-on,

the voltage levels on GNDS1 and GNDS2 configure the

MAX17080 as two independent switching SMPSs, or one

higher current 2-phase SMPS. Keep both GNDS1 and

GNDS2 low during power-up to configure the MAX17080

in separate mode. Connect GNDS1 or GNDS2 to a volt-

age above 0.8V (typ) for combined-mode operation. In

the AMD mobile system, this is automatically done by the

CPU that is plugged into the socket that pulls GNDS1 or

GNDS2 the V

When GNDS1 is pulled high to indicate combined-

mode operation, the remote ground sense is automati-

cally switched to GNDS2. When GNDS2 is pulled high

to indicate combined-mode operation, the remote

ground sense is automatically switched to GNDS1.

GNDS1 and GNDS2 do not dynamically switch in the

real application. It is only switched when one CPU is

removed (e.g., split-core CPU), and another is plugged

in (e.g., combined-core CPU). This should not be done

when the socket is “hot” (i.e., powered).

The MAX17080 checks the GNDS1 and GNDS2 levels

at the time when the internal REFOK signal goes high,

and latches the operating mode information (separate

or combined mode). This latch is cleared by cycling the

SHDN pin.

______________________________________________________________________________________

FBDC_

= V

DDIO

CSP

resistor and ground-sense (GNDS_)

voltage level.

- V

Core Differential Remote Sense

CSN

(FBAC)

is the differential current-

is 2.06mS (max) as

FBDC_

). The ground-

An internal integrator amplifier forces the DC average of

the FBDC_ voltage to equal the target voltage. This

transconductance amplifier integrates the feedback

voltage and provides a fine adjustment to the regulation

voltage (Figure 3), allowing accurate DC output-voltage

regulation regardless of the output ripple voltage.

The MAX17080 disables the integrator during down-

ward VID transitions done in pulse-skipping mode. The

integrator remains disabled until the transition is com-

pleted (the internal target settles) and the output is in

regulation (edge detected on the error comparator).

The integrator amplifier has the ability to shift the output

voltage by ±80mV (min). The maximum difference

between transient AC droop and DC droop should not

exceed ±80mV at the maximum allowed load current to

guarantee proper DC output-voltage accuracy over the

full load conditions.

The NB SMPS has a built-in load-line that is -6.5mV/A.

The output peak voltage (V

where the target voltage (V

Nominal Output-Voltage Selection section, f

NB switching frequency, and I

current of the NB SMPS.

The MAX17080 supports the 2-wire, write-only, serial-

interface bus as defined by the AMD serial VID inter-

face specification. The serial interface is similar to the

high-speed 3.4MHz I

mode sequence. The bus consists of a clock line (SVC)

and a data line (SVD). The CPU is the bus master, and

the MAX17080 is the slave. The MAX17080 serial inter-

face works from 100kHz to 3.4MHz. In the AMD mobile

application, the bus runs at 3.4MHz.

The serial interface is active only after PGD_IN goes

high in the startup sequence. The CPU sets the VID

voltage of the three internal DACs and the PSI_L bit

through the serial interface.

During the startup sequence, the SVC and SVD inputs

serve an alternate function to set the 2-bit boot VID for

all three DACs while PWRGD is low.

NB SMPS Feedback Adjustment Amplifiers

NB Steady-State Voltage Positioning (DC Droop)

OUT3_PK

2-Wire Serial Interface (SVC, SVD)

∆

3 3

TARGET3

(

C bus, but without the master

−

OUT3_PK+

−

TARGET3

6 5

Core Integrator Amplifier

OUT

LOAD3

mV/A (I

)

) is set to:

) is defined in the

is the output load

OUT

LOAD3

SW3

∆

is the

)

MAX17080GTL+ Maxim Integrated Products, MAX17080GTL+ Datasheet - Page 26

MAX17080GTL+

Specifications of MAX17080GTL+

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