ncp5381a ON Semiconductor, ncp5381a Datasheet - Page 24

ncp5381a

Manufacturer Part Number

ncp5381a

Description

2/3/4 Phase Buck Controller For Vr10 And Vr11 Pentium Iv Processor Applications

Manufacturer

ON Semiconductor

Datasheet

1.NCP5381A.pdf (34 pages)

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General

controller is specifically designed with the necessary

features for a high current VR10 or VR11 CPU power

system. The IC consists of the following blocks: Precision

Programmable DAC, Differential Remote Voltage Sense

Amplifier, High Performance Voltage Error Amplifier,

Differential Current Feedback Amplifiers, Precision

Oscillator and Triangle Wave Generators, and PWM

Comparators. Protection features include Undervoltage

Lockout, Soft−Start, Overcurrent Protection, Overvoltage

Protection, and Power Good Monitor.

Remote Output Sensing Amplifier (RSA)

measure Vcore voltage feedback with respect to the Vcore

ground reference point by connecting the Vcore reference

point to VS+, and the Vcore ground reference point to VS−.

This configuration keeps ground potential differences

between the local controller ground and the Vcore ground

reference point from affecting regulation of Vcore between

Vcore and Vcore ground reference points. The RSA also

subtracts the DAC (minus VID offset) voltage, thereby

producing an unamplified output error voltage at the

DIFFOUT pin. This output also has a 1.3 V bias voltage to

allow both positive and negative error voltages.

Precision Programmable DAC

has 0.5% accuracy over the entire operating temperature

range of the part. The DAC can be programmed to support

either VR10 or VR11 specifications. A program selection pin

is provided to accomplish this. This pin also sets the startup

mode of operation. Connect this pin to 1.25 V to select the

VR11 DAC table, and the VR11 startup mode. Connect this

pin to ground to select the VR10 DAC table and the VR11

startup mode. Connect this pin to VREF to select the VR10

DAC table and the VR10 startup mode.

High Performance Voltage Error Amplifier

and bandwidth. Although not required when operating as

a voltage regulator for VR10 or VR11, a capacitor from

COMP to VFB is required for stable unity gain test

configurations.

Gate Driver Outputs and 2/3/4 Phase Operation

mode. In 2−phase mode, phases 1 and 3 should be used to

drive the external gate drivers as shown in the 2−phase

Applications Schematic. In 3−phase mode, gate output G4

must be grounded as shown in the 3−phase Applications

Schematic. In 4−phase mode all 4 gate outputs are used as

The NCP5381A dual edge modulated multiphase PWM

A true differential amplifier allows the NCP5381A to

A precision programmable DAC is provided. This DAC

The error amplifier is designed to provide high slew rate

The part can be configured to run in 2−, 3−, or 4−phase

FUNCTIONAL DESCRIPTION

http://onsemi.com

shown in the 4−phase Applications Schematic. The Current

Sense inputs of unused channels should be connected to

ground. The following truth table summarizes the modes of

operation:

program the modes of operation.

Differential Current Sense Amplifiers

output current of each phase. The inputs of each current

sense amplifier must be connected across the current

sensing element of the phase controlled by the

corresponding gate output (G1, G2, G3, or G4). If a phase

is unused, the differential inputs to that phase’s current

sense amplifier must be shorted together and connected

to V

Schematics.

(such as an inductor or sense resistor) by the current

flowing in that phase. The output of the current sense

amplifiers are used to control three functions. First, the

output controls the adaptive voltage positioning, where the

output voltage is actively controlled according to the

output current. In this function, all of the current sense

outputs are summed so that the total output current is used

for output voltage positioning. Second, the output signal is

fed to the current limit circuit. This again is the summed

current of all phases in operation. Finally, the individual

phase current is connected to the PWM comparator. In this

way current balance is accomplished.

Oscillator and Triangle Wave Generator

oscillator ’s frequency is programmed by the resistance

connected from the ROSC pin to ground. The user will

usually form this resistance from two resistors in order to

create a voltage divider that uses the ROSC output voltage

as the reference for creating the current limit setpoint

voltage. The oscillator frequency range is 100 kHz/phase

to 1.0 MHz/phase. The oscillator generates up to 4 triangle

waveforms (symmetrical rising and falling slopes)

between 1.3 V and 2.3 V. The triangle waves have a phase

delay between them such that for 2−, 3−, and 4−phase

operation the PWM outputs are separated by 180, 120, and

90 angular degrees, respectively.

2−Phase

3−Phase

4−Phase

These are the only allowable connection schemes to

Four differential amplifiers are provided to sense the

A voltage is generated across the current sense element

A programmable precision oscillator is provided. The

Mode

CCP

as shown in the 2− and 3−phase Application

Normal

Gate Output Connections

Normal

OPEN

Normal

OPEN

GND

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