ADM1041-EVAL Analog Devices Inc, ADM1041-EVAL Datasheet - Page 24

ADM1041-EVAL

Manufacturer Part Number

ADM1041-EVAL

Description

BOARD EVALUATION ADM1041

Manufacturer

Analog Devices Inc

Datasheet

1.ADM1041AARQZ-REEL7.pdf (64 pages)

Specifications of ADM1041-EVAL

Main Purpose

AC/DC, Secondary Side

Outputs And Type

1, Non-Isolated

Power - Output

24W

Voltage - Output

12V

Current - Output

Voltage - Input

85 ~ 132VAC

Board Type

Fully Populated

Utilized Ic / Part

ADM1041

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Frequency - Switching

Regulator Topology

Lead Free Status / Rohs Status

Not Compliant

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ADM1041

CURRENT SHARE

The current share method is the master–slave type, which

means that the power supply with the highest output current

automatically becomes the master and controls the share bus

signal. All other power supplies become slaves, and the share

bus signal causes them to increase their output voltages slightly

until their output currents are almost equal to that of the master.

This scheme has two major advantages. A failed master power

supply simply allows one of the slaves to become the new

master. A short circuited share signal disables current sharing,

but all power supplies default to their normal voltage setting,

allowing a certain degree of passive sharing. Because this chip

uses a low voltage process, an external bidirectional amplifier is

needed for most existing share bus signal levels. The voltage

between Pins 20 and 23 is always controlled to 2.0 V full scale,

ignoring any offset. By connecting Pins 20 and 23 together, the

chip can produce a 2.0 V share signal directly without any exter-

nal circuits. To improve accuracy, the share signal is referenced

to remote voltage sense negative.

CURRENT SHARE OFFSET

To satisfy some customer specifications, the current share signal

can be offset by a fixed amount by using a trimmable current

generator and a series resistor. The offset is added on top of the

2.0 V full-scale current share output signal. See Figure 14.

This amplifier is a buffer with enough current source capability

to drive the current share circuits of several slave power supplies.

It has negligible current sink capability. Refer to the Differential

Sense Amplifier section that follows.

DIFFERENTIAL SENSE AMPLIFIER

This amplifier has unity gain and senses the difference between

the share bus voltage and the remote voltage sense negative pin.

When the power supply is the master, it forms a closed loop

with the I

causes the share bus voltage between Pins 20 and 23 to equal the

current share signal at the noninverting input of the I

amplifier. When the power supply is a slave, the output of the

differential sense amplifier exceeds the internal current share

signal, which causes the I

cutoff. Because it is not possible to trim out negative offsets in

the op amps in the current share chain, a 50 mV voltage source

is used to provide a known fixed positive offset. The share bus

offset controlled current source must be trimmed via the

SMBus to take out the resulting overall offset. See Figure 14.

DRIVE AMPLIFIER

drive amplifier described above, and therefore it

drive amplifier to be driven into

drive

Rev. A | Page 24 of 64

This is a low gain transconductance amplifier that measures the

difference between the internal current share voltage and the

signal voltage on the external share bus. If two power supplies

have almost identical current share signals, a 50 mV voltage

source on the inverting input helps arbitrate which power

supply becomes the master and prevents “hunting” between

master and slave roles. The amplifier requires only the output

pin for loop compensation, which typically consists of a series

RC network to common. When the power supply is a slave, the

output of the error amplifier comes out of saturation and begins

to drive a controlled current sink. The control threshold is

nominally 1.0 V. This current flows from a resistor in series with

the trimmed voltage loop signal and thereby attempts to decrease

the voltage signal below the 1.5 V reference for that loop. The

closed voltage loop reacts by increasing the power supply’s

output voltage until current share is achieved. The maximum

current sink is limited so that the power supply voltage can be

increased only a small amount, which is usually limited to be

within the customer’s specified voltage regulation limit. This

small voltage increase also limits the control range of the current

share circuit and is called the capture range. The capture range

may be set via the SMBus to one of four values, from 1% to 4%

nominal. See Figure 14.

This clamp keeps the current share-loop compensation capacitor

discharged when the current share is not required to operate.

The clamp is released during power-up when the voltage refer-

ence and therefore the output voltage of the power supply has

risen to either 75% or 88% of its final value. This is configurable

via the SMBus. When the clamp is released, the current share

loop slowly “walks in” the current share and helps to avoid

output voltage spikes during hot swapping. See Figure 14.

Share_OK DETECTOR

Incorrect current sharing is a useful early indicator that there is

some sort of non-catastrophic problem with one of the power

supplies in a parallel system. Two comparators are used to detect

an excessive positive or negative error voltage at the input of the

loop has lost control. One of four possible error levels must be

configured via the SMBus. See Figure 14.

error amplifier, which indicates that the current share

ERROR AMPLIFIER

CLAMP

ADM1041-EVAL Analog Devices Inc, ADM1041-EVAL Datasheet - Page 24

ADM1041-EVAL

Specifications of ADM1041-EVAL

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