adm1075-2aruz-rl7 Analog Devices, Inc., adm1075-2aruz-rl7 Datasheet - Page 26

adm1075-2aruz-rl7

Manufacturer Part Number

adm1075-2aruz-rl7

Description

−48 V Hot Swap Controller And Digital Power Monitor With Pmbus Interface

Manufacturer

Analog Devices, Inc.

Datasheet

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ADM1075

FET HEALTH

The

FET. The FET health status can be used to generate an alert on

the GPO1/ ALERT1 /CONV and GPO2/ ALERT2 pins. By default,

at power-up, an alert is generated on GPO1/ ALERT1 /CONV if

the FET health status indicates a bad FET is present. FET health

is considered bad if all of the following conditions are true:

•

POWER MONITOR

The

measures the current sense voltage and the ADC_V voltage.

It can also optionally monitor the ADC_AUX voltage. The

measured input voltage (ADC_V) and the current being

delivered to the load are multiplied to give a power value that

can be read back. Each power value is also added to an accumula-

tor that can be read back to allow an external device to calculate

the energy consumption of the load.

The PEAK_IOUT, PEAK_VIN, and PEAK_VAUX commands

can be used to read the highest peak current or voltage since the

value was last cleared.

An averaging function is provided for voltage and current that

allows a number of samples to be averaged by the ADM1075.

This function reduces the need for postprocessing of sampled

data by the host processor. The number of samples that can be

averaged is 2

The power monitor current sense amplifier is bipolar and can

measure both positive and negative currents. It has two input

ranges and can be selected using the PMBus interface. The

input ranges are ±25 mV and ±50 mV.

The two basic modes of operation for the power monitor are

single shot and continuous. In single-shot mode, the power

monitor samples the input voltage and current a number of

times, depending on the averaging value selected by the user.

The

average voltage and current measured. When configured for

continuous mode, the power monitor continuously samples

voltage and current, making the most recent sample available

to be read. The ADC runs in continuous mode by default at

power-up.

The single-shot mode can be triggered in a number of ways.

The simplest is by selecting the single-shot mode using the

PMON_CONFIG command and writing to the CONVERT bit

using the PMON_CONTROL command. The CONVERT bit

can also be written as part of a PMBus group command. Using a

group command allows multiple devices to be written to as part

of the same I

ADM1075

The

the initial power-on cycle time.

ADM1075-2.

SENSE

GATE

ADM1075

< ~1 V.

> 2 mV for the

C bus transaction, with all devices executing the

, where N is in the range of 0 to 7.

features a method of detecting a shorted pass

features an integrated ADC that accurately

returns a single value corresponding to the

is holding the FET off, for example, during

ADM1075-1

and 4 mV for the

Rev. 0 | Page 26 of 52

command when the stop condition appears on the bus. In this

way, several devices can be triggered to sample at the same time.

When the GPO1/ ALERT1 /CONV pin is set to the convert

(CONV) mode, an external hardware signal can be used to

trigger the single-shot sampling of one or more parts at the

same time.

Each time a current sense and input voltage measurement is

taken, a power calculation is performed, multiplying the two

measurements together. This can be read from the device using

the READ_PIN command, returning the input power.

At the same time, the calculated power value is added to a

power accumulator register that may increment a rollover

counter if the value exceeds the maximum accumulator value,

and that also increments a power sample counter.

The power accumulator and power sample counter are read

back using the same READ_EIN command to ensure that the

accumulated value and sample count are from the same point in

time. The bus host reading the data assigns a timestamp to show

when the data is read. By calculating the time difference

between consecutive uses of READ_EIN and determining the

delta in power consumed, it is possible for the host to determine

the total energy consumed over that period.

ISOLATION

Isolation is usually required in −48 V systems because there can

be a large voltage difference between different ground planes in

the system. The

MCU is usually referenced to 0 V. In almost all cases, the I

signals must be isolated. Any other

output signals that go to or come from the MCU must also be

isolated.

Analog Devices, Inc., provide a range of digital isolators using

i Coupler® technology. i Coupler technology is based on chip

scale transformers rather than the LEDs and photodiodes used

in optocouplers. The

be used in conjunction with the

In cases where more digital signals need to be isolated, the

ADuM3200

ADuM5404

integrated, isolated dc-to-dc converter.

The

the primary and secondary sides. The

VDD1

ADuM1250

100nF

–48V

is a dual-channel digital isolator whereas the

is a quad-channel isolator with iso Power®, an

(PRIMARY)

–48V SIDE

SDA

SCL

ADM1075

10kΩ

and

Figure 52.

10kΩ

–48V

ADuM1250

ADuM3200

ADuM1250

VDD1

SCL2

SCL1

GND1

is referenced to −48 V, whereas the

ADuM1250

ADM1075

VDD2

SDA2

GND2

SCL2

is a dual I

must be powered from both

ADM1075

C Isolation

ADuM5404

GND_ISO

SDA_ISO

SCL_ISO

ISOLATED SIDE

(SECONDARY)

for I

C isolator and can

Data Sheet

digital input and

C isolation.

GND_ISO

100nF

only needs to

5V_ISO

adm1075-2aruz-rl7 Analog Devices, Inc., adm1075-2aruz-rl7 Datasheet - Page 26

adm1075-2aruz-rl7

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