EVAL-AD5560EBUZ Analog Devices Inc, EVAL-AD5560EBUZ Datasheet - Page 32

EVAL-AD5560EBUZ

Manufacturer Part Number

EVAL-AD5560EBUZ

Description

Evaluation Board

Manufacturer

Analog Devices Inc

Datasheet

1.AD5560JSVUZ-REEL.pdf (60 pages)

Specifications of EVAL-AD5560EBUZ

Main Purpose

Power Management, Power Supply Supervisor/Tracker/Sequencer

Utilized Ic / Part

AD5560

Primary Attributes

Secondary Attributes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Embedded

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AD5560

parts of the circuit. When using a MEASOUT gain of 0.2, the

choosing supply rails, it is very important to ensure that there

is sufficient footroom so that the V

Table 9. MEASOUT Output Ranges

MEASOUT Function

GAIN1 = 0, MEASOUT Gain = 1

Measure Voltage (MV)

Measure

Current

(MI)

Table 10.

MEASOUT Function

GAIN1 = 1, MEASOUT Gain = 0.2

Measure Voltage (MV)

Measure

Current

(MI)

Table 11. Possible ADCs and ADC Drivers for Use with AD5560

Part

No.

AD7685

AD7686

AD7693

AD7610

AD7655

Subset of the possible ADCs, ADC drivers, and multiplexers suitable for use with the AD5560. Visit

VREF = 5 V, unless otherwise noted.

The offset DAC setting has no effect on the output voltage range.

Do not allow the MEASOUT output range to exceed the AIN range of the ADC.

For the purposes of sharing ADCs among multiple DPS channels, note that the multiplexer is not absolutely necessary because the AD5560 MEASOUT path has a

tristate mode.

MIN

is another inportant voltage level that is used in other

level is used to scale the voltage range; therefore, when

Resolution

GAIN0 = 0

GAIN0 = 1

GAIN0 = 0

GAIN0 = 1

Sample

Rate

250 kSPS

500 kSPS

250 kSPS

1 MSPS

MI gain = 20

MI gain = 10

MI gain = 20

MI gain = 10

MIN

Channels

level is not impinged

Transfer Function

MV = 0.2 × (V

Transfer Function

±V

DUT

× R

SENSE

AIN Range

0 to VREF

−VREF to +VREF

Bipolar 10 V, bipolar

5 V, unipolar 10 V,

unipolar 5 V

0 V to 5 V

× 20 × 0.2) + 0.5125 × VREF

× 10 × 0.2) + 0.5125 × VREF

× 20) + V

× 10) + V

DUT

− V

Rev. C | Page 32 of 60

MIN

MID

)

Offset DAC =

0x0

0 V to 25.62 V

0 V to 12.81 V

REF

on (the high voltage DAC amplifiers used here require

approximately 2 V footroom to AV

Interface

Serial, SPI

Serial, parallel

Serial, SPI

= 2.5 V)

/AV

MIN

http://www.analog.com

= −5.125 × VREF × (OFFSET_DAC_CODE/2

Power Supply Rails section for more information.

Output Voltage Range

0 V to 5.12 V (±2.56 V centered around 2.56 V)

(includes overrange)

0 V to 5.12 V (±2.56 V centered around 2.56 V)

(includes overrange)

1.28 V to 3.84 V (±1.28 V, centered around 2.56 V)

0 V to 2.56 V (±1.28 V, centered around 1.28 V)

REF

ADC Driver

ADA4841-x

ADA4841-x,

ADA4941-1

AD8021

ADA4841-x/

AD8021

= 2.5 V)

Offset DAC = 0x8000

±12.81 V

±6.4 V

Output Voltage Range

REF

= 2.5 V)

for more options.

Multiplexer

ADG704, ADG708

ADG1404,

ADG1408,

ADG1204

AD1404, ADG1408,

ADG1204

1, 2

). See the Choosing

Offset DAC = 0xE000

−22.42 V to +3.2 V

−11.2 V to +1.6 V

REF

= 2.5 V)

Package

MSOP,

LFCSP

MSOP,

LFCSP

MSOP,

LFCSP

LFCSP,

LQFP

LQFP,

LFCSP

)

EVAL-AD5560EBUZ Analog Devices Inc, EVAL-AD5560EBUZ Datasheet - Page 32

EVAL-AD5560EBUZ

Specifications of EVAL-AD5560EBUZ

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