AD5522JSVDZ Analog Devices Inc, AD5522JSVDZ Datasheet - Page 32

AD5522JSVDZ

Manufacturer Part Number

AD5522JSVDZ

Description

IC, DAC, 16BIT, QFP-80

Manufacturer

Analog Devices Inc

Datasheet

1.AD5522JSVDZ.pdf (64 pages)

Specifications of AD5522JSVDZ

Resolution (bits)

16bit

Input Channel Type

Serial

Supply Voltage Range - Digital

2.3V To 5.25V

Supply Current

36mA

Digital Ic Case Style

QFP

No. Of Pins

Data Interface

LVDS, Serial

Design Resources

Parametric Measurement Unit and Supporting Components for PAD Appls Using AD5522 and AD7685 (CN0104)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AD5522

MEASURE CURRENT GAINS

The measure current amplifier has two gain settings, 5 and 10.

The two gain settings allow users to achieve the quoted/specified

current ranges with large or small voltage swing. Use the 10 gain

setting with a 5 V reference, and use the 5 gain setting with a

2.5 V reference. Both combinations ensure the specified current

ranges. Using other VREF/gain setting combinations should

achieve smaller current ranges only. Achieving greater current

ranges than the specified ranges is outside the intended opera-

tion of the AD5522. The maximum guaranteed voltage across

Following are examples of VREF/gain setting combinations. In

these examples, the offset DAC is at its default value of 0xA492.

•

SENSE

VREF = 5 V results in a ±11.25 V range. Using a gain setting

of 10, there is ±1.125 V maximum across R

current ranges of ±5.625 μA, ±22.5 μA, and so on (inclu-

ding overrange of ±12.5% to allow for error correction).

VREF = 2.5 V results in a ±5.625 V range. Using a gain setting

of 5 results in current ranges of ±5.625 μA, ±22.5 μA, and

so on (including overrange of ±12.5% to allow for error

correction).

= ±1.125 V.

MEASOUTx

REFGND

VREF

50Ω

ADDRESS

DATA

ATTB

AGND

ATT

VOFFSET

DAC

ATT

SENSE

, resulting in

Figure 48. Measure Block and VMID Influence

ATTB

ATT = ATTENUATION FOR MEASOUTx ×0.2

MI = MEASURE CURRENT

MV = MEASURE VOLTAGE

SEL×5 = MI GAIN = 5

SEL×10 = MI GAIN = 10

VDAC_MIN

VOFFSET

VTOP

VDAC_MID

Rev. D | Page 32 of 64

DAC HV AMP

VMIN

AGND

VREF = 3.5 V results in a ±7.87 V range. Using a gain setting of

10, there is ±0.785 V maximum across R

current ranges of ±3.92 μA, ±15.74 μA, and so on (including

overrange of ±12.5% to allow for error correction).

VMID VOLTAGE

The midcode voltage (VMID) is used in the measure current

amplifier block to center the current ranges about 0 A. This

is required to ensure that the quoted current ranges can be

achieved when using offset DAC settings other than the default.

VMID corresponds to 0x8000 or the DAC midcode value, that

is, the middle of the voltage range set by the offset DAC setting

(see Table 13). See the block diagram in Figure 48.

DAC HV AMP

VMID = 4.5 × VREF × (32,768/2

(OFFSET_DAC_CODE/2

VMID = 3.5 × VREF × ((42,130 − OFFSET_DAC_CODE)/2

VMIN = −3.5 × VREF × (OFFSET_DAC_CODE/2

10R

VMID

INAMP10

INAMP1

10R

MEASURE

VOLTAGE

IN-AMP

MEASURE

CURRENT

IN-AMP

SEL×10

))

SEL×5

) − (3.5 × VREF ×

INT/EXTMEASIHx

INT/EXTMEASILx

MEASVHx

DUTGND

SENSE

, resulting in

)

AD5522JSVDZ Analog Devices Inc, AD5522JSVDZ Datasheet - Page 32

AD5522JSVDZ

Specifications of AD5522JSVDZ

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