AD7714YRUZ Analog Devices Inc, AD7714YRUZ Datasheet - Page 21

AD7714YRUZ

Manufacturer Part Number

AD7714YRUZ

Description

IC ADC SIGNAL COND 3/5V 24-TSSOP

Manufacturer

Analog Devices Inc

Datasheet

1.AD7714YNZ.pdf (40 pages)

Specifications of AD7714YRUZ

Data Interface

DSP, MICROWIRE™, QSPI™, Serial, SPI™

Number Of Bits

Sampling Rate (per Second)

Number Of Converters

Power Dissipation (max)

7mW

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

24-TSSOP (0.173", 4.40mm Width)

Resolution (bits)

24bit

Sampling Rate

1kSPS

Input Channel Type

Differential

Supply Voltage Range - Digital

2.7V To 5.25V

Supply Current

1.1mA

Number Of Elements

Resolution

24Bit

Architecture

Delta-Sigma

Sample Rate

1KSPS

Input Polarity

Unipolar/Bipolar

Input Type

Voltage

Differential Input

Yes

Power Supply Requirement

Analog and Digital

Single Supply Voltage (typ)

3/5V

Single Supply Voltage (min)

2.7V

Single Supply Voltage (max)

5.25V

Dual Supply Voltage (typ)

Not RequiredV

Dual Supply Voltage (min)

Not RequiredV

Dual Supply Voltage (max)

Not RequiredV

Power Dissipation

4.75mW

Integral Nonlinearity Error

±0.0015%FSR

Operating Temp Range

-40C to 105C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

TSSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

EVAL-AD7714-3EBZ - BOARD EVALUATION FOR AD7714

Lead Free Status / Rohs Status

Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD7714YRUZ

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Current page: 21 of 40
Download datasheet (293Kb)

Gain

128

Burnout Current

The AD7714 contains two 1 A currents, one source current

from AV

currents are either both on or off depending on the BO bit of the

Mode Register. These currents can be used in checking that a

transducer has not burned out nor gone open-circuit before

attempting to take measurements on that channel. If the cur-

rents are turned on, allowed flow in the transducer, a measure-

ment of the input voltage on the analog input taken and the

voltage measured is full scale, it indicates that the transducer has

gone open-circuit; if the voltage measured is zero, it indicates

that the transducer has gone short-circuit. For normal opera-

tion, these burnout currents are turned off by writing a 0 to the

BO bit. For the source current to work correctly, the applied

voltage on AIN(+) should not go within 500 mV of AV

the sink current to work correctly, the applied voltage on the

AIN(–) input should not go within 500 mV of AGND.

Bipolar/Unipolar Inputs

The analog inputs on the AD7714 can accept either unipolar or

bipolar input voltage ranges. Bipolar input ranges do not imply

that the part can handle negative voltages on its analog inputs,

since the analog input cannot go more negative than –30 mV to

ensure correct operation of the part. The input channels are

either fully differential or pseudo-differential (all other channels

referenced to AIN6). In either case, the input channels are

arranged in pairs with an AIN(+) and AIN(–). As a result, the

voltage to which the unipolar and bipolar signals on the AIN(+)

input are referenced is the voltage on the respective AIN(–)

input. For example, if AIN(–) is +2.5 V and the AD7714 is

configured for unipolar operation with a gain of 2 and a V

+2.5 V, the input voltage range on the AIN(+) input is +2.5 V to

+3.75 V. If AIN(–) is +2.5 V and the AD7714 is configured for

bipolar mode with a gain of 2 and a V

input range on the AIN(+) input is +1.25 V to +3.75 V (i.e.,

2.5 V

figured for bipolar ranges in excess of 30 mV.

Bipolar or unipolar options are chosen by programming the B/U

bit of the Filter High Register. This programs the selected chan-

nel for either unipolar or bipolar operation. Programming the

channel for either unipolar or bipolar operation does not change

any of the input signal conditioning; it simply changes the data

output coding and the points on the transfer function where

calibrations occur.

REFERENCE INPUT

The AD7714’s reference inputs, REF IN(+) and REF IN(–),

provide a differential reference input capability. The common-

mode range for these differential inputs is from AGND to AV

The nominal reference voltage, V

for specified operation is +2.5 V for the AD7714-5 and +1.25 V

REV. C

Table XIV. Input Sampling Frequency vs. Gain

1.25 V). If AIN(–) is at AGND, the part cannot be con-

Input Sampling Freq (f

to AIN(+) and one sink from AIN(–) to AGND. The

CLK IN

/64 (38.4 kHz @ f

/64 (76.8 kHz @ f

/64 (153.6 kHz @ f

/64 (307.2 kHz @ f

REF

CLK IN

(REF IN(+) –REF IN(–)),

REF

)

CLK IN

of +2.5 V, the analog

= 2.4576 MHz)

REF

. For

–21–

for the AD7714-3. The part is functional with V

down to 1 V but with degraded performance as the output noise

will, in terms of LSB size, be larger. REF IN(+) must always be

greater than REF IN(–) for correct operation of the AD7714.

Both reference inputs provide a high impedance, dynamic load

similar to the analog inputs in unbuffered mode. The maxi-

mum dc input leakage current is 1 nA over temperature and

source resistance may result in gain errors on the part. In this

case, the sampling switch resistance is 5 k typ and the refer-

ence capacitor (C

reference inputs is f

gains of 1 to 8, C

gain of 32, it is 4.25 pF, for a gain of 64, it is 3.625 pF and for a

gain of 128, it is 3.3125 pF.

The output noise performance outlined in Tables I through IV

is for an analog input of 0 V and is unaffected by noise on the

reference. To obtain the same noise performance as shown in

the noise tables over the full input range requires a low noise

reference source for the AD7714. If the reference noise in the

bandwidth of interest is excessive, it will degrade the perfor-

mance of the AD7714. In applications where the excitation

voltage for the bridge transducer on the analog input also de-

rives the reference voltage for the part, the effect of the noise in

the excitation voltage will be removed as the application is

ratiometric. Recommended reference voltage sources for the

AD7714-5 and AD7714Y grade with AV

AD780, REF43 and REF192 while the recommended reference

sources for the AD7714-3 and AD7714Y with AV

include the AD589 and AD1580. It is generally recommended

to decouple the output of these references to further reduce the

noise level.

DIGITAL FILTERING

The AD7714 contains an on-chip low-pass digital filter which

processes the output of the part’s sigma-delta modulator. There-

fore, the part not only provides the analog-to-digital conversion

function but it also provides a level of filtering. There are a

number of system differences when the filtering function is

provided in the digital domain rather than the analog domain

and the user should be aware of these.

First, since digital filtering occurs after the A-to-D conversion

process, it can remove noise injected during the conversion

process. Analog filtering cannot do this. Also, the digital filter

can be made programmable far more readily than an analog

filter. Depending on the digital filter design, this gives the user

the capability of programming cutoff frequency and output

update rate.

On the other hand, analog filtering can remove noise superim-

posed on the analog signal before it reaches the ADC. Digital

filtering cannot do this and noise peaks riding on signals near

full scale have the potential to saturate the analog modulator

and digital filter, even though the average value of the signal is

within limits. To alleviate this problem, the AD7714 has over-

range headroom built into the sigma-delta modulator and digital

filter which allows overrange excursions of 5% above the analog

input range. If noise signals are larger than this, consideration

should be given to analog input filtering, or to reducing the

input channel voltage so that its full scale is half that of the

analog input channel full scale. This will provide an overrange

capability greater than 100% at the expense of reducing the

dynamic range by 1 bit (50%).

REF

CLK IN

) varies with gain. The sample rate on the

is 8 pF; for a gain of 16, it is 5.5 pF, for a

/64 and does not vary with gain. For

= 5 V include the

AD7714

REF

voltages

= 3 V

AD7714YRUZ Analog Devices Inc, AD7714YRUZ Datasheet - Page 21

AD7714YRUZ

Specifications of AD7714YRUZ

Available stocks

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