AD7701AQ Analog Devices, AD7701AQ Datasheet - Page 12

AD7701AQ

Manufacturer Part Number

AD7701AQ

Description

LC2MOS 16-Bit A/D Converter

Manufacturer

Analog Devices

Datasheet

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AD7701

between the multiplexer and the AD7701 is removed. Op amps

and other signal conditioning circuits may be used in front of

the AD7701, without worrying about their absolute gain or

offset errors. Note that the absolute value of the reference

supplied to the AD7701 is no longer important, provided it has

adequate short-term stability between calibration cycles, as full

scale is calibrated to the system reference.

If system offset errors are important but system gain errors are

not, then a one step system calibration may be performed with

SC1 high and SC2 low. In this case, offset is calibrated against

calibration, but full scale is calibrated against the AD7701’s

System calibration schemes will yield better accuracy than self-

calibration, even if there are no system errors. Using self-

calibration, errors arise due to the mismatch in source impedances

between the references during calibration (AGND and V

and the analog input during normal operation. In system cali-

bration, the source impedances inherently remain identical,

such that the theoretical limit to system accuracy is calibration

resolution. The practical limit is the noise floor of the AD7701.

Note that in system calibration, “REF LO” does not necessarily

mean the system ground or zero volts. The AD7701 can be

calibrated to measure between any two voltages that lie within

its calibration range by deliberately making REF LO nonzero.

For example, if REF LO is +0.5 V and REF HI is +2.5 V, the

unipolar span will be between these limits.

CALIBRATION RANGE

When designing system calibration schemes, care must be taken

to ensure that the worst-case system errors do not cause the

overrange headroom of the AD7701 to be exceeded. Although

the measurement error caused by offset and gain errors can be

nulled out, the actual error voltages will still be present at the

analog input and can cause overloading of the analog modulator

or overflow of the digital filter. With a 2.5 V reference, the

maximum input voltage is (+V

input voltage is (–V

POWER-UP AND CALIBRATION

A calibration cycle must be carried out after power-up to initial-

ize the device to a consistent starting condition and correct cali-

bration. The CAL pin must be held high for at least four clock

cycles, after which calibration is initiated on the falling edge of

CAL and takes a maximum of 3,145,655 clock cycles (approxi-

mately 768 ms, with a 4.096 MHz clock). See Table III.

CAL

NOTE

DRDY remains high throughout the calibration sequence. In the Self-Cal mode, DRDY falls once the AD7701 has settled to the analog input. In all other modes

DRDY falls as the device begins to settle.

REF

, which should be connected to system REF LO during

input.

SC1

SC2

REF

– 100 mV).

CAL TYPE

Self-Cal

System Offset

System Gain

System Offset

REF

+ 100 mV), and the minimum

ZERO REFERENCE

AGND

–

Table III. Calibration Truth Table

REF

)

–12–

The type of calibration cycle initiated by CAL is determined by

the SC1 and SC2 inputs, in accordance with Table III.

The power dissipation and temperature drift of the AD7701 are

low and no warm-up time is required before the initial calibra-

tion is performed. However, the system reference must have

stabilized before calibration is initiated.

POWER SUPPLY SEQUENCING

The positive digital supply (DV

positive analog supply (AV

supply sequencing is therefore important. If separate analog and

digital supplies are used, care must be taken to ensure that the

analog supply is powered up first.

It is also important that power is applied to the AD7701 before

signals at V

possibility of latch-up. If separate supplies are used for the

AD7701 and the system digital circuitry, then the AD7701

should be powered up first.

A typical scheme for powering the AD7701 from a single set of

In this circuit AV

tracks from the same +5 V supply. Thus, there is no possibility

of the digital supply coming up before the analog supply.

GROUNDING

The AD7701 uses the analog ground connection, AGND, as the

measurement reference node. It should be used as the reference

node for both the analog input signal and the reference voltage

at the V

The analog and digital power supplies to the AD7701 die are

pinned out separately to minimize coupling between the analog

and digital sections of the chip. All four supplies should be

decoupled separately to their respective grounds as shown in

Figure 7. The on-chip digital filtering of the AD7701 further

enhances power supply rejection by attenuating noise injected

into the conversion process.

SINGLE SUPPLY OPERATION

Figure 17 shows a circuit to power the AD7701 from a single

+10 V supply, using an op amp to provide a half supply refer-

ence point for AGND and DGND. As the digital I/O pins are

referenced to this point, level shifting is required for external

digital communications. If galvanic isolation is required in the

system, level shifting and isolation can both be provided by

opto-isolators.

FS REFERENCE

–

5 V rails is shown in the system connection diagram, Figure 7.

REF

pin.

, A

or the logic input pins in order to avoid any

and DV

SEQUENCE

One Step

1st Step

2nd Step

One Step

) by more than 0.3 V. Power

are brought along separate

) must never exceed the

CALIBRATION TIME

3,145,655 Clock Cycles

1,052,599 Clock Cycles

1,068,813 Clock Cycles

2,117,389 Clock Cycles

REV. D

AD7701AQ Analog Devices, AD7701AQ Datasheet - Page 12

AD7701AQ

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