AD7682 Analog Devices, AD7682 Datasheet - Page 22

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AD7682

Manufacturer Part Number
AD7682
Description
Manufacturer
Analog Devices
Datasheet

Specifications of AD7682

Resolution (bits)
16bit
# Chan
4
Sample Rate
250kSPS
Interface
Ser,SPI
Analog Input Type
Diff-Uni,SE-Bip,SE-Uni
Ain Range
Bip (Vref) x 0.5,Uni (Vref)
Adc Architecture
SAR
Pkg Type
CSP

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AD7682/AD7689
External Reference and Internal Buffer
For improved drift performance, an external reference can be
used with the internal buffer, as shown in Figure 32. The
external source is connected to REFIN, the input to the on-chip
unity gain buffer, and the output is produced on the REF pin.
An external reference can be used with or without the internal
buffer to enable the temperature sensor. Refer to Table 10 for
register details. With the buffer enabled, the gain is unity and
is limited to an input/output of VDD = −0.2 V; however, the
maximum voltage allowable must be ≤(VDD − 0.5 V).
The internal reference buffer is useful in multiconverter appli-
cations because a buffer is typically required in these applications.
In addition, a low power reference can be used because the
internal buffer provides the necessary performance to drive the
SAR architecture of the AD7682/AD7689.
External Reference/Temperature Sensor
In any of the six voltage reference schemes, an external reference
can be connected directly on the REF pin as shown in Figure 33
because the output impedance of REF is >5 kΩ. To reduce power
consumption, the reference and buffer should be powered down.
For applications requiring the use of the temperature sensor,
an external reference must be used with or without the internal
buffer (and the internal reference must be active in this case).
The internal temperature sensor measures the internal
temperature of the AD7682/AD7689 and is thus useful for
performing a system calibration. Refer to Table 10 for register
details. For improved drift performance, an external reference
such as the
Note that the best SNR is achieved with a 5 V external reference
as the internal reference is limited to 4.096 V. The SNR
degradation is as follows:
SNR
LOSS
Figure 32. External Reference Using Internal Buffer
ADR43x
=
20
AD7682/
AD7689
log
10µF
Figure 33.External Reference
or
. 4
ADR44x
10µF
AD7682/
AD7689
096
5
REF
TEMP
GND
REF SOURCE
0.5V < REF < (VDD + 0.3V)
≤ (VDD – 0.5V)
REF SOURCE
REF
REFIN
NO CONNECTION
REQUIRED
is recommended.
TEMP
GND
REFIN
100nF
Rev. C | Page 22 of 32
Reference Decoupling
Whether using an internal or external reference, the AD7682/
AD7689 voltage reference output/input, REF, has a dynamic
input impedance and should therefore be driven by a low
impedance source with efficient decoupling between the REF
and GND pins. This decoupling depends on the choice of the
voltage reference but usually consists of a low ESR capacitor
connected to REF and GND with minimum parasitic inductance.
A 10 μF (X5R, 1206 size) ceramic chip capacitor is appropriate
when using the internal reference, the ADR43x/ADR44x
external reference, or a low impedance buffer such as the
AD8031
The placement of the reference decoupling capacitor is also impor-
tant to the performance of the AD7682/AD7689, as explained in
the Layout section. Mount the decoupling capacitor on the same
side as the ADC at the REF pin with a thick PCB trace. The GND
should also connect to the reference decoupling capacitor with
the shortest distance and to the analog ground plane with
several vias.
If desired, smaller reference decoupling capacitor values down
to 2.2 μF can be used with a minimal impact on performance,
especially on DNL.
Regardless, there is no need for an additional lower value ceramic
decoupling capacitor (for example, 100 nF) between the REF
and GND pins.
For applications that use multiple AD7682/AD7689 devices or
other PulSAR devices, it is more effective to use the internal
reference buffer to buffer the external reference voltage, thus
reducing SAR conversion crosstalk.
The voltage reference temperature coefficient (TC) directly
impacts full scale; therefore, in applications where full-scale
accuracy matters, care must be taken with the TC. For instance,
a ±10 ppm/°C TC of the reference changes full scale by ±1 LSB/°C.
or the AD8605.
Data Sheet

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