AD7792BRUZ Analog Devices Inc, AD7792BRUZ Datasheet - Page 24
AD7792BRUZ
Manufacturer Part Number
AD7792BRUZ
Description
IC ADC 16BIT SIG-DEL 3CH 16TSSOP
Manufacturer
Analog Devices Inc
Datasheet
1.AD7792BRUZ-REEL.pdf
(32 pages)
Specifications of AD7792BRUZ
Data Interface
DSP, MICROWIRE™, QSPI™, Serial, SPI™
Number Of Bits
16
Sampling Rate (per Second)
500
Number Of Converters
1
Power Dissipation (max)
2.5mW
Voltage Supply Source
Analog and Digital
Operating Temperature
-40°C ~ 105°C
Mounting Type
Surface Mount
Package / Case
16-TSSOP (0.173", 4.40mm Width)
Resolution (bits)
16bit
Sampling Rate
470SPS
Input Channel Type
Differential
Supply Voltage Range - Analog
2.7V To 5.25V
Supply Voltage Range - Digital
2.7V To 5.25V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
EVAL-AD7792EBZ - BOARD EVALUATION FOR AD7792
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
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AD7792/AD7793
CIRCUIT DESCRIPTION
ANALOG INPUT CHANNEL
The AD7792/AD7793 have three differential analog input
channels. These are connected to the on-chip buffer amplifier
when the device is operated in buffered mode and directly to
the modulator when the device is operated in unbuffered mode.
In buffered mode (the BUF bit in the mode register is set to 1),
the input channel feeds into a high impedance input stage of the
buffer amplifier. Therefore, the input can tolerate significant
source impedances and is tailored for direct connection to
external resistive-type sensors, such as strain gauges or
resistance temperature detectors (RTDs).
When BUF = 0, the part is operated in unbuffered mode.
This results in a higher analog input current. Note that this
unbuffered input path provides a dynamic load to the driving
source. Therefore, resistor/capacitor combinations on the input
pins can cause gain errors, depending on the output impedance
of the source that is driving the ADC input.
allowable external resistance/capacitance values for unbuffered
mode such that no gain error at the 20-bit level is introduced.
Table 19. External R-C Combination for No 20-Bit Gain Error
C (pF)
50
100
500
1000
5000
The AD7792/AD7793 can be operated in unbuffered mode only
when the gain equals 1 or 2. At higher gains, the buffer is auto-
matically enabled. The absolute input voltage range in buffered
mode is restricted to a range between GND + 100 mV and
AV
is enabled. The absolute input voltage range when the in-amp is
active is restricted to a range between GND + 300 mV and
AV
voltage so that these limits are not exceeded to avoid
degradation in linearity and noise performance.
The absolute input voltage in unbuffered mode includes the
range between GND – 30 mV and AV
being unbuffered. The negative absolute input voltage limit does
allow the possibility of monitoring small true bipolar signals
with respect to GND.
INSTRUMENTATION AMPLIFIER
Amplifying the analog input signal by a gain of 1 or 2 is
performed digitally within the AD7792/AD7793. However,
when the gain equals 4 or higher, the output from the buffer is
applied to the input of the on-chip instrumentation amplifier.
This low noise in-amp means that signals of small amplitude
can be gained within the AD7792/AD7793 while still
maintaining excellent noise performance.
DD
DD
– 100 mV. When the gain is set to 4 or higher, the in-amp
− 1.1 V. Take care in setting up the common-mode
R (Ω)
9 k
6 k
1.5 k
900
200
DD
+ 30 mV as a result of
Table 19
shows the
Rev. B | Page 24 of 32
For example, when the gain is set to 64, the rms noise is 40 nV
typically, which is equivalent to 21 bits effective resolution or
18.5 bits peak-to-peak resolution.
The AD7792/AD7793 can be programmed to have a gain of 1,
2, 4, 8, 16, 32, 64, and 128 using Bit G2 to Bit G0 in the configu-
ration register. Therefore, with an external 2.5 V reference, the
unipolar ranges are from 0 mV to 20 mV to 0 V to 2.5 V while
the bipolar ranges are from ±20 mV to ±2.5 V. When the
in-amp is active (gain ≥ 4), the common-mode voltage (AIN(+)
+ AIN(–))/2 must be greater than or equal to 0.5 V.
If the AD7792/AD7793 are operated with an external reference
that has a value equal to AV
limited to 90% of V
correct operation.
BIPOLAR/UNIPOLAR CONFIGURATION
The analog input to the AD7792/AD7793 can accept either
unipolar or bipolar input voltage ranges. A bipolar input range
does not imply that the part can tolerate negative voltages with
respect to system GND. Unipolar and bipolar signals on the
AIN(+) input are referenced to the voltage on the AIN(–) input.
For example, if AIN(−) is 2.5 V, and the ADC is configured for
unipolar mode and a gain of 1, the input voltage range on the
AIN(+) pin is 2.5 V to 5 V.
If the ADC is configured for bipolar mode, the analog input
range on the AIN(+) input is 0 V to 5 V. The bipolar/unipolar
option is chosen by programming the U/ B bit in the configura-
tion register.
DATA OUTPUT CODING
When the ADC is configured for unipolar operation, the output
code is natural (straight) binary with a zero differential input
voltage resulting in a code of 00...00, a midscale voltage
resulting in a code of 100...000, and a full-scale input voltage
resulting in a code of 111...111. The output code for any analog
input voltage can be represented as
When the ADC is configured for bipolar operation, the output
code is offset binary with a negative full-scale voltage resulting
in a code of 000...000, a zero differential input voltage resulting
in a code of 100...000, and a positive full-scale input voltage
resulting in a code of 111...111. The output code for any analog
input voltage can be represented as
where AIN is the analog input voltage, GAIN is the in-amp
setting (1 to 128), and N = 16 for the AD7792 and N = 24 for
the AD7793.
Code = 2
Code = (2
N – 1
N
× AIN × GAIN)/V
× [(AIN × GAIN /V
REF
/gain when the in-amp is active, for
DD
, the analog input signal must be
REF
REF
) + 1]
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