AD7294BSUZ Analog Devices Inc, AD7294BSUZ Datasheet - Page 20
AD7294BSUZ
Manufacturer Part Number
AD7294BSUZ
Description
IC ADC 12BIT W/DAC/TEMP 64TQFP
Manufacturer
Analog Devices Inc
Type
ADC, DACr
Datasheet
1.AD7294BSUZ.pdf
(48 pages)
Specifications of AD7294BSUZ
Resolution (bits)
12 b
Data Interface
Serial
Sampling Rate (per Second)
22.22k
Voltage Supply Source
Analog and Digital
Voltage - Supply
4.5 V ~ 5.5 V
Operating Temperature
-55°C ~ 150°C
Mounting Type
Surface Mount
Package / Case
64-TQFP, 64-VQFP
Sampling Rate
22.22kSPS
Input Channel Type
Differential, Single Ended
Supply Voltage Range - Digital
4.5V To 5.5V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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AD7294
THEORY OF OPERATION
ADC OVERVIEW
The AD7294 provides the user with a 9-channel multiplexer, an
on-chip track-and-hold, and a successive approximation ADC
based around a capacitive DAC. The analog input range for the
part can be selected as a 0 V to V
configured with either single-ended or differential analog inputs.
The AD7294 has an on-chip 2.5 V reference that can be disabled
when an external reference is preferred. If the internal ADC
reference is to be used elsewhere in a system, the output must
first be buffered.
The various monitored and uncommitted input signals are multi-
plexed into the ADC. The AD7294 has four uncommitted
analog input channels, V
single-ended, differential, and pseudo differential mode
measurements of various system signals.
ADC TRANSFER FUNCTIONS
The designed code transitions occur at successive integer LSB
values (1 LSB, 2 LSB, and so on). In single-ended mode, the
LSB size is V
2 × V
transfer characteristic for the ADC when outputting straight
binary coding is shown in Figure 34.
In differential mode, the LSB size is 2 × V
to V
range is used. The ideal transfer characteristic for the ADC when
outputting twos complement coding is shown in Figure 35 (with
the 2 × V
NOTE
1. V
REF
REF
REF
000...010
000...001
000...000
111...110
111...000
011...111
111...111
range is used, and 4 × V
/4096 when the 0 V to 2 × V
IS EITHER V
REF
range).
Figure 34. Single-Ended Transfer Characteristic
REF
0V
/4096 when the 0 V to V
1LSB
REF
OR 2 × V
IN
0 to V
REF
.
REF
ANALOG INPUT
IN
REF
/4096 when the 0 V to 2 × V
3. These four channels allow
input or a 2 × V
1LSB = V
REF
V
range is used. The ideal
REF
REF
REF
REF
range is used and
/4096 when the 0 V
– 1LSB
/4096
REF
input,
Rev. F | Page 20 of 48
REF
For V
straight binary, where
V
In differential mode, the code is twos complement, where
V
V
V
Channel 5 and Channel 6 (current sensor inputs) are twos
complement, where
V
V
V
Channel 7 to Channel 9 (temperature sensor inputs) are twos
complement with the LSB equal to 0.25°C, where
T
T
T
ANALOG INPUTS
The AD7294 has a total of four analog inputs. Depending on
the configuration register setup, they can be configured as two
single-ended inputs, two pseudo differential channels, or two
fully differential channels. See the Register Setting section for
further details.
Single-Ended Mode
The AD7294 can have four single-ended analog input channels.
In applications where the signal source has high impedance, it is
recommended to buffer the analog input before applying it to the
ADC. The analog input range can be programmed to be either
0 V to V
effectively divided by 2 before the conversion takes place. Note
that the voltage with respect to GND on the ADC analog input
pins cannot exceed AV
If the analog input signal to be sampled is bipolar, the internal
reference of the ADC can be used to externally bias up this
IN
IN
IN
IN
IN+
IN+
IN+
IN+
IN+
IN+
Figure 35. Differential Transfer Characteristic with V
= 0°C, and D
= +255.75°C, and D
= −256°C, and D
= 0 V, D
− V
− V
− V
− V
− V
− V
IN
000...001
000...000
100...010
100...001
100...000
011...110
011...111
111...111
0 to V
IN−
IN−
IN−
IN−
IN−
IN−
REF
= 0 V, and D
= V
= −V
= 0 mV, and D
= V
= −V
or 0 V to 2 × V
OUT
–V
IN
REF
3 in single-ended mode, the output code is
REF
REF
= x000, V
REF
REF
OUT
/12.5 − 1 LSB, D
+ 1LSB V
− 1 LSB, and D
1LSB = 2 × V
, and D
/12.5, D
= x000
OUT
DD
OUT
OUT
= x800
.
REF
IN
OUT
OUT
REF
OUT
= x7FF
= V
= x00
REF
– 1LSB
. In 2 × V
ANALOG INPUT
= x000
= x800
/4096
= x800
REF
OUT
OUT
− 1 LSB, and D
+V
= x7FF
= x7FF
REF
REF
– 1LSB
mode, the input is
REF
± V
REF
OUT
Input Range
= xFFF
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