EVAL-AD7864-3CB Analog Devices Inc, EVAL-AD7864-3CB Datasheet - Page 13
EVAL-AD7864-3CB
Manufacturer Part Number
EVAL-AD7864-3CB
Description
BOARD EVAL FOR AD7864-3
Manufacturer
Analog Devices Inc
Datasheet
1.AD7864ASZ-1.pdf
(28 pages)
Specifications of EVAL-AD7864-3CB
Rohs Status
RoHS non-compliant
Number Of Adc's
1
Number Of Bits
12
Sampling Rate (per Second)
520k
Data Interface
Parallel
Inputs Per Adc
4 Differential
Input Range
±2.5 V
Power (typ) @ Conditions
90mW @ 520kSPS
Voltage Supply Source
Analog and Digital
Operating Temperature
-40°C ~ 85°C
Utilized Ic / Part
AD7864-3
CIRCUIT DESCRIPTION
ANALOG INPUT
The AD7864 is offered in three models: the AD7864-1, where
each input can be configured for ±10 V or a ±5 V input voltage
range; the AD7864-3, which handles the input voltage range of
±2.5 V; and the AD7864-2, where each input can be configured
to have a 0 V to +2.5 V or 0 V to +5 V input voltage range.
AD7864-1
Figure 4 shows the analog input section of the AD7864-1. Each
input can be configured for ±5 V or ±10 V operation on the
AD7864-1. For ±5 V (AD7864-1) operation, the V
inputs are tied together and the input voltage is applied to both.
For ±10 V (AD7864-1) operation, the V
and the input voltage is applied to the V
V
ease of printed circuit board (PCB) layout on the ±10 V range,
the input voltage may be applied to the V
V
For the AD7864-1, R1 = 6 kΩ, R2 = 24 kΩ, R3 = 24 kΩ, and
R4 = 12 kΩ. The resistor input stage is followed by the high
input impedance stage of the track-and-hold amplifier.
The designed code transitions take place midway between
successive integer least significant bit values (that is, 1/2 LSB,
3/2 LSB, 5/2 LSB, and so forth). Least significant bit size is given
by the formula 1 LSB = FSR/4096. For the ±5 V range, 1 LSB =
10 V/4096 = 2.44 mV. For the ±10 V range, 1 LSB = 20 V/4096 =
4.88 mV. Output coding is twos complement binary with 1 LSB =
FSR/4096. The ideal input/output transfer function for the
AD7864-1 is shown in Table 5.
INxB
INxA
V
V
V
IN1A
IN1B
REF
inputs are symmetrical and fully interchangeable. Thus for
input is tied to AGND.
Figure 4. AD7864-1 Analog Input Structure
R2
R3
6kΩ
AGND
R1
R4
REFERENCE
TO ADC
REFERENCE
CIRCUITRY
T/H
INxB
2.5V
INxA
INxB
input is tied to AGND
input. The V
input while the
TO INTERNAL
COMPARATOR
AD7864-1
INxA
and V
INxA
INxB
and
Rev. D | Page 13 of 28
Table 5. Ideal Input/Output Code Table for the AD7864-1
Analog Input
+FSR/2 − 3/2 LSB
+FSR/2 − 5/2 LSB
+FSR/2 − 7/2 LSB
AGND + 3/2 LSB
AGND + 1/2 LSB
AGND − 1/2 LSB
AGND − 3/2 LSB
−FSR/2 + 5/2 LSB
−FSR/2 + 3/2 LSB
−FSR/2 + 1/2 LSB
1
2
AD7864-2
Figure 5 shows the analog input section of the AD7864-2. Each
input can be configured for 0 V to 5 V operation or 0 V to 2.5 V
operation. For 0 V to 5 V operation, the V
AGND and the input voltage is applied to the V
0 V to 2.5 V operation, the V
and the input voltage is applied to both. The V
inputs are symmetrical and fully interchangeable. Thus for ease
of PCB layout on the 0 V to 5 V range, the input voltage may be
applied to the V
For the AD7864-2, R1 = 6 kΩ and R2 = 6 kΩ. The designed
code transitions occur on successive integer least significant bit
values. Output coding is straight (natural) binary with 1 LSB =
FSR/4096 = 2.5 V/4096 = 0.61 mV, and 5 V/4096 = 1.22 mV, for
the 0 V to 2.5 V and 0 V to 5 V options, respectively.
Table 6 shows the ideal input and output transfer function for
the AD7864-2.
FSR is full-scale range and is 20 V for the ±10 V range and +10 V for the ±5 V
range, with V
1 LSB = FSR/4096 = 4.883 mV (±10 V for the AD7864-1) and 2.441 mV (±5 V
for the AD7864-1) with V
V
V
V
IN1A
IN1B
REF
REF
1
= 2.5 V.
R2
Figure 5. AD7864-2 Analog Input Structure
R1
INxB
2
input while the V
REF
6kΩ
= 2.5 V.
Digital Output Code Transition
011...110 to 011...111
011...101 to 011...110
011...100 to 011...101
000...001 to 000...010
000...000 to 000...001
111...111 to 000...000
111...110 to 111...111
100...010 to 100...011
100...001 to 100...010
100...000 to 100...001
INxA
and V
REFERENCE
TO ADC
REFERENCE
CIRCUITRY
INxB
INxA
T/H
2.5V
inputs are tied together
input is tied to AGND.
INxB
input is tied to
AD7864-2
INxA
TO INTERNAL
COMPARATOR
INxA
and V
input. For
AD7864
INxB
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