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AD7829BR Datasheet(PDF) 8 Page - Analog Devices

No. de pieza AD7829BR
Descripción Electrónicos  3 V/5 V, 2 MSPS, 8-Bit, 1-, 4-, 8-Channel Sampling ADCs
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AD7829BR Datasheet(HTML) 8 Page - Analog Devices

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AD7822/AD7825/AD7829
–8–
REV. B
ADC TRANSFER FUNCTION
The output coding of the AD7822, AD7825, and AD7829 is
straight binary. The designed code transitions occur at succes-
sive integer LSB values (i.e., 1 LSB, 2 LSBs, etc.). The LSB size
is = VREF/256 (VDD = 5 V) or the LSB size = (0.8 VREF)/256
(VDD = 3 V). The ideal transfer characteristic for the AD7822,
AD7825, and AD7829 is shown in Figure 6, below.
11111111
111...110
111...000
10000000
000...111
000...010
00000000
(VDD = 5V)
1LSB = VREF /256
(VDD = 3V)
1LSB = 0.8VREF /256
000...001
1LSB
VMID
(VDD = 5V) VMID – 1.25V
(VDD = 3V) VMID – 1V
VMID + 1.25V – 1LSB
VMID + 1V – 1LSB
ANALOG INPUT VOLTAGE
Figure 6. Transfer Characteristic
ANALOG INPUT
The AD7822 has a single input channel and the AD7825 and
AD7829 have four and eight input channels respectively. Each
input channel has an input span of 2.5 V or 2.0 V, depending on
the supply voltage (VDD). This input span is automatically set
up by an on-chip “VDD Detector” circuit. 5 V operation of the
ADCs is detected when VDD exceeds 4.1 V and 3 V operation is
detected when VDD falls below 3.8 V. This circuit also possesses
a degree of glitch rejection; for example, a glitch from 5.5 V to
2.7 V up to 60 ns wide will not trip the VDD detector.
The VMID pin is used to center this input span anywhere in the
range AGND to VDD. If no input voltage is applied to VMID, the
default input range is AGND to 2.0 V (VDD = 3 V
± 10%) i.e.,
centered about 1.0 V, or AGND to 2.5 V (VDD = 5 V
± 10%)
i.e., centered about 1.25 V. When using the default input range,
the VMID pin can be left unconnected or, in some cases, it can be
decoupled to AGND with a 0.1 F capacitor.
If, however, an external VMID is applied, the analog input range
will be from VMID – 1.0 V to VMID + 1.0 V (VDD = 3 V
± 10%),
or from VMID – 1.25 V to VMID + 1.25 V (VDD = 5 V
± 10%).
The range of values of VMID that can be applied depends on the
value of VDD. For VDD = 3 V
± 10%, the range of values that
can be applied to VMID is from 1.0 V to VDD – 1.0 V and is 1.25 V
to VDD – 1.25 V when VDD = 5 V
± 10%. Table I shows the rel-
evant ranges of VMID and the input span for various values of
VDD. Figure 7 illustrates the input signal range available with
various values of VMID.
Table I.
VMID
VMID Ext
VMID Ext
VDD
Internal
Max
VIN Span
Min
VIN Span
5.5
1.25
4.25
3.0 to 5.5
1.25
0 to 2.5
5.0
1.25
3.75
2.5 to 5.0
1.25
0 to 2.5
4.5
1.25
3.25
2.0 to 4.5
1.25
0 to 2.5
3.3
1.00
2.3
1.3 to 3.3
1.00
0 to 2.0
3.0
1.00
2.0
1.0 to 3.0
1.00
0 to 2.0
2.7
1.00
1.7
0.7 to 2.7
1.00
0 to 2.0
5V
4V
3V
2V
1V
VDD = 5V
INPUT SIGNAL RANGE
FOR VARIOUS VMID
VMID = N/C (1.25V)
VMID = 2.5V
VMID = 3.75V
3V
2V
1V
VDD = 3V
INPUT SIGNAL RANGE
FOR VARIOUS VMID
VMID = N/C (1V)
VMID = 1.5V
VMID = 2V
Figure 7. Analog Input Span Variation with VMID
VMID may be used to remove offsets in a system by applying the
offset to the VMID pin as shown in Figure 8, or it may be used to
accommodate bipolar signals by applying VMID to a level-shifting
circuit before VIN, as shown in Figure 9. When VMID is being
driven by an external source, the source may be directly tied to
the level-shifting circuitry (see Figure 9); however, if the internal
VMID, i.e., the default value, is being used as an output, it must
be buffered before applying it to the level-shifting circuitry, as
the VMID pin has an impedance of approximately 6 k
Ω (see
Figure 10).
VIN
VMID
AD7822/
AD7825/
AD7829
VMID
VIN
VMID
Figure 8. Removing Offsets Using VMID


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