MP8820 查看數據表(PDF) - Exar Corporation
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MP8820 Datasheet PDF : 12 Pages
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MP8820
THEORY OF OPERATION
The defining feature of the MP8820 is that it digitizes a bipolar
input signal centered around a given voltage, VMID. The peak to
peak swing of AIN is defined by the two input reference voltages,
VREF(+) and VREF(–).
The MP8820 takes in the center voltage and the two refer-
ence voltages and moves the resistor ladder endpoints VRT and
VRB of the ADC around VMID by (VREF(+) – VREF(–)). In this
way, a unipolar to bipolar translation can take place without hav-
ing to use both a positive and negative supply. The center volt-
age acts as a bipolar zero and signals that moves below it are
considered negative and signals that exceed it are taken to be
positive. The block diagram is shown in Figure 1.
VMID
VREF(+)
VREF(–)
VDD
+
–
G=1
+
– G=1
+
– G=1
AIN0-AIN7
8
3
8:1 MUX
T/H
VRT AIN
8
VMID
8-Bit
ADC
VRB
Control
A0-A2
DB0-DB7
GND
WR
Figure 1. MP8820 Block Diagram
Unlike a unipolar system where one end of the ADC’s resistor
ladder is modulated above an offset voltage, both ends of the
MP8820’s reference chain expand or contract around a fixed
VMID. The maximum positive full scale voltage is VRT = VMID +
(VREF(+) – VREF(–)). The maximum negative full scale voltage is
VRB = VMID – (VREF(+) – VREF(–)). This type of translation is par-
ticularly useful in single supply applications where the input is
centered about user specified VMID.
The ideal transfer characteristic of the MP8820 is shown in
Figure 2. An actual transfer characteristic with associated error
terms is shown in Figure 3.
00000000
CODE
OUT
VIN
VRT = VMID + (VREF(+) – VREF(–))
11111111
VRB = VMID = (VREF(+) – VREF(–))
Figure 2. Ideal Transfer Characteristics
Rev. 1.00
5
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