Microchip Technology MCP6S26-I/P Linear IC PDIP-14 MCP6S26-I/P データシート
製品コード
MCP6S26-I/P
2003-2012 Microchip Technology Inc.
DS21117B-page 7
MCP6S21/2/6/8
1.1
DC Output Voltage Specs / Model
1.1.1
IDEAL MODEL
The ideal PGA output voltage (V
OUT
) is:
EQUATION
(see Figure 1-7). This equation holds when there are
no gain or offset errors and when the V
no gain or offset errors and when the V
REF
pin is tied to
a low impedance source (<< 0.1
) at ground potential
(V
SS
= 0V).
1.1.2
LINEAR MODEL
The PGA’s linear region of operation, including offset
and gain errors, is modeled by the line V
and gain errors, is modeled by the line V
O_linear
, shown
in Figure 1-7.
EQUATION
The endpoints of this line are at V
O_ideal
= 0.3V and
V
DD
-0.3V. The gain and offset specifications referred to
in the electrical specifications are related to Figure 1-7,
as follows:
as follows:
EQUATION
FIGURE 1-7:
Output Voltage Model with
the standard condition V
REF
= V
SS
= 0V.
1.1.3
OUTPUT NON-LINEARITY
Figure 1-8 shows the Integral Non-Linearity (INL) of the
output voltage.
output voltage.
EQUATION
The output non-linearity specification in the electrical
specifications is related to Figure 1-8 by:
specifications is related to Figure 1-8 by:
EQUATION
FIGURE 1-8:
Output Voltage INL with the
standard condition V
REF
= V
SS
= 0V.
V
O_ideal
GV
IN
=
V
REF
V
SS
0V
=
=
where: G is the nominal gain
V
O_linear
G 1
g
E
+
V
IN
0.3V
V
OS
+
–
0.3V
+
=
V
REF
V
SS
0V
=
=
g
E
100%
V
2
V
1
–
G V
DD
0.6V
–
--------------------------------------
=
V
OS
V
1
G 1
g
E
+
-------------------------
=
G
T
A
g
E
T
A
----------
=
G
+1
=
0
0
0.3
V
DD
-0.3
V
DD
V
O
U
T
V
OUT
(V)
V
IN
(V)
0.3
V
DD
- 0.3 V
DD
G
G
G
V
1
V
O
_i
de
al
V
O
_l
in
ea
r
V
2
INL
V
OUT
V
O_linear
–
=
V
ONL
max V
4
V
3
V
DD
0.6V
–
---------------------------------
=
0
V
3
V
4
INL (V)
V
IN
(V)
0.3
V
DD
- 0.3 V
DD
G
G
G
0