TC911BCOA Microchip Technology, TC911BCOA Datasheet - Page 4
TC911BCOA
Manufacturer Part Number
TC911BCOA
Description
IC CMOS OP-AMP AUTO-ZEROED 8-SOI
Manufacturer
Microchip Technology
Datasheet
1.TC911BCOA.pdf
(14 pages)
Specifications of TC911BCOA
Amplifier Type
Chopper (Zero-Drift)
Number Of Circuits
1
Slew Rate
2.5 V/µs
Current - Input Bias
120pA
Voltage - Input Offset
15µV
Current - Supply
350µA
Voltage - Supply, Single/dual (±)
6.5 V ~ 16 V, ±3.3 V ~ 8 V
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Lead Free Status / RoHS Status
Request inventory verification / Request inventory verification
Output Type
-
Current - Output / Channel
-
-3db Bandwidth
-
Gain Bandwidth Product
-
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
TC911BCOA
Manufacturer:
D/A
Quantity:
6 234
TC911A/TC911B
2.0
The descriptions of the pins are listed in <Blue
References>Table 2-1.
TABLE 2-1:
3.0
3.1
The CMOS TC911 is pin compatible with the industry
standard ICL7650 chopper stabilized amplifier. The
ICL7650 must use external 0.1μF capacitors con-
nected at pins 1 and 8. With the TC911, external off-
set voltage error canceling capacitors are not
required. On the TC911 pins 1, 8 and 5 are not con-
nected internally. The ICL7650 uses pin 5 as an
optional output clamp connection. External chopper
capacitors and clamp connections are not necessary
with the TC911. External circuits connected to pins 1, 8
and 5 will have no effect. The TC911 can be quickly
evaluated in existing ICL7650 designs. Since external
capacitors are not required, system part count, assem-
bly time and total system cost are reduced. Reliability
is increased and PC board layout eased by having the
error storage capacitors integrated on the TC911 chip.
The TC911 pinout matches many existing op amps:
741, LM101, LM108, OP05–OP08, OP-20, OP-21,
ICL7650 and ICL7652. In many applications operating
from +5V supplies, the TC911 offers superior electrical
FIGURE 3-1:
DS21481C-page 4
Pin Number
J
J
1, 5, 8
3
4
J
J
J
2
3
4
6
7
3
2
1
= J
= J
= J
PIN DESCRIPTIONS
DETAILED DESCRIPTION
Pin Compatibility
4
5
6
No Temperature Differential and same
Metallic Connection
PIN FUNCTION TABLE
OUTPUT
Symbol
+INPUT
-INPUT
V
V
NC
DD
SS
J
J
UNWANTED THERMOCOUPLE ERRORS ELIMINATED BY REDUCING
THERMAL GRADIENTS AND BALANCING JUNCTIONS
2
5
No Internal Connection.
Inverting Input
Non-inverting Input
Negative Power Supply
Output
Positive Power Supply
J
J
Description
1
6
Package
Pin
J 3
J 4
–
+
+
–
V
V
3
4
performance and can be a functional pin compatible
replacement. Offset voltage correction potentiometers,
compensation capacitors, and chopper stabilization
capacitors can be removed when retro-fitting existing
equipment designs.
3.2
Heating one joint of a loop made from two different
metallic wires causes current flow. This is known as the
Seebeck effect. By breaking the loop, an open circuit
voltage (Seebeck voltage) can be measured. Junction
temperature and metal type determine the magnitude.
Typical values are 0.1μV/°C to 10μV/°C. Thermal
induced voltages can be many times larger than the
TC911 offset voltage drift. Unless unwanted thermo-
couple potentials can be controlled, system perfor-
mance will be less than optimum.
Unwanted thermocouple junctions are created when
leads are soldered or sockets/connectors are used.
Low thermo-electric coefficient solder can reduce
errors. A 60% Sn/36% Pb solder has 1/10 the thermal
voltage of common 64% Sn/36% Pb solder at a copper
junction.
The number and type of dissimilar metallic junctions in
the input circuit loop should be balanced. If the junc-
tions are kept at the same temperature, their summa-
tion will add to zero-canceling errors (Figure 3-1).
Shielding precision analog circuits from air currents -
especially those caused by power dissipating compo-
nents and fans - will minimize temperature gradients
and thermocouple induced errors.
V
T
= V
1
Thermocouple Errors
+ V
+
+
2
V
J
V
J
2
2
5
5
+ V
–
–
3
– V
+
+
© 2005 Microchip Technology Inc.
J
V
V
J
4
1
6
6
1
– V
–
–
5
– V
6
= 0
V
T
= 0
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