LTC6078AHMS8 データシートの表示(PDF) - Linear Technology
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LTC6078AHMS8
Linear Technology
LTC6078AHMS8 Datasheet PDF : 20 Pages
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LTC6078/LTC6079
APPLICATIO S I FOR ATIO
Preserving Input Precision
Preserving input accuracy of the LTC6078/LTC6079 re-
quires that the application circuit and PC board layout do
not introduce errors comparable or greater than the 10µV
typical offset of the amplifiers. Temperature differentials
across the input connections can generate thermocouple
voltages of 10’s of microvolts so the connections to the
input leads should be short, close together and away from
heat dissipating components. Air current across the board
can also generate temperature differentials.
The extremely low input bias currents (0.2pA typical) al-
low high accuracy to be maintained with high impedance
sources and feedback resistors. Leakage currents on the
PC board can be higher than the input bias current. For
example, 10GΩ of leakage between a 5V supply lead and
an input lead will generate 500pA! Surround the input
leads with a guard ring driven to the same potential as the
input common mode to avoid excessive leakage in high
impedance applications.
Input Clamps
Large differential voltages across the inputs over very
long time periods can impact the precisely trimmed input
offset voltage of the LTC6078/LTC6079. As an example,
a 2V differential voltage between the inputs over a period
of 100 hours can shift the input offset voltage by tens
of microvolts. If the amplifier is to be subjected to large
differential input voltages, adding back-to-back diodes
between the two inputs will minimize this shift and retain
the DC precision. If necessary, current-limiting series
resistors can be added in front of the diodes, as shown
in Figure 1. These diodes are not necessary for normal
closed loop applications.
500Ω
+
500Ω
–
60789 F01
Figure 1. Op Amp with Input Voltage Clamp
Capacitive Load
LTC6078/LTC6079 can drive capactive load up to 200pF in
unity gain. The capacitive load driving capability increases
as the amplifier is used in higher gain configurations. A
small series resistance between the ouput and the load
further increases the amount of capacitance the amplifier
can drive.
⎯S⎯H⎯D⎯N Pins
Pins 5 and 6 are used for power shutdown on the LTC6078
in the DD package. If they are floating, internal current
sources pull Pins 5 and 6 to V+ and the amplifiers operate
normally. In shutdown, the amplifier output is high imped-
ance, and each amplifier draws less than 2µA current.
When the chip is turned on, the supply current per amplifier
is about 35µA larger than its normal values for 50µs.
Rail-to-Rail Input
The input stage of LTC6078/LTC6079 combines both PMOS
and NMOS differential pairs, extending its input common
mode voltage range to both positive and negative supply
voltages. At high input common mode range, the NMOS
pair is on. At low common mode range, the PMOS pair is
on. The transition happens when the common voltage is
between 1.3V and 0.9V below the positive supply.
Thermal Hysteresis
Figure 2 shows the input offset hysteresis of LTC6078MS8
for 3 thermal cycles from –45°C to 90°C. The typical offset
shift after the 3 cycles is only 1µV.
50 VS = 3V
45 VCM = 0.5V
40
35
1ST CYCLE
2ND CYCLE
3RD CYCLE
30
25
20
15
10
5
0
–5 –4 –3 –2 –1 0 1 2 3 4 5 6
VOS CHANGE FROM INITIAL VALUE
60789 F02
Figure 2. VOS Thermal Hysteresis of LTC6078MS8
60789fa
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