LT1880 데이터 시트보기 (PDF) - Linear Technology
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LT1880 Datasheet PDF : 12 Pages
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LT1880
APPLICATIONS INFORMATION
The LT1880 single op amp features exceptional input
precision with rail-to-rail output swing. Slew rate and small
signal bandwidth are superior to other amplifiers with
comparable input precision. These characteristics make
the LT1880 a convenient choice for precision low voltage
systems and for improved AC performance in higher voltage
precision systems. Obtaining beneficial advantage of the
precision inherent in the amplifier depends upon proper
applications circuit design and board layout.
Preserving Input Precision
Preserving the input voltage accuracy of the LT1880
requires that the applications circuit and PC board layout
do not introduce errors comparable to or greater than the
40μV offset. Temperature differentials across the input
connections can generate thermocouple voltages of 10’s
of microvolts. PC board layouts should keep connections
to the amplifier’s input pins close together and away from
heat dissipating components. Air currents across the board
can also generate temperature differentials.
The extremely low input bias currents, 150pA, allow high
accuracy to be maintained with high impedance sources and
feedback networks. The LT1880’s low input bias currents
are obtained by using a cancellation circuit on-chip. This
causes the resulting IBIAS+ and IBIAS– to be uncorrelated, as
implied by the lOS specification being comparable to IBIAS.
The user should not try to balance the input resistances in
each input lead, as is commonly recommended with most
amplifiers. The impedance at either input should be kept
as small as possible to minimize total circuit error.
PC board layout is important to insure that leakage currents
do not corrupt the low IBIAS of the amplifier. In high
precision, high impedance circuits, the input pins should
be surrounded by a guard ring of PC board interconnect,
with the guard driven to the same common mode voltage
as the amplifier inputs.
Input Common Mode Range
The LT1880 output is able to swing nearly to each power
supply rail, but the input stage is limited to operating
between V– + 1V and V+ – 1.2V. Exceeding this common
mode range will cause the gain to drop to zero, however
no gain reversal will occur.
8
Input Protection
The inverting and noninverting input pins of the LT1880
have limited on-chip protection. ESD protection is provided
to prevent damage during handling. The input transistors
have voltage clamping and limiting resistors to protect
against input differentials up to 10V. Short transients
above this level will also be tolerated. If the input pins can
see a sustained differential voltage above 10V, external
limiting resistors should be used to prevent damage to
the amplifier. A 1k resistor in each input lead will provide
protection against a 30V differential voltage.
Capacitive Loads
The LT1880 can drive capacitive loads up to 600pF in unity
gain. The capacitive load driving capability increases as
the amplifier is used in higher gain configurations, see the
graph labled Capacitive Load Response. Capacitive load
driving may be increased by decoupling the capacitance
from the output with a small resistance.
Capacitance Load Response
30
VS = ±15V
TA = 25°C
25
20
15
AV = 1
10
5
AV = 10
0
10
100
1000
10000
CAPACITIVE LOAD (pF)
1880 G25
Getting Rail-to-Rail Operation without Rail-to-Rail
Inputs
The LT1880 does not have rail-to-rail inputs, but for most
inverting applications and noninverting gain applications,
this is largely inconsequential. Figure 1 shows the basic
op amp configurations, what happens to the op amp
inputs, and whether or not the op amp must have rail-
to-rail inputs.
1880fa
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