LT1678 LINER [Linear Technology], LT1678 Datasheet - Page 13
LT1678
Manufacturer Part Number
LT1678
Description
Dual/Quad Low Noise, Rail-to-Rail, Precision Op Amps
Manufacturer
LINER [Linear Technology]
Datasheet
1.LT1678.pdf
(16 pages)
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APPLICATIO S I FOR ATIO
Rail-to-Rail Input
The input common mode range for the LT1678/LT1679
can exceed the supplies by at least 100mV. As the
common mode voltage approaches the positive rail (+V
– 0.7V), the tail current for the input pair (Q1, Q2) is
reduced, which prevents the input pair from saturating
(refer to the Simplified Schematic). The voltage drop
across the load resistors R
200mV, degrading the slew rate, bandwidth, voltage
noise, offset voltage and input bias current (the cancella-
tion is shut off).
When the input common mode range goes below 1.5V
above the negative rail, the NPN input pair (Q1, Q2) shuts
off and the PNP input pair (Q8, Q9) turns on. The offset
voltage, input bias current, voltage noise and bandwidth
are also degraded. The graph of Offset Voltage Shift vs
Common Mode shows where the knees occur by display-
ing the change in offset voltage. The change-over points
are temperature dependent; see the graph Common Mode
Range vs Temperature.
INPUT VOLTAGE
(50µV/DIV)
Figure 7. Voltage Gain Split Supply
T
V
R
MEASURED ON
TEKTRONIX 577
CURVE TRACER
R
A
S
L
L
= 25°C
= ±15V
CONNECTED TO 0V
= 10k
–15 –10 –5
U
R
L
OUTPUT VOLTAGE (V)
= 600Ω
R
L
U
C1
= 1k
, R
0
C2
5
is reduced to less than
W
10 15
16789 F07
U
S
INPUT VOLTAGE
Rail-to-Rail Output
The rail-to-rail output swing is achieved by using transis-
tor collectors (Q28, Q29 referring to the Simplified Sche-
matic) instead of customary class A-B emitter followers for
the output stage. The output NPN transistor (Q29) sinks the
current necessary to move the output in the negative direc-
tion. The change in Q29’s base emitter voltage is reflected
directly to the gain node (collectors of Q20 and Q16). For
large sinking currents, the delta V
the gain. Figure 7 shows the change in input voltage for a
change in output voltage for different load resistors con-
nected between the supplies. The gain is much higher for
output voltages above ground (Q28 sources current) since
the change in base emitter voltage of Q28 is attenuated by
the gain in the PNP portion of the output stage. Therefore,
for positive output swings (output sourcing current) there
is hardly any change in input voltage for any load resistance.
Highest gain and best linearity are achieved when the output
is sourcing current, which is the case in single supply op-
eration when the load is ground referenced. Figure 8 shows
gains for both sinking and sourcing load currents for a
worst-case load of 600Ω.
(10µV/DIV)
0
Figure 8. Voltage Gain Single Supply
R
L
TO 5V
R
1
L
TO 0V
OUTPUT VOLTAGE (V)
2
VOLTAGE GAIN SINGLE SUPPLY
V
R
MEASURED ON TEKTRONIX 577
CURVE TRACER
S
L
= 5V
= 600Ω
LT1678/LT1679
3
BE
of Q29 can dominate
4
16789 F08
5
sn16789 16789fs
13
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