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TLE2161 Datasheet, PDF (4/29 Pages) Texas Instruments – EXCALIBUR JFET-INPUT HIGH-OUTPUT-DRIVE mPOWER OPERATIONAL AMPLIFIERS
TLE2161, TLE2161A, TLE2161B
EXCALIBUR JFET-INPUT HIGH-OUTPUT-DRIVE
µPOWER OPERATIONAL AMPLIFIERS
SLOS049D – NOVEMBER 1989 – REVISED MAY 1996
electrical characteristics at specified free-air temperature, VCC ± = ± 5 V (unless otherwise noted)
PARAMETER
TEST CONDITIONS
TLE2161C, TLE2161AC
TA†
TLE2161BC
UNIT
MIN TYP MAX
TLE2161C
25°C
Full range
0.8
3.1
4
VIO Input offset voltage
TLE2161AC
25°C
Full range
0.6
2.6
mV
3.5
TLE2161BC
αVIO
Temperature coefficient of input offset voltage
Input offset voltage long-term drift (see Note 4)
VIC = 0,
RS = 50 Ω
25°C
Full range
Full range
25°C
0.5
1.9
2.4
6
µV/°C
0.04
µV/mo
IIO
Input offset current
25°C
Full range
1
pA
0.8 nA
IIB
Input bias current
25°C
Full range
3
pA
2 nA
VICR Common-mode input voltage range
25°C
– 1.6
–2
to 4 to 6
V
Full range
– 1.6
to 4
V
VOM + Maximum positive peak output voltage swing
RL = 10 kΩ
RL = 100 Ω
25°C
3.5
3.7
Full range
3.3
V
25°C
2.5
3.1
Full range
2
VOM – Maximum negative peak output voltage swing
RL = 10 kΩ
RL = 100 Ω
25°C
– 3.7 – 3.9
Full range – 3.3
V
25°C
– 2.5 – 2.7
Full range
–2
25°C
VO = ± 2.8 V, RL = 10 kΩ Full range
15
80
2
AVD Large-signal differential voltage amplification
25°C
0.75
45
VO = 0 to 2 V, RL = 100 Ω Full range
0.5
V/mV
ri
Input resistance
ci
Input capacitance
zo
Open-loop output impedance
CMRR Common-mode rejection ratio
25°C
0.5
3
VO = 0 to – 2 V, RL = 100 Ω Full range
0.25
25°C
1012
Ω
25°C
4
pF
IO = 0
25°C
280
Ω
25°C
65
82
VIC=VICRmin, RS = 50 Ω Full range
65
dB
kSVR Supply-voltage rejection ratio (∆VCC± /∆VIO)
ICC
∆ICC
Supply current
Supply-current change over operating
temperature range
VCC± = ± 5 V to ± 15 V,
RS = 50 Ω
VO = 0,
No load
25°C
Full range
25°C
Full range
Full range
75
93
dB
75
280 325
µA
350
29
µA
† Full range is 0°C to 70°C.
NOTE 4: Typical values are based on the input offset voltage shift observed through 168 hours of operating life test at TA = 150°C extrapolated
to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV.
4
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