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OPA2614ID Datasheet, PDF (5/34 Pages) Texas Instruments – Dual, High Gain Bandwidth, High Output Current Operational Amplifier with Current Limit
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OPA2614
SBOS305D − JUNE 2004 − REVISED AUGUST 2008
ELECTRICAL CHARACTERISTICS: VS = +5V
Boldface limits are tested at +25°C.
RF = 402Ω, RL = 100Ω, and G = +2, unless otherwise noted. See Figure 3 for AC performance only.
OPA2614ID
PARAMETER
TEST CONDITIONS
TYP
+25°C
MIN/MAX OVER TEMPERATURE
0°C to −40°C to
+25°C(1) +70°C(2) +85°C(2) UNITS
TEST
MIN/ LEVELS
MAX
(3)
AC Performance (see Figure 3)
Small-Signal Bandwidth
Gain-Bandwidth Product
Bandwidth for 0.1dB Gain Flatness
Peaking at a Gain of +2
Large-Signal Bandwidth
Slew Rate
Rise-and-Fall Time
Settling Time to 0.02%
0.1%
Harmonic Distortion
2nd-Harmonic
3rd-Harmonic
Input Voltage Noise
Input Current Noise
Channel-to-Channel Crosstalk
DC Performance(4)
Open-Loop Gain (AOL)
Input Offset Voltage
Average Offset Voltage Drift
Input Bias Current
Average Bias Current Drift (Magnitude)
Input Offset Current
Average Offset Bias Current Drift
Input
Least Positive Input Voltage(5)
Most Positive Input Voltage(5)
Common-Mode Rejection Ratio (CMRR)
Input Impedance
Differential-Mode
Common-Mode
Output
Most Positive Output Voltage
Least Positive Output Voltage
Current Output, Sourcing
Current Output, Sinking
Short-Circuit Current
Closed-Loop Output Impedance
G = +2, VO = 0.1VPP
G = +4, VO = 0.1VPP
G = +8, VO = 0.1VPP
G ≥ 20
150
100
81
75
40
32
28
250
210
186
G = +4, VO < 0.1VPP
VO < 0.1VPP
G = +4, VO = 2VPP
G = +4, 2V Step
17
7.5
40
135
98
96
G = +4, VO = 0.2V Step
3.5
4.5
5.1
G = +4, VO = 2V Step
34
42
44
G = +4, VO = 2V Step
27
34
36
G = +4, f = 1MHz, VO = 2VPP
RL = 20Ω to VS/2
−64
−60
−58
RL ≥ 500Ω to VS/2
−92
−89
−87
RL = 20Ω to VS/2
−85
−80
−78
RL ≥ 500Ω to VS/2
−105
−100
−98
f > 10kHz
1.9
2.1
2.2
f > 10kHz
1.7
2.1
2.2
f = 1MHz, Input-Referred
−68
MHz
typ
C
72
MHz min
B
27
MHz min
B
181
MHz min
B
MHz
typ
C
dB
typ
C
MHz
typ
C
94
V/µs min
B
5.2
ns
typ
B
46
ns
typ
B
37
ns
typ
B
−57
dBc max
B
−86
dBc max
B
−76
dBc max
B
−96
dBc max
B
2.4
nV/√Hz max
B
2.4
pA/√Hz max
B
dBc
typ
C
VO = 0V, RL = 100Ω
VCM = 0V
VCM = 0V
VCM = 0V
VCM = 0V
VCM = 0V
VCM = 0V
95
91
89
88
dB
min
A
±0.2
±1.0
±1.15
±1.2
mV
max
A
±3.3
±3.3
µV/°C max
B
−6
−11
−12
−13.5
µA
max
A
−35
−35
nA/°C max
B
±50
±300
±520
±750
nA
max
A
±5
±7
nA/°C max
B
VCM = ±1V
VCM = 0
VCM = 0
1.2
1.4
1.4
1.5
V
max
A
3.8
3.6
3.6
3.5
V
min
A
95
85
84
83
dB
min
A
A
15 1
kΩ pF typ
C
5 1.3
MΩ pF typ
C
No Load
4.0
3.85
100Ω Load to 2.5V
3.95
3.8
No Load
1.0
1.15
100Ω Load to 2.5V
1.05
1.20
VO = 0, Linear Operation
VO = 0, Linear Operation
Output Shorted to Mid-Supply
+300
−300
±400
G = +2, f = 100kHz
0.01
3.8
3.75
1.2
1.25
3.75
3.7
1.25
1.3
V
min
A
V
min
A
V
min
A
V
min
A
mA
typ
C
mA
typ
C
mA
typ
C
Ω
typ
C
(1) Junction temperature = ambient for +25°C tested specifications.
(2) Junction temperature = ambient at low temperature limit; junction temperature = ambient +23°C at high temperature limit for over temperature
tested specifications.
(3) Test levels: (A) 100% tested at +25°C. Over temperature limits by characterization and simulation. (B) Limits set by characterization and
simulation. (C) Typical value only for information.
(4) Current is considered positive-out-of-node. VCM is the input common-mode voltage.
(5) Tested < 3dB below minimum CMRR specification at ± CMIR limits.
5