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OPA2613 Datasheet, PDF (3/27 Pages) Texas Instruments – Dual, Wideband, High Output Current, Operational Amplifier with Current Limit | |||
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OPA2613
SBOS249D â JUNE 2003â REVISED APRIL 2004
ELECTRICAL CHARACTERISTICS: VS = ±6V
Boldface limits are tested at +25°C.
RF = 402â¦, RL = 100â¦, and G = +2, unless otherwise noted. See Figure 1 for AC performance only.
OPA2613ID, OPA2613IDTJ
PARAMETER
TEST CONDITIONS
TYP
+25°C
MIN/MAX OVER TEMPERATURE
0°C to â40°C to
+25°C(1) +70°C(2) +85°C(2) UNITS
TEST
MIN/ LEVEL
MAX (3)
AC Performance (see Figure 1)
Small-Signal Bandwidth
Gain-Bandwidth Product
Bandwidth for 0.1dB Gain Flatness
Peaking at a Gain of +1
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
Differential Gain
Differential Phase
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
Common-Mode Input Range (CMIR)(5)
Common-Mode Rejection Ratio (CMRR)
Input Impedance
Differential-Mode
Common-Mode
Output
Output Voltage Swing
Current Output, Sourcing
Current Output, Sinking
Short-Circuit Current
Closed-Loop Output Impedance
G = +1, VO = 0.1VPP, RF = 0â¦
230
G = +2, VO = 0.1VPP
110
G = +10, VO = 0.1VPP
13
G ⥠20
125
G = +2, VO < 0.1VPP
5
VO < 0.1VPP
1
G = +2, VO = 2VPP
22
G = +2, 4V step
70
G = +2, VO = 0.2V Step
3.6
G = +2, VO = 2V Step
55
G = +2, VO = 2V Step
40
G = +2, f = 1MHz, VO = 2VPP
RL = 20â¦
â70
RL ⥠500â¦
â95
RL = 20â¦
â84
RL ⥠500â¦
â97
f > 10kHz
1.8
f > 10kHz
1.7
G = +2, PAL, VO = 1.4VP, RL = 150⦠0.02
G = +2, PAL, VO = 1.4VP, RL = 150⦠0.03
f = 1MHz, Input Referred
â80
VO = 0V, RL = 100â¦
VCM = 0V
VCM = 0V
VCM = 0V
VCM = 0V
VCM = 0V
VCM = 0V
VCM = ±1V
VCM = 0
VCM = 0
No Load
100â¦
VO = 0, Linear Operation
VO = 0, Linear Operation
Output Shorted to Ground
G = +2, f = 100kHz
97
±0.2
â6
±50
±4.7
100
18 0.6
7 1
±5.0
±4.9
+350
â350
500
0.01
80
10
95
56
4.8
68
51
â63
â90
â80
â92
2.0
2.1
92
±1.0
â12
±300
±4.5
88
±4.8
±4.7
+280
â280
75
9
80
51
5.4
71
53
â61
â88
â78
â90
2.1
2.2
92
±1.15
±3.3
â13
â30
±520
±5
±4.5
87
±4.8
±4.7
+240
â240
MHz typ
C
70
MHz min
B
9
MHz min
B
75
MHz min
B
MHz typ
C
dB
typ
C
MHz typ
C
50
V/µs min
B
5.5
ns
typ
C
72
ns
typ
C
54
ns
typ
C
â60
dBc
max
B
â87
dBc
max
B
â77
dBc
max
B
â89
dBc
max
B
2.3
nV/âHz max
B
2.4
pA/âHz max
B
%
typ
C
deg
typ
C
dBc
typ
C
91
dB
min
A
±1.2
mV
max
A
±3.3
µV/°C max
B
â14.5
µA
max
A
â35
nA/°C max
B
±750
nA
max
A
±7
nA/°C max
B
±4.4
V
min
A
86
dB
min
A
kâ¦ï£·ï£· pF typ
C
Mâ¦ï£·ï£· pF typ
C
±4.7
±4.6
+220
â220
V
min
A
V
min
A
mA
min
A
mA
min
A
mA
typ
C
â¦
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.
(6) Heat slug soldered to heat spreading plane. This plane should be electrically floating or at VSâ voltage.
3
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