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LT1814IGN#TRPBF
P1-P3
P4-P6
P7-P9
P10-P12
P13-P15
P16-P16
7
L
T1813/L
T1814
18134fa
TEMPERATURE (
°
C)
–5
0
–2
5
0
SUPPLY CURRENT (mA)
2
5
0
50
75
1813/14 G01
1
4
3
25
100
125
PER AMPLIFIER
V
S
=
±
5V
V
S
=
±
2.5V
SUPPLY VOLTAGE (
±
V)
0
V
–
INPUT COMMON MODE RANGE (V)
1.0
1.5
2.0
V
+
–
2.0
–
1.5
2
4
5
1813/14 G02
0.5
–
1.0
–
0.5
1
3
6
7
T
A
= 25
°
C
∆
V
OS
< 1mV
INPUT COMMON MODE VOLTAGE (V)
–
5.0
INPUT BIAS CURRENT (
µ
A)
–
1.0
–
0.5
T
A
= 25
°
C
V
S
=
±
5V
5.0
1813/14 G03
–
1.5
–
2.0
–
2.5
0
2.5
0
TEMPERATURE (
°
C)
–5
0
INPUT BIAS CURRENT (
µ
A)
–
0.8
–
0.7
–
0.6
25
75
1813/14 G04
–
0.9
–
1.0
–2
5
0
50
100
125
–
1.1
–
1.2
V
S
=
±
5V
FREQUENCY (Hz)
10
100
1
10
i
n
100
0.1
1
10
1k
10k
100k
1813/14 G05
T
A
= 25
°
C
V
S
=
±
5V
A
V
= 101
R
S
= 10k
e
n
INPUT VOLTAGE NOISE (nV/
√
Hz)
INPUT CURRENT NOISE (pA/
√
Hz)
LOAD RESISTANCE (
Ω
)
100
60
OPEN-LOOP GAIN (dB)
62.5
65.0
67.5
70.0
75.0
1k
10k
1813/14 G06
72.5
T
A
= 25
°
C
V
S
=
±
5V
V
S
=
±
2.5V
Supply Current vs Temperature
Input Common Mode Range vs
Supply Voltage
Input Bias Current
vs Common Mode Voltage
Input Bias Current vs Temperature
Input Noise Spectral Density
Open-Loop Gain
vs Resistive Load
TYPICAL PERFOR A CE CHAR
AC
TERIST
ICS
UW
TEMPERATURE (
°
C)
–5
0
OPEN-LOOP GAIN (dB)
70.0
72.5
75.0
25
75
1813/14 G07
67.5
65.0
–2
5
0
50
100
125
62.5
60.0
V
S
=
±
5V
V
O
=
±
3V
R
L
= 500
Ω
R
L
= 100
Ω
SUPPLY VOLTAGE (
±
V)
0
V
–
OUTPUT VOLTAGE SWING (V)
1.0
1.5
2.0
V
+
–
2.0
–
1.5
2
4
5
1813/14 G02
0.5
–
1.0
–
0.5
1
3
6
7
T
A
= 25
°
C
V
IN
= 30mV
R
L
= 100
Ω
R
L
= 100
Ω
R
L
= 500
Ω
R
L
= 500
Ω
OUTPUT CURRENT (mA)
–6
0
OUTPUT VOLTAGE SWING (V)
–
2.0
–
1.0
–
1.5
V
+
–
0.5
20
1813/14 G09
2.0
1.0
1.5
0.5
V
–
–4
0
–2
0
0
40
60
V
S
=
±
5V
V
IN
= 30mV
85
°
C
25
°
C
–4
0
°
C
Open-Loop Gain vs Temperature
Output Voltage Swing
vs Supply Voltage
Output Voltage Swing
vs Load Current
8
L
T1813/L
T1814
18134fa
TYPICAL PERFOR A CE CHAR
AC
TERIST
ICS
UW
TEMPERATURE (
°
C)
–5
0
80
OUTPUT SHORT-CIRCUIT CURRENT (mA)
90
100
110
120
–
25
0
25
50
1813/14 G10
75
100
125
V
S
=
±
5V
SOURCE
SINK
SETTLING TIME (ns)
0
–5
OUTPUT STEP (V)
–4
–2
–1
0
5
2
10
20
25
1813/14 G11
–3
3
4
1
5
15
30
35
V
S
=
±
5V
A
V
= –1
R
F
= 500
Ω
C
F
= 3pF
0.1% SETTLING
FREQUENCY (Hz)
10k
100k
0.001
OUTPUT IMPEDANCE (
Ω
)
0.1
100
1M
10M
100M
1813/14 G12
0.01
1
10
A
V
= 100
A
V
= 10
A
V
= 1
T
A
= 25
°
C
V
S
=
±
5V
FREQUENCY (Hz)
10
GAIN (dB)
20
40
60
70
10k
1M
10M
1000M
1813/14 G13
0
100k
100M
50
30
–1
0
0
PHASE (DEG)
20
60
100
120
–2
0
80
40
–4
0
PHASE
GAIN
±
5V
±
5V
±
2.5V
±
2.5V
T
A
= 25
°
C
A
V
= –
1
R
F
= R
G
= 500
Ω
FREQUENCY (Hz)
–7
0
CROSSTALK (dB)
–6
0
–4
0
–3
0
–1
0
0
100k
10M
100M
1813/14 G14
–8
0
1M
1000M
–2
0
–5
0
–9
0
T
A
= 25
°
C
A
V
= 10
V
IN
= 0dBm
R
L
= 100
Ω
TEMPERATURE (
°
C)
–5
0
–2
5
GAIN BANDWIDTH (MHz)
PHASE MARGIN (DEG)
85
115
0
50
75
1813/14 G15
36
40
38
105
95
25
100
125
GBW
V
S
=
±
5V
GBW
V
S
=
±
2.5V
PHASE MARGIN
V
S
=
±
2.5V
PHASE MARGIN
V
S
=
±
5V
R
L
= 500
Ω
Output Short-Circuit Current
vs Temperature
Gain Bandwidth and Phase
Margin vs Temperature
Crosstalk vs Frequency
Gain and Phase vs Frequency
Output Impedance vs Frequency
Settling Time vs Output Step
FREQUENCY (Hz)
1M
–6
VOLTAGE MAGNITUDE (dB)
–4
–2
0
2
10M
100M
500M
1813/14 G16
–8
–1
0
–1
2
–1
4
4
6
T
A
= 25
°
C
A
V
= 1
NO R
L
V
S
=
±
2.5V
V
S
=
±
5V
FREQUENCY (Hz)
1M
2
VOLTAGE MAGNITUDE (dB)
4
6
8
10M
100M
500M
1813/14 G17
0
–2
–4
–6
V
S
=
±
5V
T
A
= 25
°
C
A
V
= 2
R
L
= 100
Ω
V
S
=
±
2.5V
FREQUENCY (Hz)
1
0
VOLTAGE MAGNITUDE (dB)
4
8
10M
100M
200M
1813/14 G18
–4
–8
12
T
A
= 25
°
C
A
V
= –
1
V
S
=
±
5V
R
F
= R
G
= 500
Ω
NO R
L
C
L
= 1000pF
C
L
= 500pF
C
L
= 200pF
C
L
= 100pF
C
L
= 50pF
C
L
= 0
Frequency Response
vs Capacitive Load, A
V
= –
1
Frequency Response
vs Supply Voltage, A
V
= 2
Frequency Response
vs Supply Voltage, A
V
= 1
9
L
T1813/L
T1814
18134fa
TYPICAL PERFOR A CE CHAR
AC
TERIST
ICS
UW
SUPPLY VOLTAGE (
±
V)
0
GAIN BANDWIDTH (MHz)
PHASE MARGIN (DEG)
3
1813/14 G19
70
45
40
35
12
4
110
90
567
T
A
= 25
°
C
GBW
R
L
= 500
Ω
GBW
R
L
= 100
Ω
PHASE MARGIN
R
L
= 100
Ω
PHASE MARGIN
R
L
= 500
Ω
FREQUENCY (Hz)
1k
10k
100k
40
POWER SUPPLY REJECTION RATIO (dB)
60
80
1M
10M
100M
1813/14 G20
20
0
100
–
PSRR
+
PSRR
T
A
= 25
°
C
A
V
= 1
V
S
=
±
5V
FREQUENCY (Hz)
1k
10k
100k
40
COMMON MODE REJECTION RATIO (dB)
60
80
1M
10M
100M
1813/14 G21
20
0
100
T
A
= 25
°
C
V
S
=
±
5V
Gain Bandwidth and Phase
Margin vs Supply Voltage
Power Supply Rejection Ratio
vs Frequency
Common Mode Rejection Ratio
vs Frequency
Slew Rate vs Supply Voltage
Slew Rate vs Supply Voltage
Slew Rate vs Input Level
SUPPLY VOLTAGE (
±
V)
0
0
SLEW RATE (V/
µ
s)
100
300
400
500
1000
700
2
4
5
1813/14 G22
200
800
900
600
1
3
6
7
T
A
=25
°
C
A
V
= –
1
V
IN
= V
S(TOTAL)
/2
R
F
= R
G
= R
L
= 500
Ω
SR
+
SR
–
SUPPLY VOLTAGE (
±
V)
0
200
SLEW RATE (V/
µ
s)
300
450
2
4
5
1813/14 G23
250
400
350
1
3
6
7
T
A
=25
°
C
A
V
= –
1
V
IN
=
±
1V
R
F
= R
G
= R
L
= 500
Ω
SR
–
SR
+
INPUT LEVEL (V
P-P
)
0
200
SLEW RATE (V/
µ
s)
600
1200
2
4
5
1813/14 G24
400
1000
800
1
3
6
78
T
A
=25
°
C
A
V
= –
1
V
S
=
±
5V
R
F
= R
G
= R
L
= 500
Ω
SR
–
SR
+
Slew Rate vs Temperature
Undistorted Output Swing
vs Frequency
Total Harmonic Distortion + Noise
vs Frequency
TEMPERATURE (
°
C)
–5
0
200
SLEW RATE (V/
µ
s)
300
500
600
700
50
1100
1813/14 G25
400
0
125
100
25
–2
5
7
5
800
900
1000
SR
+
V
S
=
±
5V
SR
+
V
S
=
±
2.5V
SR
–
V
S
=
±
2.5V
SR
–
V
S
=
±
5V
FREQUENCY (Hz)
10
100
0.001
0.002
0.005
TOTAL HARMONIC DISTORTION + NOISE (%)
0.01
1k
10k
100k
1813/14 G26
A
V
= –
1
A
V
= 1
T
A
= 25
°
C
V
S
=
±
5V
V
O
= 2V
P-P
R
L
= 500
Ω
FREQUENCY (Hz)
100k
5
OUTPUT VOLTAGE (V
P-P
)
6
7
8
9
1M
10M
100M
1813/14 G27
4
3
1
0
2
A
V
= –
1
A
V
= 1
V
S
=
±
5V
R
L
= 100
Ω
2% MAX DISTORTION
P1-P3
P4-P6
P7-P9
P10-P12
P13-P15
P16-P16
LT1814IGN#TRPBF
Mfr. #:
Buy LT1814IGN#TRPBF
Manufacturer:
Analog Devices Inc.
Description:
High Speed Operational Amplifiers Quad 100MHz 3.6mA OA
Lifecycle:
New from this manufacturer.
Delivery:
DHL
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EMS
Payment:
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