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LT1354IS8#PBF

P1-P3P4-P6P7-P9P10-P12
4
LT1354
V
OUT
Output Swing R
L
= 1k, V
IN
= ±40mV ±15V
13.2 ±V
R
L
= 500, V
IN
= ±40mV ±15V
11.5 ±V
R
L
= 500, V
IN
= ±40mV ±5V
3.4 ±V
R
L
= 150, V
IN
= ±40mV ±5V
2.3 ±V
R
L
= 500, V
IN
= ±40mV ±2.5V
1.2 ±V
I
OUT
Output Current V
OUT
= ±11.5V ±15V
23.0 mA
V
OUT
= ±2.3V ±5V
15.3 mA
I
SC
Short-Circuit Current V
OUT
= 0V, V
IN
= ±3V ±15V
24 mA
SR Slew Rate A
V
= –2, (Note 3) ±15V
150 V/µs
±5V
60 V/µs
GBW Gain-Bandwidth f = 200kHz, R
L
= 2k ±15V
7.5 MHz
±5V
6.0 MHz
I
S
Supply Current ±15V
1.45 mA
±5V
1.40 mA
SYMBOL PARAMETER CONDITIONS V
SUPPLY
MIN TYP MAX UNITS
ELECTRICAL CHARACTERISTICS
0°C T
A
70°C, V
CM
= 0V unless otherwise noted.
V
OS
Input Offset Voltage ±15V
1.5 mV
±5V
1.5 mV
±2.5V
1.7 mV
Input V
OS
Drift (Note 5) ±2.5V to ±15V
58 µV/°C
I
OS
Input Offset Current ±2.5V to ±15V
200 nA
I
B
Input Bias Current ±2.5V to ±15V
550 nA
CMRR Common Mode Rejection Ratio V
CM
= ±12V ±15V
78 dB
V
CM
= ±2.5V ±5V
76 dB
V
CM
= ±0.5V ±2.5V
66 dB
PSRR Power Supply Rejection Ratio V
S
= ±2.5V to ±15V
90 dB
A
VOL
Large-Signal Voltage Gain V
OUT
= ±12V, R
L
= 1k ±15V
7.0 V/mV
V
OUT
= ±10V, R
L
= 500Ω±15V
1.7 V/mV
V
OUT
= ±2.5V, R
L
= 1k ±5V
7.0 V/mV
V
OUT
= ±2.5V, R
L
= 500Ω±5V
1.7 V/mV
V
OUT
= ±2.5V, R
L
= 150Ω±5V
0.4 V/mV
V
OUT
= ±1V, R
L
= 500Ω±2.5V
1.7 V/mV
V
OUT
Output Swing R
L
= 1k, V
IN
= ±40mV ±15V
13.0 ±V
R
L
= 500, V
IN
= ±40mV ±15V
11.0 ±V
R
L
= 500, V
IN
= ±40mV ±5V
3.4 ±V
R
L
= 150, V
IN
= ±40mV ±5V
2.1 ±V
R
L
= 500, V
IN
= ±40mV ±2.5V
1.2 ±V
I
OUT
Output Current V
OUT
= ±11V ±15V
22 mA
V
OUT
= ±2.1V ±5V
14 mA
I
SC
Short-Circuit Current V
OUT
= 0V, V
IN
= ±3V ±15V
23 mA
SR Slew Rate A
V
= –2, (Note 3) ±15V
120 V/µs
±5V
50 V/µs
GBW Gain Bandwith f = 200kHz, R
L
= 2k ±15V
7.0 MHz
±5V
5.5 MHz
I
S
Supply Current ±15V
1.50 mA
±5V
1.45 mA
SYMBOL PARAMETER CONDITIONS V
SUPPLY
MIN TYP MAX UNITS
–40°C T
A
85°C, V
CM
= 0V unless otherwise noted. (Note 6)
5
LT1354
ELECTRICAL CHARACTERISTICS
The
denotes specifications that apply over the full specified temperature
range.
Note 1: Differential inputs of ±10V are appropriate for transient operation
only, such as during slewing. Large, sustained differential inputs will
cause excessive power dissipation and may damage the part. See Input
Considerations in the Applications Information section of this data sheet
for more dutails.
Note 2: A heat sink may be required to keep the junction temperature
below absolute maximum when the output is shorted indefinitely.
Note 3: Slew rate is measured between ±10V on the output with ±6V input
for ±15V supplies and ±1V on the output with ±1.75V input for ±5V supplies.
Note 4: Full power bandwidth is calculated from the slew rate
measurement: FPBW = SR/2πV
P
.
Note 5: This parameter is not 100% tested.
Note 6: The LT1354 is designed, characterized and expected to meet these
extended temperature limits, but is not tested at –40°C and at 85°C.
Guaranteed I grade parts are available; consult factory.
TYPICAL PERFORMANCE CHARACTERISTICS
UW
Input Common-Mode Range vs
Supply Voltage
Input Bias Current vs
Input Common-Mode Voltage
Supply Current vs Supply Voltage
and Temperature
SUPPLY VOLTAGE (±V)
0.4
SUPPLY CURRENT (mA)
0.8
0.6
1.4
1.2
1.0
10501520
1354 G01
–55°C
25°C
125°C
SUPPLY VOLTAGE (±V)
V
COMMON-MODE RANGE (V)
2.0
0.5
1.0
1.5
V
+
1.0
0.5
2.0
1.5
10501520
1354 G02
T
A
= 25°C
V
OS
< 1mV
INPUT COMMON-MODE VOLTAGE (V)
–50
INPUT BIAS CURRENT (nA)
0
200
150
100
50
–15 –10 0 10 155–5
1354 G03
V
S
= ±15V
T
A
= 25°C
I
B
=
I
B
+
+ I
B
————
2
Open-Loop Gain vs
Resistive Load
Input Noise Spectral Density
Input Bias Current vs
Temperature
TEMPERATURE (°C)
0
INPUT BIAS CURRENT (nA)
50
25
200
175
150
75
125
100
50 –25 25 100 12550 750
1354 G04
V
S
= ±15V
I
B
=
I
B
+
+ I
B
————
2
FREQUENCY (Hz)
10
1
INPUT VOLTAGE NOISE (nV/Hz)
10
i
n
100
0.1
INPUT CURRENT NOISE (pA/Hz)
1
10
e
n
1k100 100k10k
1354 G05
V
S
= ±15V
T
A
= 25°C
A
V
= 101
R
S
= 100k
LOAD RESISTANCE ()
10
50
OPEN-LOOP GAIN (dB)
60
100
100 10k
1354 G06
80
70
1k
90
V
S
= ±5V
V
S
= ±15V
T
A
= 25°C
6
LT1354
TYPICAL PERFORMANCE CHARACTERISTICS
UW
Settling Time vs Output Step
(Noninverting)
Open-Loop Gain vs Temperature
Output Voltage Swing vs
Load Current
Output Voltage Swing vs
Supply Voltage
Output Short-Circuit Current vs
Temperature
Output Impedance vs Frequency
Gain-Bandwidth and Phase
Margin vs Supply Voltage
FREQUENCY (Hz)
10k
–10
GAIN (dB)
0
70
100k 100M
1354 G14
1M
30
40
10
20
10M
50
60
PHASE (DEG)
120
40
60
0
20
80
100
V
S
= ±15V
V
S
= ±5V
V
S
= ±5V
GAIN
V
S
= ±15V
PHASE
T
A
= 25°C
A
V
= –1
R
F
= R
G
= 2k
Gain and Phase vs Frequency
SUPPLY VOLTAGE (±V)
8
GAIN-BANDWIDTH (MHz)
12
10
18
16
14
11
9
17
15
13
30
PHASE MARGIN (DEG)
38
34
50
48
44
40
36
32
46
42
10501520
1354 G15
T
A
= 25°C
PHASE MARGIN
GAIN-BANDWIDTH
TEMPERATURE (°C)
88
OPEN-LOOP GAIN (dB)
90
89
97
96
95
94
92
91
93
50 –25 25 100 12550 750
1354 G07
R
L
= 1k
V
O
= ±12V
V
S
= ±15V
SUPPLY VOLTAGE (±V)
V
OUTPUT VOLTAGE SWING (V)
1
2
3
V
+
–1
–3
–2
10501520
1354 G08
R
L
= 1k
T
A
= 25°C
R
L
= 500
R
L
= 500
R
L
= 1k
OUTPUT CURRENT (mA)
+0.5
OUTPUT VOLTAGE SWING (V)
1.5
2.0
1.0
0.5
V
V
+
1.0
1.5
2.0
2.5
2.5
50 40 –10 30 40 5001020–20–30
1354 G09
V
S
= ±5V
V
IN
= 100mV
85°C
85°C
25°C
25°C
–40°C
–40°C
TEMPERATURE (°C)
20
OUTPUT SHORT-CIRCUIT CURRENT (mA)
25
65
60
55
40
35
30
45
50
50 –25 25 100 12550 750
1354 G10
V
S
= ±5V
SINK
SOURCE
SETTLING TIME (ns)
–10
OUTPUT SWING (V)
–6
–4
–8
10
8
6
4
–2
2
0
50 200 300 350250100 150
1354 G11
V
S
= ±15V
A
V
= 1
10mV
10mV
1mV
1mV
SETTLING TIME (ns)
–10
OUTPUT SWING (V)
–6
–4
–8
10
8
6
4
–2
2
0
50 200 300 350250100 150
1355/1356 G12
V
S
= ±15V
A
V
= –1
10mV
10mV
1mV
1mV
Settling Time vs Output Step
(Inverting)
FREQUENCY (Hz)
10k
0.01
OUTPUT IMPEDANCE ()
1k
100k 100M
1354 G13
1M
10
0.1
1
10M
100
A
V
= 1
A
V
= 100
A
V
= 10
V
S
= ±15V
T
A
= 25°C
P1-P3P4-P6P7-P9P10-P12

LT1354IS8#PBF

Mfr. #:
Buy LT1354IS8#PBF
Manufacturer:
Analog Devices Inc.
Description:
High Speed Operational Amplifiers 1mA,12MHz 400V/uSec Op Amp
Lifecycle:
New from this manufacturer.
Delivery:
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