TL061AIN [STMICROELECTRONICS]
LOW POWER J-FET SINGLE OPERATIONAL AMPLIFIER; 低功率J-FET单路运算放大器型号: | TL061AIN |
厂家: | ST |
描述: | LOW POWER J-FET SINGLE OPERATIONAL AMPLIFIER |
文件: | 总9页 (文件大小:107K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
TL061
TL061A - TL061B
LOW POWER J-FET SINGLE OPERATIONAL AMPLIFIER
.
.
VERY LOW POWER CONSUMPTION : 200µA
WIDE COMMON-MODE (UP TO VCC+) AND
DIFFERENTIAL VOLTAGE RANGES
LOW INPUT BIAS AND OFFSET CURRENTS
OUTPUT SHORT-CIRCUIT PROTECTION
HIGH INPUT IMPEDANCE J-FET INPUT
STAGE
INTERNAL FREQUENCY COMPENSATION
LATCH UP FREE OPERATION
HIGH SLEW RATE : 3.5V/µs
.
.
.
.
.
.
N
DIP8
D
SO8
(Plastic Package)
(Plastic Micropackage)
DESCRIPTION
ORDER CODES
The TL061, TL061A and TL061B are high speed
J-FET input single operational amplifier family.
Each of these J-FET input operational amplifiers
incorporateswell matched, high voltage J-FET and
bipolar transistorsin a monolithic integratedcircuit.
The devicesfeature high slew rates, low input bias
and offsetcurrents, andlow offsetvoltagetempera-
ture coefficient.
Package
Part Number
Temperature Range
N
●
●
●
D
●
l
TL061M/AM/BM
TL061I/AI/BI
-55oC, +125oC
-40oC, +105oC
0oC, +70oC
TL061C/AC/BC
Example : TL061IN
l
PIN CONNECTIONS (top view)
1 - Offset Null 1
2 - Inverting input
1
2
3
4
8
7
6
5
3 - Non-inverting input
-
4 - VCC
5 - Offset Null 2
6 - Output
+
7 - VCC
8 - N.C.
October 1997
1/9
TL061 - TL061A - TL061B
SCHEMATIC DIAGRAM
VC C
220 Ω
Inverting
Input
Non-inverting
Input
Output
64Ω
45k Ω
Ω
270
3.2k Ω
4.2k Ω
100 Ω
VCC
Offset Null 1
Offset Null 2
INPUT OFFSET VOLTAGE NULL CIRCUIT
TL061
N1
N2
100k Ω
VCC
MAXIMUM RATINGS
Symbol
Parameter
TL061M,AM,BM
±18
TL061I,AI,BI
±18
TL061C,AC,BC
±18
Unit
V
VCC
Vi
Supply Voltage - (note 1)
Input Voltage - (note 3)
±15
±15
±15
V
Vid
Ptot
Differential Input Voltage - (note 2)
Power Dissipation
±30
±30
±30
V
680
680
680
mW
Output Short-Circuit Duration (Note 4)
Operating Free-Air Temperature Range
Storage Temperature Range
Infinite
Infinite
Infinite
0 to +70
- 65 to + 150
Toper
Tstg
-55 to +125
- 65 to + 150
-40 to +105
- 65 to + 150
oC
oC
Notes :
1. All voltage values, except differential voltage, are with respect to the zero reference level (ground) of the supply voltages where
-
the zero reference level is the midpoint between VCC+ and VCC
.
2. Differential voltages are thenon-inverting input terminal with respect to the inverting input terminal.
3. The magnitude of the input voltage must never exceed the magnitude of the supply voltage or 15 volts, whichever is less.
4. The output may be shorted to ground or to either supply. Temperature and/or supply voltages must be limited to ensure that the
dissipation rating is not exceeded.
2/9
TL061 - TL061A - TL061B
ELECTRICAL CHARACTERISTICS
VCC = ± 15V, Tamb = 25oC (unless otherwise specified)
TL061M
TL061I
TL061C
Unit
Symbol
Parameter
Min. Typ. Max. Min. Typ. Max. Min. Typ. Max.
Vio
Input Offset Voltage (Rs = 50Ω)
Tamb = 25oC
mV
3
6
9
3
6
9
3
15
20
Tmin. ≤ Tamb ≤ Tmax.
DVio
Iio
Temperature Coefficient of Input
µV/oC
Offset Voltage (Rs = 50Ω)
10
5
10
5
10
5
Input Offset Current *
Tamb = 25oC
100
20
100
10
200
5
pA
nA
Tmin. ≤ Tamb ≤ Tmax.
Iib
Input Bias Current *
Tamb = 25oC
30
200
50
30
200
20
30
400
10
pA
nA
T
min. ≤ Tamb ≤ Tmax.
Vicm
Input Common Mode Voltage
Range
±11.5 +15
±11.5 +15
±11 +15
V
-12
-12
-12
VOPP
Output Voltage Swing (RL = 10kΩ)
V
Tamb = 25oC
20
20
27
6
20
20
27
6
20
20
27
6
Tmin. ≤ Tamb ≤ Tmax
.
Avd
Large Signal Voltage Gain
(RL = 10kΩ, Vo = ± 10V)
Tamb = 25oC
V/mV
MHz
4
4
4
4
3
3
Tmin. ≤ Tamb ≤ Tmax
.
GBP
Gain Bandwidth Product
(Tamb = 25oC, RL = 10kΩ
CL = 100pF)
1
1
1
Ri
Input Resistance
1012
1012
1012
Ω
CMR
Common Mode Rejection Ratio
dB
(Rs = 50Ω)
80
80
86
95
80
80
86
95
70
70
76
95
SVR
Icc
Supply Voltage Rejection Ratio
(Rs = 50Ω)
dB
µA
Supply Current
(Tamb = 25oC, no load, no signal)
200 250
7.5
200 250
7.5
200 250
7.5
PD
Total Power Consumption
mW
(Tamb = 25oC, no load, no signal)
6
6
6
*
The input bias currents of a FET-input operational amplifier are normal junction reverse currents, which are temperature sensitive.
Pulse techniques must be used that will maintain the junction temperature as close to the ambient temperature as possible.
ELECTRICAL CHARACTERISTICS (continued)
VCC = ± 15V, Tamb = 25oC
TL061C,I,M
Typ.
Symbol
Parameter
Unit
Min.
Max.
SR
tr
Slew Rate (Vi = 10V, RL = 10kΩ, CL = 100pF, AV = 1)
Rise Time (Vi = 20mV, RL = 10kΩ, CL = 100pF, AV = 1)
1.5
3.5
V/µs
µs
0.2
KOV
Overshoot Factor (Vi = 20mV, RL = 10kΩ, CL = 100pF, AV = 1)
%
(see figure 1)
10
42
en
Equivalent Input Noise Voltage
(Rs = 100Ω, f = 1KHz)
nV
√Hz
3/9
TL061 - TL061A - TL061B
ELECTRICAL CHARACTERISTICS (continued)
VCC = ± 15V, Tamb = 25oC (unless otherwise specified)
TL061AC,AI,AM
TL061BC,BI,BM
Symbol
Parameter
Unit
Min. Typ. Max. Min. Typ. Max.
Vio
Input Offset Voltage (Rs = 50Ω)
Tamb = 25oC
mV
3
6
7.5
2
3
5
Tmin. ≤ Tamb ≤ Tmax.
DVio
Iio
Temperature Coefficient of Input Offset Voltage
µV/oC
(Rs = 50Ω)
10
5
10
5
Input Offset Current *
Tamb = 25oC
100
3
100
3
pA
nA
Tmin. ≤ Tamb ≤ Tmax.
Iib
Input Bias Current *
Tamb = 25oC
30
200
7
30
200
7
pA
nA
Tmin. ≤ Tamb ≤ Tmax.
Vicm
Input Common Mode Voltage Range
±11.5 +15
±11.5 +15
V
-12
-12
VOPP
Output Voltage Swing (RL = 10kΩ)
V
Tamb = 25oC
20
20
27
6
20
20
27
6
Tmin. ≤ Tamb ≤ Tmax
.
Avd
Large Signal Voltage Gain (RL = 10kΩ, Vo = ± 10V)
V/mV
MHz
Tamb = 25oC
4
4
4
4
Tmin. ≤ Tamb ≤ Tmax.
GBP
Gain Bandwidth Product
(Tamb = 25oC, RL = 10kΩ, CL = 100pF)
1
1
Ri
Input Resistance
1012
1012
Ω
CMR
Common Mode Rejection Ratio
dB
(Rs = 50Ω, Tamb = 25oC)
80
80
86
95
80
80
86
95
SVR
Icc
Supply Voltage Rejection Ratio
dB
µA
(Rs = 50Ω, Tamb = 25oC)
Supply Current, no Load
(Tamb = 25oC, no load, no signal)
200 250
200 250
PD
Total Power Consumption
mW
(Tamb = 25oC, no load, no signal)
6
7.5
6
7.5
SR
tr
Slew Rate (Vi = 10V, RL = 10kΩ, CL = 100pF, AV = 1)
Rise Time (Vi = 20mV, RL = 10kΩ, CL = 100pF, AV = 1)
1.5
3.5
0.2
1.5
3.5
0.2
V/µs
µs
KOV
Overshoot Factor (Vi = 20mV, RL = 10kΩ, CL = 100pF,
AV = 1) - (see figure 1)
%
10
10
en
Equivalent Input Noise Voltage
(Rs = 100Ω, f = 1KHz)
nV
√Hz
42
42
* The input bias currents of a FET-input operational amplifier are normal junction reverse currents, which are temperature sensitive.
Pulse techniques must be used that will maintain the junction temperature as close to the ambient temperature as possible.
4/9
TL061 - TL061A - TL061B
MAXIMUM PEAK-TO-PEAK OUTPUT
VOLTAGE VERSUS SUPPLY VOLTAGE
MAXIMUM PEAK-TO-PEAK OUTPUT
VOLTAGE VERSUS FREE AIR TEMP.
30
3 0
2 5
2 0
1 5
= 10 kΩ
amb= +25°C
R
L
25
T
See figure 2
20
15
10
5
1 0
5
VC C
=
1 5 V
R
L
= 10k Ω
See Figure 2
0
0
2
4
6
8
10
12 14
16
-7 5 -5 0 - 25
0
2 5
5 0
7 5
-50 125
FREE AIR TEMPERATURE (°C)
SUPPLYVOLTAGE (V)
MAXIMUM PEAK-TO-PEAK OUTPUT
VOLTAGE VERSUS LOAD RESISTANCE
MAXIMUM PEAK-TO-PEAK OUTPUT
VOLTAGE VERSUS FREQUENCY
30
30
= 10k Ω
R
TaLmb
= +25°C
See Figure2
25
20
25
20
=
VCC
15V
=
=
=
VC C
VCC
VCC
12V
5V
15
10
15
10
15V
=
V C C
Tamb = +25°C
5
2V
5
0
See Figure 2
0
100 200
400
700 1k
4k
7k 10k
2k
10K
100K
1M
10M
1k
LOAD RESISTANCE (k
)
FREQUENCY (Hz)
Ω
LARGE SIGNAL DIFFERENTIAL VOLTAGE
AMPLIFICATION AND PHASE SHIFT VERSUS
FREQUENCY
DIFFERENTIAL VOLTAGE AMPLIFICATION
VERSUS FREE AIR TEMPERATURE
6
10
7
10
VCC
=
5V to 15V
5
= 2kΩ
RL
10
T
amb
= +25°C
4
0
10
DIFFERENTIAL
VOLTAGE
AMPLIFICATION
(left scale)
4
2
3
2
1
45
90
10
10
PHASE SHIFT
(right scale)
V
R
=
15V
CC
L
135
10
= 10kΩ
1
180
100k
10M
10 100
1k
10k
1M
1
-25
0
25
50
75
100
125
-75
-50
FREE AIR TEMPERATURE (°C)
FREQUENCY (Hz)
5/9
TL061 - TL061A - TL061B
SUPPLY CURRENT PER AMPLIFIER VERSUS
SUPPLY VOLTAGE
SUPPLY CURRENT PER AMPLIFIER VERSUS
FREE AIR TEMPERATURE
250
200
250
200
150
150
100
100
Tamb = +25°C
No signal
No load
VCC
No signal
Noload
= 15V
50
0
50
0
-75 -50
FREE AIR TEMPERATURE (°C)
0
2
125
50 75 100
-25
4
10 12 14 16
0
25
6
8
SUPPLY VOLTAGE ( V)
TOTAL POWER DISSIPATED VERSUS
FREE AIR TEMPERATURE
COMMON MODE REJECTION RATIO
VERSUS FREE AIR TEMPERATURE
30
87
VC C
15V
=
25
20
86
85
No signal
No load
15
10
84
83
VC C
1 5V
=
5
0
82
R L = 10kΩ
81
-75 -50
-25
0
25
50
75 100 125
-75 -50
-25
0
25
50
75 100 125
FREE AIR TEMPERATURE (°C)
FREE AIR TEMPERATURE (°C)
NORMALIZED UNITY GAIN BANDWIDTH
SLEW RATE, AND PHASE SHIFT VERSUS
TEMPERATURE
INPUT BIAS CURRENT VERSUS FREE AIR
TEMPERATURE
100
1.3
1.03
15V
VCC
=
PHASE SHIFT
(right scale)
UNITY-GAIN-BANDWIDTH
(left scale)
1.2
1.1
1.02
1.01
10
1
SLEW RATE
(left scale)
1
1
0.9
0.99
VCC
15V
Ω
=
0.1
RL
= 10k
0.8
0.98
f = B forphase shift
1
0.7
0.97
-75 -50 -25
0
25 50
75 100 125
0.01
-50 -25
0
25
50
75
100 125
FREE AIR TEMPERATURE(°C)
FREE AIR TEMPERATURE (°C)
6/9
TL061 - TL061A - TL061B
VOLTAGE FOLLOWER LARGE SIGNAL
PULSE RESPONSE
OUTPUT VOLTAGE VERSUS
ELAPSED TIME
6
28
24
20
16
12
INPUT
4
OVERSHOOT
90%
2
0
OUTPUT
V
RL
C
= 15V
CC= 10k
8
Ω
V CC
R L
= 15V
-2
4
0
L = 100pF
= 10k
Ω
10%
Tamb = +25°C
Tamb
= +25°C
-4
-6
t
r
-4
0.6
TIME ( µs)
1
0
0.2
0.4
0.8
12
14
0
2
4
6
8
10
TIME (µs)
EQUIVALENT INPUT NOISE VOLTAGE
VERSUS FREQUENCY
100
90
=
15V
VC C
80
70
60
R S = 100Ω
Ta m b
= +25°C
50
40
30
20
10
0
40
100
400 1k
4k 10k
40k 100k
10
FREQUENCY (Hz)
PARAMETER MEASUREMENT INFORMATION
Figure 1 : Voltage follower
Figure 2 : Gain-of-10 inverting amplifier
10k Ω
1k Ω
-
-
eI
-
e
o
TL061
e
o
TL061
CL= 100pF
R = 10k
Ω
L
eI
R
CL= 100pF
L
7/9
TL061 - TL061A - TL061B
PACKAGE MECHANICAL DATA
8 PINS - PLASTIC DIP
Millimeters
Inches
Typ.
Dimensions
Min.
Typ.
Max.
Min.
Max.
A
a1
B
3.32
0.131
0.51
1.15
0.020
0.045
0.014
0.008
1.65
0.55
0.065
0.022
0.012
0.430
0.384
b
0.356
0.204
b1
D
E
0.304
10.92
9.75
7.95
0.313
e
2.54
7.62
7.62
0.100
0.300
0.300
e3
e4
F
6.6
0260
0.200
0.150
0.060
i
5.08
3.81
1.52
L
3.18
0.125
Z
8/9
TL061 - TL061A - TL061B
PACKAGE MECHANICAL DATA
8 PINS - PLASTIC MICROPACKAGE (SO)
Millimeters
Dimensions
Inches
Min.
Typ.
Max.
1.75
0.25
1.65
0.85
0.48
0.25
0.5
Min.
Typ.
Max.
0.069
0.010
0.065
0.033
0.019
0.010
0.020
A
a1
a2
a3
b
0.1
0.004
0.65
0.35
0.19
0.25
0.026
0.014
0.007
0.010
b1
C
c1
D
45o (typ.)
4.8
5.8
5.0
6.2
0.189
0.228
0.197
0.244
E
e
1.27
3.81
0.050
0.150
e3
F
3.8
0.4
4.0
1.27
0.6
0.150
0.016
0.157
0.050
0.024
L
M
S
8o (max.)
Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsibility
for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result
from its use. No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics.
Specification mentioned in this publication are subject to change without notice. This publication supersedes and replaces all
information previously supplied. SGS-THOMSON Microelectronics products are not authorized for use as critical components in life
support devices or systems without express written approval of SGS-THOMSON Microelectronics.
1997 SGS-THOMSON Microelectronics – Printed in Italy – AllRights Reserved
SGS-THOMSON Microelectronics GROUP OF COMPANIES
Australia - Brazil - Canada - China - France - Germany - Hong Kong - Italy - Japan - Korea - Malaysia - Malta - Morocco
The Netherlands - Singapore - Spain - Sweden - Switzerland - Taiwan - Thailand - United Kingdom - U.S.A.
9/9
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