Datasheet TL084CN, TL082CDR2, TL082CD, TL082ACP, TL081CDR2 Datasheet (MOTOROLA)

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SEMICONDUCTOR

TECHNICAL DATA

JFET INPUT

OPERATIONAL AMPLIFIERS

Order this document by TL081C/D

TL081 (Top View)

TL082 (Top View)

TL084 (Top View)

D SUFFIX

PLASTIC PACKAGE

CASE 751

(SO–8)

P SUFFIX

PLASTIC PACKAGE

CASE 626

N SUFFIX

PLASTIC PACKAGE

CASE 646

1

1

8

8

PIN CONNECTIONS

PIN CONNECTIONS

4

23

1

+

14

1

Offset Null

Noninvt Input

V

EE

Inv + Input

V

EE

Inputs A

Output A

Inputs 1

Output 1

V

CC

Inputs 2

Output 2

NC
V

CC

Output
Offset Null

Inputs B

Output B

V

CC

Output 4

Inputs 4

V

EE

Inputs 3

Output 3

–

–

+

+

–

–

––

+

+

++

18

7
6
5

2
3
4

18

7
6
5

2
3
4

114

13
12
11
10

9
8

2
3
4
5
6
7

1

MOTOROLA ANALOG IC DEVICE DATA

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

These low–cost JFET input operational amplifiers combine two state–of–
the–art linear technologies on a single monolithic integrated circuit. Each
internally compensated operational amplifier has well matched high voltage
JFET input devices for low input offset voltage. The BIFET technology
provides wide bandwidths and fast slew rates with low input bias currents,
input offset currents, and supply currents.

These devices are available in single, dual and quad operational
amplifiers which are pin–compatible with the industry standard MC1741,
MC1458, and the MC3403/LM324 bipolar products.

• Input Offset Voltage Options of 6.0 mV and 15 mV Max

• Low Input Bias Current: 30 pA

• Low Input Offset Current: 5.0 pA

• Wide Gain Bandwidth: 4.0 MHz

• High Slew Rate: 13 V/µs

• Low Supply Current: 1.4 mA per Amplifier

• High Input Impedance: 10

12

Ω

ORDERING INFORMATION

Op Amp

Function

Device

Operating

Temperature Range

Package

TL081CD

°

°

SO–8

Singl

e

TL081ACP

T

A

=

0° t

o +

70°C

Plastic DIP

TL082CD

°

°

SO–8

Dual

TL082ACP

T

A

=

0° t

o +

70°C

Plastic DIP

Quad TL084CN, ACN

TA = 0° to +70°C

Plastic DIP

Representative Circuit Schematic (Each Amplifier)

–
+

Inputs

Q3

Q4 Q5

Q2

Q1

V

CC

Q6

J1 J2

Q17

Q20

Q23

24

J3

2.0 k

Q14

Q15

10 pF

Q19

Q21

Q22

Q24

Q9

Q8

Q7

Q25

Q12

Q10

Q13

Q11

Q16

Q18

1.5 k

V

EE

Bias Circuitry

Common to All

Amplifiers

Offset

Null

(TL081

only)

Output

1.5 k

 Motorola, Inc. 1997 Rev 1

TL081C,AC TL082C,AC TL084C,AC

2

MOTOROLA ANALOG IC DEVICE DATA

MAXIMUM RATINGS

Rating Symbol Value Unit

Supply Voltage V

CC

18 V

V

EE

–18

Differential Input Voltage V

ID

±30 V

Input Voltage Range (Note 1) V

IDR

±15 V

Output Short Circuit Duration (Note 2) t

SC

Continuous

Power Dissipation

Plastic Package (N, P) P

D

680 mW

Derate above TA = +47°C 1/θ

JA

10 mW/°C

Operating Ambient Temperature Range T

A

0 to +70 °C

Storage Temperature Range T

stg

–65 to +150 °C

NOTES: 1. The magnitude of the input voltage must not exceed the magnitude of the supply voltage or

15 V, whichever is less.

2.The output may be shorted to ground or either supply. Temperature and/or supply voltages
must be limited to ensure that power dissipation ratings are not exceeded.

3.ESD data available upon request.

ELECTRICAL CHARACTERISTICS (V

CC

= 15 V, VEE = –15 V , TA = T

low

to T

high

[Note 1].)

Characteristics Symbol Min Typ Max Unit

Input Offset Voltage (RS ≤ 10 k, VCM = 0) V

IO

mV
TL081C, TL082C – – 20
TL084C – – 20
TL08_AC – – 7.5

Input Offset Current (VCM = 0) (Note 2) I

IO

nA
TL08_C – – 5.0
TL08_AC – – 3.0

Input Bias Current (VCM = 0) (Note 2) I

IB

nA
TL08_C – – 10
TL08_AC – – 7.0

Large–Signal Voltage Gain (VO= ±10 V ,RL ≥ 2.0 k) A

VOL

V/mV
TL08_C 15 – –
TL08_AC 25 – –

Output Voltage Swing (Peak–to–Peak) V

O

V
(RL ≥ 10 k) 24 – –
(RL ≥ 2.0 k) 20 – –

NOTES: 1. T

low

=0°C for TL081AC,C T

high

=70°C for TL081AC

0°C for TL082AC,C +70°C for TL082AC,C
0°C for TL084AC,C +70°C for TL084AC,C

2.Input Bias currents of JFET input op amps approximately double for every 10°C rise in Junction Temperature as shown in Figure 3. To maintain
junction temperature as close to ambient temperature as possible, pulse techniques must be used during testing.

Figure 1. Unity Gain Voltage Follower Figure 2. Inverting Gain of 10 Amplifier

–
+

V

in

RL = 2.0 k

V

O

CL = 100 pF

–
+

V

in

R

L

V

O

CL = 100 pF

10 k

1.0 k

TL081C,AC TL082C,AC TL084C,AC

3

MOTOROLA ANALOG IC DEVICE DATA

ELECTRICAL CHARACTERISTICS (V

CC

= 15 V, VEE = –15 V , TA = 25°C, unless otherwise noted.)

Characteristics Symbol Min Typ Max Unit

Input Offset Voltage (RS ≤ 10 k, VCM = 0) V

IO

mV
TL081C, TL082C – 5.0 15
TL084C – 5.0 15
TL08_AC – 3.0 6.0

Average Temperature Coefficient of Input Offset V oltage ∆VIO/∆T – 10 – µV/°C

RS = 50 Ω, TA = T

low

to T

high

(Note 1)

Input Offset Current (VCM = 0) (Note 2) I

IO

pA
TL08_C – 5.0 200
TL08_AC – 5.0 100

Input Bias Current (VCM = 0) (Note 2) I

IB

pA
TL08_C – 30 400
TL08_AC – 30 200

Input Resistance r

i

– 10

12

– Ω

Common Mode Input Voltage Range V

ICR

V
TL08_C ±10 15, –12 –
TL08_AC ±11 15, –12 –

Large Signal Voltage Gain (VO = ±10 V, RL ≥ 2.0 k) A

VOL

V/mV
TL08_C 25 150 –
TL08_AC 50 150 –

Output Voltage Swing (Peak–to–Peak) V

O

24 28 – V

(RL = 10 k)

Common Mode Rejection Ratio (RS ≤ 10 k) CMRR dB

TL08_C 70 100 –
TL08_AC 80 100 –

Supply Voltage Rejection Ratio (RS ≤ 10 k) PSRR dB

TL08_C 70 100 –
TL08_AC 80 100 –

Supply Current (Each Amplifier) I

D

– 1.4 2.8 mA
Unity Gain Bandwidth BW – 4.0 – MHz
Slew Rate (See Figure 1) SR – 13 – V/µs

Vin = 10 V, RL = 2.0 k, CL = 100 pF

Rise Time (See Figure 1) t

r

– 0.1 – µs
Overshoot (Vin = 20 mV, RL = 2.0 k, CL = 100 pF) OS – 10 – %
Equivalent Input Noise Voltage e

n

– 25 –

nV/ Hz√

RS = 100 Ω, f = 1000 Hz

Channel Separation CS – 120 – dB

AV = 100

NOTES: 1. T

low

=0°C for TL081AC,C T

high

=70°C for TL081AC

0°C for TL082AC,C +70°C for TL082AC,C
0°C for TL084AC,C +70°C for TL084AC,C

2.Input Bias currents of JFET input op amps approximately double for every 10°C rise in Junction Temperature as shown in Figure 3. To maintain
junction temperature as close to ambient temperature as possible, pulse techniques must be used during testing.

TL081C,AC TL082C,AC TL084C,AC

4

MOTOROLA ANALOG IC DEVICE DATA

V

O

, OUTPUT VOL TAGE SWING (V

pp

)

V

O

, OUTPUT VOL TAGE SWING (V

pp

)

V

O

, OUTPUT VOL TAGE SWING (V

pp

)

V

O

, OUTPUT VOL TAGE SWING (V

pp

)

VCC/VEE = ±15 V
(See Figure 2)

RL = 10 k

RL = 2.0 k

Figure 3. Input Bias Current

versus Temperature

Figure 4. Output Voltage Swing

versus Frequency

Figure 5. Output Voltage Swing

versus Load Resistance

Figure 6. Output Voltage Swing

versus Supply Voltage

Figure 7. Output Voltage Swing

versus Temperature

Figure 8. Supply Current per Amplifier

versus Temperature

TA, AMBIENT TEMPERATURE (°C)

IB

–75 –50 –25 0 25 50 75 100 125

VCC/VEE = ±15 V

100 1.0 k 10 k 100 k 1.0 M 10 M

f, FREQUENCY (Hz)

RL, LOAD RESISTANCE (kΩ)

0.1 0.2 0.4 0.7 1.0 2.0 104.0 7.0
VCC, |VEE| , SUPPLY VOLTAGE (±V)

0 5.0 10 15 20

RL = 2.0 k
TA = 25

°

C

TA, AMBIENT TEMPERATURE (

°

C)

–50 –25 0 25 50 75 100 125

TA, AMBIENT TEMPERATURE (°C)

–50 –25 0 25 50 75 100 125

I

D

VCC/VEE = ±15 V
TA = 25

°

C

(See Figure 2)

0.6

100

10

1.0

0.1

0.01

30
25
20
15
10

5.0
0

30

20

10

5.0

0

40

30

20

10

0

35
30

25
20
15
10

5.0
0

2.0

1.8

1.6

1.4

1.2

1.0

0.8

0.4

0.2
0

VCC/VEE = ±15 V

±

10 V

±

5.0 V

RL = 2.0 k
TA = 25

°

C

(See Figure 2)

VCC/VEE = ±15 V

I , INPUT BIAS CURRENT (nA)

, SUPPLY DRAIN CURRENT (mA)

–100 150

35

40

40

–75 –75

TL081C,AC TL082C,AC TL084C,AC

5

MOTOROLA ANALOG IC DEVICE DATA

, OPEN–LOOP GAIN (V/m/v)

VOL

A

, EQUIVALENT INPUT NOISE VOLTAGE (

Figure 9. Large Signal Voltage Gain and

Phase Shift versus Frequency

Figure 10. Large Signal Voltage Gain

versus Temperature

Figure 11. Normalized Slew Rate

versus Temperature

Figure 12. Equivalent Input Noise Voltage

versus Frequency

Figure 13. Total Harmonic Distortion

versus Frequency

f, FREQUENCY (Hz)

PHASE SHIFT (DEGREES)

10

6

10

5

10

4

10

3

10

1

10

2

1.0

1.0 10 100 1.0 k 10 k 100 k 1.0 M 10 M

, OPEN–LOOP GAIN (V/m/v)

VOL

Gain

Phase Shift

VCC/VEE = ±15 V
RL = 2.0 k
TA = 25

°

C

VCC/VEE = ±15 V
VO =

±

10 V

RL = 2.0 k

TA, AMBIENT TEMPERATURE (

°

C)

1000

100

10

1.0
–50 –25 0 25 50 75 100 125

TA, AMBIENT TEMPERATURE (

°

C)

NORMALIZED SLEW RATE

1.15

1.10

1.05

1.0

0.95

0.90

0.85

–50 –25 0 25 50 75 100 125

f, FREQUENCY (Hz)

60
50
40
30
20
10

0

0.01 0.05 0.1 0.5 1.0 5.0 10 50 100

VCC/VEE = ±15 V
AV = 10
RS = 100

Ω

TA = 25°C

VCC/VEE = ±15 V
AV = 1.0
VO = 6.0 V (RMS)
TA = 25

°

C

f, FREQUENCY (Hz)

THD, TOT AL HARMONIC DISTORTION (%)

1.0

0.5

0.1

0.05

0.01

0.005

0.001

0.1 0.5 1.0 5.0 10 50 100

0

°

45

°

90

°

135

°

180

°

A

e

nV/ Hz√

n

)

10

7

10

8

100 M –75–100 150

1.20

0.80
–75

70

TL081C,AC TL082C,AC TL084C,AC

6

MOTOROLA ANALOG IC DEVICE DATA

–

+

–

+

Reset

V

in

1/2

TL082

1N914

1.0

µ

F

*

*Polycarbonate or
Polystyrene Capacitor

V

O

Figure 14. Positive Peak Detector

V

R

Run

R4

R1 V1 R3

TL081

6

R6

Clear

C*

R5

–
+

*Polycarbonate or

Polystyrene Capacitor

Time (t) = R4 C

ȏ

n (VR/VR–VI), R3 = R4, R5 = 0.1 R

6

If R1 = R2: t = 0.693 R4C

Design Example: 100 Second Timer
VR = 10 V C = l.0 mF R3 = R4 = 144 M
R6 = 20 k R5 = 2.0 k R1 = R2 = 1.0 k

R2

Figure 15. Voltage Controlled Current Source

Figure 16. Long Interval RC Timer

R2 5.1 k

V

O

R1 5.1 k

TL081

RL 5.1 k

CL 0.5

µ

F

CC 20 pF

R3 10

2.0 V
0

V/

µ

s = 0.04 V/µs (with CL shown)

•

Overshoot t 10%

•

ts = 10 µs

•

When driving large CL, the VO slew rate is determined by CL

•

and I

O(max)

:

–2.0 V

I

O

Figure 17. Isolating Large Capacitive Loads

If R1 through R4 > > R5 then I

out

=

+

V

in

R1

R5

R2

TL081

R4

I

O

–

1/2

TL082

–

+

V

in

R5

D

V

O

D

t

+

I

O

C

L

^

0.02

0.5

R3

TL081C,AC TL082C,AC TL084C,AC

7

MOTOROLA ANALOG IC DEVICE DATA

OUTLINE DIMENSIONS

P SUFFIX

PLASTIC PACKAGE

CASE 626–05

ISSUE K

14

58

F

NOTE 2

–A–

–B–

–T–

SEATING
PLANE

H

J

G

D

K

N

C

L

M

M

A

M

0.13 (0.005) B

M

T

NOTES:

1. DIMENSION L TO CENTER OF LEAD WHEN
FORMED PARALLEL.

2. PACKAGE CONTOUR OPTIONAL (ROUND OR
SQUARE CORNERS).

3. DIMENSIONING AND TOLERANCING PER ANSI
Y14.5M, 1982.

DIM MIN MAX MIN MAX

INCHESMILLIMETERS

A 9.40 10.16 0.370 0.400
B 6.10 6.60 0.240 0.260
C 3.94 4.45 0.155 0.175
D 0.38 0.51 0.015 0.020
F 1.02 1.78 0.040 0.070
G 2.54 BSC 0.100 BSC
H 0.76 1.27 0.030 0.050
J 0.20 0.30 0.008 0.012
K 2.92 3.43 0.115 0.135
L 7.62 BSC 0.300 BSC
M ––– 10 ––– 10
N 0.76 1.01 0.030 0.040

__

D SUFFIX

PLASTIC PACKAGE

CASE 751–05

(SO–8)

ISSUE S

SEATING
PLANE

1

4

58

A0.25MCB

SS

0.25MB

M

h

q

C

X 45

_

L

DIM MIN MAX

MILLIMETERS

A 1.35 1.75

A1 0.10 0.25

B 0.35 0.49
C 0.18 0.25
D 4.80 5.00
E

1.27 BSCe

3.80 4.00

H 5.80 6.20

h

0 7

L 0.40 1.25

q

0.25 0.50

__

NOTES:

1. DIMENSIONING AND TOLERANCING PER ASME
Y14.5M, 1994.

2. DIMENSIONS ARE IN MILLIMETERS.

3. DIMENSION D AND E DO NOT INCLUDE MOLD
PROTRUSION.

4. MAXIMUM MOLD PROTRUSION 0.15 PER SIDE.

5. DIMENSION B DOES NOT INCLUDE MOLD
PROTRUSION. ALLOWABLE DAMBAR
PROTRUSION SHALL BE 0.127 TOTAL IN EXCESS
OF THE B DIMENSION AT MAXIMUM MATERIAL
CONDITION.

D

E

H

A

B

e

B

A1

C

A

0.10

TL081C,AC TL082C,AC TL084C,AC

8

MOTOROLA ANALOG IC DEVICE DATA

OUTLINE DIMENSIONS

N SUFFIX

PLASTIC PACKAGE

CASE 646–06

ISSUE M

17

14 8

B

A

DIM MIN MAX MIN MAX

MILLIMETERSINCHES

A 0.715 0.770 18.16 18.80
B 0.240 0.260 6.10 6.60
C 0.145 0.185 3.69 4.69
D 0.015 0.021 0.38 0.53
F 0.040 0.070 1.02 1.78

G 0.100 BSC 2.54 BSC

H 0.052 0.095 1.32 2.41
J 0.008 0.015 0.20 0.38
K 0.115 0.135 2.92 3.43
L

M ––– 10 ––– 10

N 0.015 0.039 0.38 1.01

__

NOTES:

1. DIMENSIONING AND TOLERANCING PER ANSI

Y14.5M, 1982.

2. CONTROLLING DIMENSION: INCH.

3. DIMENSION L TO CENTER OF LEADS WHEN

FORMED PARALLEL.

4. DIMENSION B DOES NOT INCLUDE MOLD FLASH.

5. ROUNDED CORNERS OPTIONAL.

F

HG

D

K

C

SEATING
PLANE

N

–T–

14 PL

M

0.13 (0.005)

L

M

J

0.290 0.310 7.37 7.87

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the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and
specifically disclaims any and all liability, including without limitation consequential or incidental damages. “T ypical” parameters which may be provided in Motorola
data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals”
must be validated for each customer application by customer’s technical experts. Motorola does not convey any license under its patent rights nor the rights of
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applications intended to support or sustain life, or for any other application in which the failure of the Motorola product could create a situation where personal injury
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arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that
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TL081C/D

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