TL071, TL071A, TL071B, TL071H
TL072, TL072A, TL072B, TL072H, TL072M
TL074, TL074A, TL074B, TL074H, TL074M
SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
TL07xx Low-Noise FET-Input Operational Amplifiers
1 Features
•
•
•
•
•
•
•
•
•
•
High slew rate: 20 V/μs (TL07xH, typ)
Low offset voltage: 1 mV (TL07xH, typ)
Low offset voltage drift: 2 μV/°C
Low power consumption: 940 μA/ch (TL07xH, typ)
Wide common-mode and differential
voltage ranges
– Common-mode input voltage range
includes VCC+
Low input bias and offset currents
Low noise:
Vn = 18 nV/√Hz (typ) at f = 1 kHz
Output short-circuit protection
Low total harmonic distortion: 0.003% (typ)
Wide supply voltage:
±2.25 V to ±20 V, 4.5 V to 40 V
(1.5 kV, HBM), integrated EMI and RF filters, and
operation across the full –40°C to 125°C enable the
TL07xH devices to be used in the most rugged and
demanding applications.
Device Information
PART NUMBER(1)
TL071x
TL072x
2 Applications
•
•
•
•
•
•
Solar energy: string and central inverter
Motor drives: AC and servo drive control and
power stage modules
Single phase online UPS
Three phase UPS
Pro audio mixers
Battery test equipment
TL072M
TL074x
3 Description
The TL07xH (TL071H, TL072H, and TL074H) family
of devices are the next-generation versions of the
industry-standard TL07x (TL071, TL072, and TL074)
devices. These devices provide outstanding value for
cost-sensitive applications, with features including low
offset (1 mV, typical), high slew rate (20 V/μs), and
common-mode input to the positive supply. High ESD
TL074M
(1)
PACKAGE
BODY SIZE (NOM)
PDIP (8)
9.59 mm × 6.35 mm
SC70 (5)
2.00 mm × 1.25 mm
SO (8)
6.20 mm × 5.30 mm
SOIC (8)
4.90 mm × 3.90 mm
SOT-23 (5)
1.60 mm × 1.20 mm
PDIP (8)
9.59 mm × 6.35 mm
SO (8)
6.20 mm × 5.30 mm
SOIC (8)
4.90 mm × 3.90 mm
SOT-23 (8)
2.90 mm × 1.60 mm
TSSOP (8)
4.40 mm × 3.00 mm
CDIP (8)
9.59 mm × 6.67 mm
CFP (10)
6.12 mm × 3.56 mm
LCCC (20)
8.89 mm × 8.89 mm
PDIP (14)
19.30 mm × 6.35 mm
SO (14)
10.30 mm × 5.30 mm
SOIC (14)
8.65 mm × 3.91 mm
SOT-23 (14)
4.20 mm × 2.00 mm
SSOP (14)
6.20 mm × 5.30 mm
TSSOP (14)
5.00 mm × 4.40 mm
CDIP (14)
19.56 mm × 6.92 mm
CFP (14)
9.21 mm × 6.29 mm
LCCC (20)
8.89 mm × 8.89 mm
For all available packages, see the orderable addendum at
the end of the data sheet.
TL071
TL072 (each amplifier)
TL074 (each amplifier)
OFFSET N1
IN+
+
IN+
+
IN−
−
OUT
IN−
OFFSET N2
OUT
−
Copyright © 2017, Texas Instruments Incorporated
Logic Symbols
An IMPORTANT NOTICE at the end of this data sheet addresses availability, warranty, changes, use in safety-critical applications,
intellectual property matters and other important disclaimers. PRODUCTION DATA.
TL071, TL071A, TL071B, TL071H
TL072, TL072A, TL072B, TL072H, TL072M
TL074, TL074A, TL074B, TL074H, TL074M
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
Table of Contents
1 Features............................................................................1
2 Applications..................................................................... 1
3 Description.......................................................................1
4 Revision History.............................................................. 2
5 Pin Configuration and Functions...................................4
6 Specifications................................................................ 11
6.1 Absolute Maximum Ratings...................................... 11
6.2 ESD Ratings..............................................................11
6.3 Recommended Operating Conditions....................... 11
6.4 Thermal Information for Single Channel................... 12
6.5 Thermal Information for Dual Channel......................12
6.6 Thermal Information for Quad Channel.................... 13
6.7 Electrical Characteristics: TL07xH............................ 14
6.8 Electrical Characteristics (DC): TL07xC,
TL07xAC, TL07xBC, TL07xI, TL07xM........................ 16
6.9 Electrical Characteristics (AC): TL07xC,
TL07xAC, TL07xBC, TL07xI, TL07xM........................ 18
6.10 Typical Characteristics: TL07xH............................. 19
6.11 Typical Characteristics: All Devices Except
TL07xH........................................................................26
7 Parameter Measurement Information.......................... 30
8 Detailed Description......................................................31
8.1 Overview................................................................... 31
8.2 Functional Block Diagram......................................... 31
8.3 Feature Description...................................................32
8.4 Device Functional Modes..........................................32
9 Application and Implementation.................................. 33
9.1 Application Information............................................. 33
9.2 Typical Application.................................................... 33
9.3 Unity Gain Buffer.......................................................34
9.4 System Examples..................................................... 35
9.5 Power Supply Recommendations.............................36
9.6 Layout....................................................................... 36
10 Device and Documentation Support..........................38
10.1 Receiving Notification of Documentation Updates..38
10.2 Support Resources................................................. 38
10.3 Trademarks............................................................. 38
10.4 Electrostatic Discharge Caution..............................38
10.5 Glossary..................................................................38
11 Mechanical, Packaging, and Orderable
Information.................................................................... 38
4 Revision History
NOTE: Page numbers for previous revisions may differ from page numbers in the current version.
Changes from Revision T (December 2021) to Revision U (December 2022)
Page
• Changed Absolute Maximum Ratings, ESD Ratings, Recommended Operating Conditions, and Thermal
Information sections by merging TL07xH and TL07xx specifications............................................................... 11
• Changed Electrical Characteristics tables by merging TL07xC, TL07xAC, TL07xBC, TL07xI, and TL07xM
specifications.................................................................................................................................................... 16
• Changed gain bandwidth value of all non-NS/non-PS packages and non-TL07xM devices from 3 MHz to 5.25
MHz.................................................................................................................................................................. 16
• Changed TL07xC, TL07xAC, TL07xBC, TL07xI, and TL07xM Switching Characteristics tables by renaming
to Electrical Characteristics (AC) ..................................................................................................................... 18
• Changed input voltage noise density at 1 kHz for all non-PS/non-NS packages and all non-TL07xM devices
to 37 nV/√Hz .................................................................................................................................................... 18
• Changed THD+N for all non-PS/non-NS packages and all non-TL07xM devices to 0.00012%.......................18
Changes from Revision S (July 2021) to Revision T (December 2021)
Page
• Corrected DCK pinout diagram and table in Pin Configurations and Functions section.....................................4
Changes from Revision R (June 2021) to Revision S (July 2021)
Page
• Deleted preview note from TL071H SOIC (8), SOT-23 (5) and SC70 (5) packages throughout the data sheet 1
Changes from Revision Q (June 2021) to Revision R (June 2021)
Page
• Deleted preview note from TL072H SOIC (8), SOT-23 (8) and TSSOP (8) packages throughout the data
sheet................................................................................................................................................................... 1
• Added ESD information for TL072H..................................................................................................................11
• Added IQ spec for TL072H................................................................................................................................14
2
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
Changes from Revision P (November 2020) to Revision Q (June 2021)
Page
• Deleted VSSOP (8) package from the Device Information section.................................................................... 1
• Added DBV, DCK, and D packages to TL071H in Pin Configuration and Functions section..............................4
• Deleted DGK package from TL072x in Pin Configuration and Functions section.............................................. 4
• Deleted tables with duplicate information from the Specifications section........................................................11
• Added D, DCK, and DBV package thermal information in Thermal Information for Single Channel: TL071H
section.............................................................................................................................................................. 12
• Added D, DDF, and PW package thermal information in Thermal Information for Dual Channel: TL072H
section.............................................................................................................................................................. 12
• Added IB and IOS specification for single channel DCK and DBV package...................................................... 14
• Added IQ spec for TL071H................................................................................................................................14
• Deleted Related Links section from the Device and Documentation Support section......................................38
Changes from Revision O (October 2020) to Revision P (November 2020)
Page
• Added SOIC and TSSOP package thermal information in Thermal Information for Quad Channel: TL074H
section ............................................................................................................................................................. 13
• Added Typical Characteristics:TL07xH section in Specifications section......................................................... 19
Changes from Revision N (July 2017) to Revision O (October 2020)
Page
• Updated the numbering format for tables, figures, and cross-references throughout the document..................1
• Features of TL07xH added to the Features section........................................................................................... 1
• Added link to applications in the Applications section........................................................................................ 1
• Added TL07xH in the Description section...........................................................................................................1
• Added TL07xH device in the Device Information section................................................................................... 1
• Added SOT-23 (14), VSSOP (8), SOT-23 (8), SC70 (5), and SOT-23 (5) packages to the Device Information
section................................................................................................................................................................ 1
• Added TSSOP, VSSOP and DDF packages to TL072x in Pin Configuration and Functions section................. 4
• Added DYY package to TL074x in Pin Configuration and Functions section..................................................... 4
• Removed Table of Graphs from the Typical Characteistics section..................................................................26
• Deleted reference to obsolete documentation in Layout Guidelines section.................................................... 36
• Removed Related Documentation section....................................................................................................... 38
Changes from Revision M (February 2014) to Revision N (July 2017)
Page
• Updated data sheet text to latest documentation and translation standards...................................................... 1
• Added TL072M and TL074M devices to data sheet .......................................................................................... 1
• Rewrote text in Description section ................................................................................................................... 1
• Changed TL07x 8-pin PDIP package to 8-pin CDIP package in Device Information table ............................... 1
• Deleted 20-pin LCCC package from Device Information table .......................................................................... 1
• Added 2017 copyright statement to front page schematic..................................................................................1
• Deleted TL071x FK (LCCC) pinout drawing and pinout table in Pin Configurations and Functions section ..... 4
• Updated pinout diagrams and pinout tables in Pin Configurations and Functions section ................................ 4
• Added Figure 6-59 to Typical Characteristics section.......................................................................................26
• Added second Typical Application section application curves .........................................................................34
• Changed document references in Layout Guidelines section ......................................................................... 36
Changes from Revision L (February 2014) to Revision M (February 2014)
Page
• Added Device Information table, Pin Configuration and Functions section, ESD Ratings table, Feature
Description section, Device Functional Modes, Application and Implementation section, Power Supply
Recommendations section, Layout section........................................................................................................ 1
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
5 Pin Configuration and Functions
OUT
1
V±
2
IN+
3
5
4
V+
IN±
IN+
1
V±
2
IN±
3
Not to scale
5
V+
4
OUT
Not to scale
Figure 5-1. TL071H DBV Package
5-Pin SOT-23
(Top View)
Figure 5-2. TL071H DCK Package
5-Pin SC70
(Top View)
NC
1
8
NC
IN–
2
7
VCC+
IN+
3
6
OUT
VCC–
4
5
NC
Not to scale
NC- no internal connection
Figure 5-3. TL071H D Package
8-Pin SOIC
(Top View)
Table 5-1. Pin Functions: TL071H
PIN
NAME
4
I/O
DESCRIPTION
DBV
DCK
D
IN–
4
3
2
I
Inverting input
IN+
3
1
3
I
Noninverting input
NC
—
—
8
—
Do not connect
NC
—
—
1
—
Do not connect
NC
—
—
5
—
Do not connect
OUT
1
4
6
O
Output
VCC–
2
2
4
—
Power supply
VCC+
5
5
7
—
Power supply
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
OFFSET N1
1
8
NC
IN±
2
7
VCC+
IN+
3
6
OUT
VCC±
4
5
OFFSET N2
Not to scale
NC- no internal connection
Figure 5-4. TL071x D, P, and PS Package
8-Pin SOIC, PDIP, and SO
(Top View)
Table 5-2. Pin Functions: TL071x
PIN
NAME
NO.
IN–
2
IN+
NC
I/O
DESCRIPTION
I
Inverting input
3
I
Noninverting input
8
—
Do not connect
OFFSET N1
1
—
Input offset adjustment
OFFSET N2
5
—
Input offset adjustment
OUT
6
O
Output
VCC–
4
—
Power supply
VCC+
7
—
Power supply
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
1OUT
1
8
VCC+
1IN±
2
7
2OUT
1IN+
3
6
2IN±
VCC±
4
5
2IN+
Not to scale
Figure 5-5. TL072x D, DDF, JG, P, PS, and PW Package
8-Pin SOIC, SOT-23 (8), CDIP, PDIP, SO, and TSSOP
(Top View)
Table 5-3. Pin Functions: TL072x
PIN
NAME
6
NO.
I/O
DESCRIPTION
1IN–
2
I
Inverting input
1IN+
3
I
Noninverting input
1OUT
1
O
Output
2IN–
6
I
Inverting input
2IN+
5
I
Noninverting input
2OUT
7
O
Output
VCC–
4
—
Power supply
VCC+
8
—
Power supply
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
NC
1
10
NC
1OUT
2
9
VCC+
1IN±
3
8
2OUT
1IN+
4
7
2IN±
VCC±
5
6
2IN+
Not to scale
NC- no internal connection
Figure 5-6. TL072x U Package
10-Pin CFP
(Top View)
Table 5-4. Pin Functions: TL072x
PIN
NAME
NO.
I/O
DESCRIPTION
1IN–
3
I
Inverting input
1IN+
4
I
Noninverting input
1OUT
2
O
Output
2IN–
7
I
Inverting input
2IN+
6
I
Noninverting input
2OUT
8
O
Output
NC
1, 10
—
Do not connect
VCC–
5
—
Power supply
VCC+
9
—
Power supply
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NC
19
NC
1
VCC+
1OUT
2
20
NC
3
SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
5
17
2OUT
NC
6
16
NC
1IN+
7
15
2IN±
NC
8
14
NC
NC
2IN+
NC
VCC±
NC
13
1IN±
12
NC
11
18
10
4
9
NC
Not to scale
NC- no internal connection
Figure 5-7. TL072 FK Package
20-Pin LCCC
(Top View)
Table 5-5. Pin Functions: TL072x
PIN
NAME
I/O
DESCRIPTION
1IN–
5
I
Inverting input
1IN+
7
I
Noninverting input
1OUT
2
O
Output
2IN–
15
I
Inverting input
2IN+
12
I
Noninverting input
2OUT
17
O
Output
1, 3, 4, 6, 8,
9, 11, 13, 14,
16, 18, 19
—
Do not connect
VCC–
10
—
Power supply
VCC+
20
—
Power supply
NC
8
NO.
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
1OUT
1
14
4OUT
1IN±
2
13
4IN±
1IN+
3
12
4IN+
VCC+
4
11
VCC±
2IN+
5
10
3IN+
2IN±
6
9
3IN±
2OUT
7
8
3OUT
Not to scale
Figure 5-8. TL074x D, N, NS, PW, J, DYY, and W Package
14-Pin SOIC, PDIP, SO, TSSOP, CDIP, SOT-23 (14), and CFP
(Top View)
Table 5-6. Pin Functions: TL074x
PIN
NAME
NO.
1IN–
2
1IN+
1OUT
I/O
DESCRIPTION
I
Inverting input
3
I
Noninverting input
1
O
Output
2IN–
6
I
Inverting input
2IN+
5
I
Noninverting input
2OUT
7
O
Output
3IN–
9
I
Inverting input
3IN+
10
I
Noninverting input
3OUT
8
O
Output
4IN–
13
I
Inverting input
4IN+
12
I
Noninverting input
4OUT
14
O
Output
VCC–
11
—
Power supply
VCC+
4
—
Power supply
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4IN±
19
NC
1
4OUT
1OUT
2
20
1IN±
3
SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
5
17
NC
VCC+
6
16
VCC±
NC
7
15
NC
2IN+
8
14
3IN+
3IN±
3OUT
NC
2OUT
2IN±
13
NC
12
4IN+
11
18
10
4
9
1IN+
Not to scale
NC- no internal connection
Figure 5-9. TL074 FK Package
20-Pin LCCC
(Top View)
Table 5-7. Pin Functions: TL074x
PIN
NAME
NO.
I/O
DESCRIPTION
1IN–
3
I
Inverting input
1IN+
4
I
Noninverting input
1OUT
2
O
Output
2IN–
9
I
Inverting input
2IN+
8
I
Noninverting input
2OUT
10
O
Output
3IN–
13
I
Inverting input
3IN+
14
I
Noninverting input
3OUT
12
O
Output
4IN–
19
I
Inverting input
4IN+
18
I
Noninverting input
4OUT
20
O
Output
1, 5, 7, 11, 15,
17
—
Do not connect
VCC–
16
—
Power supply
VCC+
6
—
Power supply
NC
10
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6 Specifications
6.1 Absolute Maximum Ratings
over operating ambient temperature range (unless otherwise noted) (1)
All NS and PS packages; All TL07xM devices
Supply voltage, VS = (V+) – (V–)
MAX
36
V
All other devices
Common-mode voltage (3)
Differential voltage (3)
0
42
V
(V–) – 0.3
(V–) + 36
V
All other devices
(V–) – 0.5
(V+) + 0.5
V
(V–) – 0.3
(V–) + 36
V
VS + 0.2
V
(4)
All other devices
All NS and PS packages; All TL07xM devices
Current (3)
UNIT
All NS and PS packages; All TL07xM devices
All NS and PS packages; All TL07xM devices
Signal input pins
MIN
–0.3
All other devices
–10
Output short-circuit (2)
50
mA
10
mA
Continuous
Operating ambient temperature, TA
150
°C
Junction temperature, TJ
–55
150
°C
Case temperature for 60 seconds - FK package
260
°C
300
°C
150
°C
Lead temperature 1.8 mm (1/16 inch) from case for 10 seconds
Storage temperature, Tstg
(1)
(2)
(3)
(4)
–65
Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress
ratings only, which do not imply functional operation of the device at these or any other conditions beyond those indicated under
Recommended Operating Conditions. Exposure to absolute-maximum-rated conditions for extended periods may affect device
reliability.
Short-circuit to ground, one amplifier per package.
Input pins are diode-clamped to the power-supply rails. Input signals that can swing more than 0.5 V beyond the supply rails must be
current limited to 10 mA or less.
Differential voltage only limited by input voltage.
6.2 ESD Ratings
VALUE
V(ESD)
(1)
(2)
Electrostatic discharge
Human-body model (HBM), per ANSI/ESDA/JEDEC
JS-001(1)
UNIT
±2000
Charged-device model (CDM), per JEDEC specification JESD22-C101 (2)
V
±1000
JEDEC document JEP155 states that 500-V HBM allows safe manufacturing with a standard ESD control process.
JEDEC document JEP157 states that 250-V CDM allows safe manufacturing with a standard ESD control process.
6.3 Recommended Operating Conditions
over operating ambient temperature range (unless otherwise noted)
VS
VI
TA
Supply voltage, (V+) – (V–)
Input voltage range
Specified temperature
MIN
MAX
All NS and PS packages; All TL07xM
devices(1)
10
30
V
All other devices
4.5
40
V
All NS and PS packages; All TL07xM
devices
(V–) + 2
(V+) + 0.1
V
All other devices
(V–) + 4
(V+) + 0.1
V
TL07xM
–55
125
°C
TL07xH
–40
125
°C
TL07xI
–40
85
°C
0
70
°C
TL07xC
(1)
UNIT
V+ and V– are not required to be of equal magnitude, provided that the total VS (V+ – V–) is between 10 V and 30 V.
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.4 Thermal Information for Single Channel
TL071xx
THERMAL METRIC (1)
D
(SOIC)
DCK
(SC70)
DBV
(SOT-23)
P
(PDIP)
PS
(SO)
8 PINS
5 PINS
5 PINS
8 PINS
8 PINS
UNIT
RθJA
Junction-to-ambient thermal resistance
158.8
217.5
212.2
85
95
°C/W
RθJC(top)
Junction-to-case (top) thermal resistance
98.6
113.1
111.1
–
–
°C/W
RθJB
Junction-to-board thermal resistance
102.3
63.8
79.4
–
–
°C/W
ψJT
Junction-to-top characterization parameter
45.8
34.8
51.8
–
–
°C/W
ψJB
Junction-to-board characterization parameter
101.5
63.5
79.0
–
–
°C/W
RθJC(bot)
Junction-to-case (bottom) thermal resistance
N/A
N/A
N/A
N/A
N/A
°C/W
(1)
For more information about traditional and new thermal metrics, see the Semiconductor and IC Package Thermal Metrics application
report, SPRA953.
6.5 Thermal Information for Dual Channel
TL072xx
THERMAL METRIC (1)
D
(SOIC)
DDF
(SOT-23)
FK
(LCCC)
JG
(CDIP)
P
(PDIP)
PS
(SO)
PW
(TSSOP)
U
(CFP)
UNIT
8 PINS
8 PINS
20 PINS
8 PINS
8 PINS
8 PINS
8 PINS
10 PINS
RθJA
Junction-to-ambient
thermal resistance
147.8
181.5
–
–
85
95
200.3
169.8
°C/W
RθJC(top)
Junction-to-case (top)
thermal resistance
88.2
112.5
5.61
15.05
–
–
89.4
62.1
°C/W
RθJB
Junction-to-board
thermal resistance
91.4
98.2
–
–
–
–
131.0
176.2
°C/W
ψJT
Junction-to-top
characterization
parameter
36.8
17.2
–
–
–
–
22.2
48.4
°C/W
ψJB
Junction-to-board
characterization
parameter
90.6
97.6
–
–
–
–
129.3
144.1
°C/W
RθJC(bot)
Junction-to-case
(bottom) thermal
resistance
N/A
N/A
–
–
–
–
N/A
5.4
°C/W
(1)
12
For more information about traditional and new thermal metrics, see the Semiconductor and IC Package Thermal Metrics application
report, SPRA953.
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.6 Thermal Information for Quad Channel
TL074xx
D
(SOIC)
DYY
(SOT-23)
FK
(TSSOP)
J
(TSSOP)
N
(TSSOP)
NS
(TSSOP)
PW
(TSSOP)
W
(TSSOP)
14 PINS
14 PINS
20 PINS
14 PINS
14 PINS
14 PINS
14 PINS
14 PINS
Junction-to-ambient thermal
resistance
114.2
153.2
–
–
80
76
–
128.8
°C/W
Junction-to-case (top) thermal
resistance
70.3
88.7
5.61
14.5
–
–
14.5
56.1
°C/W
RθJB
Junction-to-board thermal
resistance
70.2
65.4
–
–
–
–
–
127.6
°C/W
ψJT
Junction-to-top
characterization parameter
28.8
9.5
–
–
–
–
–
29
°C/W
ψJB
Junction-to-board
characterization parameter
69.8
65.0
–
–
–
–
–
106.1
°C/W
Junction-to-case (bottom)
thermal resistance
N/A
N/A
–
–
–
–
–
0.5
°C/W
THERMAL METRIC (1)
RθJA
Rθ
JC(top)
Rθ
JC(bot)
(1)
UNIT
For more information about traditional and new thermal metrics, see the Semiconductor and IC Package Thermal Metrics application
report, SPRA953.
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.7 Electrical Characteristics: TL07xH
For VS = (VCC+) – (VCC–) = 4.5 V to 40 V (±2.25 V to ±20 V) at TA = 25°C, RL = 10 kΩ connected to VS / 2, VCM = VS / 2, and
VO UT = VS / 2, unless otherwise noted.
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
±1
±4
UNIT
OFFSET VOLTAGE
VOS
Input offset voltage
dVOS/dT
Input offset voltage drift
TA = –40°C to 125°C
±2
PSRR
Input offset voltage versus VS = 5 V to 40 V, VCM = VS /
power supply
2
TA = –40°C to 125°C
±1
Channel separation
TA = –40°C to 125°C
±5
f = 0 Hz
mV
µV/℃
±10
10
μV/V
µV/V
INPUT BIAS CURRENT
IB
Input bias current
DCK and DBV packages
±1
±120
pA
±1
±300
pA
±5
nA
±0.5
±120
pA
±0.5
±250
pA
±5
nA
TA = –40°C to 125°C (1)
IOS
Input offset current
DCK and DBV packages
TA = –40°C to 125°C (1)
NOISE
EN
Input voltage noise
eN
Input voltage noise density
iN
Input current noise
f = 0.1 Hz to 10 Hz
9.2
μVPP
1.4
µVRMS
f = 1 kHz
37
f = 10 kHz
21
f = 1 kHz
80
nV/√Hz
fA/√Hz
INPUT VOLTAGE RANGE
VCM
Common-mode voltage
range
CMRR
Common-mode rejection
ratio
(VCC–) + 1.5
VS = 40 V, (VCC–) + 2.5 V <
VCM < (VCC+) – 1.5 V
VS = 40 V, (VCC–) + 2.5 V <
VCM < (VCC+)
100
TA = –40°C to 125°C
105
95
90
TA = –40°C to 125°C
(VCC+)
V
dB
dB
105
80
dB
dB
INPUT CAPACITANCE
ZID
Differential
ZICM
Common-mode
100 || 2
MΩ || pF
6 || 1
TΩ || pF
OPEN-LOOP GAIN
AOL
Open-loop voltage gain
VS = 40 V, VCM = VS / 2,
(VCC–) + 0.3 V < VO < (VCC+)
– 0.3 V
TA = –40°C to 125°C
118
125
dB
AOL
Open-loop voltage gain
VS = 40 V, VCM = VS / 2, RL =
2 kΩ, (VCC–) + 1.2 V < VO <
TA = –40°C to 125°C
(VCC+) – 1.2 V
115
120
dB
5.25
MHz
20
V/μs
FREQUENCY RESPONSE
GBW
Gain-bandwidth product
SR
Slew rate
tS
Settling time
VS = 40 V, G = +1, CL = 20 pF
To 0.1%, VS = 40 V, VSTEP = 10 V , G = +1, CL = 20 pF
0.63
To 0.1%, VS = 40 V, VSTEP = 2 V , G = +1, CL = 20 pF
0.56
To 0.01%, VS = 40 V, VSTEP = 10 V , G = +1, CL = 20 pF
0.91
To 0.01%, VS = 40 V, VSTEP = 2 V , G = +1, CL = 20 pF
0.48
Phase margin
G = +1, RL = 10 kΩ, CL = 20 pF
Overload recovery time
VIN × gain > VS
THD+N
Total harmonic distortion +
VS = 40 V, VO = 6 VRMS, G = +1, f = 1 kHz
noise
EMIRR
EMI rejection ratio
f = 1 GHz
μs
56
°
300
ns
0.00012
%
53
dB
OUTPUT
14
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.7 Electrical Characteristics: TL07xH (continued)
For VS = (VCC+) – (VCC–) = 4.5 V to 40 V (±2.25 V to ±20 V) at TA = 25°C, RL = 10 kΩ connected to VS / 2, VCM = VS / 2, and
VO UT = VS / 2, unless otherwise noted.
PARAMETER
TEST CONDITIONS
Positive rail headroom
Voltage output swing from
rail
Negative rail headroom
MIN
TYP
MAX
VS = 40 V, RL = 10 kΩ
115
210
VS = 40 V, RL = 2 kΩ
520
965
VS = 40 V, RL = 10 kΩ
105
215
VS = 40 V, RL = 2 kΩ
500
1030
UNIT
mV
ISC
Short-circuit current
±26
mA
CLOAD
Capacitive load drive
300
pF
ZO
Open-loop output
impedance
125
Ω
f = 1 MHz, IO = 0 A
POWER SUPPLY
IO = 0 A
IQ
Quiescent current per
amplifier
IO = 0 A, (TL071H)
937.5
1125
960
1156
IO = 0 A
IO = 0 A, (TL072H)
1130
TA = –40°C to 125°C
IO = 0 A, (TL071H)
Turn-On Time
(1)
At TA = 25°C, VS = 40 V, VS ramp rate > 0.3 V/µs
µA
1143
1160
60
μs
Max IB and Ios data is specified based on characterization results.
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.8 Electrical Characteristics (DC): TL07xC, TL07xAC, TL07xBC, TL07xI, TL07xM
For VS = (VCC+) – (VCC–) = ±15 V at TA = 25°C, unless otherwise noted
TEST CONDITIONS(1) (2)
PARAMETER
TL07xC
TL07xAC
TL07xBC
VOS
Input offset voltage
VO = 0 V
RS = 50 Ω
TL07xI
TL071M, TL072M
TL074M
dVOS/dT
Input offset voltage
drift
VO = 0 V, RS = 50 Ω
Input offset current
VO = 0 V
TL07xAC, TL07xBC,
TL07xI
TL07xM
TL07xC, TL07xAC,
TL07xBC, TL07xI
IB
Input bias current
VO = 0 V
TL071M, TL072M
TL074M
VCM
Common-mode
voltage range
VOM
RL = 10 kΩ
Maximum peak output
RL ≥ 10 kΩ
voltage swing
RL ≥ 2 kΩ
Open-loop voltage
gain
AOL
VO = 0 V
TL07xAC, TL07xBC,
TL07xI
TL07xM
GBW
Gain-bandwidth
product
RID
Common-mode input
resistance
CMRR
Common-mode
rejection ratio
PSRR
IQ
16
Input offset voltage
versus power supply
MAX
3
10
TA = Full range
6
7.5
2
TA = Full range
3
5
3
TA = Full range
6
3
TA = Full range
6
9
3
TA = Full range
9
15
±18
5
TA = Full range
5
TA = Full range
5
TA = Full range
65
TA = Full range
65
TA = Full range
65
TA = Full range
±11
–12 to 15
±12
±13.5
µV/℃
100
pA
10
nA
100
pA
2
nA
100
pA
20
nA
200
pA
7
nA
200
pA
50
nA
200
pA
20
nA
V
±12
V
±10
25
TA = Full range
50
TA = Full range
200
V/mV
25
35
TA = Full range
200
15
200
15
3
All other devices
MHz
5.25
1
VS = ±9 V to ± 18 V
VO = 0 V
RS = 50 Ω
Quiescent current per
VO = 0 V; no load
amplifier
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mV
8
All NS and PS packages; All TL07xM devices
VIC = VICR(min)
VO = 0 V
RS = 50 Ω
UNIT
13
3
TA = Full range
TL07xC
TYP
TA = Full range
TA = Full range
TL07xC
IOS
MIN
TL07xC
70
100
TL07xAC, TL07xBC, TL07xI
75
100
TL07xM
80
86
TL07xC
70
100
TL07xAC, TL07xBC, TL07xI
80
100
TL07xM
80
86
1.4
TΩ
dB
dB
2.5
mA
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.8 Electrical Characteristics (DC): TL07xC, TL07xAC, TL07xBC, TL07xI, TL07xM (continued)
For VS = (VCC+) – (VCC–) = ±15 V at TA = 25°C, unless otherwise noted
TEST CONDITIONS(1) (2)
PARAMETER
Channel separation
(1)
(2)
f = 0 Hz
MIN
TYP
MAX
1
UNIT
µV/V
All characteristics are measured under open-loop conditions with zero common-mode voltage, unless otherwise specified.
Full range is TA = 0°C to 70°C for the TL07xC, TL07xAC, and TL07xBC; TA = –40°C to 85°C for the TL07xI; and TA = –55°C to 125°C
for the TL07xM.
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.9 Electrical Characteristics (AC): TL07xC, TL07xAC, TL07xBC, TL07xI, TL07xM
For VS = (VCC+) – (VCC–) = ±15 V at TA = 25°C, unless otherwise noted.
PARAMETER
TEST CONDITIONS
MIN
TYP
TL07xM
5
20
V/μs
TL07xC, TL07xAC,
TL07xBC, TL07xI
8
20
V/μs
0.1
μs
SR
Slew rate
VI = 10 V, CL = 100 pF, RL =
2 kΩ
tS
Settling time
VI = 20 V, CL = 100 pF, RL = 2 kΩ
All PS and NS packages; All
TL07xM devices
eN
Input voltage noise density
All other devices
f = 1 kHz
37
f = 10 kHz
21
All other devices
f = 0.1 Hz to 10 Hz
iN
Input current noise
RS = 20 Ω, f = 1 kHz
Phase margin
TL07xC, TL07xAC,
TL07xBC, TL07xI
Overload recovery time
VIN × gain > VS
THD+N
18
RS = 20 Ω, f = 10 Hz to 10
kHz
Input voltage noise
All PS and NS packages; All
Total harmonic distortion + TL07xM devices
noise
All other devices
G = +1, RL = 10 kΩ, CL = 20
pF
VO = 6 VRMS, RL ≥ 2 kΩ, f =
1 kHz, G = +1, RS ≤ 1 kΩ
VS = 40 V, VO = 6 VRMS, G =
+1, f = 1 kHz
EMIRR
EMI rejection ratio
TL07xC, TL07xAC,
TL07xBC, TL07xI
f = 1 GHz
ZO
Open-loop output
impedance
TL07xC, TL07xAC,
TL07xBC, TL07xI
f = 1 MHz, IO = 0 A
18
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UNIT
20%
RS = 20 Ω, f = 1 kHz
All PS and NS packages; All
TL07xM devices
EN
MAX
4
nV/√Hz
nV/√Hz
μVRMS
1.4
µVRMS
10
fA/√Hz
56
°
300
ns
0.003
%
0.00012
%
53
dB
125
Ω
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.10 Typical Characteristics: TL07xH
at TA = 25°C, VS = 40 V ( ±20 V), VCM = VS / 2, RLOAD = 10 kΩ connected to VS / 2, and CL = 20 pF (unless otherwise noted)
TA = 25°C
Figure 6-1. Offset Voltage Production Distribution
VCM = VS / 2
Figure 6-3. Offset Voltage vs Temperature
TA = 125°C
Figure 6-5. Offset Voltage vs Common-Mode Voltage
Copyright © 2022 Texas Instruments Incorporated
Figure 6-2. Offset Voltage Drift Distribution
TA = 25°C
Figure 6-4. Offset Voltage vs Common-Mode Voltage
TA = –40°C
Figure 6-6. Offset Voltage vs Common-Mode Voltage
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.10 Typical Characteristics: TL07xH (continued)
at TA = 25°C, VS = 40 V ( ±20 V), VCM = VS / 2, RLOAD = 10 kΩ connected to VS / 2, and CL = 20 pF (unless otherwise noted)
20
Figure 6-7. Offset Voltage vs Power Supply
Figure 6-8. Open-Loop Gain and Phase vs Frequency
Figure 6-9. Closed-Loop Gain vs Frequency
Figure 6-10. Input Bias Current vs Common-Mode Voltage
Figure 6-11. Input Bias Current vs Temperature
Figure 6-12. Output Voltage Swing vs Output Current (Sourcing)
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.10 Typical Characteristics: TL07xH (continued)
at TA = 25°C, VS = 40 V ( ±20 V), VCM = VS / 2, RLOAD = 10 kΩ connected to VS / 2, and CL = 20 pF (unless otherwise noted)
Figure 6-13. Output Voltage Swing vs Output Current (Sinking)
f = 0 Hz
Figure 6-15. CMRR vs Temperature (dB)
Figure 6-17. 0.1-Hz to 10-Hz Noise
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Figure 6-14. CMRR and PSRR vs Frequency
f = 0 Hz
Figure 6-16. PSRR vs Temperature (dB)
Figure 6-18. Input Voltage Noise Spectral Density vs Frequency
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.10 Typical Characteristics: TL07xH (continued)
at TA = 25°C, VS = 40 V ( ±20 V), VCM = VS / 2, RLOAD = 10 kΩ connected to VS / 2, and CL = 20 pF (unless otherwise noted)
BW = 80 kHz, VOUT = 1 VRMS
Figure 6-19. THD+N Ratio vs Frequency
BW = 80 kHz, f = 1 kHz
Figure 6-20. THD+N vs Output Amplitude
VCM = VS / 2
Figure 6-21. Quiescent Current vs Supply Voltage
Figure 6-23. Open-Loop Voltage Gain vs Temperature (dB)
22
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Figure 6-22. Quiescent Current vs Temperature
Figure 6-24. Open-Loop Output Impedance vs Frequency
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.10 Typical Characteristics: TL07xH (continued)
at TA = 25°C, VS = 40 V ( ±20 V), VCM = VS / 2, RLOAD = 10 kΩ connected to VS / 2, and CL = 20 pF (unless otherwise noted)
G = –1, 25-mV output step
Figure 6-25. Small-Signal Overshoot vs Capacitive Load
G = 1, 10-mV output step
Figure 6-26. Small-Signal Overshoot vs Capacitive Load
VS = ±10 V, VIN = VOUT
Figure 6-27. Phase Margin vs Capacitive Load
G = –10
Figure 6-29. Positive Overload Recovery
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Figure 6-28. No Phase Reversal
G = –10
Figure 6-30. Negative Overload Recovery
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.10 Typical Characteristics: TL07xH (continued)
at TA = 25°C, VS = 40 V ( ±20 V), VCM = VS / 2, RLOAD = 10 kΩ connected to VS / 2, and CL = 20 pF (unless otherwise noted)
CL = 20 pF, G = 1, 10-mV step response
Figure 6-31. Small-Signal Step Response, Rising
CL = 20 pF, G = 1
Figure 6-33. Large-Signal Step Response (Rising)
CL = 20 pF, G = 1, 10-mV step response
Figure 6-32. Small-Signal Step Response, Falling
CL = 20 pF, G = 1
Figure 6-34. Large-Signal Step Response (Falling)
CL = 20 pF, G = 1
Figure 6-35. Large-Signal Step Response
24
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Figure 6-36. Short-Circuit Current vs Temperature
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
6.10 Typical Characteristics: TL07xH (continued)
at TA = 25°C, VS = 40 V ( ±20 V), VCM = VS / 2, RLOAD = 10 kΩ connected to VS / 2, and CL = 20 pF (unless otherwise noted)
Figure 6-37. Maximum Output Voltage vs Frequency
Figure 6-38. Channel Separation vs Frequency
Figure 6-39. EMIRR (Electromagnetic Interference Rejection Ratio) vs Frequency
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6.11 Typical Characteristics: All Devices Except TL07xH
±15
100
VCC± = ±15 V
VOM
VOM − Maximum Peak Output Voltage − V
IIIB−
IB Input Bias Current − nA
VCC± = ±15 V
10
1
0.1
0.01
−75
−50
−25
0
25
50
75
100
±12.5
±10
VCC± = ±10 V
±7.5
VCC± = ±5 V
±5
±2.5
0
100
125
1k
TA − Free-Air Temperature − °C
Figure 6-40. Input Bias Current vs Free-Air Temperature
RL = 10 kΩ
TA = 25°C
See Figure 2
10 k
100 k
f − Frequency − Hz
1M
10 M
Figure 6-41. Maximum Peak Output Voltage vs Frequency
VOM
VOM − Maximum Peak Output Voltage − V
±15
RL = 2 kΩ
TA = 25°C
See Figure 2
VCC± = ±15 V
±12.5
±10
VCC± = ±10 V
±7.5
±5
VCC± = ±5 V
±2.5
8
0
100
1k
10 k
100 k
f − Frequency − Hz
1M
10 M
Figure 6-42. Maximum Peak Output Voltage vs Frequency
Figure 6-43. Maximum Peak Output Voltage vs Frequency
±15
RL = 10 kΩ
VOM − Maximum Peak Output Voltage − V
VOM
V
VOM
OM − Maximum Peak Output Voltage − V
±15
±12.5
RL = 2 kΩ
±10
±7.5
±5
±2.5
VCC± = ±15 V
8
See Figure 2
0
−75
−50
−25
0
25
50
75
100
125
TA − Free-Air Temperature − °C
Figure 6-44. Maximum Peak Output Voltage vs Free-Air
Temperature
26
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±12.5
VCC± = ±15 V
TA = 25°C
See Figure 2
±10
±7.5
±5
±2.5
8
0
0.1
0.2
0.4
0.7 1
2
4
7 10
RL − Load Resistance − kΩ
Figure 6-45. Maximum Peak Output Voltage vs Load Resistance
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6.11 Typical Characteristics: All Devices Except TL07xH (continued)
1000
RL = 10 kΩ
TA = 25°C
400
±10
±7.5
±5
±2.5
200
100
40
20
10
4
VCC± = ±15 V
VO = ±10 V
RL = 2 kΩ
2
1
−75
0
0
2
4
6
8
10
12
14
16
|VCC±| − Supply Voltage − V
Figure 6-46. Maximum Peak Output Voltage vs Supply Voltage
−50
−25
0
25
50
75
Normalized Unity-Gain Bandwidth
1.03
1.02
Unity-Gain Bandwidth
1.2
1.01
1.1
Phase Shift
1
1
0.99
0.9
VCC± = ±15 V
RL = 2 kΩ
f = B1 for Phase Shift
0.8
0.7
−75
−50
0.98
−25
0
25
50
75
100
TA − Free-Air Temperature − °C
0.97
125
Figure 6-49. Normalized Unity-Gain Bandwidth and Phase Shift
vs Free-Air Temperature
89
2
VCC± = ±15 V
ICC − Supply Current Per Amplifier − mA
I CC±
CMRR − Common-Mode Rejection Ratio − dB
125
TA − Free-Air Temperature − °C
Figure 6-47. Large-Signal Differential Voltage Amplification vs
Free-Air Temperature
1.3
Figure 6-48. Large-Signal Differential Voltage Amplification and
Phase Shift vs Frequency
100
Normalized Phase Shift
±12.5
AAVD
VD − Large-Signal Differential
Voltage Amplification − V/mV
VOM
VOM − Maximum Peak Output Voltage − V
±15
RL = 10 kΩ
88
87
86
85
84
83
−75
−50
−25
0
25
50
75
100
125
TA − Free-Air Temperature − °C
Figure 6-50. Common-Mode Rejection Ratio vs Free-Air
Temperature
Copyright © 2022 Texas Instruments Incorporated
TA = 25°C
No Signal
No Load
1.8
1.6
1.4
1.2
1
0.8
0.6
0.4
0.2
0
0
2
4
6
8
10
12
14
16
|VCC±| − Supply Voltage − V
Figure 6-51. Supply Current Per Amplifier vs Supply Voltage
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6.11 Typical Characteristics: All Devices Except TL07xH (continued)
250
VCC± = ±15 V
No Signal
No Load
1.8
1.6
PD − Total Power Dissipation − mW
ICC − Supply Current Per Amplifier − mA
I CC±
2
1.4
1.2
1
0.8
0.6
0.4
200
175
TL074
150
125
100
0.2
0
−75
VCC± =±15 V
No Signal
No Load
225
TL072
75
TL071
50
25
−50
−25
0
25
50
75
100
0
−75
125
−50
Figure 6-54. Normalized Slew Rate vs Free-Air Temperature
0.04
0.01
0.004
1k
4 k 10 k
f − Frequency − Hz
40 k 100 k
Figure 6-56. Total Harmonic Distortion vs Frequency
28
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75
100
125
VCC± = ±15 V
AVD = 10
RS = 20 Ω
TA = 25°C
40
30
20
10
10
40 100
400 1 k
4 k 10 k
f − Frequency − Hz
40 k 100 k
Figure 6-55. Equivalent Input Noise Voltage vs Frequency
VI and VO − Input and Output Voltages − V
THD − Total Harmonic Distortion − %
0.1
400
50
6
VCC± = ±15 V
AVD = 1
VI(RMS) = 6 V
TA = 25°C
0.001
100
25
50
0
0.4
0
Figure 6-53. Total Power Dissipation vs Free-Air Temperature
V n − Equivalent Input Noise Voltage − nV/Hz
nV/ Hz
Figure 6-52. Supply Current Per Amplifier vs Free-Air
Temperature
1
−25
TA − Free-Air Temperature −C
°
TA − Free-Air Temperature − °C
VCC± = ±15 V
RL = 2 kΩ
CL = 100 pF
TA = 25°C
4
Output
2
0
−2
Input
−4
−6
0
0.5
1
1.5
t − Time − µs
2
2.5
3
3.5
Figure 6-57. Voltage-Follower Large-Signal Pulse Response
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6.11 Typical Characteristics: All Devices Except TL07xH (continued)
10
8
VCCr = r15 V
6
VIO (mV)
4
2
0
-2
-4
-6
-8
-10
-13 -11 -9
-7
-5
-3
-1
1
3
5
7
9
11
VCM (V)
Figure 6-58. Output Voltage vs Elapsed Time
Copyright © 2022 Texas Instruments Incorporated
13 15
17
D003
Figure 6-59. VIO vs VCM
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
7 Parameter Measurement Information
−
OUT
+
VI
CL = 100 pF
RL = 2 kΩ
Figure 7-1. Unity-Gain Amplifier
10 kΩ
1 kΩ
−
VI
OUT
+
RL
CL = 100 pF
Figure 7-2. Gain-of-10 Inverting Amplifier
Figure 7-3. Input Offset-Voltage Null Circuit
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8 Detailed Description
8.1 Overview
The TL07xH (TL071H, TL072H, and TL074H) family of devices are the next-generation versions of the industrystandard TL07x (TL071, TL072, and TL074) devices. These devices provide outstanding value for cost-sensitive
applications, with features including low offset (1 mV, typ), high slew rate (25 V/μs, typ), and common-mode
input to the positive supply. High ESD (1.5 kV, HBM), integrated EMI and RF filters, and operation across the full
–40°C to 125°C enable the TL07xH devices to be used in the most rugged and demanding applications.
The C-suffix devices are characterized for operation from 0°C to 70°C. The I-suffix devices are characterized
for operation from −40°C to +85°C. The M-suffix devices are characterized for operation over the full military
temperature range of −55°C to +125°C.
8.2 Functional Block Diagram
VCC+
IN+
IN−
64 Ω
128 Ω
OUT
64 Ω
C1
18 pF
1080 Ω
1080 Ω
VCC−
OFFSET
N1
OFFSET
N2
TL071 Only
All component values shown are nominal.
COMPONENT COUNT†
COMPONENT
TYPE
Resistors
Transistors
JFET
Diodes
Capacitors
epi-FET
†
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TL071
TL072
TL074
11
14
2
1
1
1
22
28
4
2
2
2
44
56
6
4
4
4
Includes bias and trim circuitry
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8.3 Feature Description
The TL07xH family of devices improve many specifications as compared to the industry-standard TL07x family.
Several comparisons of key specifications between these families are included below to show the advantages of
the TL07xH family.
8.3.1 Total Harmonic Distortion
Harmonic distortions to an audio signal are created by electronic components in a circuit. Total harmonic
distortion (THD) is a measure of harmonic distortions accumulated by a signal in an audio system. These
devices have a very low THD of 0.003% meaning that the TL07x device adds little harmonic distortion when
used in audio signal applications.
8.3.2 Slew Rate
The slew rate is the rate at which an operational amplifier can change the output when there is a change on the
input. These devices have a 13-V/μs slew rate.
8.4 Device Functional Modes
These devices are powered on when the supply is connected. These devices can be operated as a single-supply
operational amplifier or dual-supply amplifier depending on the application.
32
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9 Application and Implementation
Note
Information in the following applications sections is not part of the TI component specification,
and TI does not warrant its accuracy or completeness. TI’s customers are responsible for
determining suitability of components for their purposes, as well as validating and testing their design
implementation to confirm system functionality.
9.1 Application Information
A typical application for an operational amplifier is an inverting amplifier. This amplifier takes a positive voltage
on the input, and makes the voltage a negative voltage. In the same manner, the amplifier makes negative
voltages positive.
9.2 Typical Application
RF
RI
Vsup+
VOUT
+
VIN
Vsup-
Figure 9-1. Inverting Amplifier
9.2.1 Design Requirements
The supply voltage must be selected so the supply voltage is larger than the input voltage range and output
range. For instance, this application scales a signal of ±0.5 V to ±1.8 V. Setting the supply at ±12 V is sufficient
to accommodate this application.
9.2.2 Detailed Design Procedure
Vo = Vi + Vio * 1 + 1MΩ
1kΩ
(1)
Determine the gain required by the inverting amplifier:
AV =
VOUT
VIN
(2)
AV =
1.8
= -3.6
-0.5
(3)
Once the desired gain is determined, select a value for RI or RF. Selecting a value in the kilohm range is
desirable because the amplifier circuit uses currents in the milliamp range. This ensures the part does not draw
too much current. This example uses 10 kΩ for RI which means 36 kΩ is used for RF. This is determined by
Equation 4.
AV = -
RF
RI
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(4)
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9.2.3 Application Curve
2
VIN
1.5
VOUT
1
Volts
0.5
0
-0.5
-1
-1.5
-2
0
0.5
1
Time (ms)
1.5
2
Figure 9-2. Input and Output Voltages of the Inverting Amplifier
9.3 Unity Gain Buffer
± U1 TL072
VIN
+
+
VOUT
10 k
+
12
Copyright © 2017, Texas Instruments Incorporated
Figure 9-3. Single-Supply Unity Gain Amplifier
9.3.1 Design Requirements
•
•
•
VCC must be within valid range per Recommended Operating Conditions. This example uses a value of 12 V
for VCC.
Input voltage must be within the recommended common-mode range, as shown in Recommended Operating
Conditions. The valid common-mode range is 4 V to 12 V (VCC– + 4 V to VCC+).
Output is limited by output range, which is typically 1.5 V to 10.5 V, or VCC– + 1.5 V to VCC+ – 1.5 V.
9.3.2 Detailed Design Procedure
•
•
34
Avoid input voltage values below 1 V to prevent phase reversal where output goes high.
Avoid input values below 4 V to prevent degraded VIO that results in an apparent gain greater than 1. This
may cause instability in some second-order filter designs.
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12
1.5
10
1
8
0.5
Gain (V/V)
VOUT (V)
9.3.3 Application Curves
6
0
4
-0.5
2
-1
-1.5
0
0
2
4
6
VIN (V)
8
10
0
12
D001
2
4
6
VIN (V)
8
10
12
D002
Figure 9-5. Gain vs Input Voltage
Figure 9-4. Output Voltage vs Input Voltage
9.4 System Examples
VCC+
–
R1
R2
+
Input
Output
VCC–
C3
R1 = R2 = 2R3 = 1.5 MW
C1
R3
C1
C1 = C2 =
fo =
Figure 9-6. 0.5-Hz Square-Wave Oscillator
C3
= 110 pF
2
1
= 1kHz
2p R1 C1
Figure 9-7. High-Q Notch Filter
Figure 9-8. 100-kHz Quadrature Oscillator
Figure 9-9. AC Amplifier
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9.5 Power Supply Recommendations
CAUTION
Supply voltages larger than 36 V for a single-supply or outside the range of ±18 V for a dual-supply
can permanently damage the device (see Section 6.1).
Place 0.1-μF bypass capacitors close to the power-supply pins to reduce errors coupling in from noisy or
high-impedance power supplies. For more detailed information on bypass capacitor placement, see Section 9.6.
9.6 Layout
9.6.1 Layout Guidelines
For best operational performance of the device, use good PCB layout practices, including:
•
•
•
•
•
•
36
Noise can propagate into analog circuitry through the power pins of the circuit as a whole, as well as the
operational amplifier. Bypass capacitors are used to reduce the coupled noise by providing low impedance
power sources local to the analog circuitry.
– Connect low-ESR, 0.1-μF ceramic bypass capacitors between each supply pin and ground, placed as
close to the device as possible. A single bypass capacitor from VCC+ to ground is applicable for singlesupply applications.
Separate grounding for analog and digital portions of circuitry is one of the simplest and most-effective
methods of noise suppression. One or more layers on multilayer PCBs are usually devoted to ground planes.
A ground plane helps distribute heat and reduces EMI noise pickup. Take care to physically separate digital
and analog grounds, paying attention to the flow of the ground current.
To reduce parasitic coupling, run the input traces as far away from the supply or output traces as possible. If it
is not possible to keep them separate, it is much better to cross the sensitive trace perpendicular as opposed
to in parallel with the noisy trace.
Place the external components as close to the device as possible. Keeping RF and RG close to the inverting
input minimizes parasitic capacitance, as shown in Section 9.6.2.
Keep the length of input traces as short as possible. Always remember that the input traces are the most
sensitive part of the circuit.
Consider a driven, low-impedance guard ring around the critical traces. A guard ring can significantly reduce
leakage currents from nearby traces that are at different potentials.
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9.6.2 Layout Example
Place components close to
device and to each other to
reduce parasitic errors
Run the input traces as far
away from the supply lines
as possible
RF
NC
NC
IN1í
VCC+
IN1+
OUT
VCCí
NC
VS+
Use low-ESR, ceramic
bypass capacitor
RG
GND
VIN
RIN
GND
Only needed for
dual-supply
operation
GND
VS(or GND for single supply)
VOUT
Ground (GND) plane on another layer
Figure 9-10. Operational Amplifier Board Layout for Noninverting Configuration
RIN
VIN
+
VOUT
RG
RF
Figure 9-11. Operational Amplifier Schematic for Noninverting Configuration
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SLOS080U – SEPTEMBER 1978 – REVISED DECEMBER 2022
10 Device and Documentation Support
10.1 Receiving Notification of Documentation Updates
To receive notification of documentation updates, navigate to the device product folder on ti.com. Click on
Subscribe to updates to register and receive a weekly digest of any product information that has changed. For
change details, review the revision history included in any revised document.
10.2 Support Resources
TI E2E™ support forums are an engineer's go-to source for fast, verified answers and design help — straight
from the experts. Search existing answers or ask your own question to get the quick design help you need.
Linked content is provided "AS IS" by the respective contributors. They do not constitute TI specifications and do
not necessarily reflect TI's views; see TI's Terms of Use.
10.3 Trademarks
TI E2E™ is a trademark of Texas Instruments.
All trademarks are the property of their respective owners.
10.4 Electrostatic Discharge Caution
This integrated circuit can be damaged by ESD. Texas Instruments recommends that all integrated circuits be handled
with appropriate precautions. Failure to observe proper handling and installation procedures can cause damage.
ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may
be more susceptible to damage because very small parametric changes could cause the device not to meet its published
specifications.
10.5 Glossary
TI Glossary
This glossary lists and explains terms, acronyms, and definitions.
11 Mechanical, Packaging, and Orderable Information
The following pages include mechanical packaging and orderable information. This information is the most
current data available for the designated devices. This data is subject to change without notice and revision of
this document. For browser based versions of this data sheet, refer to the left hand navigation.
38
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