Supply Current High Unity-Gain Bandwidth High Slew Rate 0.45 V/µs Supp
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TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
Supply Current High Unity-Gain Bandwidth High Slew Rate 0.45 V/µs Supply-Current Change Over Military Temp Range Specified Both Single-Supply ±15-V Operation Phase-Reversal Protection
High Open-Loop Gain V/µV
(136 Offset Voltage Offset Voltage Drift With Time 0.005 µV/mo Input Bias Current Noise Voltage nV/Hz
description
TLE202x, TLE202xA, TLE202xB devices precision, high-speed, low-power operational amplifiers using Texas Instruments Excalibur process. These devices combine best features OP21 with highly improved slew rate unity-gain bandwidth. complementary bipolar Excalibur process utilizes isolated vertical transistors that yield dramatic improvement unity-gain bandwidth slew rate over similar devices. addition bias circuit conjunction with this process results extremely stable parameters with both time temperature. This means that precision device remains precision device even with changes temperature over years use. This combination excellent performance with common-mode input voltage range that includes negative rail makes these devices ideal choice low-level signal conditioning applications either single-supply split-supply configurations. addition, these devices offer phase-reversal protection circuitry that eliminates unexpected change output states when inputs goes below negative supply rail. variety available options includes small-outline chip-carrier versions high-density systems applications. C-suffix devices characterized operation from 70°C. I-suffix devices characterized operation from 40°C 85°C. M-suffix devices characterized operation over full military temperature range -55°C 125°C.
Please aware that important notice concerning availability, standard warranty, critical applications Texas Instruments semiconductor products disclaimers thereto appears this data sheet. trademarks property their respective owners.
PRODUCTION DATA information current publication date. Products conform specifications terms Texas Instruments standard warranty. Production processing does necessarily include testing parameters.
Copyright 1997-2007, Texas Instruments Incorporated
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TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
TLE2021 AVAILABLE OPTIONS PACKAGED DEVICES VIOmax 25°C SMALL OUTLINE TLE2021ACD TLE2021CD TLE2021AID TLE2021ID TLE2021AMD TLE2021MD SSOP (DB) TLE2021CDBLE CHIP CARRIER (FK) CERAMIC (JG) PLASTIC TLE2021ACP TLE2021CP TLE2021AIP TLE2021IP TLE2021AMP TLE2021MP TSSOP (PW) TLE2021CPWLE CHIP TLE2021Y
70°C -40°C 85°C -55°C 125°C
TLE2021BMFK TLE2021AMFK TLE2021MFK
TLE2021BMJG TLE2021AMJG TLE2021MJG
packages available taped reeled. order taped reeled part, suffix (e.g., TLE2021CDR). packages only available left-end taped reeled. Chip forms tested 25°C only. TLE2022 AVAILABLE OPTIONS PACKAGED DEVICES VIOmax 25°C SMALL OUTLINE TLE2022BCD TLE2022ACD TLE2022CD TLE2022BID TLE2022AID TLE2022ID TLE2022AMD TLE2022MD SSOP (DB) TLE2022CDBLE CHIP CARRIER (FK) CERAMIC (JG) PLASTIC TLE2022ACP TLE2022CP TLE2022AIP TLE2022IP TLE2022AMP TLE2022MP TSSOP (PW) TLE2022CPWLE CHIP TLE2022Y
70°C -40°C 85°C -55°C 125°C
TLE2022AMFK TLE2022MFK
TLE2022BMJG TLE2022AMJG TLE2022MJG
packages available taped reeled. order taped reeled part, suffix (e.g., TLE2022CDR). packages only available left-end taped reeled. Chip forms tested 25°C only. TLE2024 AVAILABLE OPTIONS PACKAGED DEVICES VIOmax 25°C 1000 1000 1000 SMALL OUTLINE (DW) TLE2024BCDW TLE2024ACDW TLE2024CDW TLE2024BIDW TLE2024AIDW TLE2024IDW TLE2024BMDW TLE2024AMDW TLE2024MDW CHIP CARRIER (FK) CERAMIC PLASTIC TLE2024BCN TLE2024ACN TLE2024CN TLE2024BIN TLE2024AIN TLE2024IN TLE2024BMN TLE2024AMN TLE2024MN CHIP TLE2024Y
70°C
-40°C 85°C
TLE2024BMFK TLE2024AMFK TLE2024MFK
TLE2024BMJ TLE2024AMJ TLE2024MJ
-55°C 125°C
Chip forms tested 25°C only.
POST OFFICE 655303
DALLAS, TEXAS 75265
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
TLE2021 PACKAGE (TOP VIEW)
TLE2021 PACKAGE (TOP VIEW)
OFFSET /GND
VCC+ OFFSET
OFFSET VCC+
internal connection
PACKAGE (TOP VIEW)
1OUT 1IN- 1IN+ /GND
VCC+ 2OUT 2IN- 2IN+
1OUT 2OUT
PACKAGE (TOP VIEW)
internal connection
PACKAGE (TOP VIEW)
1OUT 2OUT
4OUT 4IN- /GND 3OUT
1OUT 4OUT
CC-/
PACKAGE (TOP VIEW)
CC-/ OFFSET
PACKAGE (TOP VIEW)
/GND
1OUT 2OUT
4OUT /GND 3OUT
internal connection
2OUT 3OUT
POST OFFICE 655303
DALLAS, TEXAS 75265
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
TLE2021Y chip information
This chip, when properly assembled, display characteristics similar TLE2021. Thermal compression ultrasonic bonding used doped-aluminum bonding pads. This chip mounted with conductive epoxy gold-silicon preform.
BONDING ASSIGNMENTS /GND VCC+
OFFSET OFFSET
CHIP THICKNESS: MILS TYPICAL BONDING PADS: MILS MINIMUM TJmax= 150°C TOLERANCES 10%. DIMENSIONS MILS. INTERNALLY CONNECTED BACKSIDE CHIP.
POST OFFICE 655303
DALLAS, TEXAS 75265
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
TLE2022Y chip information
This chip, when properly assembled, displays characteristics similar TLE2022. Thermal compression ultrasonic bonding used doped-aluminum bonding pads. This chip mounted with conductive epoxy gold-silicon preform.
BONDING ASSIGNMENTS
VCC+ CHIP THICKNESS: MILS TYPICAL BONDING PADS: MILS MINIMUM TJmax 150°C TOLERANCES 10%. DIMENSIONS MILS.
INTERNALLY CONNECTED BACKSIDE CHIP.
POST OFFICE 655303
DALLAS, TEXAS 75265
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
TLE2024Y chip information
This chip, when properly assembled, displays characteristics similar TLE2024. Thermal compression ultrasonic bonding used doped aluminum-bonding pads. This chip mounted with conductive epoxy gold-silicon preform.
BONDING ASSIGNMENTS (11) -/GND CHIP THICKNESS: MILS TYPICAL BONDING PADS: MILS MINIMUM TJmax 150°C TOLERANCES 10%. DIMENSIONS MILS. (11) INTERNALLY CONNECTED BACKSIDE CHIP. (12) (13) 3OUT 1OUT
2OUT 4OUT
(10) (14)
POST OFFICE 655303
DALLAS, TEXAS 75265
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
equivalent schematic (each amplifier)
VCC+
OFFSET OFFSET /GND ACTUAL DEVICE COMPONENT COUNT COMPONENT Transistors Resistors Diodes Capacitors TLE2021 TLE2022 TLE2024
POST OFFICE 655303
DALLAS, TEXAS 75265
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
absolute maximum ratings over operating free-air temperature range (unless otherwise noted)
Supply voltage, VCC+ (see Note Supply voltage, (see Note Differential input voltage, (see Note Input voltage range, (any input, Note ±VCC Input current, (each input) Output current, (each output): TLE2021 TLE2022 TLE2024 Total current into VCC+ Total current Duration short-circuit current below) 25°C (see Note unlimited Continuous total power dissipation Dissipation Rating Table Operating free-air temperature range, suffix 70°C suffix -40°C 85°C suffix -55°C 125°C Storage temperature range, Tstg -65°C 150°C Case temperature seconds, package 260°C Lead temperature (1/16 inch) from case seconds: package 260°C Lead temperature (1/16 inch) from case seconds: package 300°C
Stresses beyond those listed under "absolute maximum ratings" cause permanent damage device. These stress ratings only, functional operation device these other conditions beyond those indicated under "recommended operating conditions" implied. Exposure absolute-maximum-rated conditions extended periods affect device reliability. NOTES: voltage values, except differential voltages, with respect midpoint between Differential voltages with respect Excessive current flows differential input voltage excess approximately applied between inputs unless some limiting resistance used. output shorted either supply. Temperature and/or supply voltages must limited ensure that maximum dissipation rating exceeded. DISSIPATION RATING TABLE PACKAGE DB-8 DW-16 J-14 JG-8 N-14 PW-8 25°C POWER RATING 1025 1375 1375 1050 1150 1000 DERATING FACTOR ABOVE 25°C mW/°C mW/°C mW/°C 11.0 mW/°C 11.0 mW/°C mW/°C mW/°C mW/°C mW/°C 70°C POWER RATING 85°C POWER RATING 125°C POWER RATING
recommended operating conditions
SUFFIX Supply voltage, Common-mode input voltage, Operating free-air temperature, 13.5 SUFFIX 13.2 SUFFIX 13.2 UNIT
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TLE2021 electrical characteristics specified free-air temperature, (unless otherwise noted)
TLE2021C 0.005 25°C load Full range Full range 0.85 0.85 Full range V/µV 0.85 0.005 0.005 UNIT µV/°C µV/mo TLE2021AC TLE2021BC TEST CONDITIONS 25°C Full range Full range 25°C 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C VICRmin,
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
High-level output voltage
Low-level output voltage
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply-current change over operating temperature range
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
Full range 70°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL1997 REVISED APRIL 2007 AMPLIFIERS SLOS191C FEBRUARY
TLE2021C 0.006 13.5 13.5 13.9 -13.7 -13.7 Full range -14.1 14.3 13.9 -13.7 -13.7 -14.1 13.5 14.3 -15.3 13.5 -15.3 13.5 13.5 13.9 -13.7 -13.7 Full range V/µV -14.1 14.3 -15.3 0.006 0.006 µV/°C µV/mo UNIT TLE2021AC TLE2021BC TEST CONDITIONS 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C load VICR min, 25°C
TLE2021 electrical characteristics specified free-air temperature, (unless otherwise noted)
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
VOM+
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply-current change over operating temperature range
Full range 70°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE2022 electrical characteristics specified free-air temperature, (unless otherwise noted)
TEST CONDITIONS 0.005 25°C load Full range Full range 0.85 0.85 Full range V/µV -0.3 -0.3 0.85 -0.3 0.005 0.005 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C VICRmin, 25°C TLE2022C UNIT µV/°C V/°C µV/mo V/mo TLE2022AC TLE2022BC
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
High-level output voltage
Low-level output voltage
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
Full range 70°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL1997 REVISED APRIL 2007 AMPLIFIERS SLOS191C FEBRUARY
TEST CONDITIONS 0.006 13.5 13.5 13.9 -13.7 -13.7 Full range -14.1 14.3 13.9 -13.7 -13.7 -14.1 13.5 14.3 -15.3 13.5 -15.3 13.5 13.5 13.9 -13.7 -13.7 Full range V/µV -14.1 14.3 -15.3 0.006 0.006 µV/°C V/°C µV/mo V/mo 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C load VICRmin, 25°C UNIT TLE2022C TLE2022AC TLE2022BC
TLE2022 electrical characteristics specified free-air temperature, (unless otherwise noted)
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
Full range 70°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE2024 electrical characteristics specified free-air temperature, (unless otherwise noted)
TLE2024C 1100 1300 0.005 25°C load Full range Full range 1200 1200 0.95 1200 1200 0.95 1200 1200 Full range V/µV -0.3 -0.3 0.95 -0.3 0.005 0.005 1050 UNIT µV/°C µV/mo TLE2024AC TLE2024BC TEST CONDITIONS 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C VICRmin, 25°C
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
High-level output voltage
Low-level output voltage
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
Full range 70°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL1997 REVISED APRIL 2007 AMPLIFIERS SLOS191C FEBRUARY
TLE2024C 1000 1200 0.006 13.5 13.5 13.8 13.7 -13.7 -13.6 1050 Full range Full range 1400 1400 -14.1 14.1 13.9 13.8 -13.7 -13.6 1050 1400 1400 -14.1 13.5 14.2 -15.3 13.5 -15.3 13.5 13.5 13.9 -13.7 -13.6 1050 1400 1400 V/µV -14.1 14.3 -15.3 0.006 0.006 µV/°C µV/mo UNIT TLE2024AC TLE2024BC TEST CONDITIONS 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C load VICRmin, 25°C
TLE2024 electrical characteristics specified free-air temperature, (unless otherwise noted)
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
Full range 70°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE2021 electrical characteristics specified free-air temperature, (unless otherwise noted)
TEST CONDITIONS 0.005 0.25 Full range 25°C load Full range Full range 0.25 0.25 V/µV -0.3 -0.3 0.005 0.005 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C VICR min, 25°C µV/°C µV/mo TLE2021I UNIT TLE2021AI TLE2021BI
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
High-level output voltage
Low-level output voltage
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply-current change over operating temperature range
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
Full range 40°C 85°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL1997 REVISED APRIL 2007 AMPLIFIERS SLOS191C FEBRUARY
TEST CONDITIONS 0.006 13.5 13.2 13.9 -13.7 -13.6 0.75 25°C load Full range Full range -14.1 14.3 13.9 -13.7 -13.6 0.75 -14.1 13.2 14.3 -15.3 13.5 -15.3 13.5 13.2 13.9 -13.7 -13.6 0.75 V/µV -14.1 14.3 -15.3 0.006 0.006 µV/°C µV/mo 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range VICR min, 25°C UNIT TLE2021I TLE2021AI TLE2021BI
TLE2021 electrical characteristics specified free-air temperature, (unless otherwise noted)
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply-current change over operating temperature range
Full range 40°C 85°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE2022 electrical characteristics specified free-air temperature, (unless otherwise noted)
TEST CONDITIONS 0.005 25°C load Full range Full range Full range V/µV -0.3 -0.3 -0.3 0.005 0.005 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C VICRmin, 25°C µV/°C V/°C µV/mo V/mo TLE2022I UNIT TLE2022AI TLE2022BI
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
High-level output voltage
Low-level output voltage
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
Full range 40°C 85°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL1997 REVISED APRIL 2007 AMPLIFIERS SLOS191C FEBRUARY
TEST CONDITIONS 0.006 13.5 13.2 13.9 13.7 13.6 Full range 14.1 14.3 13.9 13.7 13.6 14.1 13.2 14.3 -15.3 13.5 -15.3 13.5 13.2 13.9 13.7 13.6 Full range V/µV 14.1 14.3 -15.3 0.006 0.006 µV/°C V/°C µV/mo V/mo 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C load VICRmin, 25°C UNIT TLE2022I TLE2022AI TLE2022BI
TLE2022 electrical characteristics specified free-air temperature, (unless otherwise noted)
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
Full range 40°C 85°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE2024 electrical characteristics specified free-air temperature, (unless otherwise noted)
TLE2024I 1100 1300 0.005 25°C load Full range Full range 1200 1200 0.95 1200 1200 0.95 1200 1200 Full range V/µV -0.3 -0.3 0.95 -0.3 0.005 0.005 1050 UNIT µV/°C µV/mo TLE2024AI TLE2024BI TEST CONDITIONS 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C VICRmin, 25°C
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC± /VIO)
Supply current
Supply current change over operating temperature range
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
Full range 40°C 85°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL1997 REVISED APRIL 2007 AMPLIFIERS SLOS191C FEBRUARY
TLE2024I 1000 1200 0.006 13.5 13.2 13.8 13.7 -13.7 -13.6 1050 Full range Full range 1400 1400 -14.1 14.1 13.9 13.7 -13.7 -13.6 1050 1400 1400 -14.1 13.2 14.2 -15.3 13.5 -15.3 13.5 13.2 13.8 -13.7 -13.6 1050 1400 1400 V/µV -14.1 14.3 -15.3 0.006 0.006 µV/°C µV/mo UNIT TLE2024AI TLE2024BI TEST CONDITIONS 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C load VICRmin, 25°C
TLE2024 electrical characteristics specified free-air temperature, (unless otherwise noted)
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
Full range 40°C 85°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE2021 electrical characteristics specified free-air temperature, (unless otherwise noted)
TEST CONDITIONS 1100 0.005 Full range 25°C load Full range Full range 0.95 0.95 V/µV -0.3 -0.3 0.95 -0.3 0.005 0.005 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C VICRmin, 25°C TLE2021M UNIT µV/°C µV/mo TLE2021AM TLE2021BM
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
High-level output voltage
Low-level output voltage
POST OFFICE 655303 DALLAS, TEXAS 75265
Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
Full range 55°C 125°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL1997 REVISED APRIL 2007 AMPLIFIERS SLOS191C FEBRUARY
TEST CONDITIONS 1000 0.006 13.5 13.2 13.8 -13.7 -13.6 25°C load Full range Full range -14.1 14.3 13.8 -13.7 -13.6 -14.1 13.2 14.3 -15.3 13.5 -15.3 13.5 13.2 13.8 -13.7 -13.6 V/µV -14.1 14.3 -15.3 0.006 0.006 µV/°C µV/mo UNIT 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range VICRmin, 25°C TLE2021M TLE2021AM TLE2021BM
TLE2021 electrical characteristics specified free-air temperature, (unless otherwise noted)
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
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Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
Full range 55°C 125°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE2022 electrical characteristics specified free-air temperature, (unless otherwise noted)
TEST CONDITIONS 0.005 Full range 25°C load Full range Full range 0.95 0.95 V/µV -0.3 -0.3 0.95 -0.3 0.005 0.005 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C VICRmin, 25°C TLE2022M UNIT µV/°C V/°C µV/mo V/mo TLE2022AM TLE2022BM
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
High-level output voltage
Low-level output voltage
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Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
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Full range 55°C 125°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
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TEST CONDITIONS 0.006 13.5 13.2 13.9 -13.7 -13.6 Full range Full range -14.1 14.3 13.9 -13.7 -13.6 -14.1 13.2 14.3 -15.3 13.5 -15.3 13.5 13.2 13.9 -13.7 -13.6 V/µV -14.1 14.3 -15.3 0.006 0.006 µV/°C V/°C µV/mo V/mo 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C load VICRmin, 25°C UNIT TLE2022M TLE2022AM TLE2022BM
TLE2022 electrical characteristics specified free-air temperature, (unless otherwise noted)
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
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Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
Full range 70°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE2024 electrical characteristics specified free-air temperature, (unless otherwise noted)
TLE2024M 1100 1300 0.005 25°C load Full range Full range 1200 1200 0.95 1200 1200 0.95 1200 1200 Full range V/µV -0.3 -0.3 0.95 -0.3 0.005 0.005 1050 UNIT µV/°C µV/mo TLE2024AM TLE2024BM TEST CONDITIONS 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C VICRmin, 25°C
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
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Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC± /VIO)
Supply current
Supply current change over operating temperature range
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Full range 55°C 125°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
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TLE2024M 1000 1200 0.006 13.5 13.2 13.8 13.7 -13.7 -13.6 1050 Full range Full range 1400 1400 -14.1 14.1 13.9 13.7 -13.7 -13.6 1050 1400 1400 -14.1 13.2 14.2 -15.3 13.5 -15.3 13.5 13.2 13.8 -13.7 -13.6 1050 1400 1400 V/µV -14.1 14.3 -15.3 0.006 0.006 µV/°C µV/mo UNIT TLE2024AM TLE2024BM TEST CONDITIONS 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C Full range 25°C load VICRmin, 25°C
TLE2024 electrical characteristics specified free-air temperature, (unless otherwise noted)
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term drift (see Note
Input offset current
Input bias current
VICR
Common-mode input voltage range
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
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Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio (VCC /VIO)
Supply current
Supply current change over operating temperature range
Full range 55°C 125°C. NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE2021 operating characteristics, 25°C
SUFFIX TEST CONDITIONS 0.16 0.47 0.09 0.09 0.47 0.16 0.16 0.47 nV/Hz pA/Hz 25°C 25°C 25°C 25°C 25°C Figure Figure 25°C 25°C Figure 25°C UNIT V/µs SUFFIX SUFFIX
PARAMETER
Slew rate unity gain
Equivalent input noise voltage (see Figure
VN(PP)
Peak-to-peak equivalent input noise voltage
Equivalent input noise current
Unity-gain bandwidth
Phase margin unity gain
TLE2021 operating characteristics specified free-air temperature,
SUFFIX 0.45 0.45 0.16 0.47 0.09 0.65 0.45 0.42 0.16 0.47 0.09 SUFFIX 0.65 0.45 0.45 0.16 0.47 0.09 nV/Hz pA/Hz SUFFIX 0.65 V/µs UNIT TEST CONDITIONS 25°C Full range 25°C 25°C 25°C 25°C 25°C Figure 25°C Figure
PARAMETER
Slew rate unity gain
Equivalent input noise voltage (see Figure
VN(PP)
Peak-to-peak equivalent input noise voltage
Equivalent input noise current
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Unity-gain bandwidth
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Phase margin unity gain Figure 25°C Full range 70°C C-suffix devices, 40°C 85°C I-suffix devices, 55°C 125°C M-suffix devices.
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SUFFIX TEST CONDITIONS 0.16 0.47 Figure Figure 0.47 0.47 0.16 0.16 nV/Hz pA/Hz V/µs Figure UNIT SUFFIX SUFFIX TEST CONDITIONS 0.45 0.45 0.16 0.47 0.42 0.16 0.47 0.65 0.45 25°C Figure Full range 25°C 25°C 25°C 25°C 25°C Figure Figure 25°C 25°C 0.65 SUFFIX SUFFIX 0.45 0.16 0.47 nV/Hz pA/Hz SUFFIX 0.65 V/µs UNIT
TLE2022 operating characteristics, 25°C
PARAMETER
Slew rate unity gain
Equivalent input noise voltage (see Figure
VN(PP)
Peak-to-peak equivalent input noise voltage
Equivalent input noise current
Unity-gain bandwidth
Phase margin unity gain
TLE2022 operating characteristics specified free-air temperature,
PARAMETER
Slew rate unity gain
Equivalent input noise voltage (see Figure
VN(PP)
Peak-to-peak equivalent input noise voltage
Equivalent input noise current
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Unity-gain bandwidth
Phase margin unity gain Full range 70°C.
TLE2024 operating characteristics, 25°C
SUFFIX TEST CONDITIONS 0.16 0.47 Figure Figure 0.47 0.16 0.16 0.47 pA/Hz Figure UNIT V/µs SUFFIX SUFFIX
PARAMETER
Slew rate unity gain
Equivalent input noise voltage (see Figure
VN(PP)
Peak-to-peak equivalent input noise voltage
Equivalent input noise current
Unity-gain bandwidth
Phase margin unity gain
TLE2024 operating characteristics specified free-air temperature, (unless otherwise noted)
SUFFIX 0.45 0.45 0.16 0.47 0.45 0.42 0.16 0.47 SUFFIX 0.45 0.16 0.47 nV/Hz pA/Hz SUFFIX V/µs UNIT TEST CONDITIONS 25°C Figure Full range 25°C 25°C 25°C 25°C 25°C Figure Figure 25°C 25°C
PARAMETER
Slew rate unity gain
Equivalent input noise voltage (see Figure
VN(PP)
Peak-to-peak equivalent input noise voltage
Equivalent input noise current
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Unity-gain bandwidth
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Phase margin unity gain Full range 70°C.
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TLE2021Y electrical characteristics 25°C (unless otherwise noted)
TLE2021Y PARAMETER VICR CMRR kSVR Input offset voltage Input offset voltage long-term drift (see Note Input offset current Input bias current Common-mode input voltage range Maximum high-level output voltage Maximum low-level output voltage Large-signal differential voltage amplification Common-mode rejection ratio Supply-voltage rejection ratio (VCC /VIO) VICR min, TEST CONDITIONS 0.005 UNIT µV/mo V/µV
Supply current NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
load
TLE2021Y operating characteristics 25°C
TLE2021Y PARAMETER VN(PP) Slew rate unity gain Equivalent input noise voltage Peak-to-peak equivalent input noise voltage Equivalent input noise current Unity-gain bandwidth Phase margin unity gain TEST CONDITIONS 0.16 0.47 nV/Hz pA/Hz UNIT V/µs
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TLE2022Y electrical characteristics, 25°C (unless otherwise noted)
TLE2022Y PARAMETER VICR CMRR kSVR Input offset voltage Input offset voltage long-term drift (see Note Input offset current Input bias current Common-mode input voltage range Maximum high-level output voltage Maximum low-level output voltage Large-signal differential voltage amplification Common-mode rejection ratio VICR min, TEST CONDITIONS 0.005 UNIT µV/mo V/µV
Supply-voltage rejection ratio (VCC /VIO) Supply current load NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE2022Y operating characteristics, 25°C
TLE2022Y PARAMETER VN(PP) Slew rate unity gain Equivalent input noise voltage (see Figure Peak-to-peak equivalent input noise voltage Equivalent input noise current Unity-gain bandwidth Phase margin unity gain Figure Figure TEST CONDITIONS Figure 0.16 0.47 nV/Hz pA/Hz UNIT V/µs
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TLE2024Y electrical characteristics, 25°C (unless otherwise noted)
TLE2024Y PARAMETER Input offset voltage long-term drift (see Note VICR CMRR kSVR Input offset current Input bias current Common-mode input voltage range High-level output voltage Low-level output voltage Large-signal differential voltage amplification Common-mode rejection ratio Supply-voltage rejection ratio (VCC /VIO) VICRmin, TEST CONDITIONS 0.005 -0.3 UNIT µV/mo V/µV
Supply current load NOTE Typical values based input offset voltage shift observed through hours operating life test 150°C extrapolated 25°C using Arrhenius equation assuming activation energy 0.96
TLE2024Y operating characteristics, 25°C
TLE2024Y PARAMETER VN(PP) Slew rate unity gain Equivalent input noise voltage (see Figure Peak-to-peak equivalent input noise voltage Equivalent input noise current Unity-gain bandwidth Phase margin unity gain Figure Figure TEST CONDITIONS Figure 0.16 0.47 pA/Hz UNIT V/µs
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PARAMETER MEASUREMENT INFORMATION
(see Note
(see Note
SINGLE SUPPLY NOTE includes fixture capacitance.
SPLIT SUPPLY
Figure Slew-Rate Test Circuit
SINGLE SUPPLY SPLIT SUPPLY (see Note SPLIT SUPPLY
Figure Noise-Voltage Test Circuit
(see Note
SINGLE SUPPLY NOTE includes fixture capacitance.
Figure Unity-Gain Bandwidth Phase-Margin Test Circuit
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PARAMETER MEASUREMENT INFORMATION
(see Note (see Note SPLIT SUPPLY
POST OFFICE 655303
SINGLE SUPPLY NOTE includes fixture capacitance.
Figure Small-Signal Pulse-Response Test Circuit
typical values
Typical values presented this data sheet represent median (50% point) device parametric performance.
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TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS Table Graphs
FIGURE VO(PP) CMRR Input offset voltage Input bias current Input current Maximum peak output voltage High-level output voltage Low-level output voltage Maximum peak-to-peak output voltage Large-signal differential voltage amplification Short-circuit output current Supply current Common-mode rejection ratio Slew rate Voltage-follower small-signal pulse response Voltage-follower large-signal pulse response VN(PP) Peak-to-peak equivalent input noise voltage Equivalent input noise voltage Unity-gain bandwidth Frequency Supply voltage Free-air temperature Supply voltage Load capacitance Free-air temperature Frequency Distribution Common-mode input voltage Free-air temperature Differential input voltage Output current Free-air temperature High-level output current Free-air temperature Low-level output current Free-air temperature Frequency Frequency Free-air temperature Supply voltage Free-air temperature Supply voltage Free-air temperature Frequency Free-air temperature
Phase margin Phase shift
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TYPICAL CHARACTERISTICS
DISTRIBUTION TLE2021 INPUT OFFSET VOLTAGE
Units Tested From Wafer
DISTRIBUTION TLE2022 INPUT OFFSET VOLTAGE
Percentage Units
Percentage Units
-600 -450 -300 -150 Input Offset Voltage
Amplifiers Tested From Wafer 25°C Package Percentage Units
Input Bias Current
25°C Package
-600
Figure
DISTRIBUTION TLE2024 INPUT OFFSET VOLTAGE
-0.5
Input Offset Voltage
Figure
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Package -400 -200 Input Offset Voltage
Amplifiers Tested From Wafer 25°C
Figure
TLE2021 INPUT BIAS CURRENT COMMON-MODE INPUT VOLTAGE
25°C
Common-Mode Input Voltage
Figure
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TYPICAL CHARACTERISTICS
TLE2022 INPUT BIAS CURRENT COMMON-MODE INPUT VOLTAGE
25°C IIIB Input Bias Current 25°C
TLE2024 INPUT BIAS CURRENT COMMON-MODE INPUT VOLTAGE
Input Bias Current
Common-Mode Input Voltage
Figure
TLE2021 INPUT BIAS CURRENT FREE-AIR TEMPERATURE
Input Bias Current Free-Air Temperature IIIB Input Bias Current
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
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Common-Mode Input Voltage
Figure
TLE2022 INPUT BIAS CURRENT FREE-AIR TEMPERATURE
Free-Air Temperature
Figure
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TYPICAL CHARACTERISTICS
TLE2024 INPUT BIAS CURRENT FREE-AIR TEMPERATURE
INPUT CURRENT DIFFERENTIAL INPUT VOLTAGE
Input Current VCC± 25°C
Input Bias Current
Free-Air Temperature
Figure
TLE2021 MAXIMUM PEAK OUTPUT VOLTAGE OUTPUT CURRENT
Maximum Peak Output Voltage VOM| Maximum Peak Output Voltage Output Current 25°C
VOM+
VOM-
|IO| Output Current
Figure
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
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VCC±
|VID| Differential Input Voltage
Figure
TLE2022 MAXIMUM PEAK OUTPUT VOLTAGE OUTPUT CURRENT
25°C
VOM+
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TYPICAL CHARACTERISTICS
TLE2024 MAXIMUM PEAK OUTPUT VOLTAGE OUTPUT CURRENT
Maximum Peak Output Voltage VOM| Maximum Peak Output Voltage 25°C
MAXIMUM PEAK OUTPUT VOLTAGE FREE-AIR TEMPERATURE
Output Current
Figure
TLE2021 HIGH-LEVEL OUTPUT VOLTAGE HIGH-LEVEL OUTPUT CURRENT
High-Level Output Voltage 25°C
High-Level Output Voltage
High-Level Output Current
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
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14.5 13.5
25°C Free-Air Temperature
12.5
Figure
TLE2022 TLE2024 HIGH-LEVEL OUTPUT VOLTAGE HIGH-LEVEL OUTPUT CURRENT
25°C
High-Level Output Current
Figure
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TYPICAL CHARACTERISTICS
HIGH-LEVEL OUTPUT VOLTAGE FREE-AIR TEMPERATURE
High-Level Output Voltage Low-Level Output Voltage 25°C
LOW-LEVEL OUTPUT VOLTAGE LOW-LEVEL OUTPUT CURRENT
Load
Free-Air Temperature
Figure
LOW-LEVEL OUTPUT VOLTAGE FREE-AIR TEMPERATURE
VVOPP Maximum Peak-to-Peak Output Voltage O(PP)
Low-Level Output Voltage
0.75
Free-Air Temperature
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
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0.25
Low-Level Output Current
Figure
MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE FREQUENCY
25°C
Frequency
Figure
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TYPICAL CHARACTERISTICS
MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE FREQUENCY
VVOPP Maximum Peak-to-Peak Output Voltage O(PP)
Large-Signal Differential Voltage Amplification
120° 140° 160°
25°C
180° 200°
Frequency
Figure
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Phase Shift
25°C
Frequency
Figure
LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION PHASE SHIFT FREQUENCY
100°
Phase Shift
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TYPICAL CHARACTERISTICS
TLE2021 LARGE-SCALE DIFFERENTIAL VOLTAGE AMPLIFICATION FREE-AIR TEMPERATURE
Large-Signal Differential Voltage Amplification Large-Signal Differential Voltage Amplification V/µV
TLE2022 LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION FREE-AIR TEMPERATURE
Free-Air Temperature
Figure
TLE2024 LARGE-SCALE DIFFERENTIAL VOLTAGE AMPLIFICATION FREE-AIR TEMPERATURE
IIOS Short-Circuit Output Current
Large-Signal Differential Voltage Amplification
Free-Air Temperature
|VCC Supply Voltage
Figure
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
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Free-Air Temperature
Figure
TLE2021 SHORT-CIRCUIT OUTPUT CURRENT SUPPLY VOLTAGE
25°C -100
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TYPICAL CHARACTERISTICS
TLE2022 TLE2024 SHORT-CIRCUIT OUTPUT CURRENT SUPPLY VOLTAGE
Short-Circuit Output Current IIOS Short-Circuit Output Current 25°C 25°C -100
TLE2021 SHORT-CIRCUIT OUTPUT CURRENT SUPPLY VOLTAGE
|VCC Supply Voltage
Figure
TLE2022 TLE2024 SHORT-CIRCUIT OUTPUT CURRENT SUPPLY VOLTAGE
Short-Circuit Output CUrrent
25°C
Short-Circuit Output Current
Supply Voltage
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
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-100
Supply Voltage
Figure
TLE2021 SHORT-CIRCUIT OUTPUT CURRENT FREE-AIR TEMPERATURE
-100
Free-Air Temperature
Figure
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TYPICAL CHARACTERISTICS
TLE2022 TLE2024 SHORT-CIRCUIT OUTPUT CURRENT FREE-AIR TEMPERATURE
Short-Circuit Output Current Short-Circuit Output Current -100
TLE2021 SHORT-CIRCUIT OUTPUT CURRENT FREE-AIR TEMPERATURE
-100
Free-Air Temperature
Figure
TLE2022 TLE2024 SHORT-CIRCUIT OUTPUT CURRENT FREE-AIR TEMPERATURE
Short-Circuit Output Current Supply Current Load
|VCC Supply Voltage
Free-Air Temperature
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
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Free-Air Temperature
Figure
TLE2021 SUPPLY CURRENT SUPPLY VOLTAGE
125°C
25°C
55°C
Figure
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TYPICAL CHARACTERISTICS
TLE2022 SUPPLY CURRENT SUPPLY VOLTAGE
Load IICC Supply Current Supply Current 1000 Load
TLE2024 SUPPLY CURRENT SUPPLY VOLTAGE
25°C 125°C 55°C
55°C
|VCC Supply Voltage
|VCC Supply Voltage
Figure
TLE2021 SUPPLY CURRENT FREE-AIR TEMPERATURE
Supply Current Load Free-Air Temperature
TLE2022 SUPPLY CURRENT FREE-AIR TEMPERATURE
IICC Supply Current
Load Free-Air Temperature
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
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125°C 25°C
Figure
Figure
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TYPICAL CHARACTERISTICS
TLE2024 SUPPLY CURRENT FREE-AIR TEMPERATURE
1000 CMRR Common-Mode Rejection Ratio
TLE2021 COMMON-MODE REJECTION RATIO FREQUENCY
Supply Current
Load
25°C Frequency
Free-Air Temperature
Figure
TLE2022 COMMON-MODE REJECTION RATIO FREQUENCY
CMRR Common-Mode Rehection Ratio
TLE2024 COMMON-MODE REJECTION RATIO FREQUENCY
CMRR Common-Mode Rejection Ratio
Frequency
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
25°C
25°C Frequency
Figure
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Figure
Figure
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TYPICAL CHARACTERISTICS
TLE2021 SLEW RATE FREE-AIR TEMPERATURE
TLE2022 SLEW RATE FREE-AIR TEMPERATURE
Slew Rate V/us
Slew Rate
Figure Free-Air Temperature
Slew Rate
Output Voltage
Figure
-100 Time
Free-Air Temperature
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
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Figure Free-Air Temperature
Figure
TLE2024 SLEW RATE FREE-AIR TEMPERATURE
Figure
VOLTAGE-FOLLOWER SMALL-SIGNAL PULSE RESPONSE
25°C Figure
Figure
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TYPICAL CHARACTERISTICS
VOLTAGE-FOLLOWER SMALL-SIGNAL PULSE RESPONSE
25°C Figure 25°C Figure
TLE2021 VOLTAGE-FOLLOWER LARGE-SIGNAL PULSE RESPONSE
Output Voltage
Output Voltage
2.55
2.45
Time
Time
Figure
TLE2022 VOLTAGE-FOLLOWER LARGE-SIGNAL PULSE RESPONSE
25°C Figure
Output Voltage
Output Voltage
Time
Time
Figure
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Figure
TLE2024 VOLTAGE-FOLLOWER LARGE-SCALE PULSE RESPONSE
25°C Figure
Figure
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
TLE2021 VOLTAGE-FOLLOWER LARGE-SIGNAL PULSE RESPONSE
25°C Figure Output Voltage
TLE2022 VOLTAGE-FOLLOWER LARGE-SIGNAL PULSE RESPONSE
Output Voltage
Time
Time
Figure
TLE2024 VOLTAGE-FOLLOWER LARGE-SIGNAL PULSE RESPONSE
Output Voltage
25°C Figure
Time
Time
Figure
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VN(PP) Peak-to-Peak Equivalent Input Noise Voltage VNPP
25°C Figure
Figure
PEAK-TO-PEAK EQUIVALENT INPUT NOISE VOLTAGE
25°C
Figure
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
PEAK-TO-PEAK EQUIVALENT INPUT NOISE VOLTAGE
25°C Equivalent Input Noise Voltage nVHz
VN(PP) Peak-to-Peak Equivalent Input Noise Voltage VNPP
EQUIVALENT INPUT NOISE VOLTAGE FREQUENCY
Time Frequency
Figure
TLE2021 UNITY-GAIN BANDWIDTH SUPPLY VOLTAGE
25°C Figure
Figure
TLE2022 TLE2024 UNITY-GAIN BANDWIDTH SUPPLY VOLTAGE
Unity-Gain Bandwidth
Unity-Gain Bandwidth
25°C Figure
|VCC±| Supply Voltage
|VCC±| Supply Voltage
Figure
Figure
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25°C Figure
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
TLE2021 UNITY-GAIN BANDWIDTH FREE-AIR TEMPERATURE
Unity-Gain Bandwidth Figure
TLE2022 TLE2024 UNITY-GAIN BANDWIDTH FREE-AIR TEMPERATURE
Unity-Gain Bandwidth
Free-Air Temperature
Figure
TLE2021 PHASE MARGIN SUPPLY VOLTAGE
25°C Figure Phase Margin
Phase Margin
|VCC Supply Voltage
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
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Free-Air Temperature
Figure
TLE2022 TLE2024 PHASE MARGIN SUPPLY VOLTAGE
25°C Figure
Figure
Figure
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
TLE2021 PHASE MARGIN LOAD CAPACITANCE
Figure Phase Margin
TLE2022 TLE2024 PHASE MARGIN LOAD CAPACITANCE
Phase Margin
Load Capacitance
Figure
TLE2021 PHASE MARGIN FREE-AIR TEMPERATURE
Phase Margin Phase Margin Figure
Free-Air Temperature
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
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Load Capacitance
Figure
TLE2022 TLE2024 PHASE MARGIN FREE-AIR TEMPERATURE
Figure
Free-Air Temperature
Figure
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25°C Figure
TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
APPLICATION INFORMATION voltage-follower applications
TLE202x circuitry includes input-protection diodes limit voltage across input transistors; however, provision made circuit limit current these diodes forward biased. This condition occur when device operated voltage-follower configuration driven with fast, large-signal pulse. recommended that feedback resistor used limit current maximum prevent degradation device. This feedback resistor forms pole with input capacitance device. feedback resistor values greater than this pole degrades amplifier phase margin. This problem alleviated adding capacitor parallel with feedback resistor (see Figure 71).
Figure Voltage Follower
Input offset voltage nulling
TLE202x series offers external null pins that further reduce input offset voltage. circuit Figure connected shown this feature desired. When external nulling needed, null pins left disconnected.
OFFSET (split supply) (single supply) OFFSET
Figure Input Offset Voltage Null Circuit
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TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
APPLICATION INFORMATION macromodel information
Macromodel information provided derived using Microsim Parts, model generation software used with Microsim PSpice. Boyle macromodel (see Note subcircuit Figure Figure Figure were generated using TLE202x typical electrical operating characteristics 25°C. Using this information, output simulations following parameters generated tolerance most cases):
Maximum positive output voltage swing Maximum negative output voltage swing Slew rate Quiescent power dissipation Input bias current Open-loop voltage amplification
Unity-gain frequency Common-mode rejection ratio Phase margin output resistance output resistance Short-circuit output current limit
NOTE Boyle, Cohn, Pederson, Solomon, "Macromodeling Integrated Circuit Operational Amplifiers", IEEE Journal Solid-State Circuits, SC-9, (1974). vlim egnd
hlim
Figure Boyle Subcircuit
PSpice Parts trademarks MicroSim Corporation.
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TLE202x, TLE202xA, TLE202xB, TLE202xY EXCALIBUR HIGH SPEED POWER PRECISION OPERATIONAL AMPLIFIERS
.SUBCKT TLE2021 6.244E-12 13.4E-12 10.64E-9 cpsr 15.9E-9 dcm+ dcm- ecmr egnd poly(2) (3,0) (4,0) epsr poly(1) (3,4) -60E-6 2.0E-6 ense poly(1) (88,0) 120E-6 poly(6) vpsr 547.3E6 -50E7 50E7 50E7 -50E7 547E6 188.5E-6 335.2E-12 gpsr (85,86) 100E-6 grc1 (4,11) 1.885E-4 grc2 (4,12) 1.885E-4 gre1 (13,10) 6.82E-4 gre2 (14,10) 6.82E-4 hlim vlim
hcmr poly(2) vcm+ vcm- 185E-6 15.67E-6 2E-9 1E-21 100.0E3 14.76E6 2.55E8 11.67E3 vcm+ 13.3 vcm- -14.6 1.300 1.500 vlim 3.600 3.600 vpsr .model d(is=800.0E-18) .model pnp(is=800.0E-18 bf=270) .ends
Figure Boyle Macromodel TLE2021
.SUBCKT TLE2022 6.814E-12 20.00E-12 egnd poly(2) (3,0) (4,0) poly(5) 45.47E6 -50E6 50E6 50E6 -50E6 377.9E-6 7.84E-10 18.07E-6 hlim vlim 100.0E3 vlim .model .model .ends 2.842E3 2.842E3 (10,13) 31.299E-3 (10,14) 31.299E-3 11.07E6 137.2E3 1.300 1.500 d(is=800.0E-18) pnp(is=800.0E-18 bf=257.1)
Figure Boyle Macromodel TLE2022
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PACKAGING INFORMATION
Orderable Device 5962-9088101MPA 5962-9088102M2A 5962-9088102MPA 5962-9088103M2A 5962-9088103MCA 5962-9088104Q2A 5962-9088104QPA 5962-9088105Q2A 5962-9088105QPA 5962-9088106Q2A 5962-9088106QCA 5962-9088107Q2A 5962-9088107QPA 5962-9088108Q2A 5962-9088108QPA 5962-9088109Q2A 5962-9088109QCA TLE2021ACD TLE2021ACDG4 TLE2021ACDR TLE2021ACDRG4 TLE2021ACP TLE2021ACPE4 TLE2021ACPS TLE2021ACPSG4 TLE2021AID TLE2021AIDG4 TLE2021AIP TLE2021AIPE4 TLE2021AMFKB TLE2021AMJGB TLE2021BMFKB TLE2021BMJG TLE2021BMJGB TLE2021CD Status ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE OBSOLETE OBSOLETE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE Package Type CDIP LCCC CDIP LCCC CDIP LCCC CDIP LCCC CDIP LCCC CDIP LCCC CDIP LCCC CDIP LCCC CDIP SOIC SOIC SOIC SOIC PDIP PDIP SOIC SOIC PDIP PDIP LCCC CDIP LCCC CDIP CDIP SOIC Package Drawing Pins Package Plan Green (RoHS Sb/Br) Green (RoHS Sb/Br) Lead/Ball Finish SNPB SNPB SNPB SNPB SNPB SNPB SNPB SNPB SNPB NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU Call Call NIPDAU NIPDAU NIPDAU NIPDAU Peak Temp Type Type Type Type Type Type Type Type Type Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Type Type Call Call Level-1-260C-UNLIM Level-1-260C-UNLIM Type Type
POST-PLATE Type POST-PLATE Type POST-PLATE Type POST-PLATE Type POST-PLATE Type POST-PLATE Type POST-PLATE Type POST-PLATE Type
2500 Green (RoHS Sb/Br) 2500 Green (RoHS Sb/Br) Pb-Free (RoHS) Pb-Free (RoHS) Green (RoHS Sb/Br) Green (RoHS Sb/Br) Pb-Free (RoHS) Pb-Free (RoHS) Green (RoHS
POST-PLATE Type SNPB SNPB SNPB NIPDAU Type Type Type Level-1-260C-UNLIM POST-PLATE Type
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Orderable Device
Status
Package Type SOIC SOIC SOIC PDIP PDIP TSSOP TSSOP TSSOP SOIC SOIC SOIC SOIC PDIP PDIP SOIC SOIC LCCC CDIP CDIP SOIC SOIC SOIC SOIC PDIP PDIP SOIC SOIC
Package Drawing
Pins Package Plan Sb/Br) Green (RoHS Sb/Br)
Lead/Ball Finish
Peak Temp
TLE2021CDG4 TLE2021CDR TLE2021CDRG4 TLE2021CP TLE2021CPE4 TLE2021CPWLE TLE2021CPWR TLE2021CPWRG4 TLE2021ID TLE2021IDG4 TLE2021IDR TLE2021IDRG4 TLE2021IP TLE2021IPE4 TLE2021MD TLE2021MDG4 TLE2021MFKB TLE2021MJG TLE2021MJGB TLE2022ACD TLE2022ACDG4 TLE2022ACDR TLE2022ACDRG4 TLE2022ACP TLE2022ACPE4 TLE2022AID TLE2022AIDG4
ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE OBSOLETE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE OBSOLETE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE
NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU Call NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU Call SNPB SNPB NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU
Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Type Type Call Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Type Type Level-1-220C-UNLIM Level-1-260C-UNLIM Call Type Type Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Type Type Level-1-260C-UNLIM Level-1-260C-UNLIM
2500 Green (RoHS Sb/Br) 2500 Green (RoHS Sb/Br) Pb-Free (RoHS) Pb-Free (RoHS) 2000 Green (RoHS Sb/Br) 2000 Green (RoHS Sb/Br) Green (RoHS Sb/Br) Green (RoHS Sb/Br)
2500 Green (RoHS Sb/Br) 2500 Green (RoHS Sb/Br) Pb-Free (RoHS) Pb-Free (RoHS) Green (RoHS Sb/Br) Green (RoHS Sb/Br) Green (RoHS Sb/Br)
2500 Green (RoHS Sb/Br) 2500 Green (RoHS Sb/Br) Pb-Free (RoHS) Pb-Free (RoHS) Green (RoHS Sb/Br) Green (RoHS Sb/Br)
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Orderable Device TLE2022AIDR TLE2022AIDRG4 TLE2022AIP TLE2022AIPE4 TLE2022AMD TLE2022AMDG4 TLE2022AMDR TLE2022AMDRG4 TLE2022AMFKB TLE2022AMJG TLE2022AMJGB TLE2022BCDR TLE2022BMFKB TLE2022BMJG TLE2022BMJGB TLE2022CD TLE2022CDG4 TLE2022CDR TLE2022CDRG4 TLE2022CP TLE2022CPE4 TLE2022CPSR TLE2022ID TLE2022IDG4 TLE2022IDR TLE2022IDRG4 TLE2022IP TLE2022IPE4 TLE2022MD TLE2022MDG4
Status ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE OBSOLETE ACTIVE OBSOLETE ACTIVE OBSOLETE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE OBSOLETE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE
Package Type SOIC SOIC PDIP PDIP SOIC SOIC SOIC SOIC LCCC CDIP CDIP SOIC LCCC CDIP CDIP SOIC SOIC SOIC SOIC PDIP PDIP SOIC SOIC SOIC SOIC PDIP PDIP SOIC SOIC
Package Drawing
Pins Package Plan 2500 Green (RoHS Sb/Br) 2500 Green (RoHS Sb/Br) 2500 Pb-Free (RoHS) Pb-Free (RoHS) Green (RoHS Sb/Br)
Lead/Ball Finish NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU
Peak Temp Level-1-260C-UNLIM Level-1-260C-UNLIM Type Type Level-1-220C-UNLIM Level-1-260C-UNLIM Level-1-220C-UNLIM Level-1-260C-UNLIM
2500 Green (RoHS Sb/Br) Green (RoHS Sb/Br) Green (RoHS Sb/Br)
POST-PLATE Type Call SNPB Call Call SNPB NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU Call NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU Call Type Call Call Type Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Type Type Call Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Type Type Level-1-220C-UNLIM Level-1-260C-UNLIM
POST-PLATE Type
2500 Green (RoHS Sb/Br) 2500 Green (RoHS Sb/Br) Pb-Free (RoHS) Pb-Free (RoHS) Green (RoHS Sb/Br) Green (RoHS Sb/Br)
2500 Green (RoHS Sb/Br) 2500 Green (RoHS Sb/Br) Pb-Free (RoHS) Pb-Free (RoHS) Green (RoHS Sb/Br)
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Orderable Device TLE2022MDR TLE2022MDRG4 TLE2022MFKB TLE2022MJG TLE2022MJGB TLE2024ACDW TLE2024ACDWG4 TLE2024ACDWR TLE2024ACDWRG4 TLE2024ACN TLE2024ACNE4 TLE2024AIDW TLE2024AIDWG4 TLE2024AIN TLE2024AINE4 TLE2024AMFK TLE2024AMFKB TLE2024AMJ TLE2024AMJB TLE2024BCDW TLE2024BCN TLE2024BIDW TLE2024BIN TLE2024BMDW TLE2024BMDWG4 TLE2024BMFKB TLE2024BMJ TLE2024BMJB TLE2024BMN TLE2024CDW TLE2024CDWG4 TLE2024CDWR TLE2024CDWRG4
Status ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE OBSOLETE OBSOLETE OBSOLETE OBSOLETE ACTIVE ACTIVE ACTIVE NRND ACTIVE OBSOLETE ACTIVE ACTIVE ACTIVE ACTIVE
Package Type SOIC SOIC LCCC CDIP CDIP SOIC SOIC SOIC SOIC PDIP PDIP SOIC SOIC PDIP PDIP LCCC LCCC CDIP CDIP SOIC PDIP SOIC PDIP SOIC SOIC LCCC CDIP CDIP PDIP SOIC SOIC SOIC SOIC
Package Drawing
Pins Package Plan 2500 2500 Green (RoHS Sb/Br) Green (RoHS Sb/Br) Green (RoHS Sb/Br)
Lead/Ball Finish NIPDAU NIPDAU
Peak Temp Level-1-220C-UNLIM Level-1-260C-UNLIM
POST-PLATE Type SNPB SNPB NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU Type Type Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Type Type Level-1-260C-UNLIM Level-1-260C-UNLIM Type Type
2000 Green (RoHS Sb/Br) 2000 Green (RoHS Sb/Br) Pb-Free (RoHS) Pb-Free (RoHS) Green (RoHS Sb/Br) Green (RoHS Sb/Br) Pb-Free (RoHS) Pb-Free (RoHS) Green (RoHS Sb/Br) Green (RoHS Sb/Br) Green (RoHS Sb/Br)
POST-PLATE Type POST-PLATE Type SNPB SNPB Call Call Call Call NIPDAU NIPDAU Type Type Call Call Call Call Level-1-220C-UNLIM Level-1-260C-UNLIM
POST-PLATE Type SNPB SNPB Call NIPDAU NIPDAU NIPDAU NIPDAU Type Type Call Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM Level-1-260C-UNLIM
2000 Green (RoHS Sb/Br) 2000 Green (RoHS
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Orderable Device
Status
Package Type PDIP PDIP SOIC SOIC PDIP PDIP SOIC SOIC LCCC CDIP CDIP PDIP
Package Drawing
Pins Package Plan Sb/Br) Pb-Free (RoHS) Pb-Free (RoHS) Green (RoHS Sb/Br) Green (RoHS Sb/Br) Pb-Free (RoHS) Pb-Free (RoHS) Green (RoHS Sb/Br)
Lead/Ball Finish
Peak Temp
TLE2024CN TLE2024CNE4 TLE2024IDW TLE2024IDWG4 TLE2024IN TLE2024INE4 TLE2024MDW TLE2024MDWG4 TLE2024MFKB TLE2024MJ TLE2024MJB TLE2024MN
ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE ACTIVE OBSOLETE ACTIVE OBSOLETE
NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU NIPDAU
Type Type Level-1-260C-UNLIM Level-1-260C-UNLIM Type Type Level-1-220C-UNLIM Level-1-260C-UNLIM
POST-PLATE Type Call SNPB Call Call Type Call
marketing status values defined follows: ACTIVE: Product device recommended designs. LIFEBUY: announced that device will discontinued, lifetime-buy period effect. NRND: recommended designs. Device production support existing customers, does recommend using this part design. PREVIEW: Device been announced production. Samples available. OBSOLETE: discontinued production device.
Plan planned eco-friendly classification: Pb-Free (RoHS), Pb-Free (RoHS Exempt), Green (RoHS Sb/Br) please check latest availability information additional product content details. TBD: Pb-Free/Green conversion plan been defined. Pb-Free (RoHS): TI's terms "Lead-Free" "Pb-Free" mean semiconductor products that compatible with current RoHS requirements substances, including requirement that lead exceed 0.1% weight homogeneous materials. Where designed soldered high temperatures, Pb-Free products suitable specified lead-free processes. Pb-Free (RoHS Exempt): This component RoHS exemption either lead-based flip-chip solder bumps used between package, lead-based adhesive used between leadframe. component otherwise considered Pb-Free (RoHS compatible) defined above. Green (RoHS Sb/Br): defines "Green" mean Pb-Free (RoHS compatible), free Bromine (Br) Antimony (Sb) based flame retardants exceed 0.1% weight homogeneous material)
MSL, Peak Temp. Moisture Sensitivity Level rating according JEDEC industry standard classifications, peak solder temperature. Important Information Disclaimer:The information provided this page represents TI's knowledge belief date that provided. bases knowledge belief information provided third parties, makes representation warranty accuracy such information. Efforts underway better integrate information from third parties. taken continues take reasonable steps provide representative accurate information have conducted destructive testing chemical analysis incoming materials chemicals. suppliers consider certain information proprietary, thus numbers other limited information available release. event shall TI's liability arising such information exceed total purchase price part(s) issue this document sold Customer annual basis.
Addendum-Page
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OTHER QUALIFIED VERSIONS TLE2021, TLE2021A, TLE2021AM, TLE2021M, TLE2022, TLE2022A, TLE2022AM, TLE2022B, TLE2022BM, TLE2022M, TLE2024, TLE2024A, TLE2024AM, TLE2024B, TLE2024BM, TLE2024M Automotive: TLE2021-Q1, TLE2021A-Q1, TLE2022-Q1, TLE2022A-Q1, TLE2024-Q1, TLE2024A-Q1 Enhanced Product: TLE2021-EP, TLE2021A-EP, TLE2022-EP, TLE2022A-EP, TLE2024-EP, TLE2024A-EP NOTE: Qualified Version Definitions: Q100 high-reliability AutomotiveProduct -devices qualified Aerospace andautomotive applications targeting zero defects Supports Defense, Medical Applications Enhanced
Addendum-Page
PACKAGE MATERIALS INFORMATION
www.ti.com
15-Dec-2008
TAPE REEL INFORMATION
*All dimensions nominal
Device
Package Package Pins Type Drawing SOIC SOIC TSSOP SOIC SOIC SOIC SOIC SOIC SOIC SOIC
Reel Reel Diameter Width (mm) (mm) 330.0 330.0 330.0 330.0 330.0 330.0 330.0 330.0 330.0 330.0 12.4 12.4 12.4 12.4 12.4 12.4 12.4 12.4 16.4 16.4
(mm)
(mm)
(mm)
(mm) 12.0 12.0
Pin1 (mm) Quadrant 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 16.0 16.0
TLE2021ACDR TLE2021CDR TLE2021CPWR TLE2021IDR TLE2022ACDR TLE2022AIDR TLE2022CDR TLE2022IDR TLE2024ACDWR TLE2024CDWR
2500 2500 2000 2500 2500 2500 2500 2500 2000 2000
10.75 10.75
10.7 10.7
Pack Materials-Page
PACKAGE MATERIALS INFORMATION
www.ti.com
15-Dec-2008
*All dimensions nominal
Device TLE2021ACDR TLE2021CDR TLE2021CPWR TLE2021IDR TLE2022ACDR TLE2022AIDR TLE2022CDR TLE2022IDR TLE2024ACDWR TLE2024CDWR
Package Type SOIC SOIC TSSOP SOIC SOIC SOIC SOIC SOIC SOIC SOIC
Package Drawing
Pins
2500 2500 2000 2500 2500 2500 2500 2500 2000 2000
Length (mm) 346.0 346.0 346.0 346.0 340.5 340.5 340.5 340.5 346.0 346.0
Width (mm) 346.0 346.0 346.0 346.0 338.1 338.1 338.1 338.1 346.0 346.0
Height (mm) 29.0 29.0 29.0 29.0 20.6 20.6 20.6 20.6 33.0 33.0
Pack Materials-Page
MECHANICAL DATA
MLCC006B OCTOBER 1996
(S-CQCC-N**)
TERMINAL SHOWN
LEADLESS CERAMIC CHIP CARRIER
TERMINALS
0.342 (8,69) 0.442 (11,23) 0.640 (16,26) 0.739 (18,78) 0.938 (23,83) 1.141 (28,99) 0.358 (9,09) 0.458 (11,63) 0.660 (16,76) 0.761 (19,32) 0.962 (24,43) 1.165 (29,59) 0.307 (7,80) 0.406 (10,31) 0.495 (12,58) 0.495 (12,58) 0.850 (21,6) 1.047 (26,6)
0.358 (9,09) 0.458 (11,63) 0.560 (14,22) 0.560 (14,22) 0.858 (21,8) 1.063 (27,0)
0.080 (2,03) 0.064 (1,63) 0.020 (0,51) 0.010 (0,25)
0.020 (0,51) 0.010 (0,25)
0.055 (1,40) 0.045 (1,14)
0.045 (1,14) 0.035 (0,89)
0.028 (0,71) 0.022 (0,54) 0.050 (1,27)
0.045 (1,14) 0.035 (0,89)
4040140 10/96 NOTES: linear dimensions inches (millimeters). This drawing subject change without notice. This package hermetically sealed with metal lid. terminals gold plated. Falls within JEDEC MS-004
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MECHANICAL DATA
MTSS001C JANUARY 1995 REVISED FEBRUARY 1999
(R-PDSO-G**)
PINS SHOWN
PLASTIC SMALL-OUTLINE PACKAGE
0,65
0,30 0,19
0,10
0,15 4,50 4,30 6,60 6,20 Gage Plane 0,25 0,75 0,50
Seating Plane 1,20 0,15 0,05 0,10
PINS
3,10
5,10
5,10
6,60
7,90
9,80
2,90
4,90
4,90
6,40
7,70
9,60
4040064/F 01/97 NOTES: linear dimensions millimeters. This drawing subject change without notice. Body dimensions include mold flash protrusion exceed 0,15. Falls within JEDEC MO-153
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MECHANICAL DATA
MCER001A JANUARY 1995 REVISED JANUARY 1997
(R-GDIP-T8)
0.400 (10,16) 0.355 (9,00)
CERAMIC DUAL-IN-LINE
0.280 (7,11) 0.245 (6,22)
0.065 (1,65) 0.045 (1,14)
0.063 (1,60) 0.015 (0,38)
0.020 (0,51)
0.310 (7,87) 0.290 (7,37)
0.200 (5,08) Seating Plane 0.130 (3,30)
0.023 (0,58) 0.015 (0,38) 0.100 (2,54) 0.014 (0,36) 0.008 (0,20)
0°-15°
4040107/C 08/96 NOTES: linear dimensions inches (millimeters). This drawing subject change without notice. This package hermetically sealed with ceramic using glass frit. Index point provided terminal identification. Falls within 1835 GDIP1-T8
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MECHANICAL DATA
MPDI001A JANUARY 1995 REVISED JUNE 1999
(R-PDIP-T8)
0.400 (10,60) 0.355 (9,02)
PLASTIC DUAL-IN-LINE
0.260 (6,60) 0.240 (6,10)
0.070 (1,78) 0.325 (8,26) 0.300 (7,62) 0.015 (0,38) 0.200 (5,08) Seating Plane 0.125 (3,18) 0.010 (0,25) Gage Plane
0.020 (0,51)
0.100 (2,54) 0.021 (0,53) 0.015 (0,38) 0.010 (0,25)
0.430 (10,92)
4040082/D 05/98 NOTES: linear dimensions inches (millimeters). This drawing subject change without notice. Falls within JEDEC MS-001
latest package information,
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IMPORTANT NOTICE
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