available features Supply Current High Unity-Gain Bandwidth High
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TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
available features
Supply Current High Unity-Gain Bandwidth High Slew Rate 0.45 V/µs Supply Current Change Over Military Temp Range Specified Both V/GND Operation Phase-Reversal Protection TLE2024M, TLE2024AM, TLE2024BM devices precision, high-speed, low-power operational amplifiers using Texas Instruments patent-pending Excalibur process. These devices combine best features OP421 with highly improved slew rate, unity-gain bandwidth, input offset voltage. complementary bipolar Excalibur process utilizes isolated vertical transistors that yield dramatic improvement unity-gain bandwidth slew rate over similar devices. addition patent-pending 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.
High Open-Loop Gain V/µV (137 Offset Voltage Offset Voltage Drift With Time 0.005 µV/mo Input Bias Current Noise Voltage nV/Hz
LARGE-SCALE DIFFERENTIAL VOLTAGE AMPLIFICATION PHASE SHIFT FREQUENCY
Differential Voltage Amplification µA/Amplifier Phase Shift
100° 120° 140° 160° 180° Phase Shift
This combination excellent performance with 200° common-mode input voltage range that Frequency includesthe 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 packaging options includes small-outline chip-carrier versions high-density systems applications. These devices characterized operation over full military temperature range 55°C 125°C.
AVAILABLE OPTIONS VIOmax 25°C 55°C 125°C 1000 PACKAGE CHIP CARRIER (FK) TLE2024AMFK TLE2024MFK CERAMIC TLE2024BMJ TLE2024AMJ TLE2024MJ
PRODUCTION DATA information current publication date. Products conform specifications terms Texas Instruments standard warranty. Production processing does necessarily include testing parameters.
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25°C
Copyright 1991, Texas Instruments Incorporated
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
PACKAGE (TOP VIEW)
PACKAGE (TOP VIEW)
1OUT 2OUT
4OUT /GND 3OUT
1OUT 4OUT /GND
internal connection
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2OUT 3OUT
D3265, 1989-REVISED OCTOBER 1991
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
/GND
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equivalent schematic (each amplifier)
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
absolute maximum ratings over operating free-air temperature range
Supply voltage, (see Note Supply voltage, (see Note Differential input voltage (see Note Input voltage, (any input, Note Input current, (each input) Output current, (each output) Total current into Total current Duration short-circuit current below) 25°C (see Note unlimited Continuous total dissipation Dissipation Rating Table Operating free-air temperature range, 55°C 125°C Storage temperature range 65°C 150°C Case temperature seconds: package 260°C Lead temperature (1/16 inch) from case seconds: package 300°C
NOTES: voltage values, except differential voltages, with respect midpoint between Differential voltages noninverting input with respect inverting input. Excessive current will flow 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 25°C POWER RATING 1375 1375 DERATING FACTOR ABOVE 25°C mW/°C mW/°C 70°C POWER RATING 85°C POWER RATING 125°C POWER RATING
recommended operating conditions
Supply voltage, Common-mode input voltage voltage, Operating free-air temperature, 13.2 UNIT
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electrical characteristics specified free-air temperature, (unless otherwise noted)
TEST CONDITONS 1100 1300 0.005 25°C load Full range Full range 1000 1000 0.95 1000 1000 0.95 1000 1000 0.95 0.005 0.005 1050 µV/°C µV/mo 25°C Full range Full range 25°C Full range 25°C Full range 25°C Full range 25°C 25°C Full range Full range 25°C Full range 25°C Full range VICR min, 25°C Full range 25°C UNIT TLE2024M TLE2024AM TLE2024BM
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term long term drift (see Note
Input offset current
Input bias current
VICR
Common mode input Common-mode voltage range
High-level output voltage
V/µV
Low-level output voltage
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Large signal Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio Supply voltage (VCC /VIO)
Supply current
Supply current change over operating temperature range
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD 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
TLE2024AM, TLE2024AM, TLE2024BM ECCALIBUR HIGH-SPEED LOW-SPEED PRECISION QUAD OPERATIONAL AMPLIFIERS
TEST CONDITONS 1000 1200 0.006 13.5 13.2 13.8 13.7 13.7 13.6 25°C load Full range Full range 1200 1200 14.1 14.1 13.9 13.7 13.7 13.6 1200 1200 14.1 13.2 14.2 15.3 13.5 15.3 13.5 13.2 13.8 13.7 13.6 1200 1200 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 25°C Full range Full range 25°C Full range 25°C Full range VICR min, 25°C Full range 25°C UNIT TLE2024M TLE2024AM TLE2024BM V/µV
electrical characteristics specified free-air temperature, (unless otherwise noted)
PARAMETER
Input offset voltage
Temperature coefficient input offset voltage
Input offset voltage long-term long term drift (see Note
Input offset current
Input bias current
VICR
Common mode input Common-mode voltage range
Maximum positive peak output voltage swing
Maximum negative peak output voltage swing
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Large signal Large-signal differential voltage amplification
CMRR
Common-mode rejection ratio
kSVR
Supply-voltage rejection ratio Supply voltage (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
operating characteristics 25°C
TEST CONDITIONS 0.16 0.47 Figure Figure 0.47 0.47 0.16 0.16 nVHz pAHz Figure V/µs TLE2024M UNIT TLE2024AM TLE2024BM
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
operating characteristics specified free-air temperature, (unless otherwise noted)
TEST CONDITIONS 0.45 0.16 0.47 0.16 0.47 0.45 Figure Full range 25°C 25°C 25°C 25°C 25°C Figure Figure 25°C 25°C 25°C TLE2024M TLE2024AM TLE2024BM 0.45 0.16 0.47 nVHz pAHz UNIT V/µs
PARAMETER
Slew rate unity gain
Equivalent input noise voltage (see Figure
VN(PP)
Peak peak Peak-to-peak equivalent input noise voltage
Equivalent input noise current
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Unity-gain bandwidth
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
Phase margin unity gain Full range 55°C 125°C.
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
PARAMETER MEASUREMENT INFORMATION
(see Note
(see Note
NOTE includes fixture capacitance. SINGLE SUPPLY
Figure Slew Rate Test Circuit
SINGLE SUPPLY
SPLIT SUPPLY
Figure Noise Voltage Test Circuit
(see Note
(see Note
NOTE includes fixture capacitance. SINGLE SUPPLY
SPLIT SUPPLY
Figure Unity-Gain Bandwidth Phase Margin Test Circuit
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SPLIT SUPPLY
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
PARAMETER MEASUREMENT INFORMATION
(see Note
(see Note
NOTE includes fixture capacitance. SINGLE SUPPLY
SPLIT SUPPLY
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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TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD 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 swing Differential voltage amplification Short-circuit output current Supply current Common-mode rejection ratio Slew rate Pulse response VN(PP) Peak-to-peak equivalent input noise voltage Equivalent input noise voltage Unity-gain bandwidth Distribution Commmon-mode voltage Temperature Differential input voltage Output current Temperature High-level output current Temperature Low-level output current Temperature Frequency Frequency Temperature Supply voltage Temperature Supply voltage Temperature Frequency Temperature Small signal Large signal Frequency Supply voltage Temperature Supply voltage Capacitive load Temperature Frequency 15,16
Phase margin Phase shift
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TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
TLE2024M DISTRIBUTION INPUT OFFSET VOLTAGE
Amplifiers Tested From Wafer 25°C Package
TLE2024BM INPUT BIAS CURRENT COMMON-MODE INPUT VOLTAGE
Input Bias Current
Percentage Units
Input Offset Voltage
Common-Mode Input Voltage
Figure
TLE2024BM INPUT BIAS CURRENT FREE-AIR TEMPERATURE
Figure
INPUT CURRENT DIFFERENTIAL INPUT VOLTAGE
Input Current
25°C
Input Bias Current
|VID Differential Input Voltage
Free-Air Temperature
Figure
Figure
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25°C
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
TLE2024BM MAXIMUM PEAK OUTPUT VOLTAGE OUTPUT CURRENT
Maximum Peak Output Voltage Maximum Peak Output Voltage
TLE2024BM MAXIMUM PEAK OUTPUT VOLTAGE FREE-AIR TEMPERATURE
14.5
13.5
12.5
|IO| Output Current
Figure
TLE2024B HIGH-LEVEL OUTPUT VOLTAGE HIGH-LEVEL OUTPUT CURRENT
High-Level Output Voltage
High-Level Output Voltage
25°C
High-Level Output Current
Free-Air Temperature
Figure
Figure
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25°C
Free-Air Temperature
25°C
Figure
TLE2024B HIGH-LEVEL OUTPUT VOLTAGE FREE-AIR TEMPERATURE
Load
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
LOW-LEVEL OUTPUT VOLTAGE LOW-LEVEL OUTPUT CURRENT
LOW-LEVEL OUTPUT VOLTAGE FREE-AIR TEMPERATURE
Low-Level Output Voltage
Low-Level Output Voltage
0.75
0.25
Low-Level Output Current
Figure
TLE2024BM MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE FREQUENCY
VO(PP) Maximum Peak-to-Peak Output Voltage VO(PP) VO(PP) Maximum Peak-to-Peak Output Voltage VO(PP)
25°C
25°C
Frequency
Figure
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Free-Air Temperature
Figure
TLE2024BM MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE FREQUENCY
Frequency
Figure
25°C
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
TLE2024BM LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION PHASE SHIFT FREQUENCY
Differential Voltage Amplification Differential Voltage Amplification
TLE2024BM LARGE-SCALE DIFFERENTIAL VOLTAGE AMPLIFICATION FREE-AIR TEMPERATURE
Phase Shift
100° 120° 140° 160° 180° 200° Phase Shift
Frequency
Figure
SHORT-CIRCUIT OUTPUT CURRENT SUPPLY VOLTAGE
Short-Circuit Output Current
Short-Circuit Output Current
25°C
-100
|VCC Supply Voltage
Free-Air Temperature
Figure
Figure
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25°C
Free-Air Temperature
Figure
SHORT-CIRCUIT OUTPUT CURRENT FREE-AIR TEMPERATURE
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
SHORT-CIRCUIT OUTPUT CURRENT SUPPLY VOLTAGE SHORT-CIRCUIT OUTPUT CURRENT FREE-AIR TEMPERATURE
25°C
Short-Circuit Output Current
Short-Circuit Output Current
Supply Voltage
Free-Air Temperature
Figure
SUPPLY CURRENT SUPPLY VOLTAGE
1000 Load 1000
Figure
SUPPLY CURRENT FREE-AIR TEMPERATURE
IICC Supply Current
25°C 125°C 55°C
IICC Supply Current
|VCC Supply Voltage
Figure
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Load
Free-Air Temperature
Figure
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
TLE2024BM COMMON-MODE REJECTION RATIO FREQUENCY
CMRR Common-Mode Rejection Ratio
SLEW RATE FREE-AIR TEMPERATURE
Slew Rate V/us
25°C
Figure
Frequency
Free-Air Temperature
Figure
VOLTAGE-FOLLOWER SMALL-SIGNAL PULSE RESPONSE
Figure
VOLTAGE-FOLLOWER SMALL-SIGNAL PULSE RESPONSE
Output Voltage
Output Voltage
2.55
2.45
Time
Time
Figure
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25°C Figure
25°C Figure
Figure
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
VOLTAGE-FOLLOWER LARGE-SIGNAL PULSE RESPONSE VOLTAGE-FOLLOWER LARGE-SCALE PULSE RESOPONSE
Output Voltage
Output Voltage
25°C Figure
Time
Time
Figure
PEAK-TO-PEAK EQUIVALANT INPUT NOISE VOLTAGE
VN(PP) VN(PP) Peak-to-Peak Input Noise Voltage VN(PP) VN(PP) Peak-to-Peak Input Noise Voltage
25°C
Time
Figure
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25°C Figure
Figure
PEAK-TO-PEAK EQUIVALENT INPUT NOISE VOLTAGE
25°C
Time
Figure
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
EQUIVALENT INPUT NOISE VOLTAGE FREQUENCY
Equivalent Input Noise Voltage nV/Hz
UNITY-GAIN BANDWIDTH SUPPLY VOLTAGE
Unity-Gain Bandwidth
25°C Figure
Frequency
|VCC Supply Voltage
Figure
UNITY-GAIN BANDWIDTH FREE-AIR TEMPERATURE
Unity-Gain Bandwidth
Phase Margin degrees
Figure
Free-Air Temperature |VCC Supply Voltage
Figure
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25°C Figure
Figure
PHASE MARGIN SUPPLY VOLTAGE
25°C Figure
Figure
TLE2024M, TLE2024AM, TLE2024BM EXCALIBUR HIGH-SPEED LOW-POWER PRECISION QUAD OPERATIONAL AMPLIFIERS
TYPICAL CHARACTERISTICS
PHASE MARGIN LOAD-CAPACITANCE PHASE-MARGIN FREE-AIR TEMPERATURE
Phase Margin
Phase Margin
Load Capacitance
Figure
Data high temperatures applicable only within rated operating free-air temperature ranges various devices.
APPLICATION INFORMATION voltage-follower applications
TLE2024M circuitry includes input protection diodes limit voltage across input transistors; however, provision made circuit limit current these diodes forward-biased. Note that this condition occur when device operated voltagefollower configuration driven with fast, large-signal pulse. recommended that feedback resistor used limit current maximum prevent degradation device. Also, remember that this feedback resistor will form pole with input capacitance device. feedback resistor values greater than this pole will degrade amplifier's phase margin. This problem alleviated adding capacitor parallel with feedback resistor (see Figure 39).
Input characteristics
input unused amplifiers should tied ground avoid possible oscillation.
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Figure Free-Air Temperature
25°C Figure
Figure
Figure Voltage Follower
IMPORTANT NOTICE Texas Instruments (TI) reserves right make changes products discontinue semiconductor product service without notice, advises customers obtain latest version relevant information verify, before placing orders, that information being relied current. warrants performance semiconductor products related software specifications applicable time sale accordance with TI's standard warranty. Testing other quality control techniques utilized extent deems necessary support this warranty. Specific testing parameters each device necessarily performed, except those mandated government requirements. Certain applications using semiconductor products involve potential risks death, personal injury, severe property environmental damage ("Critical Applications"). SEMICONDUCTOR PRODUCTS DESIGNED, INTENDED, AUTHORIZED, WARRANTED SUITABLE LIFE-SUPPORT APPLICATIONS, DEVICES SYSTEMS OTHER CRITICAL APPLICATIONS. Inclusion products such applications understood fully risk customer. products such applications requires written approval appropriate officer. Questions concerning potential risk applications should directed through local sales office. order minimize risks associated with customer's applications, adequate design operating safeguards should provided customer minimize inherent procedural hazards. assumes liability applications assistance, customer product design, software performance, infringement patents services described herein. does warrant represent that license, either express implied, granted under patent right, copyright, mask work right, other intellectual property right covering relating combination, machine, process which such semiconductor products services might used.
Copyright 1996, Texas Instruments Incorporated
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