Datasheet

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TL05x, TL05xA

ENHANCED-JFET LOW-OFFSET

OPERATIONAL AMPLIFIERS

SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003

POST OFFICE BOX 655303 • DALLAS, TEXAS 75265

Direct Upgrades to TL07x and TL08x BiFET

Operational Amplifiers

Faster Slew Rate (20 V/µs Typ) Without

Increased Power Consumption

On-Chip Offset-Voltage Trimming for

Improved DC Performance and Precision

Grades Are Available (1.5 mV, TL051A)

1OUT

1IN–

1IN+

CC+

2IN+

2IN–

2OUT

4OUT

4IN–

4IN+

CC–

3IN+

3IN–

3OUT

OFFSET N1

IN–

IN+

CC–

CC+

OUT

OFFSET N2

1OUT

1IN–

1IN+

CC–

CC+

2OUT

2IN–

2IN+

TL054

D, DB, N, OR NS PACKAGE

(TOP VIEW)

TL051

D OR P PACKAGE

(TOP VIEW)

TL052

D, P, OR PS PACKAGE

(TOP VIEW)

description/ordering information

The TL05x series of JFET-input operational amplifiers offers improved dc and ac characteristics over the TL07x

and TL08x families of BiFET operational amplifiers. On-chip Zener trimming of offset voltage yields precision

grades as low as 1.5 mV (TL051A) for greater accuracy in dc-coupled applications. Texas Instruments improved

BiFET process and optimized designs also yield improved bandwidth and slew rate without increased power

consumption. The TL05x devices are pin-compatible with the TL07x and TL08x and can be used to upgrade

existing circuits or for optimal performance in new designs.

BiFET operational amplifiers offer the inherently higher input impedance of the JFET-input transistors, without

sacrificing the output drive associated with bipolar amplifiers. This makes them better suited for interfacing with

high-impedance sensors or very low-level ac signals. They also feature inherently better ac response than

bipolar or CMOS devices having comparable power consumption.

The TL05x family was designed to offer higher precision and better ac response than the TL08x, with the low

noise floor of the TL07x. Designers requiring significantly faster ac response or ensured lower noise should

consider the Excalibur TLE208x and TLE207x families of BiFET operational amplifiers.

Because BiFET operational amplifiers are designed for use with dual power supplies, care must be taken to

observe common-mode input voltage limits and output swing when operating from a single supply. DC biasing

of the input signal is required, and loads should be terminated to a virtual-ground node at mid-supply. Texas

Instruments TLE2426 integrated virtual ground generator is useful when operating BiFET amplifiers from single

supplies.

The TL05x are fully specified at ±15 V and ±5 V. For operation in low-voltage and/or single-supply systems,

Texas Instruments LinCMOS families of operational amplifiers (TLC-prefix) are recommended. When moving

from BiFET to CMOS amplifiers, particular attention should be paid to the slew rate and bandwidth

requirements, and also the output loading.

Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of

Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.

PRODUCTION DATA information is current as of publication date.

Products conform to specifications per the terms of Texas Instruments

standard warranty. Production processing does not necessarily include

testing of all parameters.

Summary of content (68 pages)

PAGE 1
TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 D D D Direct Upgrades to TL07x and TL08x BiFET Operational Amplifiers Faster Slew Rate (20 V/µs Typ) Without Increased Power Consumption TL051 D OR P PACKAGE (TOP VIEW) OFFSET N1 IN– IN+ VCC– 1 8 2 7 3 6 4 5 NC VCC+ OUT OFFSET N2 On-Chip Offset-Voltage Trimming for Improved DC Performance and Precision Grades Are Available (1.
PAGE 2
TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 ORDERING INFORMATION TA VIOmax AT 25°C PDIP (P) Tube of 50 800 µV SOIC (D) 0°C to 70°C 1.
PAGE 3
TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 symbol (each amplifier) IN– – OUT + IN+ equivalent schematic (each amplifier) VCC+ Q10 Q2 Q15 Q3 JF3 Q7 Q16 Q6 Q13 Q11 IN+ R7 Q12 D1 IN– JF1 R9 OUT R5 JF2 R8 C1 Q4 Q14 Q1 See Note A Q9 Q5 OFFSET N1 OFFSET N2 R10 R4 R1 Q17 Q8 R2 D2 R6 R3 VCC– NOTE A: OFFSET N1 and OFFSET N2 are available only on the TL051x.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 absolute maximum ratings over operating free-air temperature range (unless otherwise noted)† Supply voltage, VCC+ (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 V Supply voltage, VCC– (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL051C and TL051AC electrical characteristics at specified free-air temperature TL051C, TL051AC PARAMETER TEST CONDITIONS TL051C VIO Input offset voltage TL051AC aV IO Temperature coefficient of input offset voltage‡ VO = 0 0, VIC = 0, RS = 50 Ω IIB VICR VOM OM+ 25°C 0.75 0.59 4.5 25°C 0.55 Full range 0.8 mV 1.8 8 8 TL051AC 25°C to 70°C 8 8 0.04 0.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL051C and TL051AC operating characteristics at specified free-air temperature TL051C, TL051AC PARAMETER SR+ TEST CONDITIONS Positive P iti slew l rate t at unity gain‡ RL = 2 kΩ,, See Figure 1 SR– Negative N ti slew l rate t at unity gain‡ tr Rise time tf Fall time CL = 100 pF,, VI(PP) = ±10 mV, RL = 2 kΩ, kΩ CL = 100 pF F, See Figures 1 and 2 g Overshoot factor 25°C 16 13 20 Ful
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL051I and TL051AI electrical characteristics at specified free-air temperature TL051I, TL051AI PARAMETER TEST CONDITIONS TL051I VIO Input offset voltage TL051AI aV IO Temperature coefficient of input offset voltage‡ VO = 0 0, VIC = 0, RS = 50 Ω IIB VICR VOM + 25°C 0.75 0.59 3.5 5.3 25°C 0.55 Full range 0.35 4.6 7 8 TL051AI 25°C to 85°C 8 8 mV 0.04 0.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL051I and TL051AI operating characteristics at specified free-air temperature TL051I, TL051AI PARAMETER SR+ TEST CONDITIONS Positive P iti slew l rate t at unity gain‡ RL = 2 kΩ,, See Figure 1 SR– Negative N ti slew l rate t at unity gain‡ tr Rise time tf Fall time CL = 100 pF,, 25°C 16 Full range VI(PP) ( ) = ±10 mV, RL = 2 kΩ, kΩ CL = 100 pF F, See Figures 1 and 2 g 13 UNIT 20
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL052C and TL052AC electrical characteristics at specified free-air temperature TL052C, TL052AC PARAMETER TEST CONDITIONS TL052C VIO Input offset voltage TL052AC VO = 0, 0 VIC = 0 0, RS = 50 Ω aV IO IIO IIB VICR VOM OM+ Temperature coefficient of input offset voltage‡ 0.73 0.65 25°C Full range 2.8 0.4 3.8 6 25°C 0.04 0.
PAGE 10
TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL052C and TL052AC electrical characteristics at specified free-air temperature (continued) TL052C, TL052AC PARAMETER Supply-voltage S l lt rejection j ti ratio (∆VCC±/∆VIO) kSVR S l currentt Supply (two amplifiers) am lifiers) ICC VO1/VO2 Crosstalk attenuation TEST CONDITIONS VO = 0, VO = 0, TA RS = 50 Ω No load AVD = 100 VCC± = ±5 V MIN TYP MAX VCC± = ±15 V MIN TYP MAX 25°C 75 9
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL052I and TL052AI electrical characteristics at specified free-air temperature TL052I, TL052AI PARAMETER TL052I VIO Input offset voltage TL052AI VO = 0, 0 VIC = 0, RS = 50 Ω aV IO TA† TEST CONDITIONS VCC± = ±5 V MIN TYP MAX VCC± = ±15 V MIN TYP MAX 0.73 0.65 25°C Full range 3.5 5.3 25°C 0.51 Full range 0.4 4.6 0.8 mV 2.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL052I and TL052AI electrical characteristics at specified free-air temperature (continued) TL052I, TL052AI PARAMETER Supply-voltage S l lt rejection j ti ratio (∆VCC±/∆VIO) kSVR S l currentt Supply (two amplifiers) am lifiers) ICC VO1/VO2 Crosstalk attenuation TEST CONDITIONS VO = 0, VO = 0, TA RS = 50 Ω No load AVD = 100 VCC± = ±5 V MIN TYP MAX VCC± = ±15 V MIN TYP MAX 25°C 75 9
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL054C and TL054AC electrical characteristics at specified free-air temperature TL054C, TL054AC PARAMETER TEST CONDITIONS TL054C VIO Input offset voltage TL054AC aV IO Temperature coefficient of input offset voltage VO = 0 0, VIC = 0, RS = 50 Ω IIB VICR VOM OM+ 25°C 0.64 0.56 3.5 0.5 5.7 UNIT 4 6.2 1.5 mV 3.7 25 23 TL054AC 25°C to 70°C 24 23 0.04 0.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL054C and TL054AC operating characteristics at specified free-air temperature TL054C, TL054C PARAMETER SR+ SR SR– tr tf TEST CONDITIONS Positive slew rate at unity gain Negative g slew rate at unity gain‡ RL = 2 kΩ, CL = 100 pF, See Figure 1 and Note 7 Rise time Fall time VI(PP) = ±10 mV, RL = 2 kΩ, kΩ CL = 100 pF F, See Figures 1 and 2 Overshoot factor 25°C 15.4 10 17.8 0°C 15.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL054I and TL054AI electrical characteristics at specified free-air temperature TL054I, TL054AI PARAMETER TEST CONDITIONS TL054I VIO Input In ut offset voltage TL054AI aV IO Temperature coefficient of input offset voltage VO = 0 0, VIC = 0, RS = 50 Ω IIB VICR VOM OM+ 25°C 0.64 0.56 3.5 0.5 6.8 UNIT 4 7.3 1.5 mV 4.8 25 24 TL054AI 25°C to 85°C 25 23 0.04 0.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TL054I and TL054AI operating characteristics at specified free-air temperature TL054I, TL054AI PARAMETER SR+ SR SR– tr tf TEST CONDITIONS Negative g slew rate at unity gain‡ VCC± = ±15 V MIN TYP MAX 15.4 10 –40°C 16.4 8 18 85°C 14 8 17.3 25°C 13.9 10 15.9 –40°C 14.7 8 16.1 85°C 13 8 15.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 PARAMETER MEASUREMENT INFORMATION VCC+ Overshoot – VO + VI VCC– CL (see Note A) 90% RL 10% tr NOTE A: CL includes fixture capacitance. Figure 1. Slew Rate, Rise/Fall Time, and Overshoot Test Circuit Figure 2. Rise-Time and Overshoot Waveform 2 kΩ 10 kΩ VCC+ VO 100 Ω VO VCC– – + VCC– RS – VI + VCC+ CL (see Note A) RS RL NOTE A: CL includes fixture capacitance. Figure 3.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS Table of Graphs FIGURE VIO Input offset voltage Distribution 6–11 aV Temperature coefficient of input offset voltage Distribution 12, 13, 14 IIB Input bias current vs Common-mode input voltage vs Free-air temperature 15 16 IIO Input offset current vs Free-air temperature 16 VIC Common-mode input voltage range limits vs Supply voltage vs Free-air temperatur
PAGE 19
TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS DISTRIBUTION OF TL051A INPUT OFFSET VOLTAGE DISTRIBUTION OF TL051 INPUT OFFSET VOLTAGE 12 20 433 Units Tested From 1 Wafer Lot VCC± = ±15 V TA = 25°C P Package 16 Percentage of Units – % Percentage of Units – % 16 8 4 ÎÎÎÎÎÎÎÎÎÎ ÎÎÎÎÎÎÎÎÎÎ ÎÎÎÎÎÎÎÎÎÎ 393 Units Tested From 1 Wafer Lot VCC± = ±15 V TA = 25°C P Package 12 8 4 0 –1.5 –1.1 –0.9 –0.6 –0.3 0 0.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS DISTRIBUTION OF TL054A INPUT OFFSET VOLTAGE DISTRIBUTION OF TL054 INPUT OFFSET VOLTAGE 30 15 Percentage of Amplifiers – % 25 Percentage of Amplifiers – % 1140 Amplifiers Tested From 3 Wafer Lots VCC± = ±15 V TA = 25°C N Package 20 15 10 5 0 –4 –3 –2 –1 0 1 2 3 12 1048 Amplifiers Tested From 3 Wafer Lots VCC± = ±15 V TA = 25°C N Package 9 6 3 0 –1.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS INPUT BIAS CURRENT vs COMMON-MODE INPUT VOLTAGE DISTRIBUTION OF TL054 INPUT OFFSET VOLTAGE TEMPERATURE COEFFICIENT ÎÎÎÎÎÎÎÎÎÎÎÎ ÎÎÎÎÎÎÎÎÎÎÎÎ 324 Amplifiers Tested From 3 Wafer Lots VCC± = ±15 V TA = 25°C to 125°C N Package Percentage of Amplifiers – % 40 30 20 10 VCC± = ±15 V TA = 25°C IB – Input Bias Current – nA 50 I 10 0 –60 –40 aV –20 IO 0 20 40 5 0
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS COMMON-MODE INPUT VOLTAGE RANGE LIMITS† vs FREE-AIR TEMPERATURE 20 OUTPUT VOLTAGE vs DIFFERENTIAL INPUT VOLTAGE ÎÎÎÎÎ ÎÎÎÎÎÎÎÎÎÎ ÎÎÎÎÎ ÎÎÎÎÎ ÎÎÎÎ ÎÎÎÎ 5 15 Positive Limit 10 3 5 0 ÎÎÎÎÎ ÎÎÎÎÎ –5 Negative Limit –10 –15 –20 –75 –50 –25 0 25 50 75 100 TA – Free-Air Temperature – °C VCC± = ±5 V TA = 25°C 4 VO – Output Voltage – V VIC – Common-Mode Input Volt
PAGE 23
TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS 30 RL = 2 kΩ VCC± = ±15 V 25 20 15 TA = 125°C 10 TA = –55°C VCC± = ±5 V 5 0 10 k 100 k 1M f – Frequency – Hz MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE vs FREQUENCY VO(PP) – Maximum Peak-to-Peak Output Voltage – V VO(PP) – Maximum Peak-to-Peak Output Voltage – V MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGE† vs FREQUENCY 10 M 30 25 ÁÁÁÁÁ ÁÁÁÁÁ 15 10 5 ÁÁÁÁÁ ÁÁÁÁÁ VCC± =
PAGE 24
TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS MAXIMUM PEAK OUTPUT VOLTAGE† vs FREE-AIR TEMPERATURE MAXIMUM PEAK OUTPUT VOLTAGE vs OUTPUT CURRENT |VOM| – Maximum Peak Output Voltage – V VCC± = ±15 V RL = 10 kΩ TA = 25°C 14 12 VOM+ 10 8 VOM– 6 4 2 5 5 10 15 20 25 30 35 40 |IO| – Output Current – mA 45 4 RL = 2 kΩ 3 2 1 VCC± = ±5 V 0 –1 –2 –3 ÁÁÁ ÁÁÁ VOM– 50 RL = 10 kΩ –50 –25 0 25 50 75 100 TA – Free
PAGE 25
TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION AND PHASE SHIFT vs FREQUENCY VCC± = ±15 V RL = 2 kΩ CL = 25 pF TA = 25°C 105 104 0° 30° AVD 103 φ m – Phase Shift A VD – Differential Voltage Amplification – V/mV 106 60° 90° 102 Phase Shift 101 120° 1 150° 0.
PAGE 26
TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS LARGE-SIGNAL DIFFERENTIAL VOLTAGE AMPLIFICATION† vs FREE-AIR TEMPERATURE ÁÁÁÁÁ ÁÁÁÁÁ VCC± = ±15 V VO = 10 V RL = 10 kΩ 400 100 RL = 2 kΩ 40 10 –75 100 CMRR – Common-Mode Rejection Ratio – dB A VD – Differential Voltage Amplification – V/mV 1000 COMMON-MODE REJECTION RATIO vs FREQUENCY VCC± = ±5 V TA = 25°C 90 80 70 60 50 40 30 20 10 0 –50 –25 0 25 50 75 1
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS SUPPLY-VOLTAGE REJECTION RATIO† vs FREE-AIR TEMPERATURE OUTPUT IMPEDANCE vs FREQUENCY 110 AVD = 100 40 zo – Output Impedance – Ω kkSVR SVR – Supply-Voltage Rejection Ratio – dB 100 10 AVD = 10 4 1 AVD = 1 0.4 VCC± = ±15 V TA = 25°C ro (open loop) ≈ 250 Ω 0.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS TL051 SUPPLY CURRENT† vs SUPPLY VOLTAGE SHORT-CIRCUIT OUTPUT CURRENT† vs FREE-AIR TEMPERATURE 3 VCC± = ±15 V ÎÎÎÎÎ ÎÎÎÎÎ 40 2.5 VID = 100 m V 20 IICC CC – Supply Current – mA IIOS OS – Short-Circuit Output Current – mA 60 VCC± = ±5 V 0 ÎÎÎÎÎÎ –20 ÁÁ ÁÁ VCC± = ±5 V VCC± = ±15 V TA = 125°C 1.5 1 0.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS TL052 SUPPLY CURRENT† vs FREE-AIR TEMPERATURE TL051 SUPPLY CURRENT† vs FREE-AIR TEMPERATURE 5 3 4 IICC CC – Supply Current – mA IICC CC – Supply Current – mA 2.5 VCC± = ±15 V 2 VCC± = ±5 V 1.5 ÁÁ ÁÁ 1 0.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS TL052 SLEW RATE vs LOAD RESISTANCE TL054 SLEW RATE vs LOAD RESISTANCE 25 25 ÎÎ SR+ SR – Slew Rate – V/µs SR – Slew Rate – V/µs SR+ 20 20 SR– 15 10 15 10 VCC± = ±5 V CL = 100 pF TA = 25°C See Figure 1 5 1 4 40 10 VCC± = ±5 V CL = 100 pF TA = 25°C See Figure 1 5 0 0.4 0 0.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS TL054 SLEW RATE vs LOAD RESISTANCE TL051 SLEW RATE† vs FREE-AIR TEMPERATURE 25 30 SR+ 25 SR– 15 10 VCC± = ±5 V CL = 100 pF TA = 25°C See Figure 1 5 0 0.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS TL051 SLEW RATE† vs FREE-AIR TEMPERATURE TL052 SLEW RATE† vs FREE-AIR TEMPERATURE 30 25 SR+ SR+ 25 SR – Slew Rate – V/µs SR – Slew Rate – V/µs 20 20 SR– 15 10 VCC± = ±15 V RL = 2 kΩ CL = 100 pF See Figure 1 5 0 –75 –50 –25 0 25 50 75 100 SR– 15 10 VCC± = ±15 V RL = 2 kΩ CL = 100 pF See Figure 1 5 0 –75 125 –50 TA – Free-Air Temperature – °C –25 0
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS TL052 AND TL054 EQUIVALENT INPUT NOISE VOLTAGE vs FREQUENCY TL051 EQUIVALENT INPUT NOISE VOLTAGE vs FREQUENCY VCC± = ±15 V RS = 20 Ω TA = 25°C See Figure 3 70 50 40 30 20 Vn – Equivalent Input Noise Voltage – nV/ Hz Vn – Equivalent Input Noise Voltage – nV/ Hz ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ 100 100 VCC± = ±15 V RS = 20 Ω TA = 25°C See Figure 3 70 50 40 30 20 10 10 1
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS TL054 UNITY-GAIN BANDWIDTH vs SUPPLY VOLTAGE 3.2 2.9 3.1 2.8 B1 – Unity-Gain Bandwidth – MHz B1 – Unity-Gain Bandwidth – MHz TL052 UNITY-GAIN BANDWIDTH vs SUPPLY VOLTAGE 3 2.9 ÁÁÁÁ ÁÁÁÁ ÁÁÁÁ ÁÁÁÁ ÁÁÁÁ VI = 10 mV RL = 2 kΩ CL = 25 pF TA = 25°C See Figure 4 2.8 2.7 4 6 8 10 12 14 2.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS TL051 PHASE MARGIN vs SUPPLY VOLTAGE TL054 UNITY-GAIN BANDWIDTH† vs FREE-AIR TEMPERATURE 65° 63° 3 φ m – Phase Margin B1 – Unity-Gain Bandwidth – MHz 4 2 VCC± = ±5 V to ±15 V VI = 10 mV RL = 2 kΩ CL = 25 pF TA = 25°C See Figure 4 1 0 –75 61° 59° VI = 10 mV RL = 2 kΩ CL = 25 pF TA = 25°C See Figure 4 57° 55° –50 –25 0 25 50 75 100 0 125 2 4 TA – Free-Ai
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS TL051 PHASE MARGIN† vs LOAD CAPACITANCE TL052 PHASE MARGIN† vs LOAD CAPACITANCE 70° 70° VI = 10 mV RL = 2 kΩ TA = 25°C See Figure 4 65° 60° φ m – Phase Margin φ m – Phase Margin 65° VI = 10 mV RL = 2 kΩ TA = 25°C See Figure 4 VCC± = ±15 V See Note A 55° VCC± = ±5 V 50° ÎÎÎÎÎ ÎÎÎÎÎ ÎÎÎÎÎ VCC± = ±15 V 60° See Note A VCC± = ±5 V 55° 50° 45° 40° 0 10 20 30 40
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS TL052 PHASE MARGIN† vs FREE-AIR TEMPERATURE TL051 PHASE MARGIN† vs FREE-AIR TEMPERATURE ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ φ m – Phase Margin 63° 65° VI = 10 mV RL = 2 kΩ CL = 25 pF See Figure 4 63° VCC± = ±15 V φ m – Phase Margin 65° 61° VCC± = ±5 V 59° VI = 10 mV RL = 2 kΩ CL = 25 pF See Figure 4 VCC± = ±15 V 61° 59° VCC± = ±5 V 57° 57° 55° –75 ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁ
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 TYPICAL CHARACTERISTICS VOLTAGE-FOLLOWER LARGE-SIGNAL PULSE RESPONSE 16 8 12 6 8 4 VO – Output Voltage – V VO – Output Voltage – mV VOLTAGE-FOLLOWER SMALL-SIGNAL PULSE RESPONSE ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ ÁÁÁÁÁ 4 VCC± = ±15 V RL = 2 kΩ CL = 100 pF TA = 25°C See Figure 1 0 –4 –8 –12 VCC± = ±15 V RL = 2 kΩ CL = 100 pF TA = 25°C See Figure 1 0 –2 –4 –6 –16 0 0.2 0.4 0.6 0.8 1.0 1.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 APPLICATION INFORMATION output characteristics All operating characteristics (except bandwidth and phase margin) are specified with 100-pF load capacitance. The TL05x and TL05xA drive higher capacitive loads; however, as the load capacitance increases, the resulting response pole occurs at lower frequencies, causing ringing, peaking, or even oscillation.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 APPLICATION INFORMATION input characteristics The TL05x and TL05xA are specified with a minimum and a maximum input voltage that, if exceeded at either input, could cause the device to malfunction.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 APPLICATION INFORMATION phase meter The phase meter in Figure 84 produces an output voltage of 10 mV per degree of phase delay between the two input signals VA and VB. The reference signal VA must be the same frequency as VB. The TLC3702 comparators (U1) convert these two input sine waves into ±5-V square waves. Then, R1 and R4 provide level shifting prior to the SN74HC109 dual J-K flip flops.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 APPLICATION INFORMATION precision constant-current source over temperature A precision current source (see Figure 85) benefits from the high input impedance and stability of Texas Instruments enhanced-JFET process. A low-current shunt regulator maintains 2.5 V between the inverting input and the output of the TL05x. The negative feedback then forces 2.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 APPLICATION INFORMATION instrumentation amplifier with adjustable gain/null The instrumentation amplifier in Figure 86 benefits greatly from the high input impedance and stable input offset voltage of the TL05xA. Amplifiers U1A, U1B, and U2A form the actual instrumentation amplifier, while U2B provides offset null. Potentiometer R1 provides gain adjustment.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 APPLICATION INFORMATION high input impedance log amplifier The low input offset voltage and high input impedance of the TL05xA creates a precision log amplifier (see Figure 87). IC1 is a 2.5-V, low-current precision, shunt regulator. Transistors Q1 and Q2 must be a closely matched npn pair.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 APPLICATION INFORMATION analog thermometer By combining a current source that does not vary over temperature with an instrumentation amplifier, a precise analog thermometer can be built (see Figure 89). Amplifier U1A and IC1 establish a constant current through the temperature-sensing diode D1.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 APPLICATION INFORMATION voltage-ratio-to-dB converter The application in Figure 90 measures the amplitude ratio of two signals, then converts the ratio to decibels (see Figure 91). The output voltage provides a resolution of 100 mV/dB. The two inputs can be either dc or sinusoidal ac signals. When using ac signals, both signals should be the same frequency or output glitches will occur.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 APPLICATION INFORMATION R2 VA + U1A _ R1 20 kΩ 2N2484 10 kΩ + U1B _ R6 + U1C _ D1 10 kΩ R5 + U2A _ 20 kΩ R7 + U3A _ 10 kΩ R18 R20 10 kΩ 10 kΩ R16 + U3D _ 16.3 kΩ R9 VB + _U1D 10 kΩ R4 10 kΩ R3 30 kΩ R8 Q1 VO R76 2N2484 10 kΩ 16.
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TL05x, TL05xA ENHANCED-JFET LOW-OFFSET OPERATIONAL AMPLIFIERS SLOS178A – FEBRUARY 1997 - REVISED FEBRUARY 2003 APPLICATION INFORMATION macromodel information Macromodel information provided was derived using Microsim Parts, the model-generation software used with Microsim PSpice. The Boyle macromodel (see Note 6 and subcircuit Figure 92) are generated using the TL05x typical electrical and operating characteristics at TA = 25°C.
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PACKAGE MATERIALS INFORMATION www.ti.com 8-Apr-2013 TAPE AND REEL INFORMATION *All dimensions are nominal Device Package Package Pins Type Drawing SPQ Reel Reel A0 Diameter Width (mm) (mm) W1 (mm) B0 (mm) K0 (mm) P1 (mm) W Pin1 (mm) Quadrant TL051CDR SOIC D 8 2500 330.0 12.4 6.4 5.2 2.1 8.0 12.0 Q1 TL052ACDR SOIC D 8 2500 330.0 12.4 6.4 5.2 2.1 8.0 12.0 Q1 TL052AIDR SOIC D 8 2500 330.0 12.4 6.4 5.2 2.1 8.0 12.0 Q1 TL052CDR SOIC D 8 2500 330.0 12.4 6.
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PACKAGE MATERIALS INFORMATION www.ti.com 8-Apr-2013 *All dimensions are nominal Device Package Type Package Drawing Pins SPQ Length (mm) Width (mm) Height (mm) TL051CDR SOIC D 8 2500 340.5 338.1 20.6 TL052ACDR SOIC D 8 2500 340.5 338.1 20.6 TL052AIDR SOIC D 8 2500 340.5 338.1 20.6 TL052CDR SOIC D 8 2500 340.5 338.1 20.6 TL052CPSR SO PS 8 2000 367.0 367.0 38.0 TL052IDR SOIC D 8 2500 340.5 338.1 20.6 TL054ACDR SOIC D 14 2500 333.2 345.9 28.
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MECHANICAL DATA MCER001A – JANUARY 1995 – REVISED JANUARY 1997 JG (R-GDIP-T8) CERAMIC DUAL-IN-LINE 0.400 (10,16) 0.355 (9,00) 8 5 0.280 (7,11) 0.245 (6,22) 1 0.063 (1,60) 0.015 (0,38) 4 0.065 (1,65) 0.045 (1,14) 0.310 (7,87) 0.290 (7,37) 0.020 (0,51) MIN 0.200 (5,08) MAX Seating Plane 0.130 (3,30) MIN 0.023 (0,58) 0.015 (0,38) 0°–15° 0.100 (2,54) 0.014 (0,36) 0.008 (0,20) 4040107/C 08/96 NOTES: A. B. C. D. E. All linear dimensions are in inches (millimeters).
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IMPORTANT NOTICE Texas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, enhancements, improvements and other changes to its semiconductor products and services per JESD46, latest issue, and to discontinue any product or service per JESD48, latest issue. Buyers should obtain the latest relevant information before placing orders and should verify that such information is current and complete.