TLE2141M-D

AKTIV

Einfach-Operationsverstärker mit Hochgeschwindigkeit und hohem Antrieb

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Selbe Funktionalität wie der verglichene Baustein bei gleicher Anschlussbelegung
TLC2272AM AKTIV Präziser Dual-Operationsverstärker Advanced LinCMOS™, Rail-to-Rail, mit breitem Temperaturbereich Lower offset voltage (0.95 mV), lower power (1.1 mA), lower noise (9 nV/√Hz)

Produktdetails

Number of channels 1 Total supply voltage (+5 V = 5, ±5 V = 10) (max) (V) 44 Total supply voltage (+5 V = 5, ±5 V = 10) (min) (V) 4 Vos (offset voltage at 25°C) (max) (mV) 1.5 Offset drift (typ) (µV/°C) 1.7 Input bias current (max) (pA) 1500000 GBW (typ) (MHz) 6 Features High Cload Drive Slew rate (typ) (V/µs) 45 Rail-to-rail In to V- Iq per channel (typ) (mA) 3.4 Vn at 1 kHz (typ) (nV√Hz) 10.5 CMRR (typ) (dB) 108 Rating Automotive Operating temperature range (°C) -55 to 125 Iout (typ) (A) 0.031 Architecture Bipolar Input common mode headroom (to negative supply) (typ) (V) -0.3 Input common mode headroom (to positive supply) (typ) (V) -1.8 Output swing headroom (to negative supply) (typ) (V) 0.1 Output swing headroom (to positive supply) (typ) (V) -0.8 THD + N at 1 kHz (typ) (%) 0.0052
Number of channels 1 Total supply voltage (+5 V = 5, ±5 V = 10) (max) (V) 44 Total supply voltage (+5 V = 5, ±5 V = 10) (min) (V) 4 Vos (offset voltage at 25°C) (max) (mV) 1.5 Offset drift (typ) (µV/°C) 1.7 Input bias current (max) (pA) 1500000 GBW (typ) (MHz) 6 Features High Cload Drive Slew rate (typ) (V/µs) 45 Rail-to-rail In to V- Iq per channel (typ) (mA) 3.4 Vn at 1 kHz (typ) (nV√Hz) 10.5 CMRR (typ) (dB) 108 Rating Automotive Operating temperature range (°C) -55 to 125 Iout (typ) (A) 0.031 Architecture Bipolar Input common mode headroom (to negative supply) (typ) (V) -0.3 Input common mode headroom (to positive supply) (typ) (V) -1.8 Output swing headroom (to negative supply) (typ) (V) 0.1 Output swing headroom (to positive supply) (typ) (V) -0.8 THD + N at 1 kHz (typ) (%) 0.0052
SOIC (D) 8 29.4 mm² 4.9 x 6
  • Low Noise:
    • 10 Hz . . . 15 nV/√Hz
    • 1 kHz . . . 10.5 nV/√Hz
  • 10000-pF Load Capability
  • 20-mA Min Short-Circuit Output Current
  • 30-V/µs Min Slew Rate
  • High Gain-Bandwidth Product . . . 5.9 MHz
  • Low VIO . . . 500 µV Max at 25°C
  • Single or Split Supply . . . 4 V to 44 V
  • Fast Settling Time
    • 340 ns to 0.1%
    • 400 ns to 0.01%
  • Saturation Recovery . . . 150 ns
  • Large Output Swing . . . VCC– +0.1 V
    to VCC+ – 1 V
  • Low Noise:
    • 10 Hz . . . 15 nV/√Hz
    • 1 kHz . . . 10.5 nV/√Hz
  • 10000-pF Load Capability
  • 20-mA Min Short-Circuit Output Current
  • 30-V/µs Min Slew Rate
  • High Gain-Bandwidth Product . . . 5.9 MHz
  • Low VIO . . . 500 µV Max at 25°C
  • Single or Split Supply . . . 4 V to 44 V
  • Fast Settling Time
    • 340 ns to 0.1%
    • 400 ns to 0.01%
  • Saturation Recovery . . . 150 ns
  • Large Output Swing . . . VCC– +0.1 V
    to VCC+ – 1 V

The TLE2141M and TLE2141AM are high-performance, internally compensated operational amplifiers built using Texas Instruments complementary bipolar Excalibur process. The TLE2141AM is a tighter offset voltage grade of the TLE2141M. Both are pin-compatible upgrades to standard industry products.

The design incorporates a patent-pending input stage that simultaneously achieves low audio band noise of 10.5 nV/√Hz with a 10-Hz 1/f corner and symmetrical 40-V/µs slew rate typically with loads up to 800 pF. The resulting low distortion and high power bandwidth are important in high-fidelity audio applications. A fast settling time of 340 ns to 0.1% of a 10-V step with a 2-kΩ/100-pF load is useful in fast actuator/positioning drivers. Under similar test conditions, settling time to 0.01% is 400 ns.

The devices are stable with capacitive loads up to 10 nF, although the 6-MHz bandwidth decreases to 1.8 MHz at this high loading level. As such, the TLE2141M and TLE2141AM are useful for low-droop sample and holds and direct buffering of long cables, including four 20-mA current loops.

The special design also exhibits an improved insensitivity to inherent IC component mismatches as is evidenced by a 500-µV maximum offset voltage and 1.7-µV/°C typical drift. Minimum common-mode rejection ratio and supply-voltage rejection ratio are 85 dB and 90 dB, respectively.

Device performance is relatively independent of supply voltage over the ±2-V to ±22-V range. Inputs can operate between VCC– –0.3 to VCC+ –1.8 V without inducing phase reversal, although excessive input current may flow out of each input exceeding the lower common-mode input range. The all NPN output stage provides a nearly rail-to-rail output swing of VCC– +0.1 to VCC+ –1 V under light current loading conditions. The device can sustain shorts to either supply since output current is internally limited, but care must be taken to ensure that maximum package power dissipation is not exceeded.

Both versions can also be used as comparators. Differential inputs of VCC± can be maintained without damage to the device. Open-loop propagation delay with TTL supply levels is typically 200 ns. This gives a good indication as to output stage saturation recovery when the device is overdriven beyond the limits of recommended output swing.

Both the TLE2141M and TLE2141AM are available in a wide variety of packages, including both the industry-standard 8-pin small-outline version and chip form for high-density system applications. The M-suffix is characterized for operation over the full military temperature range of –55°C to 125°C.

The TLE2141M and TLE2141AM are high-performance, internally compensated operational amplifiers built using Texas Instruments complementary bipolar Excalibur process. The TLE2141AM is a tighter offset voltage grade of the TLE2141M. Both are pin-compatible upgrades to standard industry products.

The design incorporates a patent-pending input stage that simultaneously achieves low audio band noise of 10.5 nV/√Hz with a 10-Hz 1/f corner and symmetrical 40-V/µs slew rate typically with loads up to 800 pF. The resulting low distortion and high power bandwidth are important in high-fidelity audio applications. A fast settling time of 340 ns to 0.1% of a 10-V step with a 2-kΩ/100-pF load is useful in fast actuator/positioning drivers. Under similar test conditions, settling time to 0.01% is 400 ns.

The devices are stable with capacitive loads up to 10 nF, although the 6-MHz bandwidth decreases to 1.8 MHz at this high loading level. As such, the TLE2141M and TLE2141AM are useful for low-droop sample and holds and direct buffering of long cables, including four 20-mA current loops.

The special design also exhibits an improved insensitivity to inherent IC component mismatches as is evidenced by a 500-µV maximum offset voltage and 1.7-µV/°C typical drift. Minimum common-mode rejection ratio and supply-voltage rejection ratio are 85 dB and 90 dB, respectively.

Device performance is relatively independent of supply voltage over the ±2-V to ±22-V range. Inputs can operate between VCC– –0.3 to VCC+ –1.8 V without inducing phase reversal, although excessive input current may flow out of each input exceeding the lower common-mode input range. The all NPN output stage provides a nearly rail-to-rail output swing of VCC– +0.1 to VCC+ –1 V under light current loading conditions. The device can sustain shorts to either supply since output current is internally limited, but care must be taken to ensure that maximum package power dissipation is not exceeded.

Both versions can also be used as comparators. Differential inputs of VCC± can be maintained without damage to the device. Open-loop propagation delay with TTL supply levels is typically 200 ns. This gives a good indication as to output stage saturation recovery when the device is overdriven beyond the limits of recommended output swing.

Both the TLE2141M and TLE2141AM are available in a wide variety of packages, including both the industry-standard 8-pin small-outline version and chip form for high-density system applications. The M-suffix is characterized for operation over the full military temperature range of –55°C to 125°C.

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Typ Titel Datum
* Data sheet Excalibur Low-Noise High-Speed Precision Operational Amplifiers datasheet 01 Nov 1990

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