LMH6642

AKTIV

Energieeffizienter Einkanal-Verstärker, 130 MHz, 75 mA Rail-to-Rail-Ausgang

Eine neuere Version dieses Produkts ist verfügbar

Drop-In-Ersatz mit verbesserter Funktionalität im Gegensatz zum verglichenen Baustein
OPA863 AKTIV Einkanaliger 110-MHz-Eingangs- und Ausgangsspannungs-Rückkopplungsverstärker mit geringer Leistung u Single channel, lower noise (5.9 nV/√Hz), lower offset (1.3 mV), lower offset drift (3.5 µV/C) and lower power consumption (0.7 mA)
NEU OPA863A AKTIV Hochpräziser RRIO-Einfach-Verstärker mit Spannungsrückkopplung, 105 MHz, 12 V, energieeffizient Lower noise (5.9 nV/√Hz), lower offset (95 µV), lower offset drift (0.3 µV/°C) and lower power consumption (0.75 mA)

Produktdetails

Architecture Voltage FB Number of channels 1 Total supply voltage (+5 V = 5, ±5 V = 10) (min) (V) 2.7 Total supply voltage (+5 V = 5, ±5 V = 10) (max) (V) 12.8 GBW (typ) (MHz) 57 BW at Acl (MHz) 130 Acl, min spec gain (V/V) 1 Slew rate (typ) (V/µs) 135 Vn at flatband (typ) (nV√Hz) 17 Vn at 1 kHz (typ) (nV√Hz) 17 Iq per channel (typ) (mA) 2.7 Vos (offset voltage at 25°C) (max) (mV) 5 Rail-to-rail In to V-, Out Rating Catalog Operating temperature range (°C) -40 to 85 CMRR (typ) (dB) 95 Input bias current (max) (pA) 2600000 Offset drift (typ) (µV/°C) 5 Iout (typ) (mA) 115 2nd harmonic (dBc) 80 3rd harmonic (dBc) 65 Frequency of harmonic distortion measurement (MHz) 1
Architecture Voltage FB Number of channels 1 Total supply voltage (+5 V = 5, ±5 V = 10) (min) (V) 2.7 Total supply voltage (+5 V = 5, ±5 V = 10) (max) (V) 12.8 GBW (typ) (MHz) 57 BW at Acl (MHz) 130 Acl, min spec gain (V/V) 1 Slew rate (typ) (V/µs) 135 Vn at flatband (typ) (nV√Hz) 17 Vn at 1 kHz (typ) (nV√Hz) 17 Iq per channel (typ) (mA) 2.7 Vos (offset voltage at 25°C) (max) (mV) 5 Rail-to-rail In to V-, Out Rating Catalog Operating temperature range (°C) -40 to 85 CMRR (typ) (dB) 95 Input bias current (max) (pA) 2600000 Offset drift (typ) (µV/°C) 5 Iout (typ) (mA) 115 2nd harmonic (dBc) 80 3rd harmonic (dBc) 65 Frequency of harmonic distortion measurement (MHz) 1
SOIC (D) 8 29.4 mm² 4.9 x 6 SOT-23 (DBV) 5 8.12 mm² 2.9 x 2.8

    (VS = ±5 V, TA = 25°C,
    RL = 2 kΩ, AV = +1. Typical Values Unless
    Specified).

  • −3 dB BW (AV = +1) 130 MHz
  • Supply Voltage Range 2.7 V to 12.8 V
  • Slew Rate, (AV = −1) 130V/µs(1)
  • Supply Current (no load) 2.7 mA/amp 
  • Output Short Circuit Current +115 mA to 145 mA
  • Linear Output Current ±75 mA
  • Input Common Mode Volt. 0.5 V Beyond V,
    1 V from V+
  • Output Voltage Swing 40 mV from Rails 
  • Input Voltage Noise (100 kHz) 17nV/√Hz
  • Input Current Noise (100 kHz) 0.9pA/√Hz
  • THD (5 MHz, RL = 2 kΩ, VO = 2 VPP,
    AV = +2) −62 dBc
  • Settling Time 68 ns
  • Fully Characterized for 3 V, 5 V, and ±5 V
  • Overdrive Recovery 100 ns
  • Output Short Circuit Protected(2)
  • No Output Phase Reversal with CMVR Exceeded

    (VS = ±5 V, TA = 25°C,
    RL = 2 kΩ, AV = +1. Typical Values Unless
    Specified).

  • −3 dB BW (AV = +1) 130 MHz
  • Supply Voltage Range 2.7 V to 12.8 V
  • Slew Rate, (AV = −1) 130V/µs(1)
  • Supply Current (no load) 2.7 mA/amp 
  • Output Short Circuit Current +115 mA to 145 mA
  • Linear Output Current ±75 mA
  • Input Common Mode Volt. 0.5 V Beyond V,
    1 V from V+
  • Output Voltage Swing 40 mV from Rails 
  • Input Voltage Noise (100 kHz) 17nV/√Hz
  • Input Current Noise (100 kHz) 0.9pA/√Hz
  • THD (5 MHz, RL = 2 kΩ, VO = 2 VPP,
    AV = +2) −62 dBc
  • Settling Time 68 ns
  • Fully Characterized for 3 V, 5 V, and ±5 V
  • Overdrive Recovery 100 ns
  • Output Short Circuit Protected(2)
  • No Output Phase Reversal with CMVR Exceeded

The LMH664X family true single supply voltage feedback amplifiers offer high speed (130 MHz), low distortion (−62 dBc), and exceptionally high output current (approximately 75 mA) at low cost and with reduced power consumption when compared against existing devices with similar performance.

Input common mode voltage range extends to 0.5V below V and 1 V from V+. Output voltage range extends to within 40 mV of either supply rail, allowing wide dynamic range especially desirable in low voltage applications. The output stage is capable of approximately 75 mA in order to drive heavy loads. Fast output Slew Rate (130 V/µs) ensures large peak-to-peak output swings can be maintained even at higher speeds, resulting in exceptional full power bandwidth of 40 MHz with a 3 V supply. These characteristics, along with low cost, are ideal features for a multitude of industrial and commercial applications.

Careful attention has been paid to ensure device stability under all operating voltages and modes. The result is a very well behaved frequency response characteristic (0.1dB gain flatness up the 12 MHz under 150 Ω load and AV = +2) with minimal peaking (typically 2dB maximum) for any gain setting and under both heavy and light loads. This along with fast settling time (68ns) and low distortion allows the device to operate well in ADC buffer, and high frequency filter applications as well as other applications.

This device family offers professional quality video performance with low DG (0.01%) and DP (0.01°) characteristics. Differential Gain and Differential Phase characteristics are also well maintained under heavy loads (150 Ω) and throughout the output voltage range. The LMH664X family is offered in single (LMH6642), dual (LMH6643), and quad (LMH6644) options.

The LMH664X family true single supply voltage feedback amplifiers offer high speed (130 MHz), low distortion (−62 dBc), and exceptionally high output current (approximately 75 mA) at low cost and with reduced power consumption when compared against existing devices with similar performance.

Input common mode voltage range extends to 0.5V below V and 1 V from V+. Output voltage range extends to within 40 mV of either supply rail, allowing wide dynamic range especially desirable in low voltage applications. The output stage is capable of approximately 75 mA in order to drive heavy loads. Fast output Slew Rate (130 V/µs) ensures large peak-to-peak output swings can be maintained even at higher speeds, resulting in exceptional full power bandwidth of 40 MHz with a 3 V supply. These characteristics, along with low cost, are ideal features for a multitude of industrial and commercial applications.

Careful attention has been paid to ensure device stability under all operating voltages and modes. The result is a very well behaved frequency response characteristic (0.1dB gain flatness up the 12 MHz under 150 Ω load and AV = +2) with minimal peaking (typically 2dB maximum) for any gain setting and under both heavy and light loads. This along with fast settling time (68ns) and low distortion allows the device to operate well in ADC buffer, and high frequency filter applications as well as other applications.

This device family offers professional quality video performance with low DG (0.01%) and DP (0.01°) characteristics. Differential Gain and Differential Phase characteristics are also well maintained under heavy loads (150 Ω) and throughout the output voltage range. The LMH664X family is offered in single (LMH6642), dual (LMH6643), and quad (LMH6644) options.

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Typ Titel Datum
* Data sheet LMH664x Low Power, 130 MHz, 75 mA Rail-to-Rail Output Amplifiers datasheet (Rev. Q) PDF | HTML 20 Sep 2014
Application note Reference-Buffer, ADC-Driver, and Transimpedance Applications for OPAx328 PDF | HTML 19 Nov 2022
Circuit design Inverting circuit for high-to-low voltage level translation to drive ADC 15 Jun 2019
Circuit design Driving a low-voltage single-ended SAR ADC circuit with high-voltage input 10 Jun 2019
Circuit design Circuit for driving high-voltage SAR ADC with a buffered instrumentation 04 Okt 2018
Design guide High-Speed, High-Side Current Sense Reference Design 19 Jul 2017
E-book The Signal e-book: A compendium of blog posts on op amp design topics 28 Mär 2017
Application note Generation of a VCOM buffer input using PWM signal 21 Dez 2015
Application note ADC Input Protection 04 Sep 2013
Application note AN-1240 Video Transmission Over Twisted Pair Wire (Rev. C) 01 Mai 2013
Application note AN-1244 Photo-Diode Current-to-Voltage Converters (Rev. B) 01 Mai 2013
Application note A Walk Along the Signal Path (High-Speed Signal Path) 30 Mär 2005

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