Operational amplifiers topics  |
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741
application note LM741 Operational Amplifier, application note |
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741
op-amp
CMRR, input impedance, output impedance, input bias current, offset
voltage, slew rate |
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741
op-amp CMRR, input impedance, output impedance, input bias current, offset
voltage, slew rate, opamp circuits, pdf file |
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741 OP-AMP 1 ppt |
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uA741 ppt |
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LM741
The LM741 series are
general purpose operational amplifiers which feature improved performance over
industry standards like the LM709. They are direct, plug-in replacements for the 709C, LM201,
MC1439 and 748 in most applications, pdf file |
| Amplificateurs
opérationnels
en Français, pdf file |
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Balanced line technology |
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Closed Loop Bandwidth Closed Loop Bandwidth, pdf file |
| Fet input
amplifiers |
| Integrated operational
amplifier theory pdf file |
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Integrator
Circuit how to build, analyze and test an integrator circuit |
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Op Amp
and Comparators – Don’t Confuse Them! pdf file |
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Operational
amplifier Operational amplifier output impedance, pdf file |
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Operational
amplifier Operational amplifier output resistance, pdf file |
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Operational amplifiers a tip |
| Operational amplifiers feedback theory
operational amplifiers feedback theory, pdf file |
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Operational
Amplifier Inputs Operational amplifier (op amp) inputs vary widely in
structure and performance. This document presents common op-amp input
structures. By using the Electrical Characteristics table, the op amps are
identified by type and part number |
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Operational Amplifier Specifications Understanding Operational Amplifier
Specifications, pdf file |
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Operational
Amplifier Stability pdf file |
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Operational
Amplifier Stability pdf file |
| Operational Transconductance Amplifier (OTA)
The idea of the OTA is to provide a transconductance amplifier, whose input is
the differential voltage between its inputs, which are the bases of the
transistors of a standard differential amplifier, and whose output is a current
proportional to the differential voltage, ... |
|
Operational Transconductance Amplifier (OTA)
Operational Transconductance Amplifier (OTA), Application of the Operational
Transconductance Amplifier (OTA) to Voltage-controlled Amplifiers and Active
Filters,
Educypedia |
|
OTA
Operational Transconductance Amplifiers, pdf file |
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OTA
in Dutch, pdf file |
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Practical Techniques to Avoid Instability Due to Capacitive Loading |
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Stability and
compensation stability and compensation, pdf file |
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Understanding Common-Mode Signals |
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Horizontaal |
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Operational amplifier circuits |
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741 inverting amplifiers
design and simulate summing, scaling and averaging amplifier circuits using 741 |
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741 non-inverting amplifiers |
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Active filters active filters with opamps |
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Amplificateurs
audio
en Français |
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Astable, Monostable, and Bistable op amp circuits pdf file |
| Audio
circuits with opamps active filters |
| Charge amplifier: Building a charge amplifier pdf file |
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Charge amplifier Characteristics and use of Charge Amplifiers, pdf file |
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Comparators and Positive Feedback |
| Current feedback
amps pdf file |
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Current feedback amplifier
theory and applications
pdf file |
| Current feedback
amplifiers pdf file |
| DC amplifier circuits Logarithmic Amplifier: the use of
a transistor in the feedback network of an inverting amplifier, combine
logarithm amplifiers and summation amplifiers, Voltage-to-Current amplifier,
Current-to-Voltage amplifier, amplifiers for photo-devices, half-wave rectifier |
|
Differential amplifier
The differential amplifier amplifies the difference
between two input signals (-) and (+). This amplifier is also referred to as a
differential-input single-ended output amplifier, ... |
| Differential amplifier
differential amplifiers with BJT |
|
Differential amplifier
The differential amplifier amplifies the difference between two input signals
(-) and (+). This amplifier is also referred to as a differential-input
single-ended output amplifier. It is a precision voltage difference amplifier,
and forms the central basis of more sophisticated instrumentation amplifier
circuits |
| Differential amplifier
differential amplifiers with transistors, pdf file |
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Differential amplifier, single ended output
A fully differential amplifi er
is often used to convert a single-ended signal to a differential signal, a
design which requires three signifi cant considerations: the impedance of the
single-ended source must match the single-ended impedance of the differential
amplifier, the amplifi er’s inputs must remain within the common mode voltage
limits and the input signal must be level shifted to a signal that is centered
at the desired output common mode voltage, pdf file |
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Differential amplifier, single ended output pdf file |
| Differential amplifiers pdf file |
| Differential amplifiers
differential amplifiers with FETs and transistors, pdf file |
| Differential amplifiers
differential amplifier with transistors, pdf file |
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Differential op-amp circuit collection pdf file,
a tip |
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Differential and multistage amplifiers |
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Differentiator and integrator circuits - operational amplifiers
Differentiator and integrator circuits, operational amplifiers, Inverting
Amplifier, Noninverting Amplifier, Voltage Follower, Differential Amplifier,
Summing Amplifier, Integrator, Differentiator, Schmitt Trigger |
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Feedback
amplifiers pdf file |
| Feedback
in amplifiers pdf file |
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Frequency Response and Active Filters with opamps |
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Input/Output Impedance
The operational amplifier (op-amp) is a voltage controlled voltage source with
very high gain. It is a five terminal four port active element, pdf file |
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Logarithmic amplifier
the logarithmic amplifier uses the log caracteristic of PN (diode, transistor)
to implement logarithmic function |
| Logarithmic amplifiers
logarithmic amplifier |
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Monostable et astable simples utilisant différentes technologies en Français |
| Opamp differentiator
opamp as differentiator |
| Opamp integrator
opamp as integrator |
|
Opamp integrator opamp as integrator |
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Opamp I-to-V conversion
a 4- to 20-mA voltage-to-current conversion for noise-immune data transmission
in industrial data-acquisition systems |
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Opamp
filters lowpass filters, highpass filters, bandpass filters, Notch filters,
T filter |
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Oscillateurs astables en Français |
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Photodiode pre-amp uses current-feedback amplifier pdf file |
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Positive
feedback opamp circuits pdf file |
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Power amplifiers in bridge mode |
| Power
switch amplifier applcations of the CA3094, pdf file |
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Rectifiers: Precision AC/DC Converters Precision AC/DC Converters,
pdf file |
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Rectifiers: Precision full-wave rectification precision full-wave
rectification, pdf file |
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Rectifiers: Precision full-wave rectification precision full-wave
rectification, Half Wave Precision Rectifiers, Full Wave Precision Rectifiers |
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Rectifiers: Precision Half-Wave Rectifier |
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Rectifiers: Precision Rectifiers precision full-wave rectification, Half
Wave Precision Rectifiers, ppt file |
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Rectifiers: Precision Rectifiers precision full-wave rectification, Half
Wave Precision Rectifiers, pdf file |
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Rectifiers: Full wave
rectifier pdf file |
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Rectifiers: Full wave
rectifier Full wave rectifier width opamps and diodes |
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Rectifiers: Full wave
rectifier Full wave rectifier width opamps and diodes |
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Rechteckgenerator mit Schmitt-Trigger
in German, pdf file |
| Sawtooth wave oscillator
sawtooth wave oscillator, TL082 |
| Single
supply op amp circuit collection pdf file |
|
Single-supply op-amp design |
| Single
supply op amp circuit collection pdf file |
| Single
Supply Op Amps Single-Supply Instrumentation Amplifiers, pdf file |
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Schmidt trigger The Schmitt trigger is a comparator application |
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Schmidt trigger
opamp as Schmidt trigger, opamp as comparator |
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Schmidt trigger
in German |
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Schmidt trigger
in German, pdf file |
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Square wave generator Square Wave Generator with opamps |
| Voltage
to current, current to voltage, current to current amplifiers pdf file |
| Voltage
and current amplifiers what's the difference? (audio related) |
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V/F
CONVERTERS VFC |
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Horizontaal |
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Last updated on:
2011-01-02
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