LOW NOISE, HIGH SLEW RATE, UNITY GAIN STABLE VOLTAGE FEEDBACK AMPLIFIER THS4271-EP FEATURES

... gain stable voltage-feedback amplifier designed to run from supply voltages as low as 5 V. The combination of low-noise, high slew rate, wide bandwidth, low distortion, and unity gain stability make the THS4271 a high performance device across multiple ac specifications. Designers using the THS4271 ...

AN247 PCK2001 (CKBF) reduced EMI techniques

Wideband, Fixed Gain, JFET-Input AMPLIFIER OPA653 FEATURES DESCRIPTION

... amplifier with internal gain-setting resistors that set a fixed gain of +2 V/V or -1 V/V and a high-impedance JFET-input stage. Its very high bandwidth of 500 MHz can be used to either deliver high signal bandwidths at a gain of +2 V/V or, if driven from a low-impedance source, a gain of –1 V/V . Th ...

BabyBully Servo Amplifier

... potentiometer rated for servo service. There is no benefit to purchasing an ultra-linear device. Wirewound pot types can be made to work but are not recommended. Low cost Cermet type elements are fine. Some high-end potentiometers use a plastic resistance element which cannot tolerate the 2000 ohm l ...

BDTIC www.BDTIC.com/infineon Wireless Control Components ASK / FSK Single Conversion Receivers

... The TDA 5210/TDA5211 has been implemented in a 25GHz silicon bipolar process. It supports all low-power device (LPD) wireless applications with ASK and FSK modulated signals with data rates of up to 120kbit/s. The maximum achievable data rate also depends on the IF filter bandwidth and the local osc ...

Op-Amps

Phase Detector

... • The self-correcting ability of the system allows the PLL to track the frequency changes of an input signal, once it is locked. • The range of frequencies over which the PLL can maintain lock with the input is defined as the lock range. • The lock range cannot exceed the range of control of the VC ...

Drive Circuits

... • Output signal polarity - unipolar or bipolar • AC or DC coupled • Connected in shunt or series with power switch • Output current magnitude • Large Ion shortens turn-on time but lengthens turn-off delay time • Large Ioff shortens turn-off time but lengthens turn-on delay time • Provisions for powe ...

What is an Electric Circuit?

... most ovens, etc.] In this Investigation, you will build different types of electric circuits. Materials ...

Versa-Sense II

... can be adjusted by the knobs R5 and R6. (See Figure TheseFigure adjustment knobs adjusting knobs R5 and R6.C)(See C.) These work independently eachindependently side (chamber).for The canside be adjustment knobsfor work each (chamber). moved with a smallknobs screware moved with aThey small can scre ...

DC/AC Pure Sine Wave Inverter

... of the op amps, when the signal is amplified back into the circuit the signal gets clipped at the peaks of the sine wave. This is because the amplitude is reaching the rails of the op amp allowing the signal to stabilize and providing the nonlinear feedback needed. ...

Synthesis of Speed Independent Circuits based on

Solution

... is 90◦ , the voltage across the inductor leads with the current by a 90◦ phase angle. Finally, the complex voltage across the capacitor can be found by multiplying the complex current (through the capacitor) by the complex impedance of the capacitor VC (t) = I(t)ZC . Consistent with the given values ...

ZNBG3113

... The presence or absence of a 22kHz tone applied to pin FIN enables one of two outputs, LB and HB. A tone present enables HB and tone absent enables LB. The LB and HB outputs are designed to be compatible with both MMIC and discrete local oscillator applications, selected by pin LOV. Referring to Fig ...

LTC6905.pdf

Mesh Analysis

... Steps in Mesh Analysis 1. Identify all of the meshes in the circuit 2. Label the currents flowing in each mesh 3. Label the voltage across each component in the circuit 4. Write the voltage loop equations using Kirchoff’s Voltage Law. 5. Use Ohm’s Law to relate the voltage drops across each componen ...

LM4766 Overture Audio Pwr Amp Series Dual

Adaptive Retina with Center

... The pixels in the silicon retina described here has a compact circuit that incorporates both spatial and temporal filtering with light adaptation over 5 decades of background intensity. The network exhibits center-surround behavior. Boahen et al.[4] in their current-mode diffusor retina, draw an ana ...

Genesis Low Frequency Audible Signals

... Compatible electrical box ...

a AN-202 APPLICATION NOTE

... output, but the recovery will be limited by the slew rate of the amplifier. As a result, an amplifier of this type may have outstanding low frequency power supply rejection, but the negative supply rejection is fundamentally limited at high frequencies. Since it is the feedback signal to the input t ...

MAX366/MAX367 Signal-Line Circuit Protectors

575A - Ortec

... be defective in workmanship or materials within one year from the date of delivery. ORTEC’s liability on any claim of any kind, including negligence, loss, or damages arising out of, connected with, or from the performance or breach thereof, or from the manufacture, sale, delivery, resale, repair, o ...

Document

... An equivalent circuit is used to simplify the original circuit however, at the terminals, it maintains the exact same parameters: ex. voltage and current. Here, equivalent circuits are used to simplify circuit interaction with the load (ex. another circuit, resistors, other passive ...

OP1177,2177,4177

Designing and Simulating a New Full Adder with Low Power

... transistor P caused a voltage rise when it passed the zero voltage; so, this method was not able to iniate the following levels. Designers then could not connect the circuit output which was designed with pass transistor to next-level transistors gate. Reviewing the recent literature such as that of ...

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Regenerative circuit

The regenerative circuit (or regen) allows an electronic signal to be amplified many times by the same active device. It consists of an amplifying vacuum tube or transistor with its output connected to its input through a feedback loop, providing positive feedback. This circuit was widely used in radio receivers, called regenerative receivers, between 1915 and World War II. The regenerative receiver was invented in 1912 and patented in 1914 by American electrical engineer Edwin Armstrong when he was an undergraduate at Columbia University. Due partly to its tendency to radiate interference, by the 1930s the regenerative receiver was superseded by other receiver designs, the TRF and superheterodyne receivers and became obsolete, but regeneration (now called positive feedback) is widely used in other areas of electronics, such as in oscillators and active filters. A receiver circuit that used regeneration in a more complicated way to achieve even higher amplification, the superregenerative receiver, was invented by Armstrong in 1922. It was never widely used in general receivers, but due to its small parts count is used in a few specialized low data rate applications, such as garage door openers, wireless networking devices, walkie-talkies and toys.

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Regenerative circuit