Gallium arsenide pseudo-current-mode logic

... frequency may now be ascertained by considering restrictions imposed on C,(t). Because C,(t) is a real function, from eqn. 4, we find that <:(w) = -<,(-U*) where w is the complex frequency given by o = U' + iw". From this relation, we find that for purely imaginary frequency, <:(iw") = -&(iw") which ...

Ohms Law - Powerpoint Presentation

... The basic law concerning the flow of electricity is Ohm’s Law.  Ohm’s law states that when electrical potential (voltage) creates a flow of electricity (current), the current and the electrical resistance of the circuit are proportional to the voltage.  In mathematical terms, V = I x R where V is ...

Electricity - Mr. Meserve`s Class

... The basic law concerning the flow of electricity is Ohm’s Law.  Ohm’s law states that when electrical potential (voltage) creates a flow of electricity (current), the current and the electrical resistance of the circuit are proportional to the voltage.  In mathematical terms, V = I x R where V is ...

FINAL09fa

... dominant pole. In a PMOS-input folded cascode, there is a pole associated with the source of the NMOS cascode transistor M2. Your job is to explain why this pole is above the unity gain frequency. Naïvely, one might think that the cascode pole is at the frequency where the impedance of CGS2 becomes ...

TU5PFP030

Kirchhoff`s Laws in DC Circuits

... the sum of the potential energy differences across all elements of a closed circuit is zero (Kirchhoff’s voltage or loop rule), and the sum of all currents entering a junction and the sum of all currents leaving the junction are equal (Kirchhoff’s current or junction rule). If all resistor and emf v ...

Slide 1

Detector Electronics

... spikes. When cold, any modern HPGe detector from ORTEC may have the full bias voltage switched on without risking damage to the FET. Some additional observations about preamplifiers used with Photon [HPGe or Si(Li)] Detectors (See Fig. 1): all are of the “charge sensitive” type, and all have the “fr ...

electronic communications systems i

... Butterworth active filter. Double-click on the Bode plotter and change the final frequency to 500 kHz. Restart the simulation and you will see that the phase shift actually exceeds 180°. This is due to the additional contributions in phase shift provided from the LM741. The simulation for the LM741 ...

CONTROL

... Sometimes it is necessary to increase the current in a circuit. This is especially important if a sensor is being used as an input. For example, a temperature sensor may to used to detect fire and then to turn on a water sprinkler system to put the fire out. Look at the example below. When the rise ...

ECE 5411 CMOS Analog Integrated Circuit Design Sample Midterm 2 Name:

... VT HP = 0.8V , and KPp = 50 µA V2 Assume that the coupling capacitors are infinite. (a) (5 points) Determine the operating points of all the devices in the circuit. For this part, neglect channel length modulation (i.e. λ = 0). ...

WVU_FMSTR

High Voltage System

Supplementary Information

... The green curve is the 50 Hz original sine signal, the yellow curve is the signal after 180° phase-shift circuit. The pink curve is the output signal from the two-input adder. The phase-shift filter is an effective method to separate weak Nernstian potential signal from relatively strong interferenc ...

Microelectronics System Design for Chronic Brain Implants

... An AM (amplitude modulation) block which shifts the low frequency, low voltage signal up in frequency above the flicker noise of the preamp, A low noise pre-amp A Selective Amplifier (acting as a bandpass filter with gain, which filters out the low frequency noise component, leaving the modulated si ...

Lee Feder repaired and restored a Fender Twin Reverb Amp

... plate and screen voltages are all 439 V. According to the original schematic, the plates should have the same voltage as the choke since they draw from the same power source with no interruptions. The screen, used to decrease the capacitance between the grid and the plate as well as increase the gai ...

ELTK1200 Assignment #6 Solutions

... XL = XC j resistive circuit In the notes, we have dealt with XL > XC and XC > XL. At a specific frequency XL = XC, the inductive and capacitive reactances cancel each other out. This frequency is called resonant frequency and it has a special importance in the electrical world. For us, at this point ...

Ohm`s Law KEY - Northern Highlands

... Name _______ KEY __________________________________ Date _________ Period ______ ...

WRL2089.tmp

... Note that this gain is not equal to the short-circuit current gain Ais. The current gain Ai depends on the source and load resistances, as well as the amplifier parameters. Therefore, we must use a circuit model to determine current gain Ai . Although we can use either model, we will find it easier ...

1.1.5.Ab Circuit Theory : Simulation

... As much fun as it is to analyze circuits by hand, the process becomes tedious as circuits grow in size and complexity. This is where Circuit Design Software (CDS) comes to the rescue. As the name implies, the CDS is a software tool that can be used to enter and simulate analog and digital circuit de ...

Wanganui High School

... magnet made by passing electricity through a coil of wire, which often has a core inside ...

Measurement of Weak Magnetic Fields

Elements of AC Circuits - The Series RLC circuit

pulse king - GreenerEnergy.ca

... Voltage controlled oscillators are basic building blocks of many electronic systems especially phase-locked loops and may be found in computer disk drives, wireless electronic equipment such as cellular telephones, and other systems in which oscillation frequency is controlled by an applied tuning v ...

Theoretical Background of a Series RLC Circuit

... XL leaving only the small resistance of Rs and the resistance of the coil windings, RL. Now a large current flows through the circuit of magnitude V0/(Rs + RL) and a large maximum voltage Vmax now appears across the series resistor Rs, namely Vmax = V0Rs/(Rs + RL). And the resonance frequency f0 is ...

< 1 ... 427 428 429 430 431 432 433 434 435 ... 524 >

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.

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Regenerative circuit