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Full-Text Articles in Electrical and Electronics
Dual Method Headphone Amplifier, Joseph S. Gross, Timothy P. Murphy
Dual Method Headphone Amplifier, Joseph S. Gross, Timothy P. Murphy
Electrical Engineering
Many high impedance headphones underperform their full potential when directly connected to the audio source. Amplifiers boost the audio signal and provide the headphones with sufficient power to ensure their maximum performance. The invention of transistors caused vacuum tube implementation to decline, leaving many audiophiles unsatisfied with the transistor’s sound signature. Vacuum tubes and transistors both amplify signals, however the distinct “tube sound” has vanished.
We have designed and created a product where the user selectively switches between solid-state transistor and tube amplification to compare the sound signatures of each amplification method. The ability to switch between the solid-state and …
Portable Dac And Headphone Amplifier For High Impedance Headphones, Kevin V. Thai
Portable Dac And Headphone Amplifier For High Impedance Headphones, Kevin V. Thai
Electrical Engineering
The following paper contains an in-depth report on the design process of a portable DAC and Amplifier for high impedance headphones. The project brings portability into an audiophile’s world. This portable DAC and Class D amplifier takes USB data from a phone, converts it to analog, and amplifies the signal for high impedance headphones. First, the document contains motivations for the project: such as the necessity for such equipment, and who would use this product. Next, discussions of marketing considerations and customer needs bring together specifications. After, the report examines the project plan, overall functionality blocks, and estimated costs. Finally, …
Dual Channel Matrix Switch Audio Receiver, Austin Fox
Dual Channel Matrix Switch Audio Receiver, Austin Fox
Electrical Engineering
The Dual Channel Matrix Switch Audio Receiver controls 2 separate audio output channels. Each channel plays any of the system's 3 inputs. This controller enables a user to play two separate audio signals through two separate speaker channels. The system design allows audio input from 2 RCA sources or 1 RCA source and a phono source. The system outputs an audio signal for each output simultaneously at up to 36W on each channel for an 8Ω load. The device allows a user to control the audio input and the volume of each output channel. An Arduino Uno R3 microcontroller interfaced …
Transimpedance Amplifier For Polymer Photodiodes, Sheridan Knighton
Transimpedance Amplifier For Polymer Photodiodes, Sheridan Knighton
Electrical Engineering
Dr. Braun’s students in the Polymer Electronics Lab currently have a way to measure the light intensity from their light emitting devices however it consumes an unnecessary amount of space and power. I offer to improve upon the existing transimpedance circuit that Dr. Braun currently uses, reducing the total space occupied by the circuit and the power consumption of the current setup. The transimpedance circuit measures the incidence light intensity from the polymer-based photo detector and outputs an accurate, discrete, and measurable voltage. The current setup however utilizes two 20V wall warts for the positive and negative rails of the …
3-Input Pre-Amp, Daniel Pico, Carla Salome Ramirez
3-Input Pre-Amp, Daniel Pico, Carla Salome Ramirez
Electrical Engineering
There is no commercial available pre-amplifier that takes 3 individual input signals and synthesizes them for an acoustic guitar. The acoustic pre-amplifier takes three separate small signal inputs and combines or isolates to endure amplification depending with user setting. The user deciphers which signal or signal combination is desired. The device features coil pick-up, microphone pick-up, and piezo disc pick-up for variety of tone quality and control.
Broadband, Rugged, High Linearity, Low-Noise Amplifier, Shane Smith
Broadband, Rugged, High Linearity, Low-Noise Amplifier, Shane Smith
Electrical Engineering
This report examines the application of a low-noise amplifier module for a Global Positioning System (GPS). This low-noise amplifier module helps allow the carrier signal to get the amplification needed to give a smoother analog to digital conversion. However, the frequency range of the GPS spectrum reaches up to 1.6GHz, where component noise becomes an issue and can create a disrupted signal. This low-noise amplifier needs to create a reasonable gain, while achieving a low noise figure. An amplifier with high gain and low noise figure becomes difficult because they create a design trade-off, higher the gain brings higher the …
Pulsed Class-G Rf Amplifier System, Kevin Maulhardt, Kevin Haskett
Pulsed Class-G Rf Amplifier System, Kevin Maulhardt, Kevin Haskett
Electrical Engineering
No abstract provided.
Digital Guitar Effects Unit And Amplifier, Kevin Salvador
Digital Guitar Effects Unit And Amplifier, Kevin Salvador
Electrical Engineering
This report outlines the design and implementation of a digital guitar effects unit and amplifier. The main portion of this project consisted of the digital equalizer and effects. Several commercial equalizers were researched in order to decide the typical frequency bands and average amount of bands total. Eventually 8 bands were selected. A range of approximately 20Hz-3kHz was chosen based on test data of guitar signals. Popular effects that were incorporated in this project include Distortion, Echo, Reverb, Chorus and Flanger. The digital processor chosen was a Texas Instruments c6713 floating point processor. Designs for the various filters were done …
Single-Ended Tube-Based Guitar Amplifier, Joseph (Joe) Linn
Single-Ended Tube-Based Guitar Amplifier, Joseph (Joe) Linn
Electrical Engineering
Since the advent of the transistor, the vast majority of designers and manufacturers of electronic devices have abandoned the vacuum tube. Compared to transistors, tubes are orders of magnitude larger, more power hungry, more expensive, less reliable, and dissipate much more heat. In short, transistors are superior devices for almost all applications. Despite this fact, many makers of high-end audio and instrument amplifiers continue to base their designs on tube technology.
Given all of their shortcomings, the obvious question is: Why bother with tubes? Proponents of tube-based audio amplifiers cite a certain “warmth” that tube circuitry lends to the sound …