This circuit is a modified version of the MXR Noise Gate circuit. It mutes the output when the input signal is below a threshold set by a potentiometer, removing noise when not playing. Additional pads have been added to allow more control over the circuit. Modifications are not verified and off-board components except for potentiometers are not shown. Trademarks are owned by their respective companies.
This document provides a layout for building an Octavia octave up fuzz circuit with off-board components. The layout shows the placement of resistors, capacitors, pots, transistors, and diodes on a board. It also includes a parts list and schematic for the circuit. The trademarks in the document belong to their respective owners.
This document provides the layout and schematic for building the original RAT distortion circuit. The layout shows the placement of components such as resistors, capacitors, transistors, and ICs. A list of common parts is included. Off-board components except for potentiometers are not shown on the layout.
The document provides instructions to build the Purple Peaker circuit. It includes a layout diagram and parts list for the circuit, which uses switches instead of potentiometers to modify the frequency response. Off-board components are not shown on the layout. The layout and parts list are intended to build the circuit described without any external modifications.
The document summarizes specifications for Mitsubishi IGBT modules model CM600DY-12NF for high power switching applications. Key specifications include:
- Maximum ratings of 600A collector current, 600V collector-emitter voltage
- Electrical characteristics at 25°C junction temperature, such as 1.7-2.2V saturation voltage and 2400nC total gate charge
- Performance curves showing output/saturation characteristics and switching times within specifications over temperature ranges
- Transient thermal impedance curves for the IGBT and freewheel diode parts showing cooling performance
The document provides information on the MUR8100E and MUR880E ultrafast rectifier diodes from ON Semiconductor. The diodes are designed for use in switching power supplies, inverters, and as free wheeling diodes. Key features include a 20mJ avalanche energy rating, 175°C operating junction temperature, and packaging in a TO-220 case. Electrical characteristics including forward voltage, reverse current, and reverse recovery time are specified. Maximum ratings and derating curves are also given.
1. MLCC stands for Multi Layer Ceramic Capacitor, which are widely used in electronic devices with approximately 250 components per mobile phone.
2. MLCCs are classified based on their dielectric properties and temperature range and can have capacitance values currently in the pF to 1μF range but nearing 50μF in the future.
3. Miniaturization of MLCCs is an ongoing technical trend, with common size codes decreasing from 1005 to 0603 and nearing 0402 to increase capacitance in smaller volumes.
This document provides a layout for building an Octavia octave up fuzz circuit with off-board components. The layout shows the placement of resistors, capacitors, pots, transistors, and diodes on a board. It also includes a parts list and schematic for the circuit. The trademarks in the document belong to their respective owners.
This document provides the layout and schematic for building the original RAT distortion circuit. The layout shows the placement of components such as resistors, capacitors, transistors, and ICs. A list of common parts is included. Off-board components except for potentiometers are not shown on the layout.
The document provides instructions to build the Purple Peaker circuit. It includes a layout diagram and parts list for the circuit, which uses switches instead of potentiometers to modify the frequency response. Off-board components are not shown on the layout. The layout and parts list are intended to build the circuit described without any external modifications.
The document summarizes specifications for Mitsubishi IGBT modules model CM600DY-12NF for high power switching applications. Key specifications include:
- Maximum ratings of 600A collector current, 600V collector-emitter voltage
- Electrical characteristics at 25°C junction temperature, such as 1.7-2.2V saturation voltage and 2400nC total gate charge
- Performance curves showing output/saturation characteristics and switching times within specifications over temperature ranges
- Transient thermal impedance curves for the IGBT and freewheel diode parts showing cooling performance
The document provides information on the MUR8100E and MUR880E ultrafast rectifier diodes from ON Semiconductor. The diodes are designed for use in switching power supplies, inverters, and as free wheeling diodes. Key features include a 20mJ avalanche energy rating, 175°C operating junction temperature, and packaging in a TO-220 case. Electrical characteristics including forward voltage, reverse current, and reverse recovery time are specified. Maximum ratings and derating curves are also given.
1. MLCC stands for Multi Layer Ceramic Capacitor, which are widely used in electronic devices with approximately 250 components per mobile phone.
2. MLCCs are classified based on their dielectric properties and temperature range and can have capacitance values currently in the pF to 1μF range but nearing 50μF in the future.
3. Miniaturization of MLCCs is an ongoing technical trend, with common size codes decreasing from 1005 to 0603 and nearing 0402 to increase capacitance in smaller volumes.
The document describes a Near-Field Communication (NFC) system designed by Group 31. The NFC system uses Frequency Shift Keying (FSK) to transmit data between devices over short ranges using magnetic field induction. It consists of a transmitter with a VCO modulated by a PC interface, and a receiver with an amplifier, loop antenna, and PLL for demodulation. The design achieves data rates of 800kbps over ranges of 30cm, within FCC regulations for non-radiative wireless technologies.
SPICE MODEL of DF2S6.8UFS , PSpice Model in SPICE PARKTsuyoshi Horigome
SPICE MODEL of DF2S6.8UFS , PSpice Model in SPICE PARK. English Version is http://www.spicepark.net. Japanese Version is http://www.spicepark.com by Bee Technologies.
This document provides a simulation of a PWM IC spice model and includes:
1) A circuit diagram of the evaluation circuit used for simulation with the PWM IC, capacitor, resistor, and oscillator components.
2) Waveform charts showing the output of the oscillator, voltage at the CS pin, and voltage at the DT pin over time.
3) An explanation that the simulation results are for the spice model of the PWM IC and evaluation circuit shown in the diagram.
SPICE MODEL of LM119J/883 in SPICE PARK. English Version is http://www.spicepark.net. Japanese Version is http://www.spicepark.com by Bee Technologies.
This paper discusses the development of an autonomous robot for a competition that requires picking up balls and scoring them in goals of varying heights. The robot must autonomously navigate the field and complete the task within 4 minutes. Key aspects of the robot include its mechanical design including the chassis, ball launcher, and navigation system. The electrical systems include motors, sensors and microcontroller. Algorithms are presented for line tracking, junction detection and path planning. Power management and simulation results are also summarized.
The document describes a Near-Field Communication (NFC) system designed by Group 31. The NFC system uses Frequency Shift Keying (FSK) to transmit data between devices over short ranges using magnetic field induction. It consists of a transmitter with a VCO modulated by a PC interface, and a receiver with an amplifier, loop antenna, and PLL for demodulation. The design achieves data rates of 800kbps over ranges of 30cm, within FCC regulations for non-radiative wireless technologies.
SPICE MODEL of DF2S6.8UFS , PSpice Model in SPICE PARKTsuyoshi Horigome
SPICE MODEL of DF2S6.8UFS , PSpice Model in SPICE PARK. English Version is http://www.spicepark.net. Japanese Version is http://www.spicepark.com by Bee Technologies.
This document provides a simulation of a PWM IC spice model and includes:
1) A circuit diagram of the evaluation circuit used for simulation with the PWM IC, capacitor, resistor, and oscillator components.
2) Waveform charts showing the output of the oscillator, voltage at the CS pin, and voltage at the DT pin over time.
3) An explanation that the simulation results are for the spice model of the PWM IC and evaluation circuit shown in the diagram.
SPICE MODEL of LM119J/883 in SPICE PARK. English Version is http://www.spicepark.net. Japanese Version is http://www.spicepark.com by Bee Technologies.
This paper discusses the development of an autonomous robot for a competition that requires picking up balls and scoring them in goals of varying heights. The robot must autonomously navigate the field and complete the task within 4 minutes. Key aspects of the robot include its mechanical design including the chassis, ball launcher, and navigation system. The electrical systems include motors, sensors and microcontroller. Algorithms are presented for line tracking, junction detection and path planning. Power management and simulation results are also summarized.