|
|
Design and implementation of MIDI driver
Jirčík, Zdeněk ; Slanina, Martin (referee) ; Schimmel, Jiří (advisor)
This bachelor thesis describes design and implementation of a MIDI controller that will transmit messages to MIDI program change and MIDI continuous messages that the value of the MIDI controller standard type. The theoretical part describes communication using the MIDI protocol, its implementation in microprocessor and controls the LCD controller. The practical part deals with the design and implementation of the MIDI controller. The result of this work is a circuit diagram, PCB, microprocessor control program and construction of MIDI controller.
|
|
|
Programmable MIDI Controller
Kolařík, Martin ; Lattenberg, Ivo (referee) ; Schimmel, Jiří (advisor)
This bachelor‘s thesis analyzes a designing a programmable MIDI controller. Theoretical part describes the MIDI protocol, its structure and usage. It also focuses on attributes of used components, mainly the ATmega32-16PU processor and liquid crystal display with HD44780 controller. Practical part of the project focuses on designing an electronic scheme of MIDI controller, its printed circuit board and it describes used program. For programming was used ISP programmer Biprog and as development platform Atmel studio 6.1. Finished controller is able to send MIDI message with every users action, including system messages. It is programmable using computer generated System Exclusive MIDI messages and it contains a soft-thru function.
|
|
|
Power source for pulse magnetron sputtering
Schulz, Jakub ; Magát, Martin (referee) ; Šteffan, Pavel (advisor)
The presented thesis deals with the design and assembly of the generator for pulse magnetron sputtering. The designed device is capable of generating two square wave signals via its counter-working outputs. Both signals have independently adjustable frequency, pulse count and duty ratio. Both signals originate from two frequency syntheses controlled by microcontroller PIC16F877A. All the settings are entered by four buttons and are shown on an alphanumeric display with 16x4 characters. The duty ratio is adjusted using a special module.
|
|
| |
|
|
Programmable MIDI Controller
Kolařík, Martin ; Lattenberg, Ivo (referee) ; Schimmel, Jiří (advisor)
This bachelor‘s thesis analyzes a designing a programmable MIDI controller. Theoretical part describes the MIDI protocol, its structure and usage. It also focuses on attributes of used components, mainly the ATmega32-16PU processor and liquid crystal display with HD44780 controller. Practical part of the project focuses on designing an electronic scheme of MIDI controller, its printed circuit board and it describes used program. For programming was used ISP programmer Biprog and as development platform Atmel studio 6.1. Finished controller is able to send MIDI message with every users action, including system messages. It is programmable using computer generated System Exclusive MIDI messages and it contains a soft-thru function.
|
|
|
Design and implementation of MIDI driver
Jirčík, Zdeněk ; Slanina, Martin (referee) ; Schimmel, Jiří (advisor)
This bachelor thesis describes design and implementation of a MIDI controller that will transmit messages to MIDI program change and MIDI continuous messages that the value of the MIDI controller standard type. The theoretical part describes communication using the MIDI protocol, its implementation in microprocessor and controls the LCD controller. The practical part deals with the design and implementation of the MIDI controller. The result of this work is a circuit diagram, PCB, microprocessor control program and construction of MIDI controller.
|
|
| |
|
|
Power source for pulse magnetron sputtering
Schulz, Jakub ; Magát, Martin (referee) ; Šteffan, Pavel (advisor)
The presented thesis deals with the design and assembly of the generator for pulse magnetron sputtering. The designed device is capable of generating two square wave signals via its counter-working outputs. Both signals have independently adjustable frequency, pulse count and duty ratio. Both signals originate from two frequency syntheses controlled by microcontroller PIC16F877A. All the settings are entered by four buttons and are shown on an alphanumeric display with 16x4 characters. The duty ratio is adjusted using a special module.
|
|
|
Design and implementation of modules for teaching and developing applications with microcontroller Atmel AVR
LANGMAJER, Miroslav
This thesis is based on the design and production of teaching kits with expansion modules which are based on the Atmel AVR microcontroller. Kit consists of a plate containing processes and basic power modules directly on the board and expansion modules "SIMAČ". "SIMAČ" modules are virtual elements that simulate the real elements and they are commonly used in industrial automation. Because of their cost they are integrated in extension kit as programmable modules. It also contains basic theoretical information about working with ATMEL AVR microcontrollers. Expansion modules with module development board and disc which will be loaded all the schemes, programs and technical documentation for individual districts will be attached to the thesis.
|
guest ::
