Summary of DSPIC PROPELLER CLOCK CIRCUIT
Summary: This article describes a DSPIC-based propeller (air time) clock project using a dsPIC30F6015 microcontroller to drive BLDC or MPJET8063 motors and rotating LED displays (32 or 64 LEDs). It covers motor drivers (TB6588F/TB6588FGES), LED drivers (STP16CP05), RC5 remote control, real-time clock backup, external EEPROM, speed/angle measurement, brightness control, and provides source code, Eagle PCB and schematic files.
Parts used in the Propeller Clock:
- dsPIC30F6015 microcontroller
- BLDC motor (from hard disk) or MPJET8063 motor
- TB6588FGES motor driver (TB6588 series)
- STP16CP05 LED driver (for 64-LED version)
- 32 LEDs (v2 uses 64 LEDs)
- External EEPROM (for extensions)
- Real-time clock backup battery
- 5 V power supply
- RC5-compatible remote control interface
- Eagle PCB and schematic files (design data)
- Software source code in C and libraries
Air Time or propeller clock Propeller Clock much more simple microcontrollers with can be done but the authors project quite a quality job had removed to check DSPIC30F6015 microcontroller is used BLDC motors from... Electronics Projects, DSPIC Propeller Clock Circuit “dspic projects, microchip projects, microcontroller projects, “
Air Time or propeller clock Propeller Clock much more simple microcontrollers with can be done but the authors project quite a quality job had removed to check DSPIC30F6015 microcontroller is used BLDC motors from the hard disk removed to control the speed TB6588FGES integrated the use of the watch, as well as animation can view the RC5 control control there software C prepared by language source code library include hahil have dosyalarıda in addition TB6588 motor driver and control PIC30F6015 solid eagle pcb, schema files are also available.
Finally, the second version of the circuit have the same microcontroller used in a slightly different but more powerful hardware used large MPJET8063 engine is driven with 64 integrated LEDs STP16CP05 as in other projects feature all the resources given the same ..
Propeller Clock Circuit: Rotating LED display is very demanding in terms of precise timing and display. There are also spot-mentioned design requirements 32 (v2 64 leds) LEDs in a single row on the shoulder, brightness control refresh rate and the associated speed measurement 120 (or 240) arm positions during a single revolution, ie. angle ? = 360 ° / 120 ° = 3 ° (1.5 °) real-time clock backup battery external EEPROM for future extensions control mode with the remote control code RC-5 5 V supply
Source: DSPIC PROPELLER CLOCK CIRCUIT alternative link: dspic-propeller-clock-circuit.rar alternative link2
Alternative File Download LINK list (in TXT format): LINKS-19925.zip
- What microcontroller is used in the project?
The project uses the dsPIC30F6015 microcontroller. - Can different motors be used in the propeller clock?
Yes; the project uses BLDC motors removed from hard disks and a second version uses an MPJET8063 motor. - What motor driver is used to control speed?
The TB6588FGES (TB6588 series) motor driver is used to control motor speed. - How many LEDs are used for the display?
The first version uses 32 LEDs in a single row; version 2 uses 64 LEDs. - Is there support for remote control?
Yes; the project supports RC5 remote control for control modes. - Does the project include source code and design files?
Yes; C source code, libraries, Eagle PCB files, and schematic files are available. - What supply voltage does the project require?
The project requires a 5 V supply. - How is precise timing and display achieved?
The design requires precise timing with brightness control, refresh rate, and speed/angle measurement (120 or 240 arm positions per revolution).
