Electronic Drive Development Platform (EDDP) provides all necessary software and hardware components for development and evaluation of motor control applications. While those components (both software and hardware) can also be used separatly this manual describes EDDP usage with default reference hardware platform (EDDP Kit) only.
Hardware components/boards delivered in EDDP Kit are not intended to be used in finished products. All the software and hardware parts of the EDDP are intended for Developers evaluating Motor Control Applications with Xilinx FPGA and/or SoC Devices. |
The following is required in addition to what is supplied in the EDDP Kit:
In order to pass EMC radiatied emission (EN 55011) class B requirements option "Spread Spectrum" must be activated (standard setting). |
Software version that was used in EMC test: (Visible in the GUI main scren) 2017-7-31 (SVN Tag 5745). |
The following is required in addition to what is supplied in the EDDP Kit:
todo
EDDP Kit Content
<< todo INSERT FOTO with full kit all parts visible, also power supply etc..>>
The software consists of the following parts:
The Web UI lets one to operate the motor in one of the following modes:
To access the Web UI, point a web browser to the IP of the Controller Board. The following web site appears:
Motor
The default motor is supplied in the EDDP Kit; see the chapter Reference Motor for details. Use of custom motors is outside the scope of this manual.
A 3-phase motor with an encoder is connected to a TEC0053 board. The TEC0053 board boards consists of a 3-phase power stage to be driven by bipolar PWM signals, current transducers and ADCs to monitor current on 2 (optionally 3) phases and isolating circuitry to provide electrical isolation for the signals on the Control Board Connector.
A TEC0060 board, included in the EDDP Kit, is used as a mechanical and electrical adaptor for the reference motor.
A Control Board connected to the TEC0053 provides the PWM signals for the TEC0053 and the clock signal to the ADC-s; the ADC datastream is read by the Control Board.
TODO: elaborate.
List of the documents for further information:
Title | Description |
---|---|
FOC SDSoC | Implementation of a Field-Oriented Control algorithm in C++ with Vivado SDSoC |
SDSoC Hardware Platform ARTY-Z7 | A basis for building Vivado SDSoC applications running on an Arty-Z7 board connected to a TEC0053 board |
AXI4-Stream AD7403 | An IP core for filtering the delta-sigma bitstream read from one or more ADC-s of type of AD7403 to an AXI4-Stream of samples |
AXI4-Stream Encoder | An IP core for converting impulses from a relative index encoder with an index signal to an AXI4-Stream of position and speed data |
AXI4-Stream PWM | An IP core for generating PWM signals according to the input AXI4-Stream |
AXI4-Stream Concat | An IP core for concatenating AXI4-Streams |
Web GUI | A Web UI to control and monitor an EDPS board over the Network API |
Network API | A communication protocol, based on Websockets, to control an EDPS board |
Embedded Linux Code | A server program interfacing to an EDPS board and implementing the Network API and the functions of a Web Server |
The default Control Board is the Digilent ARTY-Z 7010, which is delivered as part of the EDDP Kit. This manual contains information relevent to the actual use of the ARTY-Z as a Control Board within the EDDP only; all technical data and user guides and manuals for the Controller Board are provided by the controller board manufacturer.