The goal of this software is to automatically generate C/C++ code which reads and writes GOOSE and Sampled Value packets. Any valid IEC 61850 Substation Configuration Description (SCD) file, describing GOOSE and/or SV communications, can be used as the input. The output code is lightweight and platform-independent, so it can run on a variety of devices, including low-cost microcontrollers. It\'s ideal for rapid-prototyping new protection and control systems that require communications. This mbed project is a simple example of this functionality. Other code: https://github.com/stevenblair/rapid61850 Project homepage: http://personal.strath.ac.uk/steven.m.blair/
gse.h
- Committer:
- sblair
- Date:
- 2011-10-07
- Revision:
- 0:230c10b228ea
- Child:
- 1:9399d44c2b1a
File content as of revision 0:230c10b228ea:
#ifndef GSE_H #define GSE_H //#ifdef __cplusplus /* If this is a C++ compiler, use C linkage */ //extern "C" { //#endif #include "gseEncode.h" #include "gseDecode.h" #include "gsePacketData.h" void init_gse(); int gse_send_ItlPositions_Itl(unsigned char *buf, CTYPE_BOOLEAN statusChange, CTYPE_INT32U timeAllowedToLive); int gse_send_SyckResult_SynChk(unsigned char *buf, CTYPE_BOOLEAN statusChange, CTYPE_INT32U timeAllowedToLive); int gse_send_MMXUResult_MMXUResult(unsigned char *buf, CTYPE_BOOLEAN statusChange, CTYPE_INT32U timeAllowedToLive); void gseDecode(unsigned char *buf, int len); //#ifdef __cplusplus /* If this is a C++ compiler, end C linkage */ //} //#endif #endif