ICC错误集锦

An alarm 16899 level 5 occurred at 20:23:49 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 20:23:19 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 20:22:49 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 20:22:19 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 20:21:49 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 20:21:19 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 84%An alarm 16899 level 5 occurred at 20:20:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 20:20:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16900 level 4 cleared at 20:20:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the intermediate threshold MP(M) panel 1 current CPU load is: 82%An alarm 16900 level 4 occurred at 20:19:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the intermediate threshold MP(M) panel 1 current CPU load is: 85%An alarm 16899 level 5 occurred at 20:19:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 84%An alarm 16900 level 4 cleared at 20:19:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the intermediate threshold MP(M) panel 1 current CPU load is: 84%An alarm 16900 level 4 occurred at 20:18:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the intermediate threshold MP(M) panel 1 current CPU load is: 85%An alarm 16899 level 5 occurred at 20:18:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 84%An alarm 16899 level 5 occurred at 20:17:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 84%An alarm 16899 level 5 occurred at 20:17:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 84%An alarm 16899 level 5 occurred at 20:16:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 20:16:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 20:15:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 84%An alarm 16899 level 5 occurred at 20:15:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 20:14:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 20:14:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16642 level 6 occurred at 20:13:48 02/15/2013 UTC sent by MCP %DA TABA E% the alarm buffer is only 20% idleAn alarm 16899 level 5 occurred at 20:13:48 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 20:13:18 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 20:12:48 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 20:12:18 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 20:11:48 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 20:11:18 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 20:10:48 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 20:10:18 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 20:09:48 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 77%An alarm 16899 level 5 occurred at 20:09:18 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 20:08:48 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 20:08:18 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 20:07:48 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 20:07:18 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 20:06:48 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 20:06:18 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 20:05:48 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 20:05:18 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 20:04:48 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 20:04:18 02/15/2013 UTC sent by MCP %OAM% C U load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 20:03:48 02/15/2013 UTC sent by MCP %OAM% C --More--An alarm 16899 level 5 occurred at 20:03:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 20:03:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 occurred at 20:02:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 77%An alarm 16899 level 5 occurred at 20:02:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 20:01:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 20:01:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 20:00:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 20:00:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:59:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:59:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:58:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:58:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:57:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:57:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 76%An alarm 16899 level 5 occurred at 19:56:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:56:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 19:55:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:55:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:54:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:54:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 19:53:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:53:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 occurred at 19:52:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:52:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:51:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:51:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:50:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:50:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:49:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 77%An alarm 16899 level 5 occurred at 19:49:18 02/15/2013 UTC sent by MCP %OAM% CPU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 77%An alarm 16899 level 5 occurred at 19:48:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:48:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:47:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 76%An alarm 16899 level 5 occurred at 19:47:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 76%An alarm 16899 level 5 occurred at 19:46:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 77%An alarm 16899 level 5 occurred at 19:46:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:45:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:45:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:44:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:44:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:43:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:43:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:42:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:42:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:41:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 19:41:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 19:41:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:40:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:40:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 19:39:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:39:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:38:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:38:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:37:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:37:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:36:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:36:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:35:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:35:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:34:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:34:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:33:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:33:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 19:32:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:32:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 19:31:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:31:18 02/15/2013 UTC sent by MCP %OAM% CAn alarm 16899 level 5 occurred at 19:30:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:30:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:29:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 83%An alarm 16899 level 5 occurred at 19:29:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:28:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:28:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:27:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:27:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:26:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 82%An alarm 16899 level 5 occurred at 19:26:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:25:48 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 77%An alarm 16899 level 5 occurred at 19:25:18 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 19:24:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 cleared at 19:24:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 19:23:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 19:23:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 76%An alarm 16899 level 5 cleared at 19:22:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 19:22:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 77%An alarm 16899 level 5 occurred at 19:21:47 02/15/2013 UTC sent by MCP %OAM% CAn alarm 16899 level 5 occurred at 19:21:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 19:20:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 81%An alarm 16899 level 5 occurred at 19:20:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:19:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:19:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:18:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 19:18:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 77%An alarm 16899 level 5 occurred at 19:17:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 occurred at 19:17:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 19:16:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 76%An alarm 16899 level 5 cleared at 19:06:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 67%An alarm 16899 level 5 occurred at 19:05:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 occurred at 19:05:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 19:04:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 cleared at 19:04:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 19:03:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 77%An alarm 16899 level 5 cleared at 18:55:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 72%An alarm 16899 level 5 occurred at 18:55:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 76%An alarm 16899 level 5 cleared at 18:54:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 73%An alarm 16899 level 5 occurred at 18:53:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 79%An alarm 16899 level 5 cleared at 18:52:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 18:52:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 80%An alarm 16899 level 5 occurred at 18:51:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 occurred at 18:51:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 76%An alarm 16899 level 5 occurred at 18:50:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 occurred at 18:50:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 76%An alarm 16899 level 5 cleared at 18:49:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 72%An alarm 16899 level 5 occurred at 18:48:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 cleared at 18:48:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 18:47:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 76%An alarm 16899 level 5 cleared at 18:46:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 72%An alarm 16899 level 5 occurred at 18:46:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 76%An alarm 16899 level 5 cleared at 18:40:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 18:40:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 cleared at 18:33:47 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 18:33:17 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 cleared at 17:38:46 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 71%An alarm 16643 level 5 occurred at 17:38:16 02/15/2013 UTC sent by MCP %DA TABASE% the alarm buffer is full,and will be cleared nowAn alarm 16899 level 5 occurred at 17:38:16 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 cleared at 17:28:45 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 69%An alarm 16899 level 5 occurred at 17:28:15 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 cleared at 16:21:14 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 68%An alarm 16899 level 5 occurred at 16:20:44 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 77%An alarm 16899 level 5 cleared at 16:20:14 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 73%An alarm 16899 level 5 occurred at 16:19:44 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 cleared at 15:47:14 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 15:46:44 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 cleared at 15:45:44 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 15:45:14 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 cleared at 15:44:14 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 15:43:44 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 cleared at 15:43:14 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 15:42:44 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 78%An alarm 16899 level 5 cleared at 15:39:44 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 70%An alarm 16899 level 5 occurred at 15:39:14 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 75%An alarm 16899 level 5 cleared at 14:46:43 02/15/2013 UTC sent by MCP %OAM% C PU load exceeds the lowest threshold MP(M) panel 1 current CPU load is: 74%An alarm 16899 level 5 occurred at 14:46:13 02/15/2013 UTC sent by MCP %OAM% C。

ICC AVR编译时常见的错误报告新手用ICC编程的时候，经常会出现一些错误，现在将常见的错误报告整理如下：一、正常编译通过CODE:C:\icc\bin\imakew -f main.makiccavr -c -IC:\icc\include\ -e -DATMEGA -DATMega16 -l -g -Mavr_enhanced D:\桌面\实验教程\LED应用\霓虹灯\main.ciccavr -o main -LC:\icc\lib\ -g -ucrtatmega.o -bfunc_lit:0x54.0x4000 -dram_end:0x45f -bdata:0x60.0x45f -dhwstk_size:16 -beeprom:1.512 -fihx_coff -S2 @main.lk -lcatmegaDevice 1% full.Done.[Copy to clipboard]这是我们最想看到的了，万事大吉。

二、工程中未加入.C文件CODE:C:\icc\bin\imakew -f main.makiccavr -o main -LC:\icc\lib\ -g -ucrtatmega.o -bfunc_lit:0x54.0x4000 -dram_end:0x45f -bdata:0x60.0x45f -dhwstk_size:16 -beeprom:1.512 -fihx_coff -S2 @main.lk -lcatmegaunknown file type @main.lk, passed to linker!ERROR unknown file type '@main.lk'C:\icc\bin\imakew.exe: Error code 1Done: there are error(s). Exit code: 1[Copy to clipboard]解决办法：将你的程序加入工程中，可以右键程序区>>ADD to project三、程序没有后缀名，或者后缀名不正确。

1. the time series files applied in .bnd file have no common period这个是在validation messages中提示的，意思是说simulation中开始和结束时间设置与给定的时间序列不一致。

检查下吧！否则会出现error no385.如果确定没错误，但run parameters仍然是黄色的，不防无视之，点start。

你会发现变成绿色了。

2. "Error No 25: At the h-point (location) the water depth greater than 4 times max. depth"。

Why does this happen and what can be done to overcome this problem? 这个错误是初学者经常遇到的。

意思是某点的计算水深远远大于河堤高程。

产生原因是模型不稳定，计算发散。

解决方法：a：减小时间步长。

b：中间内插断面。

3. Warning No 65: In river xx : 7064 meter there is a difference in the bed level of the rivers meeting at the intersection.The lowest bed level (21.054 meter) is found in river BRANCH25 at chainage 0.000 meter. The highest level (21.088 meter) is found in river yy at chainage 706 meter. A difference in bed level for the rivers meeting may cause mass errors and instabilities especially if low flow is simulated.此waring在mike计算中经常出现。

文档名称文档密级
1.1 标题：iMC iCC配置下发失败的常见原因
1.2 问题描述：
某局点：iMC iCC给设备下发配置问题。

1.3 问题分析：
iCC配置管理中心基于SNMP和TFTP 两个协议，对于配置备份或配置下发失败的问题，可以从这2个方面入手，常见原因有：
1、iCC需要设备的写参数，正确配置SNMP的读写参数。

2、配置的传送依靠TFTP协议，保证设备与iMC服务器的TFTP端口（UDP
69端口）通信正常。

3、对于V5平台的设备，iMC下发运行配置时，会自动切换到系统视图
下执行命令，所以不要在下发的配置有存在“system-view”命令，否则下发失败。

4、对于VRF3.10和VRF3.20平台的设备，iCC配置备份和下发会失败，
如下图所示，可以通过更新版本到 PLAT2606P03及之后版本解决。

1.4 解决方法:
2015-01-21 H3C技术文档第1页, 共1页。

初学者初用ICCAVR编程的时候，经常会出现一些错误，现在将常见的错误报告整理如下。

这里的一些错误是为了展示说明而故意制造的，欢迎你提供你遇到的错误和解决方法。

一、正常编译通过CODE:C:\icc\bin\imakew -f main.makiccavr -c -IC:\icc\include\ -e -DA TMEGA -DA TMega16 -l -g -Mavr_enhanced D:\桌面\实验教程\LED应用\霓虹灯\main.ciccavr -o main -LC:\icc\lib\ -g -ucrtatmega.o -bfunc_lit:0x54.0x4000 -dram_end:0x45f -bdata:0x60.0x45f -dhwstk_size:16 -beeprom:1.512 -fihx_coff -S2 @main.lk -lcatmega Device 1% full.Done.[url="][/url]这是我们最想看到的了，万事大吉。

二、工程中未加入.C文件CODE:C:\icc\bin\imakew -f main.makiccavr -o main -LC:\icc\lib\ -g -ucrtatmega.o -bfunc_lit:0x54.0x4000 -dram_end:0x45f -bdata:0x60.0x45f -dhwstk_size:16 -beeprom:1.512 -fihx_coff -S2 @main.lk -lcatmega unknown file type @main.lk, passed to linker!ERROR unknown file type '@main.lk'C:\icc\bin\imakew.exe: Error code 1Done: there are error(s). Exit code: 1解决办法：将你的程序加入工程中，可以右键程序区>>ADD to project三、程序没有后缀名，或者后缀名不正确。

错误代码错误类型说明---------- ------------------------ ------------------------------ 0x800ccc00 load_sicily_failed 未加载身份验证。

0x800ccc01 invalid_cert_cn 证书内容无效。

0x800ccc02 invalid_cert_date 证书日期无效。

0x800ccc03 already_connected 用户已连接。

0x800ccc04 conn0x800ccc05 not_connected 未连接到服务器。

0x800ccc06 conn_send 正在发送0x800ccc07 would_block 信息阻塞0x800ccc08 invalid_state 带病的/不完整的状态1 / 10x800ccc09 conn_recv 正在接收0x800ccc1 / 10a incomplete 邮件下载未完成。

0x800ccc0b busy 服务器或邮箱忙。

0x800ccc0c not_init0x800ccc0d cant_find_host 找不到服务器。

0x800ccc0e failed_to_connect 无法连接到服务器。

0x800ccc0f connection_dropped 连接已关闭。

0x800ccc10 invalid_address 服务器上的未知地址。

0x800ccc11 invalid_address_list 服务器上的未知邮件列表。

0x800ccc12 socket_read_error 无法发送 winsock 请求。

0x800ccc13 socket_write_error 无法读取 winsock 答复。

0x800ccc14 socket_init_error 无法初始化 winsock。

0x800ccc15 socket_connect_error 无法打开 windows 套接字。

ICC错误集锦新手用ICC编程的时候，经常会出现一些错误，现在将常见的错误报告整理如下。

这里的一些错误是我为了展示而故意制造的，欢迎你提供你遇到的错误。

排名不分先后：一、正常编译通过CODE:C:\icc\bin\imakew -f main.makiccavr -c -IC:\icc\include\ -e -DATMEGA -DATMega16 -l -g -Mavr_enhanced D:\桌面\实验教程\LED应用\霓虹灯\main.ciccavr -o main -LC:\icc\lib\ -g -ucrtatmega.o -bfunc_lit:0x54.0x4000 -dram_end:0x45f -bdata:0x60.0x45f -dhwstk_size:16 -beeprom:1.512 -fihx_coff -S2 @main.lk -lcatmegaDevice 1% full.Done.[Copy to clipboard]这是我们最想看到的了，万事大吉。

二、工程中未加入.C文件CODE:C:\icc\bin\imakew -f main.makiccavr -o main -LC:\icc\lib\ -g -ucrtatmega.o -bfunc_lit:0x54.0x4000 -dram_end:0x45f -bdata:0x60.0x45f -dhwstk_size:16 -beeprom:1.512 -fihx_coff -S2 @main.lk -lcatmega unknown file type @main.lk, passed to linker!ERROR unknown file type '@main.lk'C:\icc\bin\imakew.exe: Error code 1Done: there are error(s). Exit code: 1[Copy to clipboard]解决办法：将你的程序加入工程中，可以右键程序区>>ADD to project三、程序没有后缀名，或者后缀名不正确。

1：JCL ERROR，屏幕右上红色触目惊心的JCL ERROR，这个错误一般是JCL 语句的格式错误，比如关键字写错了，数据集有重名等等在报JCL ERROR以后，进入M.5 进入H,在最后一行（最后一行是最后执行的操作，如果任务没有阻塞的话，肯定是当前发生JCL ERROR的操作），在左边输入？（？号只是让系统把调试信息分门别类的显示出来，感觉适用于我们这些菜鸟）。

进入第三个JESYSMSG（在左边输入s），错误提示信息一般都在里面啦，其实JCL ERROR的错误很好懂的，把里面的英文读一下就清楚的差不多了。

2：MAXCC=8或12，这里的错误一般是由蓝紫色的那些数据流里面的语句写错了或者根本是这些语句里面有逻辑错误引起的，在报这个错误以后，按照上述方法进入sdsf，但这次进入的是第三个以后的SYSPRINT等，错误信息一般在这个里面，比如MISSING PARENTHESIS什么的。

3：报ABENDED错误，如果报了这个错误的话，那么节哀吧，感觉这个错误不知道怎么调哈，乱七八糟的，而且原因总是很搞笑的原因，比如IEBCOPY写成了IEBCORY什么的。

下面贴出来的是我总结的错误集锦，大家如果碰到相应的错误代码，可以按图索骥，应该能有点帮助的哈。

● 6 IEFC605I UNIDENTIFIED OPERATION FIELD第六行漏了个逗号，因此就找不到操作区域了，看见了这个警告可以检查一下逗号● 2 IEFC605I UNIDENTIFIED OPERATION FIELD3 IEFC019I MISPLACED DD STATEMENT第二行漏了PGM关键字，连“PGM”字段都漏了，肯定DD语句位置错误啦。

●IGD17001I DUPLICATE DATA SET NAME ON VOLUME USER02数据集有重名，意思就是要创建的数据集已经存在，这个错误常常是因为自己的疏忽导致的。

igcctray函数不正确IGCCTray是一个常用的系统优化工具，用于管理和显示显卡的颜色和亮度等设置。

不过最近很多网友反映，在使用IGCCTray函数时出现了一些问题，无法正确地对显示器进行设置，导致图像色彩不准确或显示器出现闪烁等问题。

以下是IGCCTray函数不正确的具体表现和可能原因：1. 无法正确读取显示器的ICC文件。

ICC文件是一种色彩管理文件，用于确保图像在不同设备之间的颜色保持一致。

在使用IGCCTray函数时，如果无法正确读取显示器的ICC文件，就会导致显示效果不准确。

这种情况一般是由于操作系统或驱动程序更新后，导致ICC文件丢失或不兼容的原因。

解决方法是从官网下载最新的驱动程序，并重新安装。

2. 无法正确设置显示器的亮度和色彩。

正常情况下，IGCCTray函数应该能够根据用户的设置来调整显示器的亮度和色彩。

但是有时候这些设置可能没有被正确应用，导致图像显示不正常。

这种情况一般是由于系统或驱动程序的错误设置或缺失导致的。

解决方法是检查设置是否正确，或者重新安装相应的驱动程序。

3. 显示器频繁出现闪烁的问题。

有些用户使用IGCCTray函数时，会发现显示器频繁闪烁，甚至无法正常显示。

这可能是因为IGCCTray函数不兼容用户的显示器或驱动程序导致的。

如果出现这种情况，可以尝试卸载IGCCTray程序，并使用其他能够兼容自己显示器的软件进行设置。

总结：IGCCTray函数不正确会导致显示器的色彩不准确、亮度不稳定、甚至无法正常显示。

要解决这些问题，需要检查自己的系统和驱动程序设置是否正确，并尝试重新安装驱动程序或使用其他软件进行设置。

C51编译出错总结Keil 版本不同，error 和 warning 序号可能不一样C51 编译器识别错类型有三种1.致命错误：伪指令控制行有错，访问不存在的原文件或头文件等。

2.语法及语义错误：语法和语义错误都发生在原文件中。

有这类错误时，给出提示但不产生目标文件，错误超过一定数量才终止编译。

3.警告：警告出现并不影响目标文件的产生，但执行时有可能发生问题。

程序员应斟酌处理。

D.1 致命错误C_51FATAL_ERRORACTION: LINE: ERROR: terminated或 C_51 FATAL ERRORACTION: FILE: ERROR: terminatedC_51 TERMINATEDC_51(1)ACTION 的有关信息*PARSING INVOKE-/#PRAGMA_LINE在对#pragma 指明的控制行作此法分析时出错。

*ALLOCATING MEMORY 系统分配存储空间时出错。

编译较大程序需要512k 空间。

*OPENING INPUT_FILE打开文件时，未找到或打不开源文件/头文件。

*CREATE LIST_FILE/OBJECT_FILE/WORK_FILE不能创建上述文件。

可能磁盘满或文件已存在而且写保护。

*PARSINGSOURCE_FILE/ANALYZING DECLARATIONS分析源程序时发现外部引用名太多。

*GENERATING INTERMEDIATE CODE源代码被翻译成内部伪代码，错误可能来源于函数太大而超过内部极限。

*WRITING TO FILE在向文件（work,list,prelist 或 object file）写时发生错误。

（2）ERROR 的有关信息*MEMORY SPACE EXHAUSTED所有可用系统空间耗尽。

至少需要512k 字节空间。

没有足够空间，用户必须检查常驻内存的驱动程序是否太多。

*FILE DOES NOT EXISTFILE 行定的文本文件名未发现。

Turbo c报错解读大全#operator not followed by maco argument name#运算符后没跟宏变元名Ambiguous operators need parentheses不明确的运算需要用括号括起Ambiguous symbol ''xxx''不明确的符号Argument # missing name参数#名丢失Argument list syntax error参数表语法错误Array bounds missing丢失数组界限符Array size too large数组尺寸太大Assembler statement too long汇编语句太长Bad call of in-line function内部函数非法调用Bad character in paramenters参数中有不适当的字符Bad configuration file配置文件不正确Bad file name format in include directive包含命令中文件名格式不正确Bad ifdef directive synatax编译预处理ifdef有语法错Bad ifndef directive syntax编译预处理ifndef指令语法错误Bad undef directive syntax编译预处理undef有语法错Bit field too large位字段太长Call of non-function调用未定义的函数Call to function with no prototype调用函数时没有函数的说明Cannot modify a const object不允许修改常量对象Case outside of switchCase 出现在switch外Case statement missingCase语句漏掉Case syntax errorCase 语法错误Character constant too long字符常量太长Code has no effect代码不可述不可能执行到Compound statement missing{分程序漏掉"{"Conflicting type modifiers不明确的类型说明符Constant expression required要求常量表达式Constant out of range in comparison 在比较中常量超出范围Conversion may lose significant digits转换时会丢失意义的数字Conversion of near pointer not allowed 不允许转换近指针Could not find file ''xxx''找不到XXX文件Declaration missing 。

OH-CON5403 XO-STAR 控制系统LMCS 主板包括四个模块子系统：OCS （操作控 制子系统）、MCS （运行控制子系统）、DCSS （门控制子系统）、DBSS （驱动和制 动子系统）。

将服务器插入 OCSS 则四个模块均可监控，插入 MCSS 可监控除OCSS 的其它三个模块，插入 DBSS 或 DISS 只能监控对应模块本身。

（一） LED2应符合以下状态，如要不符合请检查 LMCS 到OCF 与OCSS 勺通信 常亮DIF 与DCSS 勺通信 常亮DBF 与DBSS 的通信 常亮WD MCSS 自监控 闪烁 拔掉OCSSK 的P4插件二）用服务器查找故障方法： M2 2 2 清除故障方法：再故障代码状态下按 “蓝”键后按“ 5”键 故障代码 服务器显示 说电子板软件运行错误，引起CPU 复位。

上电复位，或者按了复位按钮。

5V 电源的电压低于2.5V 。

在系统失电期间，系统停 2006STM fst task ovr 2007STM sft spur int 软件假中断 2008STM overflow 溢出 2009 STM hrd spur int 硬件假中断故障来源：位置参考说明 与电梯运行方向一致的钢丝绳滑移太大。

与电梯运行方向相反的钢丝绳滑移太大。

无效的楼层计数，楼层计数与实际井道楼层数不一致， 或者超出最高或最低楼层的限制DZ 输入信号错误 DZ1输入顺序错误 DZ2输入顺序错误1LS 输入顺序错误。

电梯停在底层，DZ 动作而没有1LS信号，或者1LS 信号在1LS 开关之前动作。

也有可能1LS 和2LS 同时动作 2000STM software reset 2001STM power on reset 2002STM power fail 机。

2003STM tasking rst 2004STM div by sero 2005STM not available 故障代码 服务器显示2100PSR Big pos slip 2101PSR Big neg slip 2102PSR Pos mes flt 2103 PSR Inv raw pos 2104PSR Inv raw pos 2105PSR DZ error 2106PSR DZ1 error 2107PSR DZ2 error 2108 PSR 1LS error2109 PSR 2LS error 1,2 2LS 输入顺序错误。