WebSVN – f9daq – Blame – //cvi/instr/pw18-1.8aq/pw18-1.8aq.c

Rev	Author	Line No.	Line
280	f9daq	1	#include <userint.h>
		2	#include "pw18-1.8aq-ctrl.h"
		3	#include <stdlib.h>
		4	#include <stdio.h>
		5	#include <windows.h>
		6	#include <pw18-1.8aq.h>
		7
		8	int TMI_DeviceId=0;
		9
		10
		11
		12
		13
		14	int TMI_Initialize()
		15	{
		16
		17	TMI_HandleOpen = NULL;
		18	TMI_HandleClose = NULL;
		19	TMI_TimeOut = NULL;
		20	TMI_Refresh = NULL;
		21	TMI_ModelNameQ = NULL;
		22	TMI_Voltage = NULL;
		23	TMI_VoltageQ = NULL;
		24	TMI_Current = NULL;
		25	TMI_CurrentQ = NULL;
		26	TMI_MainOutput = NULL;
		27	TMI_MainOutputQ = NULL;
		28	TMI_Delay = NULL;
		29	TMI_DelayQ = NULL;
		30	TMI_OutputSel = NULL;
		31	TMI_OutputSelQ = NULL;
		32	TMI_TrackingOnOff = NULL;
		33	TMI_TrackingOnOffQ = NULL;
		34	TMI_TrackingMode = NULL;
		35	TMI_TrackingModeQ = NULL;
		36	TMI_TrackingGroup = NULL;
		37	TMI_TrackingGroupQ = NULL;
		38	TMI_TrackingData = NULL;
		39	TMI_TrackingDataQ = NULL;
		40	TMI_DelayTime = NULL;
		41	TMI_DelayTimeQ = NULL;
		42	TMI_Display = NULL;
		43	TMI_DisplayQ = NULL;
		44	TMI_Preset = NULL;
		45	TMI_PresetQ = NULL;
		46	TMI_MoniDataQ = NULL;
		47	TMI_AdrQ = NULL;
		48	TMI_RemoteLocal = NULL;
		49	TMI_LocalLockOut = NULL;
		50	TMI_DataBackUp = NULL;
		51	TMI_SRQEnable = NULL;
		52	TMI_AllPresetQ = NULL;
		53	TMI_AllPresetQS = NULL;
		54	TMI_Out = NULL;
		55	TMI_In = NULL;
		56	return 0;
		57	}
		58
		59
		60	int TMI_Test()
		61	{
		62	char str[0xFF];
		63	if (TMI_HandleOpen == NULL ) return FALSE;
		64	if (TMI_HandleClose == NULL ) return FALSE;
		65	if (TMI_TimeOut == NULL ) return FALSE;
		66	if (TMI_Refresh == NULL ) return FALSE;
		67	if (TMI_ModelNameQ == NULL ) return FALSE;
		68	if (TMI_Voltage == NULL ) return FALSE;
		69	if (TMI_VoltageQ == NULL ) return FALSE;
		70	if (TMI_Current == NULL ) return FALSE;
		71	if (TMI_CurrentQ == NULL ) return FALSE;
		72	if (TMI_MainOutput == NULL ) return FALSE;
		73	if (TMI_MainOutputQ == NULL ) return FALSE;
		74	if (TMI_Delay == NULL ) return FALSE;
		75	if (TMI_DelayQ == NULL ) return FALSE;
		76	if (TMI_OutputSel == NULL ) return FALSE;
		77	if (TMI_OutputSelQ == NULL ) return FALSE;
		78	if (TMI_TrackingOnOff == NULL ) return FALSE;
		79	if (TMI_TrackingOnOffQ == NULL ) return FALSE;
		80	if (TMI_TrackingMode == NULL ) return FALSE;
		81	if (TMI_TrackingModeQ == NULL ) return FALSE;
		82	if (TMI_TrackingGroup == NULL ) return FALSE;
		83	if (TMI_TrackingGroupQ == NULL ) return FALSE;
		84	if (TMI_TrackingData == NULL ) return FALSE;
		85	if (TMI_TrackingDataQ == NULL ) return FALSE;
		86	if (TMI_DelayTime == NULL ) return FALSE;
		87	if (TMI_DelayTimeQ == NULL ) return FALSE;
		88	if (TMI_Display == NULL ) return FALSE;
		89	if (TMI_DisplayQ == NULL ) return FALSE;
		90	if (TMI_Preset == NULL ) return FALSE;
		91	if (TMI_PresetQ == NULL ) return FALSE;
		92	if (TMI_MoniDataQ == NULL ) return FALSE;
		93	if (TMI_AdrQ == NULL ) return FALSE;
		94	if (TMI_RemoteLocal == NULL ) return FALSE;
		95	if (TMI_LocalLockOut == NULL ) return FALSE;
		96	if (TMI_DataBackUp == NULL ) return FALSE;
		97	if (TMI_SRQEnable == NULL ) return FALSE;
		98	if (TMI_AllPresetQ == NULL ) return FALSE;
		99	if (TMI_AllPresetQS == NULL ) return FALSE;
		100	if (TMI_Out == NULL ) return FALSE;
		101	if (TMI_In == NULL ) return FALSE;
		102	TMI_ModelNameQ(TMI_DeviceId, str);
		103	printf("TMI_ModelNameQ %s\n",str);
		104	return TRUE;
		105	}
		106
		107	int TMI_Close()
		108	{
		109
		110
		111	if(TMI_APIDll != NULL) {
		112	if (TMI_DeviceId){
		113
		114	TMI_RemoteLocal(TMI_DeviceId);
		115	TMI_HandleClose(TMI_DeviceId);
		116	TMI_DeviceId = 0;
		117	}
		118	FreeLibrary(TMI_APIDll);
		119	}
		120	return 0;
		121	}
		122
		123	int TMI_Open()
		124	{
		125	TMI_Initialize();
		126	printf("FALSE =%d TRUE=%d\n", FALSE, TRUE);
		127	TMI_APIDll=LoadLibrary((LPCSTR)"TMI_API.dll");
		128	if( TMI_APIDll == NULL )
		129	return FALSE;
		130
		131	TMI_HandleOpen = (int ( __stdcall* )( char * , char * )) GetProcAddress(TMI_APIDll , "TMI_HandleOpen");
		132	if( TMI_HandleOpen == NULL )
		133	return FALSE;
		134
		135	TMI_TimeOut = (int ( __stdcall* )( int , int )) GetProcAddress(TMI_APIDll , "TMI_TimeOut");
		136	if( TMI_TimeOut == NULL )
		137	return FALSE;
		138
		139	TMI_Refresh = (int ( __stdcall* )( int )) GetProcAddress(TMI_APIDll , "TMI_Refresh");
		140	if( TMI_Refresh == NULL )
		141	return FALSE;
		142
		143	TMI_ModelNameQ = (int ( __stdcall* )( int , char * )) GetProcAddress(TMI_APIDll , "TMI_ModelNameQ");
		144	if( TMI_ModelNameQ == NULL )
		145	return FALSE;
		146
		147	TMI_Voltage = (int ( __stdcall* )( int , unsigned char , unsigned char , double )) GetProcAddress(TMI_APIDll , "TMI_Voltage");
		148	if( TMI_Voltage == NULL )
		149	return FALSE;
		150
		151	TMI_VoltageQ = (int ( __stdcall* )( int , unsigned char , unsigned char , double * )) GetProcAddress(TMI_APIDll , "TMI_VoltageQ");
		152	if( TMI_VoltageQ == NULL )
		153	return FALSE;
		154
		155	TMI_Current = (int ( __stdcall* )(int , unsigned char , unsigned char , double )) GetProcAddress(TMI_APIDll , "TMI_Current");
		156	if( TMI_Current == NULL )
		157	return FALSE;
		158
		159	TMI_CurrentQ = (int ( __stdcall* )(int , unsigned char , unsigned char , double * )) GetProcAddress(TMI_APIDll , "TMI_CurrentQ");
		160	if( TMI_CurrentQ == NULL )
		161	return FALSE;
		162
		163	TMI_MainOutput = (int ( __stdcall* )(int , unsigned char )) GetProcAddress(TMI_APIDll , "TMI_MainOutput");
		164	if( TMI_MainOutput == NULL )
		165	return FALSE;
		166
		167	TMI_MainOutputQ = (int ( __stdcall* )(int , unsigned char * )) GetProcAddress(TMI_APIDll , "TMI_MainOutputQ");
		168	if( TMI_MainOutputQ == NULL )
		169	return FALSE;
		170
		171	TMI_Delay = (int ( __stdcall* )(int , unsigned char )) GetProcAddress(TMI_APIDll , "TMI_Delay");
		172	if( TMI_Delay == NULL )
		173	return FALSE;
		174
		175	TMI_DelayQ = (int ( __stdcall* )(int , unsigned char * )) GetProcAddress(TMI_APIDll , "TMI_DelayQ");
		176	if( TMI_DelayQ == NULL )
		177	return FALSE;
		178
		179	TMI_OutputSel = (int ( __stdcall* )(int , unsigned char , unsigned char )) GetProcAddress(TMI_APIDll , "TMI_OutputSel");
		180	if( TMI_OutputSel == NULL )
		181	return FALSE;
		182
		183	TMI_OutputSelQ = (int ( __stdcall* )(int , unsigned char , unsigned char * )) GetProcAddress(TMI_APIDll , "TMI_OutputSelQ");
		184	if( TMI_OutputSelQ == NULL )
		185	return FALSE;
		186
		187	TMI_TrackingOnOff = (int ( __stdcall* )(int , unsigned char )) GetProcAddress(TMI_APIDll , "TMI_TrackingOnOff");
		188	if( TMI_TrackingOnOff == NULL )
		189	return FALSE;
		190
		191	TMI_TrackingOnOffQ = (int ( __stdcall* )(int , unsigned char * )) GetProcAddress(TMI_APIDll , "TMI_TrackingOnOffQ");
		192	if( TMI_TrackingOnOffQ == NULL )
		193	return FALSE;
		194
		195	TMI_TrackingMode = (int ( __stdcall* )(int , unsigned char )) GetProcAddress(TMI_APIDll , "TMI_TrackingMode");
		196	if( TMI_TrackingMode == NULL )
		197	return FALSE;
		198
		199	TMI_TrackingModeQ = (int ( __stdcall* )(int , unsigned char * )) GetProcAddress(TMI_APIDll , "TMI_TrackingModeQ");
		200	if( TMI_TrackingModeQ == NULL )
		201	return FALSE;
		202
		203	TMI_TrackingGroup = (int ( __stdcall* )(int , unsigned char , unsigned char )) GetProcAddress(TMI_APIDll , "TMI_TrackingGroup");
		204	if( TMI_TrackingGroup == NULL )
		205	return FALSE;
		206
		207	TMI_TrackingGroupQ = (int ( __stdcall* )(int , unsigned char , unsigned char * )) GetProcAddress(TMI_APIDll , "TMI_TrackingGroupQ");
		208	if( TMI_TrackingGroupQ == NULL )
		209	return FALSE;
		210
		211	TMI_TrackingData = (int ( __stdcall* )(int , unsigned char , unsigned char , double )) GetProcAddress(TMI_APIDll , "TMI_TrackingData");
		212	if( TMI_TrackingData == NULL )
		213	return FALSE;
		214
		215	TMI_TrackingDataQ = (int ( __stdcall* )(int , unsigned char , unsigned char , double * )) GetProcAddress(TMI_APIDll , "TMI_TrackingDataQ");
		216	if( TMI_TrackingDataQ == NULL )
		217	return FALSE;
		218
		219	TMI_DelayTime = (int ( __stdcall* )(int , unsigned char , double )) GetProcAddress(TMI_APIDll , "TMI_DelayTime");
		220	if( TMI_DelayTime == NULL )
		221	return FALSE;
		222
		223	TMI_DelayTimeQ = (int ( __stdcall* )(int , unsigned char , double * )) GetProcAddress(TMI_APIDll , "TMI_DelayTimeQ");
		224	if( TMI_DelayTimeQ == NULL )
		225	return FALSE;
		226
		227	TMI_Display = (int ( __stdcall* )(int , unsigned char )) GetProcAddress(TMI_APIDll , "TMI_Display");
		228	if( TMI_Display == NULL )
		229	return FALSE;
		230
		231	TMI_DisplayQ = (int ( __stdcall* )(int , unsigned char * )) GetProcAddress(TMI_APIDll , "TMI_DisplayQ");
		232	if( TMI_DisplayQ == NULL )
		233	return FALSE;
		234
		235	TMI_Preset = (int ( __stdcall* )(int , unsigned char )) GetProcAddress(TMI_APIDll , "TMI_Preset");
		236	if( TMI_Preset == NULL )
		237	return FALSE;
		238
		239	TMI_PresetQ = (int ( __stdcall* )(int , unsigned char * )) GetProcAddress(TMI_APIDll , "TMI_PresetQ");
		240	if( TMI_PresetQ == NULL )
		241	return FALSE;
		242
		243	TMI_MoniDataQ = (int ( __stdcall* )(int , char , double * , double * , char * )) GetProcAddress(TMI_APIDll , "TMI_MoniDataQ");
		244	if( TMI_MoniDataQ == NULL )
		245	return FALSE;
		246
		247	TMI_AdrQ = (int ( __stdcall* )(int , unsigned char * )) GetProcAddress(TMI_APIDll , "TMI_AdrQ");
		248	if( TMI_AdrQ == NULL )
		249	return FALSE;
		250
		251	TMI_RemoteLocal = (int ( __stdcall* )(int )) GetProcAddress(TMI_APIDll , "TMI_RemoteLocal");
		252	if( TMI_RemoteLocal == NULL )
		253	return FALSE;
		254
		255	TMI_LocalLockOut = (int ( __stdcall* )(int )) GetProcAddress(TMI_APIDll , "TMI_LocalLockOut");
		256	if( TMI_LocalLockOut == NULL )
		257	return FALSE;
		258
		259	TMI_DataBackUp = (int ( __stdcall* )(int )) GetProcAddress(TMI_APIDll , "TMI_DataBackUp");
		260	if( TMI_DataBackUp == NULL )
		261	return FALSE;
		262
		263	TMI_SRQEnable = (int ( __stdcall* )(int , unsigned char )) GetProcAddress(TMI_APIDll , "TMI_SRQEnable");
		264	if( TMI_SRQEnable == NULL )
		265	return FALSE;
		266
		267	TMI_AllPresetQ = (int ( __stdcall* )(int , double * )) GetProcAddress(TMI_APIDll , "TMI_AllPresetQ");
		268	if( TMI_AllPresetQ == NULL )
		269	return FALSE;
		270
		271	TMI_AllPresetQS = (int ( __stdcall* )(int , char * )) GetProcAddress(TMI_APIDll , "TMI_AllPresetQS");
		272	if( TMI_AllPresetQS == NULL )
		273	return FALSE;
		274
		275	TMI_Out = (int ( __stdcall* )(int , char * )) GetProcAddress(TMI_APIDll , "TMI_Out");
		276	if( TMI_Out == NULL )
		277	return FALSE;
		278
		279	TMI_In = (int ( __stdcall* )(int , char * )) GetProcAddress(TMI_APIDll , "TMI_In");
		280	if( TMI_In == NULL )
		281	return FALSE;
		282
		283	TMI_HandleClose = (int ( __stdcall* )( int )) GetProcAddress(TMI_APIDll , "TMI_HandleClose");
		284	if( TMI_HandleClose == NULL )
		285	return FALSE;
		286
		287	printf("TMI_In loaded.\n");
		288	return TRUE;
		289	}
		290
		291	int TMI_OpenHandle(char * dev, char * usb ){
		292
		293	TMI_DeviceId = TMI_HandleOpen(dev, usb);
		294	return TMI_DeviceId;
		295	}
		296
		297
		298
		299
		300	/**************TOKOVI (potek, kako se spreminjajo tokovi s casom)**************/
		301
		302	void TMI_ReadCurrent(double * I , double * V, unsigned char * mode, unsigned char *onoff){
		303	int iRet;
		304	char ch=0;
		305	double Voltage;
		306	double Current;
		307	char cv_cc;
		308
		309
		310	iRet = TMI_TimeOut(TMI_DeviceId, 1);
		311	iRet = TMI_Refresh(TMI_DeviceId);
		312
		313
		314	//iRet = TMI_MainOutput(TMI_DeviceId, Output);
		315	//iRet = TMI_MainOutputQ(TMI_DeviceId, &Output);
		316	for (ch=0;ch<4;ch++){
		317
		318
		319	iRet = TMI_MoniDataQ(TMI_DeviceId, ch+1, &Voltage, &Current, &cv_cc);
		320	//if (debug) printf("[%d] %g V %g A CVCC %d\t",ch, Voltage, Current, cv_cc );
		321	I[ch]= Current; //s tem definiras kaj sta I in V.
		322	V[ch]= Voltage;
		323
		324
		325	}
		326	//if (debug) printf("\n");
		327
		328
		329	return;
		330
		331
		332	}
		333
		334
		335	#ifdef MAIN
		336
		337	#include <ansi_c.h>
		338	#include <utility.h>
		339	#include "pw18-1.8aq-ctrl.h"
		340
		341	#define RSTREG(a,x) (a&=(~(x)))
		342	#define SETREG(a,x) (a\|=x)
		343
		344	int gLogToFile;
		345	int vmon[4]={P1_VMON_1,P1_VMON_2,P1_VMON_3,P1_VMON_4 };
		346	int imon[4]={P1_IMON_1,P1_IMON_2,P1_IMON_3,P1_IMON_4 };
		347	int vset[4]={P1_U_1,P1_U_2,P1_U_3,P1_U_4 };
		348	int iset[4]={P1_I_1,P1_I_2,P1_I_3,P1_I_4 };
		349	int radiob[4]={P1_BOX_1,P1_BOX_2,P1_BOX_3,P1_BOX_4 };
		350
		351	int cvcc[4]={P1_CVCC_1,P1_CVCC_2,P1_CVCC_3,P1_CVCC_4 };
297	f9daq	352
280	f9daq	353	int gMask=0xF;
		354
		355	int pnl;
		356	FILE *gFp;
		357	int main (int argc, char *argv[])
		358	{
		359	int DeviceId=0;
297	f9daq	360	unsigned char MainOutput, preset;
280	f9daq	361	double Voltage, Current, tinterval;
		362	char str[0xFF];
		363	if (InitCVIRTE (0, argv, 0) == 0)
		364	return -1; /* out of memory */
		365	SetStdioPort (CVI_STDIO_WINDOW);
		366	if ((pnl = LoadPanel (0, "pw18-1.8aq-ctrl.uir", P1)) < 0) return -1;
		367
		368	if (TMI_Open()== 0) MessagePopup("Error","Cannot open USB device");
		369	DeviceId = TMI_OpenHandle ("PW-A","USB:1:1");
		370	if (TMI_Test() == 0 )MessagePopup("DLL error","Dll Error");
		371	if (DeviceId < 0) MessagePopup("Error","Not Connected");
		372	printf("TMI device ID %d\n",TMI_DeviceId);
		373
		374	TMI_MainOutputQ(TMI_DeviceId, &MainOutput);
		375	SetCtrlVal(pnl, P1_ONOFF, MainOutput);
		376	GetCtrlVal(pnl, P1_TINTERVAL, &tinterval);
		377	SetCtrlAttribute (pnl, P1_TIMER, ATTR_INTERVAL, tinterval);
297	f9daq	378	TMI_PresetQ(TMI_DeviceId, &preset);
		379	SetCtrlVal(pnl, P1_PRESET, preset);
		380	SetTraceAttributeEx (pnl, P1_GRAPH_IMON, 1, ATTR_TRACE_LG_TEXT, "CH +18V");
		381	SetTraceAttributeEx (pnl, P1_GRAPH_IMON, 2, ATTR_TRACE_LG_TEXT, "CH -18V");
		382	SetTraceAttributeEx (pnl, P1_GRAPH_IMON, 3, ATTR_TRACE_LG_TEXT, "CH +6V");
		383	SetTraceAttributeEx (pnl, P1_GRAPH_IMON, 4, ATTR_TRACE_LG_TEXT, "CH -6V");
		384
		385	SetTraceAttributeEx (pnl, P1_GRAPH_VMON, 1, ATTR_TRACE_LG_TEXT, "CH +18V");
		386	SetTraceAttributeEx (pnl, P1_GRAPH_VMON, 2, ATTR_TRACE_LG_TEXT, "CH -18V");
		387	SetTraceAttributeEx (pnl, P1_GRAPH_VMON, 3, ATTR_TRACE_LG_TEXT, "CH +6V");
		388	SetTraceAttributeEx (pnl, P1_GRAPH_VMON, 4, ATTR_TRACE_LG_TEXT, "CH -6V");
280	f9daq	389	for (unsigned char ch=0;ch<4;ch++){
		390	int ison;
297	f9daq	391	TMI_VoltageQ(TMI_DeviceId, ch+1, preset, &Voltage);
		392	TMI_CurrentQ(TMI_DeviceId, ch+1, preset, &Current);
280	f9daq	393	SetCtrlVal(pnl, vset[ch], Voltage);
		394	SetCtrlVal(pnl, iset[ch], Current);
		395	GetCtrlVal(pnl, radiob[ch], &ison);
		396	if (ison) SETREG(gMask,(1<<ch)); else RSTREG(gMask,(1<<ch));
		397	}
		398
		399	DisplayPanel (pnl);
		400	RunUserInterface ();
		401	DiscardPanel (pnl);
		402	TMI_Close();
		403
		404	if (gFp) fclose(gFp);
		405	return 0;
		406	}
		407
		408
		409
		410
		411	int CVICALLBACK SwitchOnOffCB (int panel, int control, int event,
		412	void *callbackData, int eventData1, int eventData2)
		413	{
		414	unsigned char state;
		415	switch (event)
		416	{
		417	case EVENT_COMMIT:
		418	GetCtrlVal(panel, control, &state);
		419	TMI_MainOutput(TMI_DeviceId, state);
		420	break;
		421	}
		422	return 0;
		423	}
		424
		425	int CVICALLBACK SetCB (int panel, int control, int event,
		426	void *callbackData, int eventData1, int eventData2)
		427	{
		428
		429
		430	switch (event)
		431	{
297	f9daq	432	case EVENT_COMMIT:{
		433	unsigned char preset;
		434	TMI_PresetQ(TMI_DeviceId, &preset);
		435	SetCtrlVal(pnl, P1_PRESET, preset);
280	f9daq	436	for (unsigned char ch = 0; ch<4;ch++){
		437	//printf("ch %d %x\n", ch, gMask);
		438	if (gMask & (1<<ch)){
		439	double Voltage;
		440	double Current;
297	f9daq	441
280	f9daq	442	GetCtrlVal(panel, vset[ch], &Voltage);
		443	GetCtrlVal(panel, iset[ch], &Current);
297	f9daq	444	//printf("->ch %d VSet %g Iset %g\n", ch, Voltage, Current);
		445	TMI_Voltage(TMI_DeviceId, ch+1, preset, Voltage);
		446	TMI_VoltageQ(TMI_DeviceId, ch+1, preset, &Voltage);
		447	TMI_Current(TMI_DeviceId, ch+1, preset, Current);
		448	TMI_CurrentQ(TMI_DeviceId, ch+1, preset, &Current);
		449	//printf("<-ch %d VSet %g Iset %g\n", ch, Voltage, Current);
280	f9daq	450
		451	}
		452	}
297	f9daq	453	}
280	f9daq	454	break;
		455	}
		456	return 0;
		457	}
		458
		459	int CVICALLBACK ReadCB (int panel, int control, int event,
		460	void *callbackData, int eventData1, int eventData2)
		461	{
		462
		463	int iRet;
		464	char ch=0;
		465	double Voltage;
		466	double Current;
		467	char cv_cc;
		468	switch (event)
		469	{
		470	case EVENT_COMMIT:
		471	for (ch = 0; ch<4;ch++){
		472	if (gMask & (1<<ch)){
		473	iRet = TMI_TimeOut(TMI_DeviceId, 1);
		474	iRet = TMI_Refresh(TMI_DeviceId);
		475	iRet = TMI_MoniDataQ(TMI_DeviceId, ch+1, &Voltage, &Current, &cv_cc);
297	f9daq	476	//printf("ch %d VSet %g Iset %g\n", ch, Voltage, Current);
280	f9daq	477	SetCtrlVal(panel, vmon[ch], Voltage);
		478	SetCtrlVal(panel, imon[ch], Current);
		479	SetCtrlVal(panel, cvcc[ch], cv_cc);
		480	}
		481	}
		482	break;
		483	}
		484	return 0;
		485	}
		486
		487	int CVICALLBACK SetIntervalCB (int panel, int control, int event,
		488	void *callbackData, int eventData1, int eventData2) {
		489	double tinterval;
		490	switch (event) {
		491	case EVENT_COMMIT:
		492	GetCtrlVal(panel, control, &tinterval);
		493	SetCtrlAttribute (panel, P1_TIMER, ATTR_INTERVAL, tinterval);
		494	break;
		495	}
		496	return 0;
		497	}
		498
		499	int CVICALLBACK TimerOnOffCB (int panel, int control, int event,
		500	void *callbackData, int eventData1, int eventData2)
		501	{
		502	int state;
		503	switch (event)
		504	{
		505	case EVENT_COMMIT:
		506	GetCtrlVal(panel, control, &state);
		507	if (state){
		508	ResumeTimerCallbacks();
		509	} else {
		510	SuspendTimerCallbacks ();
		511	printf ("Disabling timer....\n");
		512	}
		513	break;
		514	}
		515	return 0;
		516	}
		517
		518	int CVICALLBACK ExitCB (int panel, int control, int event,
		519	void *callbackData, int eventData1, int eventData2)
		520	{
		521	switch (event)
		522	{
		523	case EVENT_COMMIT:
		524	QuitUserInterface(0);
		525	break;
		526	}
		527	return 0;
		528	}
		529
		530	int CVICALLBACK SetMaskCB (int panel, int control, int event,
		531	void *callbackData, int eventData1, int eventData2)
		532	{ int ison;
		533	switch (event)
		534	{
		535	case EVENT_COMMIT:
		536	GetCtrlVal(panel, control, &ison);
		537	for (int i=0;i<4;i++) if (control == radiob[i]) break;
		538	if (ison) SETREG(gMask,(1<<i)); else RSTREG(gMask,(1<<i));
		539	break;
		540	}
		541	return 0;
		542	}
		543
		544	int CVICALLBACK LogToFileCB (int panel, int control, int event,
		545	void *callbackData, int eventData1, int eventData2)
		546	{
		547
		548	switch (event)
		549	{
		550	case EVENT_COMMIT:
		551	GetCtrlVal(panel, control, &gLogToFile);
		552
		553	break;
		554	}
		555	return 0;
		556	}
		557
		558	int CVICALLBACK TimerCB (int panel, int control, int event,
		559	void *callbackData, int eventData1, int eventData2)
		560	{
		561	switch (event)
		562	{
		563
		564	unsigned char ch;
		565	double current[4];
297	f9daq	566	double voltage[4];
280	f9daq	567	char cv_cc;
		568	case EVENT_TIMER_TICK:
		569	for (ch = 0; ch<4;ch++){
		570	if (gMask & (1<<ch)){
		571	TMI_TimeOut(TMI_DeviceId, 1);
		572	TMI_Refresh(TMI_DeviceId);
297	f9daq	573	TMI_MoniDataQ(TMI_DeviceId, ch+1, &voltage[ch], &current[ch], &cv_cc);
		574	SetCtrlVal(panel, vmon[ch], voltage[ch]);
280	f9daq	575	SetCtrlVal(panel, imon[ch], current[ch]);
		576	SetCtrlVal(panel, cvcc[ch], cv_cc);
		577	if (gLogToFile){
		578	if (!gFp) {
		579	gFp= fopen("pw18-1.8aq.log","w");
		580	fprintf(gFp,"#time\tch\tU\tI\tCV_CC\n");
		581	}
297	f9daq	582	fprintf(gFp,"%ul\t%d\t%g\t%g\t%d\n", time(NULL), ch+1, voltage[ch], current[ch], cv_cc);
280	f9daq	583	}
		584	}
		585	}
297	f9daq	586	PlotStripChart (panel, P1_GRAPH_IMON, current, 4, 0, 0, VAL_DOUBLE);
		587	PlotStripChart (panel, P1_GRAPH_VMON, voltage, 4, 0, 0, VAL_DOUBLE);
280	f9daq	588	break;
		589	}
		590	return 0;
		591	}
297	f9daq	592
		593	int CVICALLBACK SetPresetCB (int panel, int control, int event,
		594	void *callbackData, int eventData1, int eventData2) {
		595
		596	switch (event) {
		597	case EVENT_COMMIT:{
		598	unsigned char preset;
		599	double Voltage, Current;
		600	GetCtrlVal(panel, control, &preset);
		601	TMI_Preset(TMI_DeviceId, preset);
		602
		603	for (unsigned char ch=0;ch<4;ch++){
		604	int ison;
		605	TMI_VoltageQ(TMI_DeviceId, ch+1, preset, &Voltage);
		606	TMI_CurrentQ(TMI_DeviceId, ch+1, preset, &Current);
		607	SetCtrlVal(pnl, vset[ch], Voltage);
		608	SetCtrlVal(pnl, iset[ch], Current);
		609	GetCtrlVal(pnl, radiob[ch], &ison);
		610	if (ison) SETREG(gMask,(1<<ch)); else RSTREG(gMask,(1<<ch));
		611	}
		612	break;
		613	}
		614	}
		615	return 0;
		616	}
		617
		618
280	f9daq	619	#endif MAIN
		620

Subversion Repositories f9daq

(root)//cvi/instr/pw18-1.8aq/pw18-1.8aq.c – Rev 297