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source: firmware/FSC/src/interpol.c@ 15819

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Last change on this file since 15819 was 10753, checked in by neise, 13 years ago
working usb revision 10245 - modified for nice temperature printing command 'T'
File size: 11.0 KB

Line
1	//-----------------------------------------------------------------------------
2
3	#include "interpol.h"
4	#include "usart.h"
5	#include "ad7719_adc.h"
6	//#include "typedefs.h"
7	//#include "application.h"
8	#include "num_conversion.h"
9	#include "math.h"
10	//-----------------------------------------------------------------------------
11	/*
12	Temperatur Sensoren von IST nach DIN60751, Kl.B
13	Messfehler +/- 0.30+0.005*\|t\|
14
15	R(t) = R0(1 + At + Bt^2 + C(t-100)t^3) t = [-200, 0]°C
16	R(t) = R0(1 + At + Bt^2) t = [0, 850]°C
17
18	A = 3.9083*10^-3[°C^-1]
19	B = -5.775*10^-7[°C^-2]
20	C = -4.183*10^-12[°C^-4]
21
22	Strom durch R ist konstant 400uA
23	Intervallweise lineare Interpolation der Funktion R(t) mit MATLAB polyfit
24	adcword = 13107200 * u(temperatur)
25	*/
26	U08 space_STR[] = " \|";
27	U08 OoR_STR[] = " OoR \|";
28
29
30
31	float gettemp(void)
32	{
33
34
35	U8 temprange = 17;
36	U32 adcword=0;
37	float temp=-3.14; // should be initialized in a proper way, but I dont know how :-)
38	const U32 min = 0x404054;
39	const U32 max = 0x8CAF50;
40	const U32 s = 0x4C6F0; //(max-min)/16 = s(lice)
41
42	adcword = read_adc();
43
44	if (adcword >= (min + 8*s))
45	{
46	if (adcword >= (min + 12*s))
47	{
48	if (adcword >= (min + 14*s))
49	{
50	if (adcword >= (min + 15*s))
51	{
52	if (adcword < max)
53	{
54	temprange = 16;
55	}
56	}
57	else
58	{
59	temprange = 15;
60	}
61	}
62	else
63	{
64	if (adcword >= (min + 13*s))
65	{
66	temprange = 14;
67	}
68	else
69	{
70	temprange = 13;
71	}
72	}
73	}
74	else
75	{
76	if (adcword >= (min + 10*s))
77	{
78	if (adcword >= (min + 11*s))
79	{
80	temprange = 12;
81	}
82	else
83	{
84	temprange = 11;
85	}
86	}
87	else
88	{
89	if (adcword >= (min + 9*s))
90	{
91	temprange = 10;
92	}
93	else
94	{
95	temprange = 9;
96	}
97	}
98	}
99	}
100	else
101	{
102	if (adcword >= (min + 4*s))
103	{
104	if (adcword >= (min + 6*s))
105	{
106	if (adcword >= (min + 7*s))
107	{
108	temprange = 8;
109	}
110	else
111	{
112	temprange = 7;
113	}
114	}
115	else
116	{
117	if (adcword >= (min + 5*s))
118	{
119	temprange = 6;
120	}
121	else
122	{
123	temprange = 5;
124	}
125	}
126	}
127	else
128	{
129	if (adcword >= (min + 2*s))
130	{
131	if (adcword >= (min + 3*s))
132	{
133	temprange = 4;
134	}
135	else
136	{
137	temprange = 3;
138	}
139	}
140	else
141	{
142	if (adcword >= (min + s))
143	{
144	temprange = 2;
145	}
146	else
147	{
148	if (adcword > min)
149	{
150	temprange = 1;
151	}
152	}
153	}
154	}
155	}
156
157
158	switch (temprange)
159	{
160	case 1:{ // Temp. Range [-50°C , -34.375°C[
161	temp = ((float)adcword / 20764.727846 - 252.7721); //20764.727846 - 252.7721
162	}
163	break;
164
165	case 2:{ // Temp. Range [-34.375°C , -18.75°C[
166	temp = ((float)adcword / 20658.049789 - 253.8995); //20658.049789 - 253.8995
167	}
168	break;
169
170	case 3:{ // Temp. Range [-18.75°C , -3.125°C[
171	temp = ((float)adcword / 20557.997603 - 255.0436); //20557.997603 - 255.0436
172	}
173	break;
174
175	case 4:{ // Temp. Range [-3.125°C , 12.5°C]
176	temp = ((float)adcword / 20462.362624 - 256.2209); //20462.362624 - 256.2209
177	}
178	break;
179
180	case 5:{ // Temp. Range [12.5°C , 28.125°C]
181	temp = ((float)adcword / 20367.745024 - 257.4692); //20367.745024 - 257.4692
182	}
183	break;
184
185	case 6:{ // Temp. Range [28.125°C , 43.75°C]
186	temp = ((float)adcword / 20273.127424 - 258.8021); //20273.127424 - 258.8021
187	}
188	break;
189
190	case 7:{ // Temp. Range [43.75°C , 59.375°C]
191	temp = ((float)adcword / 20178.509824 - 260.2208); //20178.509824 - 260.2208
192	}
193	break;
194
195	case 8:{ // Temp. Range [59.375°C , 75°C]
196	temp = ((float)adcword / 20083.892224 - 261.7265); //20083.892224 - 261.7265
197	}
198	break;
199
200	case 9:{ // Temp. Range [75°C , 90.625°C]
201	temp = ((float)adcword / 19989.274624 - 263.3203); //19989.274624 - 263.3203
202	}
203	break;
204
205	case 10:{ // Temp. Range [90.625°C , 106.25°C]
206	temp = ((float)adcword / 19894.657024 - 265.0037); //19894.657024 - 265.0037
207	}
208	break;
209
210	case 11:{ // Temp. Range [106.25°C , 121.875°C]
211	temp = ((float)adcword / 19800.039424 - 266.7778); //19800.039424 - 266.7778
212	}
213	break;
214
215	case 12:{ // Temp. Range [121.875°C , 137.5°C]
216	temp = ((float)adcword / 19705.421824 - 268.6439); //19705.421824 - 268.6439
217	}
218	break;
219
220	case 13:{ // Temp. Range [137.5°C , 153.125°C]
221	temp = ((float)adcword / 19610.804224 - 270.6035); //19610.804224 - 270.6035
222	}
223	break;
224
225	case 14:{ // Temp. Range [153.125°C , 168.75°C]
226	temp = ((float)adcword / 19516.186624 - 272.6578); //19516.186624 - 272.6578
227	}
228	break;
229
230	case 15:{ // Temp. Range [168.75°C , 184.375°C]
231	temp = ((float)adcword / 19421.569024 - 274.8082); //19421.569024 - 274.8082
232	}
233	break;
234
235	case 16:{ // Temp. Range [184.375°C , 200°C]
236	temp = ((float)adcword / 19326.951424 - 277.0562); //19326.951424 - 277.0562
237	}
238	break;
239	default:{ // Temp. Range beyond [-50C , 200C]
240	PORTC = (PORTC \| 0x04);
241	}
242	}// end of switch case statement
243	return temp;
244
245	}
246
247	void readandsendpress(void)
248	{
249	U32 adcword=0;
250	float press;
251
252	adcword = read_adc();
253
254	if ( (adcword > 0x253332) && (adcword < 0xF80000) ) // Press. Range is [0Bar , 250Bar]
255	{
256	press = ((float)adcword / (62 * 836.658790402)) - 63.0091; // 62 Ohm
257	usart_write_float(press,2,5);
258	usart_write_flash_str(space_STR);
259	}
260	else
261	{
262	usart_write_flash_str(OoR_STR); // Press. is beyond [0Bar , 250Bar]
263	PORTC = (PORTC \| 0x04);
264	}
265
266	}
267
268
269	/*
270	Temperatur Sensoren von IST nach DIN60751, Kl.B
271	Messfehler +/- 0.30+0.005*\|t\|
272
273	R(t) = R0(1 + At + Bt^2 + C(t-100)t^3) t = [-200, 0]°C
274	R(t) = R0(1 + At + Bt^2) t = [0, 850]°C
275
276	A = 3.9083*10^-3[°C^-1]
277	B = -5.775*10^-7[°C^-2]
278	C = -4.183*10^-12[°C^-4]
279
280	Strom durch R ist konstant 400uA
281	Messung ist ratiometrisch bezogen auf Referenzwiderstand an ADC Pin5 (REFIN-) und Pin6 (REFIN+)
282	Referenzwiderstand ist ca. 6.28kOhm.
283	ADC hat internes gain von 2.
284
285	*/
286
287	float getresistance(void)
288	{
289
290	U32 adcword=0;
291	float resistance;
292	const float R_REF=6.25; // kilo-ohms
293	adcword = read_adc();
294	U32 fullscale = 16777215L; //2^24 -1
295
296	resistance = ((float)adcword / (float)fullscale) /2.0 * R_REF; // divide through 2.0 because of PGA in ADC.
297
298	return resistance; // in kilo-ohms
299	}
300
301	U32 getadc(void)
302	{
303	return read_adc();
304	}
305
306
307	float calc_temp(U32 adcword)
308	{
309	U8 temprange = 17;
310
311	float temp=NAN;
312	const U32 min = 0x404054;
313	const U32 max = 0x8CAF50;
314	const U32 s = 0x4C6F0; //(max-min)/16 = s(lice)
315
316	if (adcword >= (min + 8*s))
317	{
318	if (adcword >= (min + 12*s))
319	{
320	if (adcword >= (min + 14*s))
321	{
322	if (adcword >= (min + 15*s))
323	{
324	if (adcword < max)
325	{
326	temprange = 16;
327	}
328	}
329	else
330	{
331	temprange = 15;
332	}
333	}
334	else
335	{
336	if (adcword >= (min + 13*s))
337	{
338	temprange = 14;
339	}
340	else
341	{
342	temprange = 13;
343	}
344	}
345	}
346	else
347	{
348	if (adcword >= (min + 10*s))
349	{
350	if (adcword >= (min + 11*s))
351	{
352	temprange = 12;
353	}
354	else
355	{
356	temprange = 11;
357	}
358	}
359	else
360	{
361	if (adcword >= (min + 9*s))
362	{
363	temprange = 10;
364	}
365	else
366	{
367	temprange = 9;
368	}
369	}
370	}
371	}
372	else
373	{
374	if (adcword >= (min + 4*s))
375	{
376	if (adcword >= (min + 6*s))
377	{
378	if (adcword >= (min + 7*s))
379	{
380	temprange = 8;
381	}
382	else
383	{
384	temprange = 7;
385	}
386	}
387	else
388	{
389	if (adcword >= (min + 5*s))
390	{
391	temprange = 6;
392	}
393	else
394	{
395	temprange = 5;
396	}
397	}
398	}
399	else
400	{
401	if (adcword >= (min + 2*s))
402	{
403	if (adcword >= (min + 3*s))
404	{
405	temprange = 4;
406	}
407	else
408	{
409	temprange = 3;
410	}
411	}
412	else
413	{
414	if (adcword >= (min + s))
415	{
416	temprange = 2;
417	}
418	else
419	{
420	if (adcword > min)
421	{
422	temprange = 1;
423	}
424	}
425	}
426	}
427	}
428
429
430	switch (temprange)
431	{
432	case 1:{ // Temp. Range [-50°C , -34.375°C[
433	temp = ((float)adcword / 20764.727846 - 252.7721); //20764.727846 - 252.7721
434	}
435	break;
436
437	case 2:{ // Temp. Range [-34.375°C , -18.75°C[
438	temp = ((float)adcword / 20658.049789 - 253.8995); //20658.049789 - 253.8995
439	}
440	break;
441
442	case 3:{ // Temp. Range [-18.75°C , -3.125°C[
443	temp = ((float)adcword / 20557.997603 - 255.0436); //20557.997603 - 255.0436
444	}
445	break;
446
447	case 4:{ // Temp. Range [-3.125°C , 12.5°C]
448	temp = ((float)adcword / 20462.362624 - 256.2209); //20462.362624 - 256.2209
449	}
450	break;
451
452	case 5:{ // Temp. Range [12.5°C , 28.125°C]
453	temp = ((float)adcword / 20367.745024 - 257.4692); //20367.745024 - 257.4692
454	}
455	break;
456
457	case 6:{ // Temp. Range [28.125°C , 43.75°C]
458	temp = ((float)adcword / 20273.127424 - 258.8021); //20273.127424 - 258.8021
459	}
460	break;
461
462	case 7:{ // Temp. Range [43.75°C , 59.375°C]
463	temp = ((float)adcword / 20178.509824 - 260.2208); //20178.509824 - 260.2208
464	}
465	break;
466
467	case 8:{ // Temp. Range [59.375°C , 75°C]
468	temp = ((float)adcword / 20083.892224 - 261.7265); //20083.892224 - 261.7265
469	}
470	break;
471
472	case 9:{ // Temp. Range [75°C , 90.625°C]
473	temp = ((float)adcword / 19989.274624 - 263.3203); //19989.274624 - 263.3203
474	}
475	break;
476
477	case 10:{ // Temp. Range [90.625°C , 106.25°C]
478	temp = ((float)adcword / 19894.657024 - 265.0037); //19894.657024 - 265.0037
479	}
480	break;
481
482	case 11:{ // Temp. Range [106.25°C , 121.875°C]
483	temp = ((float)adcword / 19800.039424 - 266.7778); //19800.039424 - 266.7778
484	}
485	break;
486
487	case 12:{ // Temp. Range [121.875°C , 137.5°C]
488	temp = ((float)adcword / 19705.421824 - 268.6439); //19705.421824 - 268.6439
489	}
490	break;
491
492	case 13:{ // Temp. Range [137.5°C , 153.125°C]
493	temp = ((float)adcword / 19610.804224 - 270.6035); //19610.804224 - 270.6035
494	}
495	break;
496
497	case 14:{ // Temp. Range [153.125°C , 168.75°C]
498	temp = ((float)adcword / 19516.186624 - 272.6578); //19516.186624 - 272.6578
499	}
500	break;
501
502	case 15:{ // Temp. Range [168.75°C , 184.375°C]
503	temp = ((float)adcword / 19421.569024 - 274.8082); //19421.569024 - 274.8082
504	}
505	break;
506
507	case 16:{ // Temp. Range [184.375°C , 200°C]
508	temp = ((float)adcword / 19326.951424 - 277.0562); //19326.951424 - 277.0562
509	}
510	break;
511	default:
512	break;
513	}// end of switch case statement
514	return temp;
515
516	}
517
518

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