source: hvcontrol/src/HVCalib.cc@ 113

Last change on this file since 113 was 100, checked in by ogrimm, 15 years ago
Number of HV boards (almost) unlimited.
File size: 4.7 KB
Line 
1
2/************************************************************************* \
3
4 Name: HVCalib.cc
5
6 Created by: Luisa Sabrina Stark Schneebeli, April 2009
7 sabrina.stark@phys.ethz.ch
8
9 Contents: Class reading the calibration table for DAC to HV values
10
11\*************************************************************************/
12
13
14#include <stdio.h>
15#include <iostream>
16#include <fstream>
17#include <math.h>
18
19#include "HVCalib.h"
20
21using namespace std;
22
23
24HVCalib::HVCalib(HVConfig* hvConfig) {
25
26 char calibfile[80], dLine[6000];
27 int idac, idacOld, istep, ihv1000, ihvOld;
28 bool first = true;
29 float hv1000,dac;
30 double intpart;
31
32 Config = hvConfig;
33
34 iDACMin = Config->DACMin;
35 fHVCalibSlope = Config->fHVCalibSlope;
36 NDACValues = Config->DACMax - Config->DACMin;
37 NHVValues = 10*NDACValues;
38
39 HVArray = new double*** [Config->NumHVBoards];
40 DACArray = new int*** [Config->NumHVBoards];
41 for(int i=0; i<Config->NumHVBoards; i++) {
42 HVArray[i] = new double** [NUM_CHAINS];
43 DACArray[i] = new int** [NUM_CHAINS];
44 for(int j=0; j<NUM_CHAINS; j++) {
45 HVArray[i][j] = new double* [NUM_CHANNELS];
46 DACArray[i][j] = new int* [NUM_CHANNELS];
47 for(int k=0; k<NUM_CHANNELS; k++) {
48 HVArray[i][j][k] = new double [NDACValues];
49 DACArray[i][j][k] = new int [NHVValues];
50 }
51 }
52 }
53
54 for(int i=0; i<Config->NumHVBoards; i++){
55 for(int j=0; j<NUM_CHAINS; j++){
56 sprintf(calibfile,"Calib/%s_%c%d.txt",hvConfig->fUSBDevice[i],65+j,1);
57 ifstream fin(calibfile);
58
59 while(fin){
60 fin >> dac;
61 idacOld = 0;
62 if ((int) dac >= Config->DACMin) {
63 if (first){
64 iDACMin = (int) dac;
65 first = false;
66 }
67 idac = (int)dac - iDACMin;
68 istep = idac - idacOld;
69 for(int k=0; k<NUM_CHANNELS; k++){
70 if (idac>=NDACValues) break;
71
72 fin>>HVArray[i][j][k][idac];
73
74 for (int l=1; l<istep;l++){
75 HVArray[i][j][k][idac-istep+l] = HVArray[i][j][k][idac-istep] + l*(HVArray[i][j][k][idac]-HVArray[i][j][k][idac-istep])/istep;
76 // printf(" HVArray: %d %f \n", idac-istep+l, HVArray[i][j][0][idac-istep+l]);
77 // if (idac > 11240-iDACMin)
78 // return;
79 }
80 }
81 idacOld = idac;
82 }
83 else{
84 fin.getline(dLine,6000,'\n'); // Skip low voltage region
85 }
86 }
87 }
88 }
89
90 for(int i=0; i<Config->NumHVBoards; i++){
91 for(int j=0; j<NUM_CHAINS; j++){
92 for(int k=0; k<NUM_CHANNELS; k++){
93 ihvOld = 0;
94 first = true;
95 for (int l=0; l<NDACValues; l++){
96 if (l == 0){
97 ihvOld = 0;
98 DACArray[i][j][k][0] = iDACMin;
99 // printf("first : DACArray[i][j][k][0] = %d, ihvOld = %d, i %d, j %d, k %d\n", DACArray[i][j][k][0], ihvOld,i,j,k);
100 }
101 hv1000 = (HVArray[i][j][k][l] - HVArray[i][j][k][0]) * 1000;
102 if (modf(hv1000,&intpart) >= 0.5){
103 ihv1000 = (int)((hv1000>=0)?ceil(hv1000):floor(hv1000));
104 }
105 else ihv1000 = (int)((hv1000<0)?ceil(hv1000):floor(hv1000));
106
107 if (ihv1000 <= ihvOld) continue;
108 else if (ihv1000 > ihvOld){
109 for (int m=0; m<(ihv1000-ihvOld); m++){
110 DACArray[i][j][k][ihvOld+m] = l+iDACMin;
111 //printf("HV = %d, HVArr = %f, DACArray = %d, m = %d. \n",ihvOld+m,HVArray[i][j][k][l],DACArray[i][j][k][ihvOld+m],m);
112 // printf("DACArray[i][j][k][0] = %d\n", DACArray[i][j][k][0]);
113 }
114 ihvOld = ihv1000;
115 }
116 }
117 }
118 }
119 }
120}
121
122/////////////////////////////////////////////////////////////////////////
123
124HVCalib::~HVCalib() {
125
126 for(int i=0; i<Config->NumHVBoards; i++) {
127 for(int j=0; j<NUM_CHAINS; j++) {
128 for(int k=0; k<NUM_CHANNELS; k++) {
129 delete[] HVArray[i][j][k];
130 delete[] DACArray[i][j][k];
131 }
132 delete[] HVArray[i][j];
133 delete[] DACArray[i][j];
134 }
135 delete[] HVArray[i];
136 delete[] DACArray[i];
137 }
138 delete[] HVArray;
139 delete[] DACArray;
140}
141
142/////////////////////////////////////////////////////////////////////////
143
144double HVCalib::DACToHV(int dac, int board, int chain, int channel) {
145 if (dac < iDACMin){
146 return HVArray[board][chain][channel][0] + (dac - iDACMin)*fHVCalibSlope;
147 }
148 else
149 return HVArray[board][chain][channel][dac-iDACMin];
150
151}
152/////////////////////////////////////////////////////////////////////////
153
154int HVCalib::HVToDAC(double hv, int board, int chain, int channel) {
155 if (hv < HVArray[board][chain][channel][0]){
156 return iDACMin + (int)((hv - HVArray[board][chain][channel][0])/fHVCalibSlope);
157 }
158 else{
159 int ihv = 0;
160 double intpart;
161 double hv1000 = (hv-HVArray[board][chain][channel][0])*1000.;
162 if (modf(hv1000,&intpart) >= 0.5){
163 ihv = (int) (hv1000>=0 ? ceil(hv1000) : floor(hv1000));
164 }
165 else {
166 ihv = (int) (hv1000<0 ? ceil(hv1000) : floor(hv1000));
167 }
168 if (ihv >= NHVValues) ihv = NHVValues;
169 return DACArray[board][chain][channel][ihv];
170 }
171}
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