1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
|
<?xml version="1.0" encoding="UTF-8" standalone="yes"?>
<!-- Awlsim project file generated by awlsim-0.52 -->
<awlsim_project date_create="2015-02-01 16:51:34.626142"
date_modify="2017-04-26 20:00:30.933539"
format_version="1">
<!-- CPU core configuration -->
<cpu>
<!-- CPU core feature specification -->
<specs nr_accus="2"
nr_counters="256"
nr_flags="2048"
nr_inputs="128"
nr_localbytes="1024"
nr_outputs="128"
nr_timers="256" />
<!-- CPU core configuration -->
<config clock_memory_byte="-1"
ext_insns_enable="0"
mnemonics="0"
ob_startinfo_enable="0" />
</cpu>
<!-- AWL/STL language configuration -->
<language_awl>
<!-- AWL/STL source code -->
<source name="OB1"
type="0"><![CDATA[
ORGANIZATION_BLOCK OB 1
VAR_TEMP
OB1_EV_CLASS : BYTE; // Bits 0-3 = 1 (Coming event), Bits 4-7 = 1 (Event class 1)
OB1_SCAN_1 : BYTE; // 1 (Cold restart scan 1 of OB 1), 3 (Scan 2-n of OB 1)
OB1_PRIORITY : BYTE; // Priority of OB execution
OB1_OB_NUMBR : BYTE; // 1 (Organization block 1, OB 1)
OB1_RESERVED_1 : BYTE;
OB1_RESERVED_2 : BYTE;
OB1_PREV_CYCLE : INT; // Cycle time of previous OB 1 scan (milliseconds)
OB1_MIN_CYCLE : INT; // Minimum cycle time of OB 1 (milliseconds)
OB1_MAX_CYCLE : INT; // Maximum cycle time of OB 1 (milliseconds)
OB1_DATE_TIME : DATE_AND_TIME; // Date and time OB 1 started
END_VAR
BEGIN
CALL "pufferspeicher_aufruf"
END_ORGANIZATION_BLOCK
]]></source>
<!-- AWL/STL source code -->
<source name="Pufferspeicher"
type="0"><![CDATA[
FUNCTION "pufferspeicher" : VOID
TITLE =
VERSION : 0.1
VAR_INPUT
zaehler : COUNTER ;
anlage_ein : BOOL ;
ruecksetzen : BOOL ;
lichtschranke_1 : BOOL ;
lichtschranke_2 : BOOL ;
oberer_grenzwert : INT ;
unterer_grenzwert : INT ;
END_VAR
VAR_OUTPUT
bandmotor : BOOL ;
meldelampe : BOOL ;
fuellstand : INT ;
END_VAR
VAR_TEMP
anzahl : WORD ;
END_VAR
BEGIN
NETWORK
TITLE =
U #lichtschranke_1;
U #anlage_ein;
ZV #zaehler;
U #lichtschranke_2;
U #anlage_ein;
ZR #zaehler;
U #ruecksetzen;
U #anlage_ein;
L C#0;
S #zaehler;
NOP 0;
L #zaehler;
T #anzahl;
NOP 0;
NOP 0;
NETWORK
TITLE =
U #anlage_ein;
U( ;
L #anzahl;
L #oberer_grenzwert;
<I ;
) ;
= #bandmotor;
NETWORK
TITLE =
U #anlage_ein;
U( ;
L #anzahl;
L #unterer_grenzwert;
<I ;
) ;
= #meldelampe;
NETWORK
TITLE =
L #anzahl;
T #fuellstand;
END_FUNCTION
FUNCTION "pufferspeicher_aufruf" : VOID
TITLE =
VERSION : 0.1
BEGIN
NETWORK
TITLE =
U E 0.0;
= L 0.0;
BLD 103;
U E 0.1;
= L 0.1;
BLD 103;
U E 1.1;
= L 0.2;
BLD 103;
U E 1.2;
= L 0.3;
BLD 103;
CALL "pufferspeicher" (
zaehler := Z 1,
anlage_ein := L 0.0,
ruecksetzen := L 0.1,
lichtschranke_1 := L 0.2,
lichtschranke_2 := L 0.3,
oberer_grenzwert := 40,
unterer_grenzwert := 15,
bandmotor := A 4.1,
meldelampe := A 5.1,
fuellstand := AW 6);
NOP 0;
NETWORK
TITLE =
U E 0.0;
= L 0.0;
BLD 103;
U E 0.1;
= L 0.1;
BLD 103;
U E 2.1;
= L 0.2;
BLD 103;
U E 2.2;
= L 0.3;
BLD 103;
CALL "pufferspeicher" (
zaehler := Z 2,
anlage_ein := L 0.0,
ruecksetzen := L 0.1,
lichtschranke_1 := L 0.2,
lichtschranke_2 := L 0.3,
oberer_grenzwert := 30,
unterer_grenzwert := 10,
bandmotor := A 4.2,
meldelampe := A 5.2,
fuellstand := AW 8);
NOP 0;
END_FUNCTION
]]></source>
</language_awl>
<!-- Symbol table configuration -->
<symbols>
<!-- symbol table source code -->
<source name="Symbol table"
type="3"><![CDATA[
126,array_db DB 60 DB 60
126,array_uebung FC 60 FC 60
126,BLKMOV SFC 20 SFC 20 Copy Variables
126,CREAT_DB SFC 22 SFC 22 Create Data Block
126,CTD SFB 1 SFB 1 Count Down
126,CTU SFB 0 SFB 0 Count Up
126,date_and_time_db DB 20 DB 20
126,date_and_time_uebung FC 8 FC 8
126,db_dynamisch FC 20 FC 20
126,db_zugriff FC 7 FC 7
126,dbtest_fb FB 40 FB 40
126,dbtest_fc FC 10 FC 10
126,DEL_DB SFC 23 SFC 23 Delete Data Block
126,DELETE FC 104 FC 104 Delete String
126,DT_DAY FC 107 FC 107 DT to DAY
126,flankenerkennung FB 20 FB 20
126,impulszaehler FB 30 FB 30
126,impulszaehler_aufruf FB 31 FB 31
126,laufbandsteuerung FC 3 FC 3
126,laufbandsteuerung_aufrufFC 4 FC 4
126,Motor UDT 99 UDT 99
126,multiinst_aufruf FB 100 FB 100
126,pufferspeicher FC 5 FC 5
126,pufferspeicher_aufruf FC 6 FC 6
126,READ_CLK SFC 1 SFC 1 Read System Clock
126,Rollfeld_Motor_aufruf FC 53 FC 53
126,Rollfeld_Motor_FC FC 52 FC 52
126,Rollfeld_Motoren DB 51 DB 51
126,SB_DT_DT FC 34 FC 34 Subtract DT - DT
126,stoeranzeige_fb FB 1 FB 1
126,stoeranzeige_fc FC 1 FC 1
126,string_db DB 50 DB 50
126,string_uebung FC 50 FC 50
126,taktgenerator FB 15 FB 15
126,taktgenerator_aufruf FB 16 FB 16
126,tauchbad FB 10 FB 10
126,tauchbad_aufruf FB 11 FB 11
126,TEST_DB SFC 24 SFC 24 Test Data Block
126,TON SFB 4 SFB 4 Generate an On Delay
126,TP SFB 3 SFB 3 Generate a Pulse
126,zaehler_fc FC 2 FC 2
]]></source>
</symbols>
<!-- Core server link configuration -->
<core_link>
<!-- Locally spawned core server -->
<spawn_local enable="1"
interpreters="$DEFAULT"
port_range_begin="4183"
port_range_end="8278" />
<!-- Remote server connection -->
<connect host="localhost"
port="4151"
timeout_ms="3000" />
<!-- Transport tunnel -->
<tunnel local_port="-1"
type="0">
<ssh executable="ssh"
port="22"
user="pi" />
</tunnel>
</core_link>
<!-- Graphical user interface configuration -->
<gui>
<editor autoindent="1"
paste_autoindent="1"
validation="1" />
</gui>
</awlsim_project>
|