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Version 13.1 by Stone Wu on 2022/07/28 16:50
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1 = **Summary** =
2
3 This manual has a comprehensive introduction to the basic functions of WECON PLC Editor and the actual use. This book is completely aimed at zero-based readers, is an essential reference book for entry-level readers to quickly and fully grasp WECON PLC and WECON PLC Editor.
4
5 This book starts from the basic product of WECON PLC and the basic concept and operation of WECON PLC Editor. It combines with a large number of cases and graphic analysis to comprehensively and deeply explain the use of WECON PLC Editor Software, as well as PLC program.
6
7 WECON technology Co., Ltd. All rights reserved.
8
9 = Precautions =
10
11 Before the installation, operation, maintenance and repair of the micro programmable control, please read this manual and other related manuals to ensure correct use. Please use it after you have mastered the operation method, safety information and all
12
13 == Design ==
14
15 In the event of an abnormality in the external power supply or failure of the programmable controller, to ensure the safe operation of the entire system, be sure to install a safety circuit outside the programmable controller.
16
17 1. Be sure to install an emergency brake circuit, a protection circuit, an interlock circuit for reverse operation, such as an emergency brake circuit, a protection circuit, a forward and reverse circuit, and an interlock circuit for the upper and lower positioning limits to prevent machine damage, in the external circuit of the programmable controller.
18 1. When the programmable controller CPU detects abnormal conditions such as WDT errors through self-diagnosis, all outputs are shut off. In addition, when the programmable controller CPU cannot detect abnormalities in the input/output control part, etc., it cannot control the output. At this time, in order to make the machine operate safely, please design the external circuit and mechanism.
19 1. Due to the failure of the relay and transistor of the output unit, it is impossible to control the state of the output to ON or OFF. In order to ensure the safe operation of the machine, please design external circuits and mechanisms for output signals related to major accidents.
20
21 == Installation ==
22
23 1. Please use it in the general specification environment described in the manual.
24
25 Do not use in the following places: places with dust, oily smoke, conductive dust, corrosive gas, flammable gas; places  exposed to high temperature, condensation, wind and rain; places with vibration or impact. Electric shock, fire, and misoperation can also cause product damage.
26
27 2. When processing screw holes and wiring, do not let iron filings or wire ends fall into the ventilation window of the programmable controller. It may cause fire, malfunction, or misoperation.
28
29 3. Please insert the connecting cable and display module accurately into the specified sockets. Poor contact may cause misoperation.
30
31 (% class="box infomessage" %)
32 (((
33 **✎Note:**
34
35 * To prevent the temperature from rising, do not install at the bottom, top or vertical direction.Be sure to install it horizontally on the wall as shown on the right.
36 * Please leave a space of more than 50mm between the host and other equipment or structures.Try to avoid high-voltage lines, high-voltage equipment, and power equipment.
37 )))
38
39 == Wiring ==
40
41 The signal input and output lines of the programmable controller cannot pass through the same cable.
42
43 In addition, signal input lines and output lines cannot pass through the same pipeline with other power lines and output lines, and cannot be bundled together.
44
45 If implemented according to the above precautions, even if the input and output wiring is as long as 50 to 100m, there is almost no noise problem. But generally for safety, the wiring length should be within 20m.
46
47 (% style="text-align:center" %)
48 [[image:PLC Editor2.01 Program execution.WebHome@1652145475206-244.png||height="179" width="200" class="img-thumbnail"]]
49
50 (% class="box infomessage" %)
51 (((
52 **✎Note:**
53
54 * The installation and wiring must be performed when the external power supply is cut off. Otherwise, it may cause electric shock or product damage.
55 * After installation and wiring, etc., the terminal cover must be installed before power-on operation to avoid electric shock.
56 )))
57
58 (% class="table-bordered" %)
59 |=(% scope="row" %)(((
60
61
62
63 [[image:PLC Editor2.01 Program execution.WebHome@1652145267405-613.png||class="img-thumbnail"]]
64
65 **Danger**
66 )))|(((
67 (% style="text-align:center" %)
68 [[image:PLC Editor2.01 Program execution.WebHome@0-1.png||height="141" width="400" class="img-thumbnail"]]
69
70 It is very dangerous to close the positive and negative contactors at the same time. For loads like this, in addition to the interlock set by the internal program of the programmable controller, the interlock shown above must also be set outside the programmable controller.
71 )))
72 |=(((
73 [[image:PLC Editor2.01 Program execution.WebHome@1652145275238-798.png||height="45" width="50" class="img-thumbnail"]]
74
75 **Attention**
76 )))|Do not connect the empty terminal to the outside, otherwise the product will be damaged.
77
78 Please connect the AC power supply to the dedicated terminal according to the content in the manual.
79
80 If the AC power supply is connected to the DC input/output terminal or the DC power supply terminal, the programmable controller will be burnt out.
81
82 Please do not supply power to the 24+ terminal of the basic unit from the external power supply, and to the empty terminal    . Do not wire from the outside, otherwise the product will be damaged.
83
84 Please ground the ground terminal of the basic unit according to the third method. But please do not share the ground with the strong current system.
85
86 **Attached**
87
88 The programmable controller will continue to work if there is an instantaneous power failure of less than 10ms.
89
90 When the power is cut for a long time or the voltage is low, the programmable controller will stop working and the output will turn OFF, but once the power supply is restored, it will automatically restart.
91
92 == Startup and maintenance ==
93
94 (% class="table-bordered" %)
95 (% class="warning" %)|=**Danger**
96 |(((
97 Please do not touch the terminals when the power is on, otherwise it may cause electric shock or misoperation.
98
99 Please clean and disassemble the terminal after the power is turned off. Performing it while the power is on may cause electric shock.
100
101 Please read the manual thoroughly and fully confirm the safety before proceeding with program changes, forced output, RUN/STOP, etc. during machine operation.
102
103 Operation errors can damage the machine and cause accidents.
104 )))
105
106 (% class="table-bordered" %)
107 (% class="warning" %)|=**Caution**
108 |(((
109 Please do not disassemble or modify, otherwise it may cause malfunction, malfunction, fire.
110
111 ※For repair matters, please contact Fuzhou Wecon Electronic Technology Co., Ltd.
112
113 After the power is turned off, perform the installation and disassembly of the extension cables and other connecting cables, otherwise it may cause malfunctions and malfunctions.
114 )))
115
116 == **Maintenance** ==
117
118 Regular inspection: Whether the programmable controller is equipped with consumables with a shorter life.
119
120 For relay output type, if the output relay works abnormally at a high frequency or drives a large-capacity load, you must pay attention to its impact on the service life.
121
122 Check with other equipment, please pay attention to the following points:
123
124 * Whether there is an abnormal increase in the temperature inside the machine due to other heating elements or direct sunlight.
125 * Whether dust or conductive dust has penetrated into the machine.
126 * Whether there are loose wiring and terminals or other abnormalities
127
128 = Scan structure =
129
130 The scan configuration of the CPU module is as follows.
131
132 (% style="text-align:center" %)
133 [[image:1-1.png||height="455" width="700" class="img-thumbnail"]]
134
135 == Initialization ==
136
137 The initialization based on the status of the CPU module is as follows.
138
139 **√**: execute. **×**: not execute
140
141 (% class="table-bordered" %)
142 |(% rowspan="2" %)**Processing item**|(% colspan="3" %)**Status of the CPU module**
143 |**When the power is ON**|**STOP**|**When STOP RUN**
144 |Initialization of input and output modules|√|×|×
145 |CPU parameter check|√|×|×
146 |Check of system parameters|√|×|×
147 |Device initialization|√|×|√
148 |Error clear|√|×|√
149
150 == Input and output point refresh ==
151
152 Perform the following before starting program calculation.      
153
154 Update the actual input point of the PLC to the input relay X.
155
156 The following is executed after the END instruction is executed.
157
158 Update the PLC output relay Y to the actual output point.
159
160 **Key points**
161
162 When performing a constant scan, the I/O refresh is performed after the waiting time of the constant scan.
163
164 == Operation of the program ==
165
166 According to the program setting, the execution starts from step 0 of each program to the END instruction. This program is called the main program.
167
168 == END processing ==
169
170 Perform the following processing.
171
172 * Completion processing of partial instructions
173 * Watchdog timer reset
174 * Communication processing
175 * Setting the value of special relay/special register (when the setting timing is END processing)
176
177 = Scan time =
178
179 The CPU module repeats the following processing, and the scan time is the total of the following processing and execution time.
180
181 (% style="text-align:center" %)
182 [[image:1-2.png||height="349" width="400" class="img-thumbnail"]]
183
184 The initial scan time indicates the time including this processing.      
185
186 == Initial scan time ==
187
188 It is the first scan time of the CPU module in RUN.
189
190 Process as the following way:
191
192 The value stored in SD134 (initial scan time (ms unit)) and SD135 (initial scan time (s unit)).
193
194 = The flow of each procedure =
195
196 When the CPU module changes to the RUN state, the programs are executed in sequence according to the program execution type and execution sequence settings.
197
198 (% style="text-align:center" %)
199 [[image:1652241271896-263.png||height="344" width="500" class="img-thumbnail"]]
200
201 **Key points**
202
203 When the execution types of the programs are the same, they are executed in the order set in the execution order.
204
205 **✎Note:**
206
207 When executing instructions that can be completed with multiple cycles (such as OUT T, RAMP, RS, etc.), they should be programmed in the scan program. If it is used in event execution type programs and mid-stage execution type programs, these instructions may not be executed in multiple scan cycles, causing actual results to be different from the ideal results. Therefore, unless events, interrupts and subroutines can be executed in each scan cycle. It is not recommended to use multi-cycle execution instructions in other situations.
208
209 = Types of program execution =
210
211 == Scan execution program ==
212
213 Each scan is executed only once from the next scan of the initial execution type program.
214
215 (% style="text-align:center" %)
216 [[image:1-4.png||height="325" width="700" class="img-thumbnail"]]
217
218 When multiple scan execution type programs are executed, the execution time of the scan execution type program is the time until all scan execution type programs are executed. In addition, before the execution of the scan execution type program is completed, if an interrupt program/event execution type program/subroutine is executed, the execution time will also be included.
219
220 **Creation of multiple scanners**
221
222 "Project Management"→ "Program"→ "Scan"→ Right click to create
223
224 (% style="text-align:center" %)
225 [[image:1-5.png||height="372" width="300" class="img-thumbnail"]]
226
227 * Scan the program name: the program name requires to match case, and the program name cannot use the same name with device name (the device name does not match case).
228 * The input of /%$@&=to`^<>?:{}[],;!*.~\~\'" is not supported. It cannot exceed 64 characters. The default name is MAINx.
229 * The number of scan programs that can be built is limited to 100.
230 * Each scan program has been END ended, but only the last END instruction is completed to calculate a scan cycle.
231 * The execution sequence runs from top to bottom in the order of creation.
232
233 (% style="text-align:center" %)
234 [[image:1-6.png||class="img-thumbnail"]]
235
236 == Event execution program ==
237
238 It uses the event specified by the user as a condition to trigger the program to start execution.
239
240 (% style="text-align:center" %)
241 [[image:1-7.png||class="img-thumbnail"]]
242
243 **Trigger type**
244
245 The trigger of event execution type program is as follows.
246
247 **(1) ON event of bit data (TRUE)**
248
249 * After the ON event is specified, if the contact that sets the trigger condition in the ON event is turned ON during the scan program, the ON event program will be executed in the scan program page*1 or before the END instruction is executed.
250 * The ON event program will only be executed once in a single scan cycle.
251 * After the ON event is executed, you can set whether to clear the current value of the output (Y) and timer (T) used in the program.
252
253 *1: Scan program paging: multiple scan programs are established, and each scan program is called a paging. After scan program A is executed, before scan program B is executed, it will be judged whether an event program needs to be executed.
254
255 (% style="text-align:center" %)
256 [[image:1652247397997-492.png||class="img-thumbnail"]]
257
258 When it is the turn of the execution sequence of event execution type program C and Y50 is ON, the program is executed.
259
260 The devices that can be specified are as follows.
261
262 (% class="table-bordered" %)
263 |(% colspan="2" %)**Project**|**Content**
264 |(% rowspan="2" %)Device *1|Bit Device|X, Y, M, SM
265 |Bit specification of word device|D.b
266
267 *1 The indexed device cannot be specified.
268
269 **(2) TIME event**
270
271 After the program is to RUN state and the specified time has elapsed, event is executed one time when it comes to the execution sequence of the first corresponding program. For the second and subsequent executions, the time is re-measured from the start of the last event execution type program. After the specified time has elapsed, the program is executed repeatedly when it comes to the execution sequence of the first corresponding program. In addition, in the next scan after the corresponding program is executed, the current value of the output (Y) and timer (T) used in the corresponding program can be cleared. It can be used for programs that do not need to respond in a fixed period of time.
272
273 (% style="text-align:center" %)
274 [[image:1652247622598-446.png||class="img-thumbnail"]]
275
276 After the specified time has elapsed, when it comes to the first execution sequence, the event execution type program C is executed.
277
278 **Key points**
279
280 When set to clear the current value of output and timer, and the scan time is longer than the set value of elapsed time, the current value of output and timer will not be cleared.
281
282 **Operational steps**
283
284 **1)New event**
285
286 Project management→ Program→ Event → Right click to create.
287
288 (% style="text-align:center" %)
289 [[image:1-10 E.png||class="img-thumbnail"]]
290
291 Event program name:
292
293 * The program name requires to match case, and the program name with the same name as the device cannot be used (the device name does not match case).
294 * The program name does not support /%$@&=to`^<>?:{}[],;!*.~\~\'" character input.
295 * The length of the program name cannot exceed 64 characters. The default name is EVENTx.
296
297 A maximum of 100 new event programs could be created.
298
299 **2) Execution type**
300
301 There are two ways to configure the event execution type:
302
303 1. Configure when creating a new event program, as shown in the figure above.w
304 1. Project management→ Program→ Parameter → Program parameter→Configuration
305
306 (% style="text-align:center" %)
307 [[image:1-11.png||height="419" width="500" class="img-thumbnail"]]
308
309 Configuration instructions:
310
311 1) Configuration interface
312
313 (% style="text-align:center" %)
314 [[image:1-12.png||height="372" width="300" class="img-thumbnail"]]
315
316 2) Parameter content:
317
318 (% class="table-bordered" %)
319 |(% colspan="2" %)**Project**|**Content**|**Setting range**|**Default**
320 |(% colspan="2" %)Execution type|Select event type|Not set/ON event/TIME event|Not set
321 |(% rowspan="2" %)ON event|Contact|The event type can be set when ON event is selected. Set the bit device as the trigger condition.|X/Y/M/SM/D.b|
322 |Whether to clear|When the bit device of the trigger condition set by the ON event is turned OFF, whether to clear the current value of the output (Y) and timer (T) used in the execution program of the ON event in the next cycle.|(((
323 True
324
325 False
326 )))|False
327 |(% rowspan="2" %)TIME event|Time|Set how long to execute the event program once.|1 to 2147483647 (100us unit)|
328 |Whether to clear|When the TIME event is executed, if the event is not executed in the next scan cycle, select whether to clear the output (Y) used in the TIME event execution program and the current value of the timer (T).|(((
329 True
330
331 False
332 )))|False
333
334 **Key points**
335
336 When "ON event" or "TIME event" is specified, if "Clear or not" is set to "Clear", the event program will not be executed in one scan cycle, and all the internal outputs (Y) and current value of timer (T) will all be cleared (except for the cumulative type and subroutine type T). If the time set by the TIME event is less than the scan period, it is equivalent to executing the TIME event every scan period. Even if the clear output is set, the output and timer data in the event program will not be cleared.
337
338 == Interrupt execution program ==
339
340 In the process of executing the scan program, the program that can interrupt the priority execution of the scan program is called an interrupt execution program.
341
342 ~1. When an interrupt cause occurs, the interrupt program corresponding to the interrupt pointer number will be executed. However, the execution needs to be set to the interrupt enabled state by the EI instruction.
343
344 (% style="text-align:center" %)
345 [[image:1652249587490-678.png||class="img-thumbnail"]]
346
347
348 2. An interrupt name corresponds to an interrupt program, and the interrupt name cannot be repeated. Each interrupt has its own trigger condition and execution program, and each interrupt program ends with END.
349
350 3. Interrupt has the characteristic of interrupting the original execution program and executing the interrupt first, but it cannot interrupt the interrupt program being executed.
351
352 4. The interrupt program has the concept of priority. The smaller the priority value, the more priority the response. The priority setting range is 0 to 2.
353
354 The actions when an interruption cause occurs are as follows:
355
356 1. Interrupt prohibition (DI) when an interruption cause occurs.
357
358 If the interrupt execution condition is triggered in a program that is forbidden by DI, the interrupt will not be executed. Even if the subsequent program uses the EI instruction to allow interruption, the previously shielded interrupt program will not be executed. Only the interrupt execution condition is triggered again. The interrupt program will be executed.
359
360 2.When multiple interrupt causes occur simultaneously in the interrupt enabled state.
361
362 The interrupt program with higher priority will be executed sequentially. In addition, when multiple interrupts with the same priority occur at the same time, the actions are executed in the order of interrupt priority.
363
364 If three interrupt programs I0, I10, I16 are created, the priority of I0 is 1, the priority of I10 is 0, and the priority of I16 is 1. The execution logic is shown in the figure below: I10 has the smallest priority and is executed first; I0 and I16 have the same priority and are executed in the order of program establishment.
365
366 (% style="text-align:center" %)
367 [[image:1652249553246-688.png||class="img-thumbnail"]]
368
369 3. When an interrupt occurs during the waiting time when performing constant scan.
370
371 Execute the interrupt program for this interrupt.
372
373 4.When other interrupts occur during the execution of the interrupt program.
374
375 In the interrupt program (including the specification when the interrupt occurs in the event execution program), when other interrupts occur, the original interrupt execution program will not be interrupted. After the original interrupt execution program is completed, the new interrupt program is executed. After the execution is completed Then return to the scanning procedure.
376
377 5. During the execution of the interrupt program, when an interrupt cause with a low priority or the same priority occurs.
378
379 The interruption cause that occurred is stored, and after the interrupt program in execution ends, the interrupt program corresponding to the stored interruption cause is executed. Even if the same interruption cause occurs multiple times, the interruption cause is stored only once.
380
381
382 (% style="text-align:center" %)
383 [[image:1652249673420-476.png||class="img-thumbnail"]]
384
385 6. When the same interruption cause occurs during the execution of the interrupt program;
386
387 The interruption cause that occurred is stored, and after the interrupt program in execution ends, the interrupt program corresponding to the stored interruption cause is executed. Even if the same interruption cause occurs multiple times, the interruption cause is stored only once.
388
389 **Interrupt trigger condition classification**
390
391 1. **External input (X) interrupt**
392
393 **~ **1. Description of external input interrupt
394
395 1. The external input interrupt is triggered by the rising or falling edge of the fixed X point input.
396 1. Supports the rising and falling edge interrupts of a total of 8 input points of X0 to X7, and supports a total of 16 external input interrupts.
397 1. The same interrupt trigger condition cannot create multiple interrupt programs.
398 1. External input interrupt and high-speed counter cannot use the same X point.
399 1. You must use EI in the scan program to allow interrupts before the interrupt execution program will be executed.
400
401 2. External input interrupt steps.
402
403 Project management→ Program→ Interrupt→ right click to create
404
405 (% style="text-align:center" %)
406 [[image:1-16.png||class="img-thumbnail"]]
407
408 1. The interrupt program name requires to match case, and the program name with the same name as the device cannot be used (the device name does not match case),
409 1. The interrupt program name does not support the input of /%$@&=to`^<>?:{}[],;!*.~\~\'" characters,
410 1. The length of the interrupt program name cannot exceed 64 characters and cannot be typed. The default name is INTx.
411
412 Click Configure, and select external interrupt for execution type, as shown in the figure below (it can also be configured in "program parameters" in "parameters" in project management):
413
414 (% style="text-align:center" %)
415 [[image:1-17.png||class="img-thumbnail"]]
416
417 (% class="table-bordered" %)
418 |(% colspan="2" %)**Project**|**Content**|**Setting range**|**Default**
419 |(% colspan="2" %)Execution type|Select the type of interrupt|Not set, External input interrupt, Timer event, high-speed counter interrupt|Not set
420 |(% rowspan="4" %)External input interrupt|channel|Select the channel for external input interrupt|X0 to X7|X0
421 |Trigger edge type|Choose to trigger on rising edge or falling edge|(((
422 Rising edge
423
424 Falling edge
425 )))|Rising edge
426 |priority|When multiple interrupts arrive at the same time, the order of priority execution, the smallest value is executed first|0 to 2|0
427 |Filter time (0.01us)|(((
428 Set the filter time of X point, the unit is 0.01us.
429
430 Note: X rising edge interrupt and X falling edge interrupt use the same X filter, so after the filter setting is changed in the X rising edge configuration, the X falling edge will also change. If the filter time is set to 1000, you must ensure that the high level and low level of the input signal are maintained for more than 10 us before the interrupt can be triggered.
431 )))|0 to 1700|1
432
433 1. Write interrupt execution program
434
435 (% style="text-align:center" %)
436 [[image:1-18.png||class="img-thumbnail"]]
437
438 Double-click the newly created interrupt program in the project management to start writing the interrupt execution program. As shown in the figure above, a newly created interrupt program is INT_X0_UP, and the trigger condition is configured to execute the interrupt program when the X0 rising edge is configured. If the EI instruction is used in the main program to allow interrupts, all programs in INT_X0_UP will be executed whenever X0 changes from OFF to ON , That is, D0 will increment once.
439
440 (% style="text-align:center" %)
441 [[image:1652250056160-117.png||height="215" width="500" class="img-thumbnail"]]
442
443 **~ 2.Timer interrupt**
444
445 1. Timer interrupt description
446
447 1. Timer interrupt is based on the set time, execute the interrupt program every this time, the minimum time interval can reach 100us.
448 1. Up to 100 timer interrupt execution programs can be created.
449 1. Each timer interrupt program is independent of each other and does not affect each other.
450 1. Each timer interrupt program should be configured with priority. When triggered at the same time, it is executed in the order of priority, but when the priority is the same, it is executed in the order of the established program.
451 1. The interrupt execution program is executed only after EI is used in the scanner to allow the interrupt
452
453 2. Timer interrupt step
454
455 Project managementðProgramðInterruptðRight click to create. Enter the program name. The program name only supports the combination of English letters, numbers, and underscores, and must start with an English letter. The default is INTx. Click Configure and select Timer Interrupt as the execution type, as shown in the figure below (it can also be configured in "program parameters" in "parameters" in project management).
456
457 (% style="text-align:center" %)
458 [[image:1-20.png||class="img-thumbnail"]]
459
460 (% class="table-bordered" %)
461 |(% colspan="2" %)**Project**|**Content**|**Setting range**|**Default**
462 |(% colspan="2" %)Execution type|Select the type of interrupt|Not set/External input interrupt/Timer event/high-speed counter interrupt|Not set
463 |(% rowspan="2" %)Timer interrupt|Time|Set the interval time for interrupt triggering|1 to 2147483647 (100us unit)|
464 |priority|When multiple interrupts arrive at the same time, the order of priority execution, the smallest value is executed first|0 to 2|0
465
466 1. Write interrupt execution program
467
468 (% style="text-align:center" %)
469 [[image:1-21.png||class="img-thumbnail"]]
470
471 Double-click the newly created timer interrupt program in the project management to start writing the interrupt execution program. As shown in the figure above, a newly created timer interrupt program is INT0, and the trigger condition is configured to execute the interrupt program every 10ms. If the main program uses EI to enable interrupts, all instruction programs in INT0 will be executed every 10ms, namely D0 It will add 1 to 10ms.
472
473 (% style="text-align:center" %)
474 [[image:1652250294005-455.png||class="img-thumbnail"]]
475
476 **~ 3. High-speed counter interrupt**
477
478 1. Description of high-speed counter interrupt
479
480 1. The high-speed counter interrupt triggers an interrupt condition after the set value of the high-speed counter HSC0 to HSC7 provided by the PLC and executes the interrupt program.
481 1. It can support up to 100 high-speed counter interrupt programs, but the number that can be supported by each channel does not need to be fixed.
482 1. When using the high-speed counter interrupt, project must configure the high-speed counter and use the OUT HSC instruction to enable the corresponding counting channel to count before it can be used (see the high-speed counter description section for the specific configuration method).
483 1. Each high-speed counter interrupt program should be configured with priority. When triggered at the same time, it will be executed in the order of priority. When the priority is the same, it will be executed in the order of channels HSC0-HSC7. When the channel is also the same, it is executed in order according to the creation promise.
484 1. Project must use EI in the scan program to allow interrupts before the interrupt execution program will be executed.
485
486 **✎Note: **Both the HSC channel and the external input interrupt channel must use the PLC input point X. It should be noted that it
487
488 cannot be reused during configuration. For details, please refer to the configuration chapter of the high-speed counter.
489
490 1. high-speed counter interrupt step
491
492 “Project management”ð“Programð“Interrupt”ðRight click to create. Enter the program name. The program name only supports the combination of English letters, numbers, and underscores, and must start with an English letter. The default is INTx. Click Configure, select high-speed interrupt for execution type, as shown in the figure below (it can also be configured in "program parameters" in "parameters" in project management).
493
494 (% style="text-align:center" %)
495 [[image:1-23.png||class="img-thumbnail"]]
496
497 (% class="table-bordered" %)
498 |(% colspan="2" %)**Project**|**Content**|**Setting range**|**Default**
499 |(% colspan="2" %)Execution type|Select the type of interrupt|Not set, External input interrupt, Timer event, high-speed counter interrupt|Not set
500 |(% rowspan="5" %)High count interrupt|Mode|(((
501 Select the type of high-speed counter interrupt:
502
503 (1) High-speed comparison interrupt: The interrupt program is executed after the trigger condition is reached.
504
505 (2) High-speed comparison setting: After reaching the trigger condition, the set contact is set.
506
507 (3) High-speed comparison reset: reset the set contact after reaching the trigger condition.
508 )))|(((
509 High-speed compare interrupt
510
511 High-speed comparison set
512
513 High-speed comparison reset
514
515 Not set
516 )))|(((
517 High-speed compare interrupt
518
519
520 )))
521 |Channel|Select the high-speed counter channel used|HSC0 to HSC7|HSC0
522 |Comparison value|Set the comparison value of the high-speed counter. When the high-speed counter value of the set channel passes this value, the trigger condition is reached.|-2147483648 to 2147483647|
523 |Priority|When multiple interrupts arrive at the same time, the order of priority execution, the smallest value is executed first|0 to 2|0
524 |Contact|It is available when selecting high-speed comparison set and high-speed comparison reset. The contact is set or reset immediately after the trigger condition is reached.|Y/M/D.b|
525
526 3. Description of triggering rules
527
528 (% class="table-bordered" %)
529 |**Mode**|**Configuration**|**The current value**|**Action**
530 |(% rowspan="2" %)High-speed compare interrupt (INT0)|(% rowspan="2" %)Comparison value: 10000|9999 → 10000|Execute all programs in interrupt INT0
531 |10001 → 10000|Execute all programs in interrupt INT0
532 |(% rowspan="2" %)High-speed comparison set (INT1)|(% rowspan="2" %)(((
533 Comparison value: -50,000
534
535 Contact: Y10
536 )))|-50001 → -50000|(((
537 Y10 is immediately set and mapped to the actual output (not affected by the scan period)
538
539 The program in INT1 will not be executed
540 )))
541 |-49999 → -50000|(((
542 Y10 is immediately set and mapped to the actual output (not affected by the scan period)
543
544 The program in INT1 will not be executed
545 )))
546 |(% rowspan="2" %)High-speed comparison reset (INT2)|(% rowspan="2" %)(((
547 Comparison value: 400000
548
549 Contact: Y10
550 )))|399999 → 400000|(((
551 Y10 is reset immediately and mapped to the actual output (not affected by the scan period)
552
553 The program in INT2 will not be executed
554 )))
555 |400001 → 400000|(((
556 Y10 is reset immediately and mapped to the actual output (not affected by the scan period)
557
558 The program in INT2 will not be executed
559 )))
560
561 **✎Note: **Both HSC channel and external input interrupt channel need to use the INPUT point X, so it should be noted that it cannot be reused in configuration. For details, please refer to the configuration section of high-speed counter.
562
563 1. Write interrupt execution program
564
565 * New interrupt program
566
567 Create three new interrupt programs under the interrupt of project management, namely HSC0_20000, HSC0_30000, HSC0_40000. Configure the interrupt program in the "program parameters", as shown in the figure below.
568
569 (% style="text-align:center" %)
570 [[image:1-24.png||class="img-thumbnail"]]
571
572 * High-speed counter configuration
573
574 Configure HSC0 for use in the high-speed counter configuration. After selecting the working mode, click the "Check” button. After the correct configuration box pops up, click Enter.
575
576 (% style="text-align:center" %)
577 [[image:1-25.png||class="img-thumbnail"]]
578
579 Call the high-speed counter in the main program and enable interrupts:
580
581 [[image:1-26.png||class="img-thumbnail"]]
582
583 Program operation:
584
585 Assuming that the High-speed counter channel 0 has been receiving pulses:
586
587 When the count value of HSC0 accumulates from 0 to 20000, all procedures of HSC0_20000 are executed.
588
589 When the count value of HSC0 is accumulated from 20000 to 30000, all procedures of HSC0_30000 are executed.
590
591 When the count value of HSC0 is accumulated from 30000 to 40000, all procedures of HSC0_40000 are executed.
592
593 **Mask interrupt**
594
595 **~ 1. Mask through application instructions**
596
597 The PLC interrupt is in the shielded state by default when it is powered on, and can only be used after the interrupt is allowed through the EI instruction.
598
599 The interrupt mask instruction DI masks all interrupts without parameters, and masks some priority interrupts with parameters (refer to the program flow instruction DI/EI for details).
600
601 **~ 2. Mask through special registers SM and SD**
602
603 1.External input interrupt mask register
604
605 (% class="table-bordered" %)
606 |(% colspan="4" %)**External input interrupt mask register**
607 |**Special register number**|**Type of interrupt**|**Instruction**|**Defaults**
608 |SM352|X0 rising edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
609 |SM353|X0 falling edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
610 |SM354|X1 rising edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
611 |SM355|X1 falling edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
612 |SM356|X2 rising edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
613 |SM357|X2 falling edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
614 |SM358|X3 rising edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
615 |SM359|X3 falling edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
616 |SM360|X4 rising edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
617 |SM361|X4 falling edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
618 |SM362|X5 rising edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
619 |SM363|X5 falling edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
620 |SM364|X6 rising edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
621 |SM365|X6 falling edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
622 |SM366|X7 rising edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
623 |SM367|X7 falling edge interrupt|ON: Mask interrupt OFF: Enable interrupt|OFF
624
625 2. Timer interrupt mask register
626
627 (% class="table-bordered" %)
628 |(% colspan="4" %)**Timer interrupt mask register**
629 |**Special register number**|**Type of interrupt**|**Instruction**|**Default**
630 |SD350|1st to 16th timer interrupt|(((
631 Each bit can control the mask of an interrupt.
632
633 ON: Mask interrupt OFF: Enable interrupt
634 )))|0
635 |SD351|17th to 32th timer interrupt|(((
636 Each bit can control the mask of an interrupt.
637
638 ON: Mask interrupt OFF: Enable interrupt
639 )))|0
640 |SD352|33th to 48th timer interrupt|(((
641 Each bit can control the mask of an interrupt.
642
643 ON: Mask interrupt OFF: Enable interrupt
644 )))|0
645 |SD353|49th to 64th timer interrupt|(((
646 Each bit can control the mask of an interrupt.
647
648 ON: Mask interrupt OFF: Enable interrupt
649 )))|0
650 |SD354|65th to 80th timer interrupt|(((
651 Each bit can control the mask of an interrupt.
652
653 ON: Mask interrupt OFF: Enable interrupt
654 )))|0
655 |SD355|81st to 96th timer interrupt|(((
656 Each bit can control the mask of an interrupt.
657
658 ON: Mask interrupt OFF: Enable interrupt
659 )))|0
660 |SD356|97th to 100th timer interrupt|(((
661 Each bit can control the mask of an interrupt.
662
663 ON: Mask interrupt OFF: Enable interrupt
664 )))|0
665
666 1. high-speed counter interrupt mask register
667
668 (% class="table-bordered" %)
669 |(% colspan="4" %)**High-speed counter interrupt mask register**
670 |**Special register number**|**Type of interrupt**|**Instruction**|**Default**
671 |SD382|1st to 16th high-speed counter interrupt|(((
672 Each bit can control the mask of an interrupt.
673
674 ON: Mask interrupt OFF: Enable interrupt
675 )))|0
676 |SD383|17th to 32nd high-speed counter interrupt|(((
677 Each bit can control the mask of an interrupt.
678
679 ON: Mask interrupt OFF: Enable interrupt
680 )))|0
681 |SD384|33th to 48th high-speed counter interrupt|(((
682 Each bit can control the mask of an interrupt.
683
684 ON: Mask interrupt OFF: Enable interrupt
685 )))|0
686 |SD385|49th to 64th high-speed counter interrupt|(((
687 Each bit can control the mask of an interrupt.
688
689 ON: Mask interrupt OFF: Enable interrupt
690 )))|0
691 |SD386|65th to 80th high-speed counter interrupt|(((
692 Each bit can control the mask of an interrupt.
693
694 ON: Mask interrupt OFF: Enable interrupt
695 )))|0
696 |SD387|81st to 96th high-speed counter interrupt|(((
697 Each bit can control the mask of an interrupt.
698
699 ON: Mask interrupt OFF: Enable interrupt
700 )))|0
701 |SD388|97th to 100th high-speed counter interrupt|(((
702 Each bit can control the mask of an interrupt.
703
704 ON: Mask interrupt OFF: Enable interrupt
705 )))|0
706
707 == Subroutine ==
708
709 During the execution of the scan program, the executed program can be called by the CALL instruction.
710
711 A subroutine is to split a certain module in the main program for the main program to call, which is conducive to the modularization of the program. Such as other high-level language functions, but this function has no parameters and no return value.
712
713 (% style="text-align:center" %)
714 [[image:1652250926997-587.png||class="img-thumbnail"]]
715
716 1. Instructions for calling subroutines
717
718 After a new subroutine is created, the content of the program is not executed. It is executed only when the CALL(P) instruction is used to call the subroutine in the scan, event, and interrupt programs, and the call is executed once. Three new subroutines SUB0, SUB1, SUB2 are created as shown in the figure below. In the main program MAIN, the subprogram can be called by using the CALL(P) subprogram program name.
719
720 Through this programming method, the use of the same logic program for different conditions can reduce the number of Circuit program steps and improve the readability of the Circuit program.
721
722 (% style="text-align:center" %)
723 [[image:1-28.png||class="img-thumbnail"]]
724
725 **~ 1.✎Note:**
726
727 1. When using the timer (OUT T), note that the output will not be reset when the subroutine is not called, and a specific subroutine register must be used.
728 1. It is not allowed to call recursively between subprograms, that is, call SUB1 in SUB0, and then call SUB0 in SUB1. This is not allowed.
729 1. The subroutine can be nested up to 32 levels. If the level exceeds 32 levels, a serious error will be reported and the Circuit program operation will be forcibly stopped.
730 1. Unlike the LX3V series mainframe, the subroutine in the LX5V series mainframe ends with the END instruction instead of SRET.
731
732 == Positioning instructions ==
733
734 ~1. Event
735
736 1.ON event
737
738 If the high-speed pulse instruction is turned on during the ON event, the high-speed pulse instruction will be sent as normal. If the ON contact of the trigger event in the scan period is turned OFF during the pulse sending, select whether to continue sending the pulse or stop the pulse according to the unscanned processing flag bit.
739
740 (% class="table-bordered" %)
741 |**Output shaft**|Y0|Y1|Y2|Y3|Y4|Y5|Y6|Y7
742 |**Not scanned flag bit**|SM899|SM959|SM1019|SM1079|SM1139|SM1199|SM1259|SM1319
743
744 When the flag bit is 0 (continue to send pulse), if the instruction is not scanned in the current scan cycle, continue to send pulses until it stops. At this time, it should be noted that if the trigger event OFF contact turns ON after the pulse is sent, the pulse will be sent again.
745
746 When the flag bit is 1 (stop sending pulses), if the trigger event ON contact turns OFF in a certain scan period, it will decelerate and stop.
747
748 2. TIME event
749
750 If the high-speed pulse instruction is turned on in the TIME event, the high-speed pulse instruction will be sent as normal. If the instruction is not scanned in a certain scan period during the pulse transmission, select whether to continue sending the pulse or stop the pulse according to the unscanned processing flag bit.
751
752 (% class="table-bordered" %)
753 |**Output shaft**|Y0|Y1|Y2|Y3|Y4|Y5|Y6|Y7
754 |**Not scanned flag bit**|SM899|SM959|SM1019|SM1079|SM1139|SM1199|SM1259|SM1319
755
756 When the flag bit is 0 (continue to send pulse), if the instruction is not scanned in the current scan cycle, the pulse will continue to be sent until it stops. In the TIME event, it is impossible to ensure that the instruction is scanned in every scan cycle, so you should avoid using high-speed pulse instructions in the TIME time, otherwise the pulse will be sent again after the pulse is sent.
757
758 When the flag bit is 1 (stop sending pulses), if the instruction is not scanned in the current scan cycle, it will decelerate and stop. In the TIME event, if the flag bit is set to 1 (stop sending pulses), there will be no pulse sending.
759
760 2. Subroutine
761
762 If the high-speed pulse instruction is turned on in the subroutine, the high-speed pulse instruction will be sent as normal. If the scanning period is closed during pulse sending, select whether to continue sending or stop the pulse according to the unscanned processing flag.
763
764 (% class="table-bordered" %)
765 |**Output shaft**|Y0|Y1|Y2|Y3|Y4|Y5|Y6|Y7
766 |**Not scanned flag bit**|SM899|SM959|SM1019|SM1079|SM1139|SM1199|SM1259|SM1319
767
768 When the flag bit is 0 (continue to send pulse), if the instruction is not scanned in the current scan cycle, the pulse will continue to be sent until it stops. At this time, it should be noted that if the subroutine is called again after the pulse is sent, the pulse will be sent again.
769
770 When the flag bit is 1 (stop sending pulses), if the subroutine is closed during high-speed pulse sending, the speed will decelerate and stop. If the subroutine is closed before sending the pulse, then no pulse is sent.
771
772 3. Interrupt
773
774 1. External interrupt
775
776 If the high-speed pulse instruction is enabled in the external interrupt, the high-speed pulse instruction selects whether the pulse continues to be sent or the pulse stops according to the unscanned processing flag bit.
777
778 (% class="table-bordered" %)
779 |**Output shaft**|Y0|Y1|Y2|Y3|Y4|Y5|Y6|Y7
780 |**Not scanned flag bit**|SM899|SM959|SM1019|SM1079|SM1139|SM1199|SM1259|SM1319
781
782 When the flag bit is 0 (continue to send pulse), continue to send high-speed pulses until it stops.
783
784 When the flag bit is 1 (stop sending pulse), the high-speed pulse decelerates and stops.
785
786 2. Timer interrupt
787
788 If the high-speed pulse instruction is turned on in the timer interruption, the high-speed pulse instruction is sent as normal. If the instruction is not scanned in a certain scan period in the pulse transmission, the pulse continues to be sent or the pulse stops is selected according to the unscanned processing flag.
789
790 (% class="table-bordered" %)
791 |**Output axis**|Y0|Y1|Y2|Y3|Y4|Y5|Y6|Y7
792 |**Not scanned flag bit**|SM899|SM959|SM1019|SM1079|SM1139|SM1199|SM1259|SM1319
793
794 When the flag bit is 0 (continue to send pulse), if the instruction is not scanned in the current scan cycle, continue to send pulses until it stops. In the timer interrupt, it is impossible to ensure that the instruction is scanned in every scan cycle, so it is necessary to avoid using high-speed pulse instructions in the T timer interrupt. Otherwise, after the pulse transmission is completed, the pulse will be sent again.
795
796 When the flag bit is 1 (stop sending pulses), if the instruction is not scanned in the current scan cycle, it will decelerate and stop. In the TIME event, if the flag bit is set to 1 (stop sending pulses), there will be no pulse sending.
797
798 3.High-speed comparison interrupt
799
800 If the high-speed pulse instruction is enabled in the high-speed comparison interrupt, the high-speed pulse instruction selects whether the pulse continues to be sent or the pulse stops according to the unscanned processing flag.
801
802 (% class="table-bordered" %)
803 |**Output axis**|Y0|Y1|Y2|Y3|Y4|Y5|Y6|Y7
804 |**Not scanned flag bit**|SM899|SM959|SM1019|SM1079|SM1139|SM1199|SM1259|SM1319
805
806 When the flag bit is 0 (continue to send pulse), continue to send high-speed pulses until it stops.
807
808 When the flag bit is 1 (stop sending pulse), the high-speed pulse decelerates and stops.