Skip to Content
Last modified by Iris on 2025/09/17 20:56
From version 2.1
edited by Iris
on 2025/09/17 17:54
Change comment: There is no comment for this version
To version 2.2
edited by Iris
on 2025/09/17 19:20
Change comment: There is no comment for this version

Summary

Details

Page properties
Content
... ... @@ -1,3 +1,21 @@
1 +== **PID/PID calculation** ==
2 +
3 +**PID**
4 +
5 +This instruction is used to perform PID control that changes the output value according to the amount of input change.
6 +
7 +-[PID (s1)(s2)(s3)(d)]
8 +
9 +**Content, range and data type**
10 +
11 +|**Parameter**|**Content**|**Range**|**Data type**|**Data type (label)**
12 +|(s1)|Device number for storing the target value (SV)|-32767 to 32767|Signed BIN 16 bit|ANY16
13 +|(s2)|Device number for storing the measured value (PV)|-32767 to 32767|Signed BIN 16 bit|ANY16
14 +|(s3)|Device number for storing parameters|1 to 32767|Signed BIN 16 bit|ANY16
15 +|(d)|Device number for storing output value (MV)|-32767 to 32767|Signed BIN 16 bit|ANY16
16 +
17 +**Device used**
18 +
1 1  |(% rowspan="2" %)**Instruction**|(% rowspan="2" %)**Parameter**|(% colspan="24" %)**Devices**|(((
2 2  **Offset**
3 3  
... ... @@ -13,6 +13,873 @@
13 13  |Parameter 3| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
14 14  |Parameter 4| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
15 15  
34 +**Features**
35 +
36 +This instruction is to complete the PID operation and is used to control the parameters of the closed-loop control system. PID control has a wide range of applications in mechanical equipment, pneumatic equipment, constant pressure water supply and electronic equipment, etc. among them:
37 +
38 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps283.jpg]][[image:1758107277977-298.png||height="15" width="28"]]is the target value of PID control;
39 +
40 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps125.jpg]][[image:1758107327987-526.png||height="15" width="30"]]is the measured feedback value;
41 +
42 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps126.jpg]][[image:1758107354956-101.png||height="15" width="29"]]The starting address of the buffer area for setting parameters required for PID operation and saving intermediate results, occupies a total of 26 variable units in the subsequent addresses, the value range is D0 to D7974, it is best to specify the power failure retention area, which will remain after the power is OFF Set the value, otherwise the buffer area needs to be assigned value before starting the operation for the first time. The function and parameter description of each unit are described in this section;
43 +
44 +[[image:1758107478346-265.png||height="17" width="28"]]is the storage unit of the PID calculation result. Please designate [[image:1758107521183-717.png||height="20" width="33"]]as a non-battery holding area, otherwise it needs to be initialized and cleared before starting the calculation for the first time.
45 +
46 +**Programming example**
47 +
48 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps129.jpg]]
49 +
50 +The parameter description is as follows: [[image:1758107651055-597.png||height="20" width="289"]]
51 +
52 +What is stored in D9 is the target value of PID adjustment, and D10 is the closed-loop feedback value. Note that D9 and D10 must be of the same dimension, such as both 0.01MPa units, or 1℃ units, etc.;
53 +
54 +A total of 26 units of D200 to D225 are used to store the set value and process value of PID operation. These values must be set item by item before the first PID calculation;
55 +
56 +The D130 unit is used to store the calculated control output value to control the execution of the action.
57 +
58 +The function and setting method of the parameter value of each unit about starting of [[image:1758107731016-522.png||height="19" width="37"]]are described in the following table:
59 +
60 +
61 +
62 +
63 +
64 +|(% style="width:83px" %)**Unit**|(% style="width:171px" %)**Features**|**Setting instructions**
65 +|(% style="width:83px" %)[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps131.jpg]]|(% style="width:171px" %)Sampling time (TS)|The setting range is 1 to 32767 (ms), but it needs to be greater than the PLC program scan period
66 +|(% style="width:83px" %)[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps132.jpg]][[image:1758107829220-173.png||height="15" width="27"]]+1|(% style="width:171px" %)Action direction (ACT)|(((
67 +bit0: 0 = positive action; 1 = reverse action bit3: 0 = unidirectional; 1 = bidirectional
68 +
69 +bit4: 0 = auto-tuning does not work; 1 = auto-tuning is executed, others cannot be used.
70 +)))
71 +|(% style="width:83px" %)[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps133.jpg]][[image:1758107829220-173.png||height="15" width="27"]]+2|(% style="width:171px" %)Maximum ascent rate (DeltaT)|Setting range 0 to 32000 is the threshold of integral increment
72 +|(% style="width:83px" %)[[image:1758107829220-173.png||height="15" width="27"]][[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps134.jpg]]+3|(% style="width:171px" %)Proportional gain (Kp)|Setting range 0 to 32767, note that this value is enlarged by 256 times, the actual value is Kp/256
73 +|(% style="width:83px" %)[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps135.jpg]][[image:1758107829220-173.png||height="15" width="27"]]+4|(% style="width:171px" %)Integral gain (Ki)|Setting range 0 to 32767, Ki=16384Ts/Ti, Ti is the integral time
74 +|(% style="width:83px" %)[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps136.jpg]][[image:1758107829220-173.png||height="15" width="27"]]+5|(% style="width:171px" %)Differential gain (Kd)|Setting range 0 to 32767, Kd≈Td/Ts, Td is the derivative time
75 +|(% style="width:83px" %)[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps137.jpg]][[image:1758107829220-173.png||height="15" width="27"]]+6|(% style="width:171px" %)Filtering (C0)|Setting range 0 to 1023, integral part filtering
76 +|(% style="width:83px" %)[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps138.jpg]][[image:1758107829220-173.png||height="15" width="27"]]+7|(% style="width:171px" %)Output lower limit|(((
77 +Recommended setting range -2000 to 2000
78 +
79 +When bit3 of S3+1=0, set to 0; When bit3 of S3+1=1, set to -2000;
80 +)))
81 +|(% style="width:83px" %)[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps139.jpg]][[image:1758107829220-173.png||height="15" width="27"]]+8|(% style="width:171px" %)Output upper limit|Recommended setting value 2000
82 +|(% style="width:83px" %)[[image:1758107829220-173.png||height="15" width="27"]][[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps140.jpg]]+9|(% style="width:171px" %)Reserved|Reserved
83 +|(% style="width:83px" %)︙|(% style="width:171px" %)︙|︙
84 +|(% style="width:83px" %)[[image:1758107829220-173.png||height="15" width="27"]][[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps141.jpg]]+25|(% style="width:171px" %)Reserved|Reserved
85 +
86 +**Auto tuning example**
87 +
88 +​​​​​​​[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps285.jpg]]
89 +
90 +**✎Note:**
91 +
92 +● When multiple instructions are used, the device number of (d) cannot be repeated.
93 +
94 +● During the execution of auto-tuning, the (s3) parameter space cannot be modified.
95 +
96 +● The instruction occupies 26 point devices from the device specified in (s3).
97 +
98 +● PID instruction can be used multiple times in the program and can be executed at the same time, but the variable area used in each PID instruction should not overlap; it can also be used in step instructions, jump instructions, timing interrupts, and subroutines, in this case When executing the PID instruction, the (s3)+9 cache unit must be cleared in advance.
99 +
100 +● The maximum error of the sampling time Ts is -(1 operation cycle +1ms) +(1 operation cycle). If the sampling time Ts ≤ 1 operation cycle of the programmable controller, the following PID operation error (4D86H) will occur, and the PID operation will be executed with TS = operation cycle. In this case, it is recommended to use constant scan mode or use PID instruction in timer interrupt.
101 +
102 +
103 +
104 +
105 +**Error code**
106 +
107 +|**Error code**|**Content**
108 +|4085H|When the device specified in the read application instructions (s1), (s2), (s3), (d) exceeds the range of the corresponding device.
109 +|4086H|When the device specified in the write application instruction (s3) and (d) exceeds the range of the corresponding device.
110 +|4D80H|The sampling time is out of range.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps143.png]]
111 +|4D81H|Input filter constant ([[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps144.png]]) is out of range (.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps145.png]])
112 +|4D82H|The maximum ascent rate ([[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps146.png]]) is out of range.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps147.png]]
113 +|4D83H|The proportional gain (Kp) is out of range.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps148.png]]
114 +|4D84H|The integral gain (Ki) is out of range.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps149.png]]
115 +|4D85H|The differential gain (Kd) is out of range.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps150.png]]
116 +|4D86H|The sampling time (Ts) is less than the operation cycle.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps151.png]]
117 +
118 +
119 +
120 +== **CCPID/CCPID calculation** ==
121 +
122 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps152.png]]**CCPID**
123 +
124 +This instruction is used to perform PID control that changes the output value according to the amount of input change.
125 +
126 +-[CCPID (s1) (s2) (s3) (d)]
127 +
128 +**Content, range and data type**
129 +
130 +|**Parameter**|**Content**|**Range**|**Data type**|**Data type (label)**
131 +|(s1)|Device number for storing the target value (SV)|-32767 to 32767|Signed BIN 16 bit|ANY16
132 +|(s2)|Device number for storing the measured value (PV)|-32767 to 32767|Signed BIN 16 bit|ANY16
133 +|(s3)|Device number for storing parameters|1 to 32767|Signed BIN 16 bit|ANY16
134 +|(d)|Device number for storing output value (MV)|-32767 to 32767|Signed BIN 16 bit|ANY16
135 +
136 +**Device used**
137 +
138 +|(% rowspan="2" %)**Instruction**|(% rowspan="2" %)**Parameter**|(% colspan="24" %)**Devices**|(((
139 +**Offset**
140 +
141 +**modification**
142 +)))|(((
143 +**Pulse**
144 +
145 +**extension**
146 +)))
147 +|**X**|**Y**|**M**|**S**|**SM**|**T(bit)**|**C(bit)**|**LC(bit)**|**HSC(bit)**|**D.b**|**KnX**|**KnY**|**KnM**|**KnS**|**T**|**C**|**D**|**R**|**SD**|**LC**|**HSC**|**K**|**H**|**E**|**[D]**|**XXP**
148 +|(% rowspan="4" %)CCPID|Parameter 1| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
149 +|Parameter 2| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
150 +|Parameter 3| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
151 +|Parameter 4| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
152 +
153 +**Features**
154 +
155 +After setting target value (s1), measured value (s2), parameter (s3) to (s3) +12 and executing the program, the calculation result (MV) will be stored to the output according to the first sampling time (s3) in the parameter Value (d). For details, please refer to the user manual of "Wecon CC Series ccpid Function Description v1.4".
156 +
157 +**✎Note:**
158 +
159 +It can be executed multiple times at the same time (there is no limit to the number of loops), but please note that the device numbers (s3) and (d) used in the calculation cannot be repeated.
160 +
161 +The instruction occupies 52 points of devices starting from the device specified in (s3).
162 +
163 +During the execution of auto-tuning, the (s3) parameter space cannot be modified.
164 +
165 +**Error code**
166 +
167 +|**Error code**|**Content**
168 +|4085H|When the device specified in the read application instructions (s1), (s2), (s3), (d) exceeds the range of the corresponding device.
169 +|4086H|When the device specified in the write application instruction (s3) and (d) exceeds the range of the corresponding device.
170 +|4D80H|The sampling time is out of range.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps153.png]]
171 +|4D81H|Input filter constant ([[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps154.png]]) is out of range ([[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps155.png]])
172 +|4D82H|The maximum ascent rate ([[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps156.png]]) is out of range.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps157.png]]
173 +|4D86H|The sampling time (Ts) is less than the operation cycle.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps158.png]]
174 +|4D87H|The proportional gain (Kp) is out of range.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps159.png]]
175 +|4D88H|The integral time constant (Ti) is out of range.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps160.png]]
176 +|4D89H|The differential time constant (Td) is out of range.[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps161.png]]
177 +|4D90H|The upper limit of CCPID output is less than the lower limit.
178 +
179 +**Example**
180 +
181 +See "CCPID Instruction Manual".
182 +
183 +=== **11.3FPID/FPID calculation** ===
184 +
185 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps162.png]]**FPID**
186 +
187 +The function of this instruction is to adjust PID control parameters by fuzzy algorithm.
188 +
189 +-[FPID (s) (d1) (d2) (d3)]
190 +
191 +**Content, range and data type**
192 +
193 +|**Parameter**|**Content**|**Range**|**Data type**|**Data type (label)**
194 +|(s)|Store the start number of the device of the fuzzy parameter table (no input required)|-|Signed BIN 16 bit|ANY16
195 +|(d1)|Start number of the device storing the initialization parameters|-|Signed BIN 16 bit|ANY16
196 +|(d2)|Store the start number of the device of the input PID parameter|-|Signed BIN 16 bit|ANY16
197 +|(d3)|The start number of the device that stores the adjusted PID parameters|-|Signed BIN 16 bit|ANY16
198 +
199 +**Device used**
200 +
201 +|(% rowspan="2" %)**Instruction**|(% rowspan="2" %)**Parameter**|(% colspan="24" %)**Soft component**|**Offset modification**|(((
202 +**Pulse**
203 +
204 +**extension**
205 +)))
206 +|**X**|**Y**|**M**|**S**|**SM**|**T(bit)**|**C(bit)**|**LC(bit)**|**HSC(bit)**|**D.b**|**KnX**|**KnY**|**KnM**|**KnS**|**T**|**C**|**D**|**R**|**SD**|**LC**|**HSC**|**K**|**H**|**E**|**[D]**|**XXP**
207 +|(% rowspan="4" %)FPID|Parameter 1| | | | | | | | | | | | | | | | |●|●|●|●| | | | | |
208 +|Parameter 2| | | | | | | | | | | | | | | | |●|●|●|●| | | | | |
209 +|Parameter 3| | | | | | | | | | | | | | | | |●|●|●|●| | | | | |
210 +|Parameter 4| | | | | | | | | | | | | | | | |●|●|●|●| | | | | |
211 +
212 +**Features**
213 +
214 +This instruction needs to be used in conjunction with the PID instruction. It completes the fuzzy calculation of the adjustments of the three parameters of PID, Kp, Ki, and Kd. By passing in the three parameters of the PID, the new three parameters are calculated and substituted into the PID for output control.
215 +
216 +**Parameter Description:**
217 +
218 +|(% colspan="6" %)**S parameter setting**
219 +|**Parameter**|**Offset address**|**Name**|**Format**|**Instruction**|**Range**
220 +|Parameter 1|S|-|-|-|-
221 +
222 +
223 +
224 +|(% colspan="6" %)**d1 parameter setting**
225 +|**Parameter**|**Offset address**|**Name**|**Format**|**Instruction**|**Range**
226 +|(% rowspan="2" %)Parameter 1|d1|(% rowspan="2" %)em domain|(% rowspan="2" %)Floating point|(% rowspan="2" %)Temperature difference|(% rowspan="2" %)>0
227 +|d1+1
228 +|(% rowspan="2" %)Parameter 2|d1+2|(% rowspan="2" %)ecm domain|(% rowspan="2" %)Floating point|(% rowspan="2" %)Temperature difference|(% rowspan="2" %)>0
229 +|d1+3
230 +|(% rowspan="2" %)Parameter 3|d1+4|(% rowspan="2" %)kpm coefficient|(% rowspan="2" %)Floating point|(% rowspan="2" %)0.5 (fixed) (not set)|(% rowspan="2" %)-
231 +|d1+5
232 +|(% rowspan="2" %)Parameter 4|d1+6|(% rowspan="2" %)kim coefficient|(% rowspan="2" %)Floating point|(% rowspan="2" %)1 (fixed) (not set)|(% rowspan="2" %)-
233 +|d1+7
234 +|(% rowspan="2" %)Parameter 5|d1+8|(% rowspan="2" %)kdm coefficient|(% rowspan="2" %)Floating point|(% rowspan="2" %)1 (fixed) (not set)|(% rowspan="2" %)-
235 +|d1+9
236 +|(% rowspan="2" %)Parameter 6|d1+10|(% rowspan="2" %)EM|(% rowspan="2" %)32-bit integer|(% rowspan="2" %)6 (fixed) (not set)|(% rowspan="2" %)-
237 +|d1+11
238 +|(% rowspan="2" %)Parameter 7|d1+12|(% rowspan="2" %)ECM|(% rowspan="2" %)32-bit integer|(% rowspan="2" %)6 (fixed) (not set)|(% rowspan="2" %)-
239 +|d1+13
240 +|(% rowspan="2" %)Parameter 8|d1+14|(% rowspan="2" %)UM|(% rowspan="2" %)32-bit integer|(% rowspan="2" %)6 (fixed) (not set)|(% rowspan="2" %)-
241 +|d1+15
242 +|(% rowspan="2" %)Parameter 9|d1+16|(% rowspan="2" %)Size_x|(% rowspan="2" %)32-bit integer|(% rowspan="2" %)13 (fixed) (not set)|(% rowspan="2" %)-
243 +|d1+17
244 +|(% rowspan="2" %)Parameter 10|d1+18|(% rowspan="2" %)Size_y|(% rowspan="2" %)32-bit integer|(% rowspan="2" %)13 (fixed) (not set)|(% rowspan="2" %)-
245 +|d1+19
246 +|Parameter 11|d1+20|Kpm reserved for internal use|Reserved|Reserved|-
247 +|Parameter 12|d1+21|Kim reserved for internal use|Reserved|Reserved|-
248 +|Parameter 13|d1+22|Kdm reserved for internal use|Reserved|Reserved|-
249 +|Parameter 14|d1+23|Kukp reserved for internal use|Reserved|Reserved|-
250 +|Parameter 15|d1+24|Kuki reserved for internal use|Reserved|Reserved|-
251 +|Parameter 16|d1+25|Kukd reserved for internal use|Reserved|Reserved|-
252 +|︙|︙|︙|︙|Reserved|-
253 +|Parameter 20|d1+37|Reserved for internal use|Reserved|Reserved|-
254 +
255 +
256 +
257 +|(% colspan="6" %)**d2 parameter setting**
258 +|**Parameter**|**Offset address**|**Name**|**Format**|**Instruction**|**Range**
259 +|Parameter 1|d2|Current Temperature|16-bit integer|Current test temperature|-
260 +|Parameter 2|d2+1|set temperature|16-bit integer|Set temperature|-
261 +|Parameter 3|d2+2|Calculation period|16-bit integer|Take an integer multiple of the pid sampling time, usually the same|-
262 +|Parameter 4|d2+3|Kp|16-bit integer|PID initial Kp value|-
263 +|Parameter 5|d2+4|KI|16-bit integer|PID initial Ki value|-
264 +|Parameter 6|d2+5|KD|16-bit integer|PID initial Kd value|-
265 +|Parameter 7|d2+6|Sampling cycle|16-bit integer|No need to enter|-
266 +|Parameter 8|d2+7|Initialization flag|16-bit integer|Reserved for internal use|-
267 +|(% rowspan="2" %)Parameter 9|d2+8|(% rowspan="2" %)Last calculation time|(% rowspan="2" %)32-bit integer|(% rowspan="2" %)View usage (not operable)|(% rowspan="2" %)-
268 +|d2+9
269 +|Parameter 10|d2+10|Last temperature|16-bit integer|View usage (not operable)|-
270 +|Parameter 11|d2+11|Reserved|16-bit integer|Reserved|
271 +
272 +
273 +
274 +|(% colspan="6" %)**d3 parameter setting**
275 +|**Parameter**|**Offset address**|**Name**|**format**|**Instruction**|**Range**
276 +|Parameter 1|d3|Current Temperature|16-bit integer|Current test temperature|-
277 +|Parameter 2|d3+1|set temperature|16-bit integer|Set temperature|-
278 +|Parameter 3|d3+2|Calculation period|16-bit integer|Take an integer multiple of the pid sampling time, usually the same|-
279 +|Parameter 4|d3+3|Kp|16-bit integer|Kp value of PID after adjustment|-
280 +|Parameter 5|d3+4|KI|16-bit integer|Ki value of PID after adjustment|-
281 +|Parameter 6|d3+5|KD|16-bit integer|Kd value of PID after adjustment|-
282 +|Parameter 7|d3+6|Sampling cycle|16-bit integer|No need to enter|-
283 +|Parameter 8|d3+7|Reserved|16-bit integer|Reserved|-
284 +
285 +**✎Note:**
286 +
287 +The instruction starts from the device specified in (d1) and occupies 38 points of the device, and initializes the parameters. Normally, it only needs to be initialized once before calling (some parameters are fixed) (occupies 38 words space).
288 +
289 +The instruction starts with the device specified in (d2) and occupies 12 points of the device, input parameters, and input the first 6 parameters, where Kp, Ki, Kd are the initial values of the PID control parameters (occupies 12 words space) .
290 +
291 +The instruction starts from the device specified in (d3) and occupies 8 points of soft elements and output parameters, among which Kp, Ki, Kd are the parameter values after fuzzy adaptive calculation, which can be input to the designated position of PID (occupy 8 words space).
292 +
293 +The FPID instruction occupies 58 words. The address of each operand must have a specified interval interval, which cannot be occupied by other instructions.
294 +
295 +**Error code**
296 +
297 +|**Error code**|**Content**
298 +|4085H|When the device specified in the read application instructions (d1), (d2), (d3) exceeds the range of the corresponding device.
299 +|4086H|When the device specified in the write application instructions (d1), (d2), (d3) exceeds the range of the corresponding device.
300 +|4D91H|FPID calculation cycle is less than or equal to 0
301 +|4D92H|FPID parameter range error
302 +|4D93H|FPID initial flag error
303 +
304 +**Example**
305 +
306 +~1. Parameter d1
307 +
308 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps163.jpg]]
309 +
310 +
311 +
312 +2. Parameter d2
313 +
314 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps164.jpg]]
315 +
316 +3. Invoke FPID
317 +
318 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps165.jpg]]
319 +
320 +
321 +
322 +=== **11.4 CCPID instruction introduction manual** ===
323 +
324 +1. [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps166.png]]**Background and purpose**
325 +
326 +**Background:**
327 +
328 +PID (proportion, integral, derivative) controller has been the earliest practical controller for nearly a hundred years, and it is still the most widely used industrial controller. The PID controller is simple and easy to understand, and does not require precise system models and other prerequisites in use, making it the most widely used controller.
329 +
330 +**Purpose:**
331 +
332 +You might not be familiar with the parameter settings in the new series of CCPID for the first time, this manual could let you quickly understand the meaning of each parameter in the CCPID and the influence on the control effect, so that you can quickly learn the CCPID.
333 +
334 +1. **Description of the host CCPID instruction**
335 +
336 +**Instruction description**
337 +
338 +**Content, range and data type**
339 +
340 +|**Name**|**Features**|**Bits (bits)**|**Whether pulse type**|**Instruction format**|**Step count**
341 +|CCPID|PID Operation|16|No|CCPID [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps167.jpg]][[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps168.jpg]][[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps169.jpg]][[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps170.jpg]]|9
342 +
343 +|(% rowspan="2" %)**Instruction**|(% rowspan="2" %)**Parameter**|(% colspan="24" %)**Devices**|**Offset modification**|**Pulse extension**
344 +|**X**|**Y**|**M**|**S**|**SM**|**T(bit)**|**C(bit)**|**LC(bit)**|**HSC(bit)**|**D.b**|**KnX**|**KnY**|**KnM**|**KnS**|**T**|**C**|**D**|**R**|**SD**|**LC**|**HSC**|**K**|**H**|**E**|**[D]**|**XXP**
345 +|(% rowspan="4" %)CCPID|Parameter 1| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
346 +|Parameter 2| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
347 +|Parameter 3| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
348 +|Parameter 4| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
349 +
350 +**Device used**
351 +
352 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps171.png]]is the target value (SV) of PID control;
353 +
354 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps172.png]]is the measured feedback value (PV);
355 +
356 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps173.png]]is the start address of the buffer area for setting parameters required for PID operation and saving intermediate results, occupying a total of 52 variable units of subsequent addresses (recommended to reserve 100 continuous spaces).The value range is D0 to D7,948, it is better to specify power failure retention, and the setting value remains after power supply is off. Otherwise,the buffer needs to be assigned value before starting the calculation for the first time. The function and parameter description of each unit are described in this section;
357 +
358 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps174.png]]is the storage unit (MV) of the PID calculation result. Please specify it as a non-battery retentive area, otherwise it needs to be initialized and cleared before the first start of calculation.
359 +
360 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps175.png]]
361 +
362 +1. **Programming example**
363 +
364 +The parameter description is as follows:
365 +
366 +In D9, the target value of PID adjustment is stored, and D10 is the closed-loop feedback value. Note that D9 and D10 must be of the same dimension, such as both 0.01MPa units, or 1℃ units, etc.;
367 +
368 +A total of 52 units of D200 to D224 are used to store the set value and process value of PID operation. These values must be set item by item before the first PID calculation;
369 +
370 +D130 unit is used to store the calculated control output value to control the execution of the action.
371 +
372 +The functions and setting methods of the parameter values of each unit used by [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps176.png]]are described in the following table:
373 +
374 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps177.png]] to [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps178.png]]+14 is the parameter range that can be set (parameters set when CCPID is executed).
375 +
376 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps179.png]]+15 to [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps180.png]]+21 is the space used internally by CCPID control.
377 +
378 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps181.png]]+22 to [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps182.png]]+51 is the parameter space used in the auto-tuning process.
379 +
380 +|**Unit**|**Features**|**Setting instructions**|**Supplement**
381 +| |Sample time (TS)|The set range is 1 to 32,767 (ms), but greater than PLC program scan cycle.|It is how often the instruction calculates and updates the output value (MV). When TS is less than one scan time, PID instruction is executed with one scan time and alarm 4D86H. When TS ≤ 0, alarm 4D80H and no execution.
382 +|+1|Action direction (ACT)|(((
383 +bit0: 0=positive action; 1=reverse action bit2: auto-tuning transition zone switch. 0=not open;1=open
384 +
385 +bit3: 0=unidirection; 1=bidirection
386 +
387 +Bit4: 0=auto-tuning does not execute; 1=execute auto-tuning
388 +
389 +[Bit6:0=Two-stage auto-tuning does not execute. 1=Execute two-stage auto-tuning (bit4 must be set to 1).
390 +
391 +bit7: 0=Three-stage auto-tuning does not execute. 1=Execute three-stage auto-tuning (bit4 must be set to 1 )]
392 +
393 +The Others cannot be used.
394 +)))|(((
395 +bit0: Positive action: similar heating system, when the temperature is lower than the set value, increases the output ; Reverse action: similar cooling system, when the temperature is greater than the set value, increases the output.
396 +
397 +bit2: Self-tuning transition zone switch. There is a transition zone size of 1.5℃ when opened.
398 +
399 +bit3: Bidirection indicates that outputs the positive and negative values to the heating system or the cooling system to control two external systems by one PID.
400 +
401 +bit4: **✎**When bit4=1 and bit6 and bit7 are not 1, auto-tuning is not executed. **✎**When bit4=0 and one of bit6 and bit7 is 1, auto-tuning is not executed. **✎**When bit4=1 and bit6 and bit7 are both 1, auto-tuning is executed
402 +)))
403 +|+2|Filter coefficient|The first-order inertia filter of feedback amount (0 to 100%) has a range of 0 to100|When the value is greater than or equal to 100, it will be executed as 0, that is, no filtering will be executed;
404 +|+3|Proportional gain(Kp)|Set range: 0 to 30,000[%]|Overrun error 4D87H
405 +|+4|Integration time (Ti)|Ti is integration time, and the range is 0 to 3,600 (s)|Overrun error 4D88H
406 +|+5|Differential time (Td)|Td is derivative time, and the range is 0 to 1,000 (s)|Overrun error 4D89H
407 +|+6|Working interval|Operating temperature setting enabled by PID (0 indicates no effect) The range is 0 to 1,000|It is recommended to be greater than 5°C, that is, 50 (precision 0.1°C). If it exceeds the range, the boundary value will be taken.
408 +|+7|Output low limit|(((
409 +Range: -10,000 to 10,000.
410 +
411 +Recommended setting range: -2,000 or 0 (when S3+1 bit3=0, the lower limit = 0;
412 +
413 +when bit3=1, the lower limit = -2,000)
414 +)))|(((
415 +~1. Self-tuning initialization:
416 +
417 +① Unidirection control: the lower limit is 0;
418 +
419 +② Bidirection control: If the lower limit is greater than 0, adjust the lower limit to 0; if the upper limit and the lower limit are equal to 0, the default lower limit is -2,000. **✎**Note: If set to -2,000, and the output value (MV) is less than -2,000, it will output -2,000.
420 +
421 +2. During the control process, the lower limit is dynamically adjustable. If the lower limit is greater than or equal to the upper limit, error 4D90H will be reported.
422 +)))
423 +|+8|Output upper limit|(((
424 +Value range: -10,000 to 10,000.
425 +
426 +Recommended setting value is 2,000
427 +)))|(((
428 +~1. Self-tuning initialization:
429 +
430 +① Unidirection control: If the upper limit is less than 0, the default upper limit is 2,000;
431 +
432 +② Bidirection control: If the upper limit is less than 0, adjust the upper limit to 0; if the upper limit and the lower limit are equal to 0, the default upper limit is -2,000. **✎**Note: If set to -2,000 and the output value (MV) is greater than -2,000, it will output 2,000.
433 +
434 +2. During the control process, the upper limit is dynamically adjustable. If the lower limit is greater than or equal to the upper limit, error 4D90H will be reported.
435 +)))
436 +|+9|Mode setting|(((
437 +0: Overshoot allowed
438 +
439 +1: Slight overshoot or no overshoot
440 +
441 +2: Dynamic setting
442 +)))|(((
443 +0:Overshoot allowed (ukd = 100)
444 +
445 +1: Slight overshoot or no overshoot mode (ukd = 300)
446 +)))
447 +|+10|(((
448 +Scale factor
449 +
450 +(ukp)
451 +)))|Typically sets value to 100 (default 100) [enabled when S3+9 is set to 2].The range is 1 to 500.|When the value is less than or equal to 0, or greater than 500, the boundary value will be taken.
452 +|+11|Integral coefficient (uki)|Typically sets value to 50 (default 50) [enabled when S3+9 is set to 2]. The range is 1 to 300.|When the value is less than or equal to 0, or greater than 300, the boundary value will be taken.
453 +|+12|Differential coefficient (ukd)|Typically sets value to 50 (default 100. 300 to 400 can be set when slight overshoot is required) [Enable when S3+9 is set to 2]. The range is 1 to 500.|When the value is less than or equal to 0, or greater than 500, the boundary value will be taken.
454 +|+13|Maximum ascent rate (DeltaT)|The range is 0 to 32,000, which is the threshold of integral increment|Overrun error 4D82H
455 +|+14|Filtering (C0)|The range is 0 to 1,023, integral part filtering|Overrun error 4D81H
456 +|+15|(% rowspan="3" %)reserved for internal control|(% rowspan="3" %)Internal control space occupation|(% rowspan="3" %)
457 +|┆
458 +|+21
459 +|+22|(% rowspan="3" %)used space for self-tuning|(% rowspan="3" %)New self-tuning space for internal use|(% rowspan="3" %)
460 +|┆
461 +|+51
462 +
463 +The auto-tuning process occupies the space of S3+22 to S3+51. When the auto-tuning is successful, the adjusted parameters will be written into the space of S3+2 to S3+21.
464 +
465 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps183.png]]+2 filter coefficient α: Processing in first-order inertial filter
466 +
467 +Formula: **T,,now,,=(100-α)×T,,α,,+α×T,,old,,**
468 +
469 +T,,α ,,is the currently measured temperature. T,,old ,,is the temperature that participated in the PID calculation last time. T,,now ,,is the temperature used for the current PID calculation. α is the filter coefficient (when α=0, no filtering is performed, and the range of α is 0 to 100.
470 +
471 +(If there is a temperature with a small overshoot but a long stabilization time, the parameter can be set to 80, and analyze the specific problems in detail)
472 +
473 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps184.png]]+6 work range: Twork(example: 170 represents 17℃)
474 +
475 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps185.jpg]]
476 +
477 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps186.png]]+9 working mode:
478 +
479 +0: Working mode that allows overshoot
480 +
481 +1: Slight overshoot or no overshoot working mode
482 +
483 +2: Custom settings; to achieve by setting [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps187.png]]+10, [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps188.png]]+11, [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps189.png]]+12 three coefficients.
484 +
485 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps190.png]]+1 bit2 self-tuning transition zone switch: (upper limit 1℃, low limit 0.5℃)
486 +
487 +* The transition zone description in forward control:
488 +
489 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps191.png]]
490 +
491 +In the heating process, when PV≤SV+1℃, 100% power output; when PV>SV+1℃, no output.
492 +
493 +In the cooling process, when PV<SV-0.5℃, 100% power output; When PV≥SV-0.5℃, no output.
494 +
495 +* The transition zone description in reverse control:
496 +
497 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps192.png]]
498 +
499 +In the cooling process, when PV≥SV-1℃, 100% power output; when PV<SV-1℃, no output.
500 +
501 +In the heating process, when PV>SV+0.5℃, 100% power output; When PV≤SV+0.5℃, no output.
502 +
503 +* The transition zone description in bidirectional control:
504 +
505 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps193.png]]
506 +
507 +In the heating process, when PV≤SV+1℃, 100% power heating output; when PV>SV+1℃, 100% power cooling output.
508 +
509 +In the cooling process, when PV<SV-0.5℃, 100% power heating output. When PV≥SV-0.5℃, 100% power cooling output
510 +
511 +1. **Programming case**
512 +
513 +**CCPID application configuration**
514 +
515 +* Parameter setting
516 +
517 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps194.jpg]]
518 +
519 +* CCPID control process setting
520 +
521 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps195.jpg]]
522 +
523 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps196.jpg]]
524 +
525 +* Bidirection control
526 +
527 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps197.jpg]]
528 +
529 +**✎Note:**
530 +
531 +~1. CCPID is a special instruction for operation control. CCPID operation will be executed only after the sample time is reached.
532 +
533 +2. There is no limit to the number of times the CCPID instruction can be used, but+51 cannot be repeated.
534 +
535 +3. Before CCPID instruction is executed, CCPID parameters need to be set.
536 +
537 +1.
538 +**Case analysis**
539 +
540 +**Control requirements **
541 +
542 +The control environment of this example is a kettle. The configuration is controlled by PLC-5V2416 host with 4PT module, and PI8070 screen is used for data storage and process curve viewing.
543 +
544 +* **Sample program**
545 +
546 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps198.jpg]]
547 +
548 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps199.jpg]]
549 +
550 +* **Parameter description**
551 +
552 +|**PLC device**|**Control instructions**
553 +|M0|Set auto tuning
554 +|M1|CCPID instruction calculation start
555 +|M2|CCPID operating status
556 +|Y0|Pulse output with adjustable pulse width
557 +|D0|Temperature measured value
558 +|D1|Temperature setting value
559 +|D100|sample time
560 +|D101|Control detail settings
561 +|D102|First-order inertial filter coefficient
562 +|D106|Working interval
563 +|D109|Working mode
564 +
565 +1. **Parameter control effect description**
566 +
567 +* **Boiling water experiment**
568 +
569 +1. Auto-tuning process and control process (no transition zone setting), take two-stage auto-tuning as an example
570 +
571 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps200.png]]
572 +
573 +Figure 1 Auto-tuning process curve without transition zone
574 +
575 +When the control system is a single temperature control system or a system where environmental interference does not cause large fluctuations. Generally the automatic tuning without transition zone is selected, so that the self-tuning process can be completed more quickly than the method with transition zone.
576 +
577 +1. Self-tuning process and control process (transition zone setting)
578 +
579 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps201.png]]
580 +
581 +Figure 2 Self-tuning process curve with transition zone
582 +
583 +It is more suitable in a two-way control system with transition zone self-tuning process. The transition zone has a range of 1.5°C. The upper limit is 1°C, and the lower limit is 0.5°C.
584 +
585 +* **Difference in working interval setting**
586 +
587 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps202.png]]
588 +
589 +Figure 3 Process curve under different working interval parameters
590 +
591 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps203.png]]
592 +
593 +Figure 4 Process curve without different working interval parameters (heating process diagram)
594 +
595 +It can be seen from the partially enlarged graph that the parameters of the working interval have a certain influence on the overshoot and the stable time. In the case of allowing overshoot, setting the working interval parameters can make the overshoot smaller. This is because the deviation E of PID starting to work is relatively small, and the integration accumulation will not quickly saturate.
596 +
597 +* **Result of filter coefficient setting**
598 +
599 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps204.png]]
600 +
601 +Figure 5 Process curve under different filtering parameters
602 +
603 +The figure above is the experimental result under the small overshoot coefficient, the sample time is 1s. The coefficients of the first-order inertial filtering are (20, 50, 70, 80, 90). After adding the inertia coefficient, the stability time of system control is greatly accelerated, and it is increased by about 6 minutes for the boiling water experiment. The overshoot is about 1.2°C to 1.7°C.
604 +
605 +Therefore, the introduction of first-order inertial filtering could greatly improve the PID environment where the temperature fluctuates to a certain extent and increase stabilization time.
606 +
607 +**✎Note:** This parameter of filter coefficient is helpful for systems with not very large hysteresis or the control effect of the phenomenon that the control amount fluctuates back and forth has been greatly improved.
608 +
609 +* **The difference in mode selection**
610 +
611 +0: Overshoot allowed(ukd = 100)
612 +
613 +1: Small overshoot or no overshoot (ukd = 300)
614 +
615 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps205.png]]
616 +
617 +Figure 6 Process curves in different working modes
618 +
619 +When selecting mode 1 (small overshoot or no overshoot), the stable temperature may be slightly higher than the set temperature (fluctuates above the set temperature).
620 +
621 +* The function of the coefficient
622 +
623 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps206.png]]
624 +
625 +Figure 7 Process curve under dynamic setting
626 +
627 +When selecting working mode 2, there are three corresponding adjustable parameters: ukp[S3+10], uki[S3+11], ukd[S3+12]. Usually, the default parameters can be used for ukp and uki. Adjust the value of ukd could achieve the control effect.
628 +
629 +Ukp is adjusted when the value of Kp reaches the maximum value, and the default value is usually 100.
630 +
631 +Uki is adjusted when periodic oscillations occur. Gradually increase the value of uki to track the control effect.
632 +
633 +
634 +
635 +=== **11.5 CCPIN_SHT operation** ===
636 +
637 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps207.png]]**CCPIN_SHT**
638 +
639 +This instruction is used to perform PID control that changes the output value according to the variation of the input.
640 +
641 +-[CCPID_SHT (s1) (s2)  (s3) (d)]
642 +
643 +**Content, range and data type**
644 +
645 +|**Parameter**|**Content**|**Range**|**Data type**|**Data type (label)**
646 +|(s1)|The device number that stores the target value (SV)|-32767 to 32767|Signed BIN 16 bit|ANY16
647 +|(s2)|The device number that stores the measured value (SV)|-32767 to 32767|Signed BIN 16 bit|ANY16
648 +|(s3)|The device number that stores parameters|1 to 32767|Signed BIN 16 bit|ANY16
649 +|(d)|The device number that stores the output value (SV)|-32767 to 32767|Signed BIN 16 bit|ANY16
650 +
651 +**Device used**
652 +
653 +|(% rowspan="2" %)**Instruction**|(% rowspan="2" %)**Parameter**|(% colspan="24" %)**Devices**|(((
654 +**Offset**
655 +
656 +**modification**
657 +)))|(((
658 +**Pulse**
659 +
660 +**extension**
661 +)))
662 +|**X**|**Y**|**M**|**S**|**SM**|**T(bit)**|**C(bit)**|**LC(bit)**|**HSC(bit)**|**D.b**|**KnX**|**KnY**|**KnM**|**KnS**|**T**|**C**|**D**|**R**|**SD**|**LC**|**HSC**|**K**|**H**|**E**|**[D]**|**XXP**
663 +|(% rowspan="4" %)CCPID_SHT|Parameter 1| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
664 +|Parameter 2| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
665 +|Parameter 3| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
666 +|Parameter 4| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
667 +
668 +**Features**
669 +
670 +This instruction is to complete the temperature control operation, used to control the parameters of the closed-loop control system.
671 +
672 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps208.png]] is the target value of CCPID SHT control (SV).
673 +
674 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps209.png]] is the measured feedback value (PV).
675 +
676 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps210.png]] is the start address of the cache where the parameters required by CCPID_SHT operation and intermediate results are saved,
677 +
678 +occupying a total of 36 variable units of subsequent addresses. The value range is from D0 to D7946 or from R0 to R29964. It is better to specify power failure retention, and the setting value remains after power supply is off. Otherwise, the cache needs to be assigned value before starting the calculation for the first time. The function and parameter description of each unit are described in this section.
679 +
680 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps211.png]] is the storage unit of the CCPID_SHT calculation result. Please specify it as a non-battery retentive area, otherwise it needs to be initialized and cleared before the first start of calculation.
681 +
682 +**Programming example**
683 +
684 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps212.png]]
685 +
686 +The parameter description is as follows:
687 +
688 +The target value of CCPID_SHT adjustment is stored in D1, and D0 is the closed-loop feedback value. Note that D0 and D9 must be of the same dimension, such as both 0.01MPa units, or 1℃ units, etc..
689 +
690 +A total of 36 units of D1000 to D1035 are used to store the set value and process value of CCPID_SHT operation. These values must be set item by item before the first CCPID_SHT calculation.
691 +
692 +D100 unit is used to store the calculated control output value to control the execution of the action.
693 +
694 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps213.png]]The functions and setting methods of the parameter values of each unit at the beginning are described in the table below:
695 +
696 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps214.png]] to [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps215.png]]+15 is the parameter range that can be set (parameters set when CCPID_SHT is executed).
697 +
698 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps216.png]]+2 to [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps217.png]]+31 is the parameter space used in the self-tuning process. (This space is multiplexed with the parameter space during control)
699 +
700 +
701 +
702 +The functions and setting methods of the parameter values of each unit started by [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps218.png]] are described in the following table:
703 +
704 +|**Unit**|**Function**|**Description**
705 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps219.png]]|Sampling time (TS)|Range: 1 to 32767 (ms). It must be longer than PLC program scan cycle.
706 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps220.png]]+1|Control flag bit|(((
707 +bit0: 0=Forward action; 1=Reverse action
708 +
709 +bit3: 0=one-way; 1=two-way
710 +
711 +bit4: 0=Self-tuning does not act; 1=Perform self-tuning and the others are not available.
712 +
713 +bit6: 0=Two-segment self-tuning does not act; 1=Perform two-segment self-tuning (bit4 must set to 1)
714 +
715 +bit7: 0=Three-segment self-tuning does not act; 1=Perform three-segment self-tuning (bit4 must set to 1)
716 +
717 +Bit15: The instruction initialization flag bit. When initialization is complete, it is set to 1.
718 +)))
719 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps221.png]]+2|Maximum rate of increase (DeltaT)|Range: 0 to 32000. Threshold of integral increment
720 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps222.png]]+3|Proportional gain (Kp)|Range: 0 to 32767. This value is magnified 256 times and the actual value is Kp/256.
721 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps223.png]]+4|Integral gain (Ki)|Range: 0 to 32767, Ki=16384Ts/Ti,Ti is integral time
722 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps224.png]]+5|Differential gain (Kd)|Range: 0 to 32767, Kd≈Td/Ts, Td is differential time
723 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps225.png]]+6|Filter constant (Co)|Range: 0 to 1023, Integral partial filtering.
724 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps226.png]]+7|Output lower limit|Recommended setting range: -2000 to 2000
725 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps227.png]]+8|Output upper limit|Recommended setting value: 2000. When the upper and lower limits are both 0, the upper limit becomes 2000 and the lower limit becomes 0.
726 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps228.png]]+9|Reserved|Reserved for internal use
727 +|┇|┇|┇
728 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps229.png]]+35|Reserved|Reserved for internal use
729 +
730 +Parameter space corresponding to the self-tuning time
731 +
732 +|**Unit**|**Function**|**Description**
733 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps230.png]]|Sampling time (TS)|Range: 1 to 32767 (ms). It must be longer than PLC program scan cycle.
734 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps231.png]]+1|Control flag bit|(((
735 +bit0: 0=Forward action; 1=Reverse action
736 +
737 +bit3: 0=one-way; 1=two-way
738 +
739 +bit4: 0=Self-tuning does not act; 1=Perform self-tuning and the others are not available.
740 +
741 +bit6: 0=Two-segment self-tuning does not act; 1=Perform two-segment self-tuning (bit4 must set to 1)
742 +
743 +bit7: 0=Three-segment self-tuning does not act; 1=Perform three-segment self-tuning (bit4 must set to 1)
744 +
745 +Bit15: This instruction initializes the flag bit. When initialization is complete, the position is set to 1.
746 +)))
747 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps232.png]]+2|Sampling time of PID running after self-tuning|Setting range: 1 to 32767 ms(). When Ts≦0, Ts=3000
748 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps233.png]]+3|Coefficient ukp for PID parameter calculation|Setting range: 0 to 500. When ukp≦0, ukp=100; When ukp≧500, ukp=500.
749 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps234.png]]+4|Coefficient uki for PID parameter calculation|Setting range: 0 to 32767. When uki≦0, uki=50.
750 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps235.png]]+5|Coefficient ukd for PID parameter calculation|Setting range: 0 to 32767. When ukd≦0, ukd=50.
751 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps236.png]]+6|Reserved|Reserved
752 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps237.png]]+7|Output lower limit|Recommended setting range: -2000 to 2000
753 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps238.png]]+8|Output upper limit|Recommended setting value: 2000. When the upper and lower limits are both 0, the upper limit becomes 2000 and the lower limit becomes 0.
754 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps239.png]]+9|Reserved|Reserved for internal use
755 +|┇|┇|┇
756 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps240.png]]+35|Reserved|Reserved for internal use
757 +
758 +**Error code**
759 +
760 +|**Error code**|**Content**
761 +|4085H|Read application instruction (S1), (S2), (S3) and (d) output results exceed the range of device.
762 +|4086H|The devices specified in write application instruction (S3) and (d) exceed the range of the corresponding device.
763 +|4DB0H|Sampling time (Ts) exceeds the range the object (Ts≦0)
764 +|4DB1H|Output filter constant (Co) exceeds the range the object (Co<0 or Co>1023)
765 +|4DB2H|Maximum rate of increase (DeltaT) exceeds the range the object (deltaT<0 or deltaT>32000)
766 +|4DB3H|Proportional gain (Kp) exceeds the range the object (Kp≦0)
767 +|4DB4H|Integral gain (Ki) exceeds the range the object (Ki≦0)
768 +|4DB5H|Differential gain (Kd) exceeds the range the object (Kd≦0)
769 +|4DB6H|Sampling time (Ts) < operation cycle
770 +
771 +**Example**
772 +
773 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps241.png]]
774 +
775 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps242.png]]
776 +
777 +===
778 +**11.6 LAGCDL Large time-delay temperature control instruction** ===
779 +
780 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps243.png]]**LAGCDL**
781 +
782 +This instruction is used to perform large time-delay system temperature control that changes the output value according to changes in the input.
783 +
784 +-[LAGCDL (s1) (s2)  (s3) (d)]
785 +
786 +**Content, range and data type**
787 +
788 +|**Parameter**|**Content**|**Range**|**Data type**|**Data type (label)**
789 +|(s1)|The device number that stores the target value (SV)|-32767 to 32767|Signed BIN 16 bit|ANY16
790 +|(s2)|The device number that stores the measured value (SV)|-32767 to 32767|Signed BIN 16 bit|ANY16
791 +|(s3)|The device number that stores parameters|1 to 32767|Signed BIN 16 bit|ANY16
792 +|(d)|The device number that stores the output value (SV)|-32767 to 32767|Signed BIN 16 bit|ANY16
793 +
794 +**Device used**
795 +
796 +|(% rowspan="2" %)**Instruction**|(% rowspan="2" %)**Parameter**|(% colspan="24" %)**Devices**|(((
797 +**Offset**
798 +
799 +**modification**
800 +)))|(((
801 +**Pulse**
802 +
803 +**extension**
804 +)))
805 +|**X**|**Y**|**M**|**S**|**SM**|**T(bit)**|**C(bit)**|**LC(bit)**|**HSC(bit)**|**D.b**|**KnX**|**KnY**|**KnM**|**KnS**|**T**|**C**|**D**|**R**|**SD**|**LC**|**HSC**|**K**|**H**|**E**|**[D]**|**XXP**
806 +|(% rowspan="4" %)LAGCDL|Parameter 1| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
807 +|Parameter 2| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
808 +|Parameter 3| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
809 +|Parameter 4| | | | | | | | | | | | | | | | |●|●|●| | | | | | |
810 +
811 +**Features**
812 +
813 +This instruction is to complete large time-delay system control operation, and used to control the parameters of the closed-loop control system.
814 +
815 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps244.png]] is the target value of CCPID SHT control (SV).
816 +
817 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps245.png]] is the measured feedback value (PV).
818 +
819 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps246.png]] is the start address of the cache where the parameters required by LAGCDL operation and intermediate results are saved,
820 +
821 +occupying a total of 634 variable units of subsequent addresses. The value range is from D0 to D7974 or from R0 to R35000. It is better to specify power failure retention, and the setting value remains after power supply is off. Otherwise, the cache needs to be assigned value before starting the calculation for the first time. The function and parameter description of each unit are described in this section.
822 +
823 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps247.png]] is the storage unit of the LAGCDL calculation result. Please specify it as a non-battery retentive area, otherwise it needs to be initialized and cleared before the first start of calculation.
824 +
825 +**Programming example**
826 +
827 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps248.jpg]]
828 +
829 +The parameter description is as follows:
830 +
831 +The target value of LAGCDL adjustment is stored in D1, and D0 is the closed-loop feedback value. Note that D0 and D9 must be of the same dimension, such as both 0.01MPa units, or 1℃ units, etc..
832 +
833 +A total of 634 units of D1000 to D1633 are used to store the set value and process value of LAGCDL operation. These values must be set item by item before the first LAGCDL calculation.
834 +
835 +D100 unit is used to store the calculated control output value to control the execution of the action.
836 +
837 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps249.png]] to [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps250.png]]+15 is the parameter range that can be set (parameters set when LAGCDL is executed). [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps251.png]]+28 to [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps252.png]]+631 is the historical data space for LAGCDL control internal use. [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps253.png]]+4 to [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps254.png]]+27 is the parameter space used in the self-tuning process. (This space is multiplexed with the parameter space during control)
838 +
839 +The functions and setting methods of the parameter values of each unit started by [[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps255.png]] are described in the following table:
840 +
841 +
842 +
843 +|**Unit**|**Function**|**Description**
844 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps256.png]]|Sampling time (TS)|Range: 1 to 32767 (ms). It must be longer than PLC program scan cycle.
845 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps257.png]]+1|Control flag bit|(((
846 +bit0: 0=Forward action; 1=Reverse action
847 +
848 +bit1: Overshoot power limit output enable bit. 0=no limit; 1=limited
849 +
850 +Bit2: Reset historical data. 0=reset; 1=no reset. This bit must be 0 before each execution.
851 +
852 +bit4: 0=Self-tuning does not act; 1=Perform self-tuning and the others are not available.
853 +
854 +Bit14:Historical data initialization flag bit. When initialization is complete, it is set to 1.
855 +
856 +Bit15: The instruction initializes the flag bit. When initialization is complete, it is set to 1.
857 +)))
858 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps258.png]]+2|Output lower limit|Range: -32000 to 32000. Recommended setting range: -2000 or 0.
859 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps259.png]]+3|Output upper limit|Range: 0 to 32000. Recommended setting value is 2000. When the upper and lower limits are both 0, the upper limit becomes 2000 and the lower limit becomes 0.
860 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps260.png]]+4|Full power output boundary|The suggested value can be obtained by self-tuning, and can also be adjusted according to the actual situation.
861 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps261.png]]+5|Half-power output boundary|The suggested value can be obtained by self-tuning, and can also be adjusted according to the actual situation.
862 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps262.png]]+6|Stop output boundary|The suggested value can be obtained by self-tuning, and can also be adjusted according to the actual situation.
863 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps263.png]]+7|The maximum rate of increase of the controlled system|Given by self-tuning
864 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps264.png]]+8|The lagged time of the controlled system|Given by self-tuning. Unit: s
865 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps265.png]]+9|The time constant of the controlled system|Given by self-tuning. Unit: s
866 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps266.png]]+10|Ideal closed-loop time constant|Given by self-tuning. Unit: s
867 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps267.png]]+11|Ideal closed-loop sampling time|Given by self-tuning. This parameter can be adjusted during the control process. Unit: s
868 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps268.png]]+12|Maximum temperature difference during setting|Given by self-tuning. (for your reference)
869 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps269.png]]+13|The temperature difference between the residual heat and temperature rise|Given by self-tuning. (for your reference)
870 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps270.png]]+14|Heating time|Given by self-tuning. (for your reference)
871 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps271.png]]+15|Setting time|Given by self-tuning. (for your reference)
872 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps272.png]]+16|(% rowspan="3" %)Self-tuning use space|(% rowspan="3" %)Reserved for internal use
873 +|┇
874 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps273.png]]+27
875 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps274.png]]+28|Current temperature difference|Used during control
876 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps275.png]]+29|Previous temperature difference|Used during control
877 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps276.png]]+30|The 1st operation flag bit|Used during control
878 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps277.png]]+31|Number of valid history outputs|Used during control
879 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps278.png]]+32|(% rowspan="3" %)Historical output data|(% rowspan="3" %)Used during control
880 +|┇
881 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps279.png]]+631
882 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps280.png]]+632|(% rowspan="2" %)Previous sampling time stamp|(% rowspan="2" %)Reserved for internal use
883 +|[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps281.png]]+633
884 +
885 +**Error code**
886 +
887 +|**Error code**|**Content**
888 +|4085H|Read application instruction (S1), (S2), (S3) and (d) output results exceed the range of device.
889 +|4086H|The devices specified in write application instruction (S3) and (d) exceed the range of the corresponding device.
890 +|4D86H|Sampling time (Ts) < operation cycle
891 +|4DA1H|Power limit boundary (s3+4), (s3+5) and (s3+6) exceed the range.
892 +|4DA2H|System parameters (s3+7), (s3+8) and (s3+9) exceed the range.
893 +|4DA3H|Control parameters (s3+10) and (s3+11) exceed the range.
894 +|4DA4H|The output upper limit is smaller than the lower limit
895 +
896 +**Example**
897 +
898 +[[image:file:///C:\Users\Administrator\AppData\Local\Temp\ksohtml11524\wps282.png]]
899 +
900 +
16 16  == **PRUN/Octal digit transmission (16-bit data)** ==
17 17  
18 18  ----
1758107277977-298.png
Author
... ... @@ -1,0 +1,1 @@
1 +XWiki.Iris
Size
... ... @@ -1,0 +1,1 @@
1 +4.3 KB
Content
1758107327987-526.png
Author
... ... @@ -1,0 +1,1 @@
1 +XWiki.Iris
Size
... ... @@ -1,0 +1,1 @@
1 +5.8 KB
Content
1758107354956-101.png
Author
... ... @@ -1,0 +1,1 @@
1 +XWiki.Iris
Size
... ... @@ -1,0 +1,1 @@
1 +4.6 KB
Content
1758107478346-265.png
Author
... ... @@ -1,0 +1,1 @@
1 +XWiki.Iris
Size
... ... @@ -1,0 +1,1 @@
1 +2.1 KB
Content
1758107521183-717.png
Author
... ... @@ -1,0 +1,1 @@
1 +XWiki.Iris
Size
... ... @@ -1,0 +1,1 @@
1 +2.1 KB
Content
1758107651055-597.png
Author
... ... @@ -1,0 +1,1 @@
1 +XWiki.Iris
Size
... ... @@ -1,0 +1,1 @@
1 +8.5 KB
Content
1758107731016-522.png
Author
... ... @@ -1,0 +1,1 @@
1 +XWiki.Iris
Size
... ... @@ -1,0 +1,1 @@
1 +4.1 KB
Content
1758107829220-173.png
Author
... ... @@ -1,0 +1,1 @@
1 +XWiki.Iris
Size
... ... @@ -1,0 +1,1 @@
1 +4.7 KB
Content
wps284.jpg
Author
... ... @@ -1,0 +1,1 @@
1 +XWiki.Iris
Size
... ... @@ -1,0 +1,1 @@
1 +1.9 KB
Content
wps285.jpg
Author
... ... @@ -1,0 +1,1 @@
1 +XWiki.Iris
Size
... ... @@ -1,0 +1,1 @@
1 +286.6 KB
Content