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Wiki source code of LX3V-4AD

Version 1.1 by Leo Wei on 2022/06/08 14:42
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1 = **1 Introduction** =
2
3 * The LX3V-4AD special module has four input channels. The input channels receive analog signals and convert them into a digital value. This is called an A/D conversion; the maximum resolution is 16 bits.
4 * The selection of voltage or current based input/output is by user wiring. Analog ranges of -10 to 10V DC (resolution: 5mV), and/or 4 to 20mA, -20 to 20mA (resolution: 20µA) may be selected.
5 * Data transfer between the LX3V-4AD and the LX3V main unit is by buffer memory exchange. There are 32 buffer memories (each of 16 bits) in the LX3V-4AD.
6 * LX3V-4AD consumes 5V voltage from LX3V main unit or active extension unit, 90mA current of power supply.
7
8 = **2 Dimensions** =
9
10 (% style="text-align:center" %)
11 [[image:LX3V-4AD_html_5159808b9e4fa86a.png||class="img-thumbnail" height="391" width="1000"]]
12
13 ① Extension cable and connector
14
15 ② COM LED: Light when communicating
16
17 ③ Power LED: Light when connect to 24V
18
19 ④ State LED: Light when normal condition
20
21 ⑤ Module name
22
23 ⑥ Analog signal output terminal
24
25 ⑦ Extension module interface
26
27 ⑧ DIN rail mounting slot
28
29 ⑨ DIN rail hook
30
31 (((
32 * Please use crimp terminals as indicated on the graph.
33 * The tightening torque should be applied 5 to 8 Kg.cm.
34
35 (% style="text-align:center" %)
36 [[image:LX3V-4AD_html_5bc4b53029347d0f.png||class="img-thumbnail" height="195" width="400"]]
37
38 = **3 Terminal layouts** =
39 )))
40
41 (% style="text-align:center" %)
42 [[image:LX3V-4AD_html_5dc7f9d73b00bd35.png||class="img-thumbnail" height="604" width="600"]]
43
44 (((
45 1. The analog input is received through a twisted pair shielded cable. This cable should be wired separately from power lines or any other lines which may induce electrical noise.
46 1. If a voltage ripple occurs during input, or there is electrically induced noise on the external wiring, connect a smoothing capacitor of 0.1 to 0.47µF, 25V.
47 1. If you are using current input, connect the V+ and I+ terminals to each other.
48 1. If there is excessive electrical noise, connect the FG frame ground terminal with the grounded terminal on the LX3V-4AD.
49 1. Connect the ground terminal on the LX3V-4AD unit with the grounded terminal on the main unit. Use class 3 grounding on the main unit, if available.
50
51 (% style="text-align:center" %)
52 [[image:4-20mA 2-wire.png||class="img-thumbnail" height="528" width="600"]]
53
54 (% style="text-align:center" %)
55 [[image:4-20mA 3-wire.png||class="img-thumbnail" height="510" width="600"]]
56
57 = **4 Installation** =
58 )))
59
60 **Environment specification**
61
62 (% class="table-bordered" %)
63 |**Item**|**Specification**
64 |Environmental specifications (excluding following)|Same as those for the LX3V main unit
65 |Dielectric withstand voltage|500VAC, 1min (between all terminals and ground)
66
67 **Power supply specification**
68
69 (% class="table-bordered" %)
70 |**Item**|**Specification**
71 |Analog circuits|24V DC ± 10%, 55mA (external power supply from main unit)
72 |Digital circuits|5V DC, 90mA (internal power supply from main unit)
73
74 **Performance specification**
75
76 **Analog Inputs**
77
78 (% class="table-bordered" %)
79 | |**Voltage Input**|**Current input**
80 |**Items**|(% colspan="2" %)Either voltage or current input can be selected with your choice of input terminal. Up to four input points can be used at one time.
81 |**Analog input range**|(((
82 DC -10V to +10V (input resistance: 200kΩ).
83
84 Warning: this unit may be damaged by input voltage in excess of ±15V
85 )))|(((
86 DC -20mA to +20mA (input resistance: 250Ω).
87
88 Warning: this unit may be damaged by input currents in excess of ±32mA.
89 )))
90 |**Digital output**|(% colspan="2" %)(((
91 12-bit conversion stored in 16-bit 2’s complement form
92
93 Maximum value:+2047 Minimum value:-2048
94 )))
95 |**Analog accuracy**|±1% (for the range of -10V to +10V)|±1% (for the range of -20mA to +20mA)
96 |(((
97 **Conversion**
98
99 **speed**
100 )))|(% colspan="2" %)15ms/channel (Normal speed), 6ms/channel (High speed)
101
102 **Analog Inputs continued...**
103
104 (% class="table-bordered" %)
105 |**Preset 0 (-10V to +10V)**|**Preset 1 (+4mA to +20mA)**|**Preset 2 (-20mA to +20mA)**
106 |[[image:LX3V-4AD_html_8bdc9efc08b433c8.png||class="img-thumbnail"]]|[[image:LX3V-4AD_html_a268382a2adb0b80.png||class="img-thumbnail"]]|[[image:LX3V-4AD_html_a58cfb9f37ade123.png||class="img-thumbnail"]]
107
108 **✎Note: **
109
110 Preset ranges are selected by an appropriate setting in buffer memory of the analog block. Current/Voltage input selection must match the correct input terminal connections.
111
112 **Miscellaneous**
113
114 (% class="table-bordered" %)
115 |**Item**|**Description**
116 |Isolation|(((
117 Photo-couple isolation between analog and digital circuits. DC/DC converter isolation of power from LX3VCPU.
118
119 No isolation between analog channels.
120 )))
121
122 **Allocation of buffer memories (BFM)**
123
124 (% class="table-bordered" %)
125 |**BFM**|(% colspan="9" %)**Description**
126 |*#0|(% colspan="9" %)Channel initialization, default=H0000
127 |*#1|(% style="width:244px" %)Channel 1|(% colspan="8" rowspan="4" style="width:769px" %)(((
128 Contains the number of samples (1 to 4096) to be used for an averaged result.
129
130 The default setting is 8-normal speed. High speed operation can be selected with a value of 1.
131 )))
132 |*#2|(% style="width:244px" %)Channel 2
133 |*#3|(% style="width:244px" %)Channel 3
134 |*#4|(% style="width:244px" %)Channel 4
135 |#5|(% style="width:244px" %)Channel 1|(% colspan="8" rowspan="4" style="width:769px" %)These buffer memories contain the averaged input values for the number of samples entered for the channel in buffer memories #1 to #4 respectively.
136 |#6|(% style="width:244px" %)Channel 2
137 |#7|(% style="width:244px" %)Channel 3
138 |#8|(% style="width:244px" %)Channel 4
139 |#9|(% style="width:244px" %)Channel 1|(% colspan="8" rowspan="4" style="width:769px" %)These buffer memories contain the present value currently being read by each input channel.
140 |#10|(% style="width:244px" %)Channel 2
141 |#11|(% style="width:244px" %)Channel 3
142 |#12|(% style="width:244px" %)Channel 4
143 |#13-#14|(% colspan="9" %)Reserved
144 |(% rowspan="2" %)#15|(% rowspan="2" style="width:244px" %)Selection of A/D conversion speed please refer to note 2|(% colspan="8" style="width:769px" %)When set to 0, a normal speed is selected of 15m/s.ch (default)
145 |(% colspan="8" style="width:769px" %)When set to 1, a high speed is selected of 6m/s.ch
146 |#16-#19|(% colspan="9" %)Reserved
147 |*#20|(% colspan="9" %)Reset to Defaults and Preset. Default = 0
148 |*#21|(% colspan="9" %)(((
149 Offset, Gain Adjust Prohibit.
150
151 Default = (0, 1) Permit
152 )))
153 |(% rowspan="2" %)*#22|(% rowspan="2" style="width:244px" %)Offset, Gain Adjust|(% style="width:84px" %)b7|(% style="width:91px" %)b6|(% style="width:94px" %)b5|(% style="width:94px" %)b4|(% style="width:100px" %)b3|(% style="width:107px" %)b2|(% style="width:120px" %)b1|b0
154 |(% style="width:84px" %)G4|(% style="width:91px" %)O4|(% style="width:94px" %)G3|(% style="width:94px" %)O3|(% style="width:100px" %)G2|(% style="width:107px" %)O2|(% style="width:120px" %)G1|O1
155 |*#23|(% colspan="9" %)Offset Value Default = 0
156 |*#24|(% colspan="9" %)Gain Value Default = 5,000
157 |#25-#28|(% colspan="9" %)Reserved
158 |#29|(% colspan="9" %)Error status
159 |#30|(% colspan="9" %)(((
160 Identification code K2010 (12-bit resolution)
161
162 Identification code K2011 (16-bit resolution)
163 )))
164 |#31|(% colspan="9" %)Hardware version
165
166 * In buffer memory locations (BFM’s) marked with an “*” data can be written from the PC using the TO command.
167 * For buffer memories (BFM’s) without “*”mark, data can be read to the PC using the FROM command.
168 * Before reading from the analog special function block, ensure these settings have been sent to the analog special function block. Otherwise, the previous values held in the analog block will be used.
169 * Offset (intercept): The analog input value when the digital output becomes 0.
170 * Gain (slope): The analog input value when the digital output becomes +1000.
171
172 **✎Note: **
173
174 * **Channel Selection**
175
176 Channel initialization is made by a 4 character HEX number HOOOO in buffer memory BFM #0. The least significant character controls channel 1 and the 4 character controls channel4.
177
178 (% class="table-bordered" %)
179 |**BFM#0**|**Analog input**|**Digital output**|**Resolution**|**Offset/Gain**|**Constant**
180 |0|-10V~~10V|-2000~~2000|5 mV|0/5000|1000
181 |1|4mA~~20mA|0~~1000|16µA|4000/20000|1000
182 |2|-20mA~~20mA|-1000~~1000|20µA|0/20000|1000
183 |3|Disabled|/|/|/|/
184 |4|-10V~~10V|-10000~~10000|1mV|0/5000|10000
185 |5|4 mA ~~20mA|0~~10000|1.6µA|4000/20000|10000
186 |6|-20mA~~20mA|-10000~~10000|2.0µA|0/20000|10000
187
188 **Example: H3310**
189
190 CH1: Preset range (-10V to +10V).
191
192 CH2: Preset range (+4mA to +20mA).
193
194 CH3, CH4: Channel OFF.
195
196 * **Analog to Digital Conversion Speed Change**
197
198 By writing 0 or 1 into BFM #15 of the LX3V-4AD, the speed at which A/D conversion is performed can be changed.
199
200 However the following points should be noted: To maintain a high speed conversion rate, use the FROM/TO commands as seldom as possible.
201
202 **✎Note: **
203
204 * When a conversion speed change is made, BFM #1-#4 are set to their default values immediately after the change. This is regardless of the values they held originally. Bear this in mind if a speed change will be made as part of the normal program execution.
205
206 **Adjusting Gain and Offset values**
207
208 **Formula for Gain/Offset: Digital output= (Analog input-Offset)*Constant/ (Gain-Offset)**
209
210 * When buffer memory BFM #20 is activated by setting it to K1, all settings within the analog special function block are reset to their default settings. This is a very quick method to erase any undesired gain and offset adjustments.
211 * If (b1, b0) of BFM #21 is set to (1, 0), gain and offset adjustments are prohibited to prevent inadvertent changes by the operator. In order to adjust the gain and offset values, bits (b1, b0) must be set to (0, 1). The default is (0, 1).
212 * Gain and offset values of BFM #23 and #24 are sent to non-volatile memory gain and offset registers of the specified input channels. Input channels to be adjusted are specified by the appropriate G-O (gain-offset) bits of BFM #22.
213
214 Example:
215
216 If bits G1 and O1 are set to 1, input channel 1 will be adjusted when BFM #22 is written to by a TO instruction.
217
218 * Channels can be adjusted individually or together with the same gain and offset values.
219 * Gain and offset values in BFM #23 #24 are in units of mV or µA. Due to the resolution of the unit the actual response will be in steps of 5mV or 20µA.
220
221 **Status Information BFM #29**
222
223 (% class="table-bordered" %)
224 |**Bit devices of BFM #29**|(% style="width:570px" %)**ON**|(% style="width:313px" %)**OFF**
225 |b0: Error|(% style="width:570px" %)When any of b1 to b4 is ON. If any of b2 to b4 is ON, A/D conversion of all the channels is stopped|(% style="width:313px" %)No error
226 |b1: Offset/gain error|(% style="width:570px" %)Offset/Gain data in EEPROM is corrupted or adjustment error.|(% style="width:313px" %)Offset/Gain data normal
227 |b2: Power source abnormality|(% style="width:570px" %)24V DC power supply failure|(% style="width:313px" %)Power supply normal
228 |b3: Hardware error|(% style="width:570px" %)A/D converter or other hardware failure|(% style="width:313px" %)Hardware normal
229 |b10: Digital range error|(% style="width:570px" %)Digital output value is less than -2048 or more than +2047|(% style="width:313px" %)Averaging is normal. (between 1 and 4096)
230 |b11: Averaging error|(% style="width:570px" %)Number of averaging samples is 4097 or more or 0 or less (default of 8 will be used)|(% style="width:313px" %)Averaging is normal. (between 1 and 4096)
231 |b12: Adjust prohibit|(% style="width:570px" %)Prohibit-(b1, b0) of BFM #21 is set to (1, 0)|(% style="width:313px" %)Permit-(b1, b0) of BFM #21 is set to (0,1)
232
233 **✎Note: **
234
235 * b4 to b7, b9 and b13 to b15 are undefined.
236
237 **Identification Code BFM #30**
238
239 The identification (or ID) code number for a Special Function Block is read using the FROM command.
240
241 This number for the LX3V-4AD unit is K2011 or K2010.
242
243 The user’s program in the PC can use this facility in the program to identify the special function block before commencing data transfer from and to the special function block.
244
245 **✎Note: **
246
247 * Values of BFM #0, #23 and #24 are copied to EEPROM memory of the LX3V-4AD. BFM #21 and BFM #22 are only copied when data is written to the gain/offset command buffer BFM #22. Also, BFM #20 causes writing to the EEPROM memory. The EEPROM has a life of about 10,000 cycles (changes), so do not use programs which frequently change these BFMs.
248
249 * Because of the time needed to write to the EEPROM memory, a delay of 300 ms is required between instructions that cause a write to the EEPROM. Therefore, a delay timer should be used before writing to the EEPROM a second time.
250
251 = **5 Defining gain and offset** =
252
253 Gain determines the angle or slope of the calibration line, identified at a digital value of 1000.
254
255 (a) Small gain: Large steps in digital readings
256
257 (b) Zero gain: Default is 5V or 20mA.
258
259 (c) Large gain: Small steps in digital readings.
260
261 Offset is the “Position” of the calibrated line, identified at a digital value of 0.
262
263 (d) Negative offset.
264
265 (e) Zero offset: Default is 0V or 4mA.
266
267 (f) Positive offset.
268
269 (% style="text-align:center" %)
270 [[image:LX3V-4AD_html_f78533c1d988f63f.png||class="img-thumbnail" height="298" width="800"]]
271
272 Offset and gain can be set independently or together. Reasonable offset ranges are -5 to +5V or -20mA to 20mA, and gain values 1V to 15V or 4mA to 32mA. Gain and offset can be adjusted by software in the LX3V main unit (please refer to program example 2).
273
274 * Bit device’s b1, b2 of the gain/offset BFM #21 should be set to 0, 1 to allow adjustment.
275 * Once adjustment is complete these bit devices should be set to 1, 0 to prohibit any further changes.
276 * Channel initialization (BFM #0) should be set to the nearest range, i. e. voltage/current etc.
277
278 = **6 Example program** =
279
280 **basic program**
281
282 In the following example channels CH1 and CH2 are used as voltage inputs. The LX3V-4AD block is connected at the position of special function block No.0. Averaging is set at 4 and data registers D0 and D1 of the PC receive the averaged digital data.
283
284 (% style="text-align:center" %)
285 [[image:LX3V-4AD_html_e3a9b9608260f138.png||class="img-thumbnail" height="297" width="600"]]
286
287 **✎Note: **
288
289 1. The FROM code for the special function block at position “0" is read from BFM #30 of that block and stored at D4 in the main unit. CMP is compared to check the block is a LX3V-4AD, if OK M1 is turned ON.
290 1. TO code: The analog input channels (CH1, CH2) are setup by writing H3300 to BFM #0 of the LX3V-4AD
291 1. The number of averaged samples for CH1 and CH2 is set to 4 by writing 4 to BFM #1 and #2 respectively.
292 1. The operational status of the LX3V-4AD is read from BFM #29 and output as bit devices at the LX3V main unit. If there are no errors in the operation of the LX3V-4AD, then the averaged data BFM’s are read.
293 1. In the case of this example BFM #5 and #6 are read into the LX3V main unit and stored at D0 and D1. These devices contain the averaged data for CH1 and CH2 respectively.
294
295 **Using gain and offset in a program**
296
297 The gain and offset of the LX3V-4AD can be adjusted using push-button switches on the input terminal of the PC. It can also be adjusted using software settings sent from the PC.
298
299 Only the gain and offset values in the memory of the LX3V-4AD need be adjusted. A voltmeter or an ammeter for the analog input is not needed. A program for the PC will be needed however.
300
301 The following is an example of changing the offset value on input channel CH1 to 0V and the gain value to 2.5V.
302
303 The LX3V-4AD block is in the position of block No.0 (i.e. closest to the LX3V main unit).
304
305 Example: Adjusting gain/offset via software settings
306
307 (% style="text-align:center" %)
308 [[image:LX3V-4AD_html_41bef52ee180f2c9.png||class="img-thumbnail" height="980" width="600"]]
309
310 (((
311 Adjustment start
312
313 (H0000)->BFM#0 (initialize input channels). Enter the instructions on the left and RUN the PC
314
315 (K1)->BFM#21. BFM#21 must be set to permit with (b1, b0)=(0,1)
316
317 (K0)->BFM#22 (offset/gain adjusts). Reset adjust bits
318
319 (K0)-> BFM#23 (offset)
320
321 (K2500)-> BFM#24 (gain)
322
323 (H0003)->BFM#22(offset/gain adjusts). 3=0011 i.e. O1=1, G1=1. Therefore channel 1 is adjusted.
324
325 Adjustment ends.
326
327 (K2)-> BFM#21. BFM#21 gain/offset adjust prohibit
328 )))
329
330 = **7 Diagnostics** =
331
332 **Preliminary checks**
333
334 1. Check whether the input wiring and/or extension cables are properly connected on LX3V-4AD analog special function block.
335 1. Check that the LX3V system configuration rules have not been broken, i.e. the number of special function blocks does not exceed 8 and the total system I/O is equal or less than 256 I/O.
336 1. Ensure that the correct operating range has been selected for the application.
337 1. Check that there is no power overload on either the 5V or 24V power sources, remember the loading on a LX3V main unit or a powered extension unit varies according to the number of extension blocks or special function blocks connected.
338 1. Put the LX3V main unit into RUN.
339
340 **Error checking**
341
342 * If the LX3V-4AD special function block does not seem to operate normally, check the following items.
343
344 Check the status of the POWER LED.
345
346 Lit: The extension cable is properly connected.
347
348 Otherwise: Check the connection of the extension cable.
349
350 * Check the external wiring.
351 * Check the status of the “24V” LED (top right corner of the LX3V-4AD).
352
353 Lit: LX3V-4AD is OK; 24V DC power source is OK.
354
355 Otherwise: Possible 24VDC power failure, if OK possible LX3V-4AD failure.
356
357 * Check the status of the “A/D” LED (top right corner of the LX3V-4AD).
358
359 Lit: A/D conversion is proceeding normally.
360
361 Otherwise: Check buffer memory #29 (error status). If any bits (b2 and b3) are ON, then this is why the A/D LED is OFF.