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Changes for page LX3V-4AD

Last modified by Devin Chen on 2024/11/27 15:04
From version 3.1
edited by Stone Wu
on 2022/07/28 10:35
Change comment: There is no comment for this version
To version 8.1
edited by Jim
on 2023/08/02 10:13
Change comment: There is no comment for this version

Summary

Details

Page properties
Author
... ... @@ -1,1 +1,1 @@
1 -XWiki.Stone
1 +XWiki.Jim
Content
... ... @@ -10,28 +10,21 @@
10 10  (% style="text-align:center" %)
11 11  [[image:LX3V-4AD_html_5159808b9e4fa86a.png||height="391" width="1000" class="img-thumbnail"]]
12 12  
13 -① Extension cable and connector
13 +1. Extension cable and connector
14 +1. COM LED: Light when communicating
15 +1. Power LED: Light when connect to 24V
16 +1. State LED: Light when normal condition
17 +1. Module name
18 +1. Analog signal output terminal
19 +1. Extension module interface
20 +1. DIN rail mounting slot
21 +1. DIN rail hook
14 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 31  (((
32 -* Please use crimp terminals as indicated on the graph.
33 -* The tightening torque should be applied 5 to 8 Kg.cm.
24 +Please use crimp terminals as indicated on the graph.
34 34  
26 +The tightening torque should be applied 5 to 8 Kg.cm.
27 +
35 35  (% style="text-align:center" %)
36 36  [[image:LX3V-4AD_html_5bc4b53029347d0f.png||height="195" width="400" class="img-thumbnail"]]
37 37  
... ... @@ -38,7 +38,7 @@
38 38  = **3 Terminal layouts** =
39 39  
40 40  (% style="text-align:center" %)
41 -[[image:image-20220728103451-1.png]]
34 +[[image:image-20220728103451-1.png||class="img-thumbnail"]]
42 42  )))
43 43  
44 44  (((
... ... @@ -48,11 +48,9 @@
48 48  1. If there is excessive electrical noise, connect the FG frame ground terminal with the grounded terminal on the LX3V-4AD.
49 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 50  
51 -(% style="text-align:center" %)
52 -[[image:4-20mA 2-wire.png||height="528" width="600" class="img-thumbnail"]]
44 +**Note: when connect a 4-20ma sensor(need +24V working voltage), the wiring is as below:**
53 53  
54 -(% style="text-align:center" %)
55 -[[image:4-20mA 3-wire.png||height="510" width="600" class="img-thumbnail"]]
46 +[[image:企业微信截图_16771315134574.png]]
56 56  
57 57  = **4 Installation** =
58 58  )))
... ... @@ -60,16 +60,16 @@
60 60  **Environment specification**
61 61  
62 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)
54 +|=(% style="width: 490px;" %)**Item**|=(% style="width: 585px;" %)**Specification**
55 +|(% style="width:490px" %)Environmental specifications (excluding following)|(% style="width:585px" %)Same as those for the LX3V main unit
56 +|(% style="width:490px" %)Dielectric withstand voltage|(% style="width:585px" %)500VAC, 1min (between all terminals and ground)
66 66  
67 67  **Power supply specification**
68 68  
69 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)
61 +|=(% style="width: 294px;" %)**Item**|=(% style="width: 781px;" %)**Specification**
62 +|(% style="width:294px" %)Analog circuits|(% style="width:781px" %)24V DC ± 10%, 55mA (external power supply from main unit)
63 +|(% style="width:294px" %)Digital circuits|(% style="width:781px" %)5V DC, 90mA (internal power supply from main unit)
73 73  
74 74  **Performance specification**
75 75  
... ... @@ -76,44 +76,45 @@
76 76  **Analog Inputs**
77 77  
78 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**|(((
70 +|=(% scope="row" style="width: 146px;" %) |=(% style="width: 455px;" %)**Voltage Input**|=(% style="width: 475px;" %)**Current input**
71 +|=(% style="width: 146px;" %)**Items**|(% colspan="2" style="width:930px" %)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.
72 +|=(% style="width: 146px;" %)**Analog input range**|(% style="width:455px" %)(((
82 82  DC -10V to +10V (input resistance: 200kΩ).
83 83  
84 84  Warning: this unit may be damaged by input voltage in excess of ±15V
85 -)))|(((
76 +)))|(% style="width:475px" %)(((
86 86  DC -20mA to +20mA (input resistance: 250Ω).
87 87  
88 88  Warning: this unit may be damaged by input currents in excess of ±32mA.
89 89  )))
90 -|**Digital output**|(% colspan="2" %)(((
81 +|=(% style="width: 146px;" %)**Digital output**|(% colspan="2" style="width:930px" %)(((
91 91  12-bit conversion stored in 16-bit 2’s complement form
92 92  
93 93  Maximum value:+2047 Minimum value:-2048
94 94  )))
95 -|**Analog accuracy**|±1% (for the range of -10V to +10V)|±1% (for the range of -20mA to +20mA)
96 -|(((
86 +|=(% style="width: 146px;" %)**Analog accuracy**|(% style="width:455px" %)±1% (for the range of -10V to +10V)|(% style="width:475px" %)±1% (for the range of -20mA to +20mA)
87 +|=(% style="width: 146px;" %)(((
97 97  **Conversion**
98 98  
99 99  **speed**
100 -)))|(% colspan="2" %)15ms/channel (Normal speed), 6ms/channel (High speed)
91 +)))|(% colspan="2" style="width:930px" %)15ms/channel (Normal speed), 6ms/channel (High speed)
101 101  
102 102  **Analog Inputs continued...**
103 103  
104 104  (% 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"]]
96 +|=**Preset 0 (-10V to +10V)**|=**Preset 1 (+4mA to +20mA)**|=**Preset 2 (-20mA to +20mA)**
97 +|[[image:LX3V-4AD_html_8bdc9efc08b433c8.png||height="371" width="420" class="img-thumbnail"]]|[[image:LX3V-4AD_html_a268382a2adb0b80.png||height="345" width="420" class="img-thumbnail"]]|[[image:LX3V-4AD_html_a58cfb9f37ade123.png||height="363" width="420" class="img-thumbnail"]]
107 107  
108 -**✎Note: **
99 +(% class="box infomessage" %)
100 +(((
101 +**✎Note: **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.
102 +)))
109 109  
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 -
112 112  **Miscellaneous**
113 113  
114 114  (% class="table-bordered" %)
115 -|**Item**|**Description**
116 -|Isolation|(((
107 +|=(% scope="row" style="width: 147px;" %)**Item**|=(% style="width: 928px;" %)**Description**
108 +|=(% style="width: 147px;" %)Isolation|(% style="width:928px" %)(((
117 117  Photo-couple isolation between analog and digital circuits. DC/DC converter isolation of power from LX3VCPU.
118 118  
119 119  No isolation between analog channels.
... ... @@ -121,28 +121,44 @@
121 121  
122 122  **Allocation of buffer memories (BFM)**
123 123  
124 -(% class="table-bordered" %)
125 -|**BFM**|(% colspan="9" %)**Description**
116 +(% style="margin-left:auto; margin-right:auto" %)
117 +|=**BFM**|=(% colspan="9" %)**Description**
126 126  |*#0|(% colspan="9" %)Channel initialization, default=H0000
127 -|*#1|(% style="width:244px" %)Channel 1|(% colspan="8" rowspan="4" style="width:769px" %)(((
119 +|*#1|Channel 1|(% colspan="8" rowspan="4" %)(((
128 128  Contains the number of samples (1 to 4096) to be used for an averaged result.
129 129  
130 130  The default setting is 8-normal speed. High speed operation can be selected with a value of 1.
131 131  )))
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
124 +|*#2|Channel 2
125 +|*#3|Channel 3
126 +|*#4|Channel 4
127 +|#5|Channel 1|(% colspan="8" rowspan="4" %)These buffer memories contain the averaged input values for the number of samples entered for the channel in buffer memories #1 to #4 respectively.
128 +|#6|Channel 2
129 +|#7|Channel 3
130 +|#8|Channel 4
131 +|#9|Channel 1|(% colspan="8" rowspan="4" %)These buffer memories contain the present value currently being read by each input channel.
132 +|#10|Channel 2
133 +|#11|Channel 3
134 +|#12|Channel 4
143 143  |#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
136 +|(% rowspan="10" %)#15|(% rowspan="10" %)(((
137 +Selection of A/D conversion speed
138 +
139 +Please refer to note 2
140 +)))|(% colspan="4" %)Set value|(% colspan="4" %)(((
141 +Conversion time
142 +
143 +(Unit: ms/channel)
144 +)))
145 +|(% colspan="4" %)0 (Default)|(% colspan="4" %)15
146 +|(% colspan="4" %)1|(% colspan="4" %)6
147 +|(% colspan="4" %)10|(% colspan="4" %)3
148 +|(% colspan="4" %)11|(% colspan="4" %)4.5
149 +|(% colspan="4" %)12|(% colspan="4" %)7
150 +|(% colspan="4" %)13|(% colspan="4" %)12.5
151 +|(% colspan="4" %)14|(% colspan="4" %)23.5
152 +|(% colspan="4" %)15|(% colspan="4" %)45.5
153 +|(% colspan="4" %)16|(% colspan="4" %)101
146 146  |#16-#19|(% colspan="9" %)Reserved
147 147  |*#20|(% colspan="9" %)Reset to Defaults and Preset. Default = 0
148 148  |*#21|(% colspan="9" %)(((
... ... @@ -150,10 +150,9 @@
150 150  
151 151  Default = (0, 1) Permit
152 152  )))
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
161 +|*#22|Offset, Gain Adjust|G4|04|G3|03|G2|01|G1|01
162 +|*#23|(% colspan="9" %)Offset Value    Default = 0
163 +|*#24|(% colspan="9" %)Gain Value      Default = 5,000
157 157  |#25-#28|(% colspan="9" %)Reserved
158 158  |#29|(% colspan="9" %)Error status
159 159  |#30|(% colspan="9" %)(((
... ... @@ -169,40 +169,42 @@
169 169  * Offset (intercept): The analog input value when the digital output becomes 0.
170 170  * Gain (slope): The analog input value when the digital output becomes +1000.
171 171  
179 +(% class="box infomessage" %)
180 +(((
172 172  **✎Note: **
182 +)))
173 173  
174 -* **Channel Selection**
184 +**Channel Selection**
175 175  
176 176  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.
177 177  
178 178  (% 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
189 +|=(% scope="row" %)**BFM#0**|=**Analog input**|=**Digital output**|=**Resolution**|=**Offset/Gain**|=**Constant**
190 +|=0|-10V~~10V|-2000~~2000|5 mV|0/5000|1000
191 +|=1|4mA~~20mA|0~~1000|16µA|4000/20000|1000
192 +|=2|-20mA~~20mA|-1000~~1000|20µA|0/20000|1000
193 +|=3|Disabled|/|/|/|/
194 +|=4|-10V~~10V|-10000~~10000|1mV|0/5000|10000
195 +|=5|4 mA ~~20mA|0~~10000|1.6µA|4000/20000|10000
196 +|=6|-20mA~~20mA|-10000~~10000|2.0µA|0/20000|10000
187 187  
188 188  **Example: H3310**
189 189  
190 -CH1: Preset range (-10V to +10V).
200 +* CH1: Preset range (-10V to +10V).
201 +* CH2: Preset range (+4mA to +20mA).
202 +* CH3, CH4: Channel OFF.
191 191  
192 -CH2: Preset range (+4mA to +20mA).
204 +**Analog to Digital Conversion Speed Change**
193 193  
194 -CH3, CH4: Channel OFF.
206 +By writing 0, 1 or decimal numbers between 10-16 into BFM#15 of the LX3V-4AD, the time at which A/D conversion is performed can be changed.
195 195  
196 -* **Analog to Digital Conversion Speed Change**
208 +However, the following points should be noted:
197 197  
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.
210 +1. To maintain a high-speed conversion, please use the FROM/TO commands as seldom as possible.
211 +1. When a conversion speed change occurs, BFM #1-#4 are set to their default values immediately after the change. Please be careful if an A/D time conversion will be part of the normal program execution.
212 +1. High-speed time conversion is usually used with BFM#1-#4.
213 +1. BFM#15 is configurated with the corresponding conversion time of 10-16, only supported by software version 20000 or above.
199 199  
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 -
206 206  **Adjusting Gain and Offset values**
207 207  
208 208  **Formula for Gain/Offset: Digital output= (Analog input-Offset)*Constant/ (Gain-Offset)**
... ... @@ -210,7 +210,15 @@
210 210  * 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.
211 211  * 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).
212 212  * 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.
222 +* (((
223 +Example:
213 213  
225 +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.
226 +)))
227 +* Channels can be adjusted individually or together with the same gain and offset values.
228 +* 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.
229 +* When gain is less than or equal to offset, error will be adjusted. Gain and offset will not change. Error status will be given at BFM#29 b1. B4-b7 will give a specific channel offset/gain error.
230 +
214 214  Example:
215 215  
216 216  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.
... ... @@ -220,20 +220,22 @@
220 220  
221 221  **Status Information BFM #29**
222 222  
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)
240 +(% style="margin-left:auto; margin-right:auto" %)
241 +|=**Bit devices of BFM #29**|=**ON**|=**OFF**
242 +|b0: Error|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|No error
243 +|b1: Offset/gain error|Offset/Gain data in EEPROM is corrupted or adjustment error.|Offset/Gain data normal
244 +|b2: Power source abnormality|24V DC power supply failure|Power supply normal
245 +|b3: Hardware error|A/D converter or other hardware failure|Hardware normal
246 +|b4: Channel 1 offset/gain error|(% rowspan="4" %)When channel offset/gain error is modified, the corresponding position is ON.|(% rowspan="4" %)Offset/Gain modification Normal
247 +|b5: Channel 2 offset/gain error
248 +|b6: Channel 3 offset/gain error
249 +|b7: Channel 4 offset/gain error
250 +|b10: Digital range error|Digital output value is less than -2048 or more than +2047|Averaging is normal. (Between 1 and 4096)
251 +|b11: Averaging error|Number of averaging samples is 4097 or more or 0 or less (default of 8 will be used)|Averaging is normal. (Between 1 and 4096)
252 +|b12: Adjust prohibit|Prohibit-(b1, b0) of BFM #21 is set to (1, 0)|Permit-(b1, b0) of BFM #21 is set to (0,1)
232 232  
233 -**✎Note: **
254 +**✎Note: **b4 to b7, b9 and b13 to b15 are undefined.
234 234  
235 -* b4 to b7, b9 and b13 to b15 are undefined.
236 -
237 237  **Identification Code BFM #30**
238 238  
239 239  The identification (or ID) code number for a Special Function Block is read using the FROM command.
... ... @@ -252,22 +252,18 @@
252 252  
253 253  Gain determines the angle or slope of the calibration line, identified at a digital value of 1000.
254 254  
255 -(a) Small gain: Large steps in digital readings
274 +* (a) Small gain: Large steps in digital readings
275 +* (b) Zero gain: Default is 5V or 20mA.
276 +* (c) Large gain: Small steps in digital readings.
256 256  
257 -(b) Zero gain: Default is 5V or 20mA.
258 -
259 -(c) Large gain: Small steps in digital readings.
260 -
261 261  Offset is the “Position” of the calibrated line, identified at a digital value of 0.
262 262  
263 -(d) Negative offset.
280 +* (d) Negative offset.
281 +* (e) Zero offset: Default is 0V or 4mA.
282 +* (f) Positive offset.
264 264  
265 -(e) Zero offset: Default is 0V or 4mA.
266 -
267 -(f) Positive offset.
268 -
269 269  (% style="text-align:center" %)
270 -[[image:LX3V-4AD_html_f78533c1d988f63f.png||class="img-thumbnail" height="298" width="800"]]
285 +[[image:LX3V-4AD_html_f78533c1d988f63f.png||height="298" width="800" class="img-thumbnail"]]
271 271  
272 272  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).
273 273  
... ... @@ -277,12 +277,12 @@
277 277  
278 278  = **6 Example program** =
279 279  
280 -**basic program**
295 +**Basic program**
281 281  
282 282  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.
283 283  
284 284  (% style="text-align:center" %)
285 -[[image:LX3V-4AD_html_e3a9b9608260f138.png||class="img-thumbnail" height="297" width="600"]]
300 +[[image:LX3V-4AD_html_e3a9b9608260f138.png||height="297" width="600" class="img-thumbnail"]]
286 286  
287 287  **✎Note: **
288 288  
... ... @@ -305,27 +305,32 @@
305 305  Example: Adjusting gain/offset via software settings
306 306  
307 307  (% style="text-align:center" %)
308 -[[image:LX3V-4AD_html_41bef52ee180f2c9.png||class="img-thumbnail" height="980" width="600"]]
323 +[[image:LX3V-4AD_html_41bef52ee180f2c9.png||height="980" width="600" class="img-thumbnail"]]
309 309  
310 310  (((
311 311  Adjustment start
312 312  
313 -(H0000)->BFM#0 (initialize input channels). Enter the instructions on the left and RUN the PC
328 +* (H0000)->BFM#0 (initialize input channels). Enter the instructions on the left and RUN the PC
329 +* (K1)->BFM#21. BFM#21 must be set to permit with (b1, b0)=(0,1)
330 +* (K0)->BFM#22 (offset/gain adjusts). Reset adjust bits
331 +* (K0)-> BFM#23 (offset)
332 +* (K2500)-> BFM#24 (gain)
333 +* (H0003)->BFM#22(offset/gain adjusts). 3=0011 i.e. O1=1, G1=1. Therefore channel 1 is adjusted.
314 314  
315 -(K1)->BFM#21. BFM#21 must be set to permit with (b1, b0)=(0,1)
335 +Adjustment ends.
316 316  
317 -(K0)->BFM#22 (offset/gain adjusts). Reset adjust bits
337 +(K2)-> BFM#21. BFM#21 gain/offset adjust prohibit
318 318  
319 -(K0)-> BFM#23 (offset)
339 +**High-speed conversion by changing A/D conversion time in a program**
320 320  
321 -(K2500)-> BFM#24 (gain)
341 +[[image:/bin/get/Expansions/1%20Module/Analog/LX3V-4AD/?sheet=CKEditor.ResourceDispatcher&outputSyntax=plain&language=en&type=attach&reference=6.3-%E5%9B%BE%E7%89%871.png&typed=||style="float:left"]]**[[image:6.3-图片1.png]]**
342 +)))
322 322  
323 -(H0003)->BFM#22(offset/gain adjusts). 3=0011 i.e. O1=1, G1=1. Therefore channel 1 is adjusted.
344 +Writing K10 to BFM#15 and set conversion time of all channels as 3ms.
324 324  
325 -Adjustment ends.
346 +Writing 1 to BFM#1 and set Channel 1 sample count to 1 to Channel 1 high-speed conversion.
326 326  
327 -(K2)-> BFM#21. BFM#21 gain/offset adjust prohibit
328 -)))
348 += =
329 329  
330 330  = **7 Diagnostics** =
331 331  
... ... @@ -339,7 +339,7 @@
339 339  
340 340  **Error checking**
341 341  
342 -* If the LX3V-4AD special function block does not seem to operate normally, check the following items.
362 +If the LX3V-4AD special function block does not seem to operate normally, check the following items.
343 343  
344 344  Check the status of the POWER LED.
345 345  
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