它一樣，它就是三個平時都會依市電為基準，去做同步。12108:59.5

Like it, it is usually three mains will depend basis, do synchronization. <br><br>121 <br>08: 59.540 -> 09: 05.592 <br>signal lines that have synchronization, synchronization words it will lights, hanging an automatic device. <br><br>122 <br>09: 06.926 -> 09: 09.506 <br>to say UPS1 is based. <br><br>123 <br>09: 10.054 -> 09: 12.447 <br>that if UPS2 hang up automatically fill up. <br><br>124 <br>09: 12.825 -> 09: 16.474 <br>UPS2 hang up and then automatically put on AVR. <br><br>125 <br>09: 17.823 -> 09: 22.060 <br>Basically this is a concept, part of the network that it has only two UPS. <br><br>126 <br>09: 22.348 -> 09: 25.674 <br>I said before I have seen, is that it is three. <br><br>127 <br>09: 28.486 -> 09: 33.374 <br>then again we are talking about, and the third is more common online version. <br><br>128 <br>09: 35.612 -> 09: 37.656 <br>it is the integration of a single type. <br><br>129 <br>09: 38.427 -> 09: 42.529 <br>single risk that the power supply also improved remote backup a single output. <br><br>130 <br>09: 43.167 -> 09: 44.880<br>Through risk total static switch. <br><br>131 <br>09: 45.455 -> 09: 50.107 <br>that can be divided into online and Parallel Redundant Parallel with two kinds. <br><br>132 <br>09: 50.776 -> 09: 54.918 <br>that this difference is actually, the machine's capacity with the capacity of the battery <br><br>133 <br>09: 54.942 -> 10: 02.131 <br>that is online and is one hundred percent of each half or say, two sets of two kinds Type. <br><br>134 <br>10: 03.578 -> 10: 09.098 <br>That difference is to say, of course, it is cheaper to Parallel, usually to two. <br><br>135 <br>10: 09.713 -> 10: 16.003 <br>, if there is power failure, or there is another case of a fault, it may need to drop the carrier. <br><br>136 <br>10: 16.551 -> 10: 21.055 <br>or to change the power supply mode is not the same, some may want to jump off. <br><br>137 <br>10: 22.187 -> 10: 27.584 <br>that it has a similar emergency power supply, emergency power mode to be changed. <br><br>138 <br>10: 28.020 -> 10: 33.032 <br>Parallel Redundant substantially no problem, just a hang does not matter. <br><br>139 <br>10: 36.208 -> 10: 40.464<br>Then we can actually see it, is to directly parallel the two outputs. <br><br>140 <br>10: 41.332 -> 10: 44.689 <br>it because in fact, has the signal transmission line in parallel, so it. <br><br>141 <br>10: 45.553 -> 10: 49.215 <br>you always parallel to it, at any time without parallel are ok, whatever you cut. <br><br>142 <br>10: 53.147 -> 10: 57.301 <br>these two are not the same FIG., Is to be compared. <br><br>143 <br>10: 58.072 -> 10: 59.669 <br>everyone to see, this is Output. <br><br>144 <br>11: 00.227 -> 11: 05.750 <br>That just say that it has to go through the confirmation signal line. <br><br>145 <br>. 11: 06.321 ->. 11: 13.658 <br>the DC to the AC voltage of the same phase of the same, so this switch you basically, with the cutting head can. <br><br>146 <br>11: 14.167 -> 11: 19.559 <br>the usual now that your comments will be Parallel, put it no more close. <br><br>147 <br>11: 22.399 -> 11: 26.079 <br>on the market taking into account the stability of the product UPS backup power. <br><br>148 <br>11: 26.591 -> 11: 28.739 <br>Some projects will be designed AVR. <br><br>149<br>11: 29.278 -> 11: 36.513 <br>range, of course, that the regulator in the CNS or in ANSI Code are predetermined. <br><br>150 <br>11: 37.087 -> 11: 40.236 <br>but some are written in more exaggerated wrote 20%. <br><br>151 <br>11: 41.057 -> 11: 46.643 <br>but in fact now room for electrical instability is not easy. <br><br>152 <br>11: 49.334 -> 11: 52.447 <br>using an automatic voltage regulator adjustment. <br><br>153 <br>11: 53.867 -> 11: 57.880 <br>to see the problem is often not transferred on the first voltage regulator failed. <br><br>154 <br>11: 57.905 -> 12: 04.721 <br>because it will turn to chase the voltage, it is somewhat similar to our OLTC. <br><br>155 <br>12: 05.436 -> 12: 12.850 <br>OLTC is not useful, it would in fact be stressed too sensitive up and down, quickly hung up. <br><br>156 <br>12: 13.998 -> 12: 22.396 <br>regulators also have seen this fault, that is the last time that Thailand CUP. <br><br>157 <br>12: 24.444 -> 12: 29.202 <br>Thai CUP-3's, Dodo has been a bad move, has been looking for Guter to repair. <br><br>158 <br>12: 31.658 -> 12: 37.959<br>Of course, the design also has a bypass regulator, means that you can use to be cut to the bypass regulator. <br><br>159 <br>12: 39.039 -> 12: 40.451 <br>bypass is a direct electrical room. <br><br>160 <br>12: 41.343 -> 12: 47.487 <br>that once the boot process uninterruptible power supply regulator entire UPS to mix themselves down. <br><br>161 <br>12: 47.999 -> 12: 55.675 <br>saying inseparable from the general boot AVR are switched on UPS1, UPS2 talk to the mains. <br><br>162 <br>12: 55.935 -> 13: 00.543 <br>synchronized way of doing parallel form or standby Parallel. <br><br>163 <br>13 is: 02.386 -> 13 is: 05.600 <br>the UPS is basically three. <br><br>164 <br>13: 05.972 -> 13: 09.997 <br>3 like state, we talk about these three like state, no problem. <br><br>165 <br>13: 13.855 -> 13: 17.956 <br>that if we are not speaking Charger. <br><br>166 <br>13: 21.116 -> 13: 24.266 <br>large voltage level higher Charger. <br><br>167 <br>13: 24.961 -> 13: 28.959 <br>was just talking about that modularity of our last look. <br><br>168<br>13: 29.454 -> 13: 36.218 <br>modular, um, see things on the web as if manufacturers are not many. <br><br>169 <br>13: 36.723 -> 13: 39.011 <br>but this thing is very Charger & P level. <br><br>170 <br>13: 41.964 -> 13: 47.095 <br>This is something Taichung, which is a stand-alone type. <br><br>171 <br>13: 47.903 -> 13: 54.556 <br>stand-alone type, we can look at this, if you have bought the Czech Republic hung things. <br><br>172 <br>13: 55.520 -> 14: 00.452 <br>is like this, basically, Czech Republic Hung is our important partner. <br><br>173 <br>14: 05.519 -> 14: 12.456 <br>So it's something, it's something that is actually made of Taiwan, it is probably basically copied what Guter's. <br><br>174 <br>14: 12.857 -> 14: 18.111 <br>Gutor things now been sold to Schneider, now called APC schneider. <br><br>175 <br>14: 20.148 -> 14: 26.242 <br>then see how it's something to say, come in can see the voltage and current from the power supply. <br><br>176 <br>14: 26.815 -> 14: 30.655 <br>and then there are some indicators, we have to do isolation transformer. <br><br>177 <br>14: 32.447 -> 14: 36.183<br>Then AC to DC, then that is Fust, Shunt. <br><br>178 <br>14: 36.677 -> 14: 41.687 <br>as voltage and current, is that Diode. <br><br>179 <br>14: 41.998 -> 14: 47.937 <br>that we Taichung design is that we have two step-down body. <br><br>180 <br>14: 48.631 -> 14: 54.946 <br>it is generally the plant is not in use, the power plant is the direct say I Charger is 125 volts. <br><br>181 <br>14: 54.975 -> 14: 57.023 <br>that is usually Voltage is 140. <br><br>182 <br>14: 57.279 -> 15: 00.351 <br>that we now say that the downstream equipment manufacturers. <br><br>183 <br>15: 00.863 -> 15: 06.622 <br>your device is with me meet 140-volt, 120-volt Do not call me, do not have that thing. <br><br>184 <br>15: 07.931 -> 15: 14.804 <br>MRT it might previously general counsel for generations, has been copied copy, copying now, no one dared to change. <br><br>185 <br>15: 15.243 -> 15: 18.271 <br>So he said, or plus, plus diodes better. <br><br>186 <br>15: 19.100 -> 15: 21.790 <br>plus diode, can be reduced to 7 volts. <br><br>187<br>15: 22.655 -> 15: 23.846 <br>almost like this voltage. <br><br>188 <br>15: 24.297 -> 15: 25.496 <br>that it can also bypass. <br><br>189 <br>15: 27.124 -> 15: 29.279 <br>Bypass is your voltage. <br><br>190 <br>15: 29.576 -> 15: 37.882 <br>This voltage is too low, or you can force, it is here that there is a bypass function. <br><br>191 <br>15: 38.483 -> 15: 43.373 <br>say that the voltage is too low when it ADFL Do not let the battery discharge too much. <br><br>192 <br>15: 44.014 -> 15: 51.835 <br>put battery, over discharge the battery charge will probably be recharged up. <br><br>193 <br>15: 52.051 -> 15: 54.363 <br>will hang many pieces. <br><br>194 <br>15: 54.985 -> 15: 56.927 <br>This Charger is probably like this. <br><br>195 <br>15: 58.719 -> 16: 10.480 <br>That and online, is essentially the same, Taichung and a battery only online only, other designs are the same. <br><br>196 <br>16: 13.247 -> 16: 16.453 <br>That Charger with UPS, basically we are talking about today's class. <br><br>197<br>16: 17.407 -> 16: 19.867 <br>we are more focused on. <br><br>198 <br>16: 20.609 -> 16: 24.094 <br>is the company to extend our Data Sheet to do it. <br><br>199 <br>16: 24.119 -> 16: 27.217 <br>we do not speak, how to sizing battery. <br><br>200 <br>16: 27.877 -> 16: 29.878 <br>because this thing for sizing battery.

It is the same, it is three usually according to the power as the benchmark, to do synchronization.<br><br>121<br>08:59.540 --09:05.592<br>It will have a synchronized signal line, and if it syncs it will light up and hang an automatic.<br><br>122<br>09:06.926 --09:09.506<br>Equal to saying that UPS1 is the main.<br><br>123<br>09:10.054 --09:12.447<br>Then if you hang up the UPS2 automatically to make up.<br><br>124<br>09:12.825 --09:16.474<br>The UPS2 hangs up and automatically replenishes the AVR.<br><br>125<br>09:17.823 --09:22.060<br>Basically this concept, the part of the network it has only two UPSs.<br><br>126<br>09:22.348 --09:25.674<br>Then I said I'd seen it before, it's three.<br><br>127<br>09:28.486 --09:33.374<br>Let's go again, the third more common is the online type.<br><br>128<br>09:35.612 --09:37.656<br>It's a blend of single-model.<br><br>129<br>09:38.427 --09:42.529<br>The risk of a single power supply also improves the single output of offsite backup.<br><br>130<br>09:43.167 --09:44.880<br>Risk through the static total switch.<br><br>131<br>09:45.455 --09:50.107<br>That's online and can be divided into Parallel and Parallel Double.<br><br>132<br>09:50.776 --09:54.918<br>The difference is that the capacity of the machine is the capacity of the battery.<br><br>133<br>09:54.942 --10:02.131<br>That is to say, and online is half or say 100 percent, two sets of two types.<br><br>134<br>10:03.578 --10:09.098<br>That's the difference, of course, with Parallel it's cheaper, usually two.<br><br>135<br>10:09.713 --10:16.003<br>If there is a power outage, or if there is another failure, it may need to be loaded.<br><br>136<br>10:16.551 --10:21.055<br>Or to change the different power supply mode, some may have to jump out.<br><br>137<br>10:22.187 --10:27.584<br>It has a similar emergency power supply that can be changed to emergency power mode.<br><br>138<br>10:28.020 --10:33.032<br>Parallel Parton basically doesn't have the problem, it doesn't matter if you hang one.<br><br>139<br>10:36.208 --10:40.464<br>Then we can see that it is actually, that is, the two outputs are directly in parallel.<br><br>140<br>10:41.332 --10:44.689<br>It's because, in fact, there's already a parallel through the signal line, so it's.<br><br>141<br>10:45.553 --10:49.215<br>You always give it in parallel, at any time not in parallel all ok, whatever you cut.<br><br>142<br>10:53.147 --10:57.301<br>These two are not the same chart, or make a comparison.<br><br>143<br>10:58.072 --10:59.669<br>Look, this is Output.<br><br>144<br>11:00.227 --11:05.750<br>That's just said, it's already been confirmed through the signal line.<br><br>145<br>11:06.321 --11:13.658<br>DC to AC is the same phase voltage, so basically you have this switch, head and everything can be.<br><br>146<br>11:14.167 --11:19.559<br>Usually will think you are now Parallel, just put it no more close.<br><br>147<br>11:22.399 --11:26.079<br>UPS products on the market take into account the stability of the backup power supply.<br><br>148<br>11:26.591 --11:28.739<br>There are projects that design AVR.<br><br>149<br>11:29.278 --11:36.513<br>The range of regulators is of course specified in both CNS and ANSI Code.<br><br>150<br>11:37.087 --11:40.236<br>But some are more exaggerated and write 20%.<br><br>151<br>11:41.057 --11:46.643<br>But in fact, now the room electricity to be unstable really is not easy.<br><br>152<br>11:49.334 --11:52.447<br>Use the automatic regulator to adjust the voltage.<br><br>153<br>11:53.867 --11:57.880<br>The problem is that often you fail without a voltage regulator.<br><br>154<br>11:57.905 --12:04.721<br>Because it will become to chase that voltage, it is a bit like our OLTC.<br><br>155<br>12:05.436 --12:12.850<br>OLTC is not yet used, it is actually too sensitive to the up and down, soon hung up.<br><br>156<br>12:13.998 --12:22.396<br>The regulator this fault has also been seen, is the last time that Thailand CUP.<br><br>157<br>12:24.44 --12:29.202<br>Thailand CUP-3, the movement has been bad, has been looking for Guterres to repair.<br><br>158<br>12:31.658 --12:37.959<br>Of course, the regulator also has a design bypass, that is, you can use the regulator can also cut to the bypass.<br><br>159<br>12:39.039 --12:40.451<br>The bypass is directly to the room.<br><br>160<br>12:41.343 --12:47.487<br>The continuous power system shuts down itself once it is paired with the regulator throughout the UPS boot process.<br><br>161<br>12:47.999 --12:55.675<br>With it can not be separated from the relationship, the general boot is AVR first boot UPS1, UPS2 and then with the power.<br><br>162<br>12:55.935 --13:00.543<br>Synchronized way to do parallel, forming a standby or Parallel.<br><br>163<br>13:02.386 --13:05.600<br>UPS is basically these three.<br><br>164<br>13:05.972 --13:09.997<br>3 patterns, let's talk about these 3 patterns first, no problem.<br><br>165<br>13:13.855 --13:17.956<br>Then if not we're going to talk about Charger.<br><br>166<br>13:21.116 --13:24.266<br>Large voltage class is relatively high for The Charger.<br><br>167<br>13:24.961 --13:28.959<br>That's the modular one we just talked about, let's look at it for the last time.<br><br>168<br>13:29.454 --13:36.218<br>Modular that, the network to see things like manufacturers do not have a lot.<br><br>169<br>13:36.723 --13:39.011<br>But The Chargers are very popular.<br><br>170<br>13:41.964 --13:47.095<br>It's something in the table, it's a one-model type.<br><br>171<br>13:47.903 --13:54.556<br>Single model type we can see this, if there is a buy of The Ijhung things.<br><br>172<br>13:55.520 --14:00.452<br>That's what it's like, basically, Jiehong is an important partner for us.<br><br>173<br>14:05.519 --14:12.456<br>So it's something, its stuff is actually on the taiwan system, and it's basically also copying Guterres stuff.<br><br>174<br>14:12.857 --14:18.111<br>Gutor's stuff has now been sold to Schneider, now called APC Schneider.<br><br>175<br>14:20.148 --14:26.242<br>That's how it looks, that means coming in from the power supply can look at the voltage, the current.<br><br>176<br>14:26.815 --14:30.655<br>Then there are some indicators that we have to do with the isolation transformer.<br><br>177<br>14:32.447 --14:36.183<br>Then AC to DC, then Fust, Shunt.<br><br>178<br>14:36.677 --14:41.687<br>The same voltage current, that's the Diode.<br><br>179<br>14:41.998 --14:47.937<br>Then the design of our taichung is that we have a buck secondary body.<br><br>180<br>14:48.631 --14:54.946<br>That's generally the power plant is not in use, the power plant is directly said i Charger is 125 volts.<br><br>181<br>14:54.975 --14:57.023<br>That's usually Voltage is 140.<br><br>182<br>14:57.279 --15:00.351<br>Well, we're talking to the equipment manufacturer downstream.<br><br>183<br>15:00.863 --15:06.622<br>Your device is with my meet 140 volts, don't call me 120 volts, there is no such thing.<br><br>184<br>15:07.931 --15:14.804<br>MRT it may have been before the general counsel's generation, has been copied, copied to the present, no one dare to change.<br><br>185<br>15:15.243 --15:18.271<br>So he said add, add the diode.<br><br>186<br>15:19.100 --15:21.790<br>Add a diode to reduce 7 volts.<br><br>187<br>15:22.655 --15:23.846<br>It seems to be about this voltage.<br><br>188<br>15:24.297 --15:25.496<br>Then it can also be bypass.<br><br>189<br>15:27.124 --15:29.279<br>Bypass is your voltage.<br><br>190<br>15:29.576 --15:37.882<br>This voltage is too low or you can force, so there's a bypass function.<br><br>191<br>15:38.483 --15:43.373<br>Say it's too low to untie it and don't let the battery go too high.<br><br>192<br>15:44.014 --15:51.835<br>Put on the battery, over-discharge that battery probably can not be filled up.<br><br>193<br>15:52.051 --15:54.363<br>will hang a lot of one.<br><br>194<br>15:54.985 --15:56.927<br>This Charger is probably like this.<br><br>195<br>15:58.719 --16:10.480<br>That's online, basically the same, the table and online only one battery, the other designs are the same.<br><br>196<br>16:13.247 --16:16.453<br>That Charger and UPS, basically the course we're talking about today.<br><br>197<br>16:17.407 --16:19.867<br>We are more focused.<br><br>198<br>16:20.609 --16:24.094<br>It's just the company that's extending our Data Sheet.<br><br>199<br>16:24.119 --16:27.217<br>We don't talk about how to get the battery.<br><br>200<br>16:27.877 --16:29.878<br>Because of this thing on the sing battery.

It is the same, it is the three usually based on the city electricity, to do synchronization.<br>One hundred and twenty-one<br>08:59.540 --> 09:05.592<br>It will have a synchronous signal line. If it is synchronized, it will light up and hang an automatic device.<br>one hundred and twenty-two<br>09:06.926 --> 09:09.506<br>So UPS1 is the main.<br>one hundred and twenty-three<br>09:10.054 --> 09:12.447<br>Then if you hang up the UPS2, it will automatically make up.<br>One hundred and twenty-four<br>09:12.825 --> 09:16.474<br>When UPS2 is hung up, AVR will be automatically added.<br>One hundred and twenty-five<br>09:17.823 --> 09:22.060<br>Basically, it's a concept. There are only two UPS in that part of the network.<br>One hundred and twenty-six<br>09:22.348 --> 09:25.674<br>Then I said I had seen it before. It's three.<br>one hundred and twenty-seven<br>09:28.486 --> 09:33.374<br>Then let's talk about the third common type is the parallel type.<br>One hundred and twenty-eight<br>09:35.612 --> 09:37.656<br>It's a combination of stand-alone models.<br>One hundred and twenty-nine<br>09:38.427 --> 09:42.529<br>The risk of single power supply also improves the remote backup of single output.<br>One hundred and thirty<br>09:43.167 --> 09:44.880<br>Risk through static main switch.<br>One hundred and thirty-one<br>09:45.455 --> 09:50.107<br>Parallel online can be divided into parallel and parallel redundant.<br>one hundred and thirty-two<br>09:50.776 --> 09:54.918<br>So the difference is, the capacity of the machine and the capacity of the battery<br>One hundred and thirty-three<br>09:54.942 --> 10:02.131<br>That is to say, whether the parallel connection is half or 100%, two sets of two types.<br>One hundred and thirty-four<br>10:03.578 --> 10:09.098<br>The difference is that, of course, it's cheaper to use parallel, which usually requires two.<br>One hundred and thirty-five<br>10:09.713 --> 10:16.003<br>If there is a power failure, or there is another failure, it may need to be unloaded.<br>One hundred and thirty-six<br>10:16.551 --> 10:21.055<br>Or to change the different power supply mode, there may be some tripping.<br>One hundred and thirty-seven<br>10:22.187 --> 10:27.584<br>It has a similar emergency power supply, which can be changed to emergency power supply mode.<br>One hundred and thirty-eight<br>10:28.020 --> 10:33.032<br>Parallel redundant basically doesn't have this problem. It doesn't matter if you hang up one.<br>One hundred and thirty-nine<br>10:36.208 --> 10:40.464<br>So we can see that in fact, the two outputs are directly connected in parallel.<br>One hundred and forty<br>10:41.332 --> 10:44.689<br>In fact, it has been connected in parallel through the signal line, so it.<br>One hundred and forty-one<br>10:45.553 --> 10:49.215<br>You can connect it in parallel at any time. It's ok if you don't connect it in parallel at any time. You can cut it at will.<br>One hundred and forty-two<br>10:53.147 --> 10:57.301<br>Compare the two different pictures.<br>One hundred and forty-three<br>10:58.072 --> 10:59.669<br>Look, this is output.<br>One hundred and forty-four<br>11:00.227 --> 11:05.750<br>That just said, it has been confirmed through the signal line.<br>One hundred and forty-five<br>11:06.321 --> 11:13.658<br>DC to AC is the same phase and the same voltage, so basically you can switch between the head and the cut.<br>One hundred and forty-six<br>11:14.167 --> 11:19.559<br>Generally, I would say that you are a parallel, so I would like to close it no more.<br>One hundred and forty-seven<br>11:22.399 --> 11:26.079<br>The UPS products on the market consider the stability of the standby power supply.<br>One hundred and forty-eight<br>11:26.591 --> 11:28.739<br>Some projects will design AVR.<br>one hundred and forty-nine<br>11:29.278 --> 11:36.513<br>Of course, the scope of the voltage regulator is specified in CNS or ANSI code.<br>One hundred and fifty<br>11:37.087 --> 11:40.236<br>But some of them are exaggerating to 20%.<br>One hundred and fifty-one<br>11:41.057 --> 11:46.643<br>But in fact, it's not easy for the room power to be unstable.<br>one hundred and fifty-two<br>11:49.334 --> 11:52.447<br>Adjust the voltage with an automatic voltage regulator.<br>One hundred and fifty-three<br>11:53.867 --> 11:57.880<br>See the problem is often not adjusted to the voltage regulator on the first failure.<br>One hundred and fifty-four<br>11:57.905 --> 12:04.721<br>Because it's going to go after that voltage, it's kind of like our OLTC.<br>One hundred and fifty-five<br>12:05.436 --> 12:12.850<br>OLTC just doesn't work. In fact, it's so sensitive that it can go up and down, and then it's gone.<br>One hundred and fifty-six<br>12:13.998 --> 12:22.396<br>I've seen the failure of the voltage regulator. It's the last cup in Thailand.<br>One hundred and fifty-seven<br>12:24.444 --> 12:29.202<br>For cup-3 in Thailand, it's broken all the time. I've been looking for guter to repair it.<br>One hundred and fifty-eight<br>12:31.658 --> 12:37.959<br>Of course, the regulator also has bypass design, which means you can use the voltage regulator or switch to the bypass.<br>One hundred and fifty-nine<br>12:39.039 --> 12:40.451<br>Bypass is room power.<br>One hundred and sixty<br>12:41.343 --> 12:47.487<br>Once the UPS system is equipped with voltage regulator, it will shut down itself.<br>One hundred and sixty-one<br>12:47.999 --> 12:55.675<br>It has nothing to do with it. In general, AVR starts UPS1 first, and then UPS2 with the mains power.<br>One hundred and sixty-two<br>12:55.935 --> 13:00.543<br>Parallel connection is made in the synchronous way to form standby or parallel.<br>One hundred and sixty-three<br>13:02.386 --> 13:05.600<br>UPS is basically these three.<br>One hundred and sixty-four<br>13:05.972 --> 13:09.997<br>Three samples. Let's talk about these three samples first. No problem.<br>One hundred and sixty-five<br>13:13.855 --> 13:17.956<br>Then if we don't, we'll talk about charger.<br>One hundred and sixty-six<br>13:21.116 --> 13:24.266<br>Large scale charger with high voltage level.<br>One hundred and sixty-seven<br>13:24.961 --> 13:28.959<br>Let's take a look at the modular one just mentioned.<br>One hundred and sixty-eight<br>13:29.454 --> 13:36.218<br>Modularization. It seems that there are not many manufacturers on the Internet.<br>One hundred and sixty-nine<br>13:36.723 --> 13:39.011<br>But charger is a universal thing.<br>One hundred and seventy<br>13:41.964 --> 13:47.095<br>This is something in Taichung. It's stand-alone.<br>One hundred and seventy-one<br>13:47.903 --> 13:54.556<br>We can take a look at this single machine model, if we have bought anything from Jiehong.<br>One hundred and seventy-two<br>13:55.520 --> 14:00.452<br>It's just like this. Basically, Jiehong is our important partner.<br>One hundred and seventy-three<br>14:05.519 --> 14:12.456<br>So its stuff, its stuff is actually made in Taiwan. It's basically copied from guter.<br>One hundred and seventy-four<br>14:12.857 --> 14:18.111<br>Tutor's products have now been sold to Schneider, now called APC Schneider.<br>One hundred and seventy-five<br>14:20.148 --> 14:26.242<br>What do you think of it? It comes from the power supply<br>