那么接下来就是写蜜的本质和写类型了。
So next is writing the essence of honey and writing types.

现在我们有不同的体型。
Now we have different body types.

首先，我们在血液中下沉。
First we have sinking in blood.

现在，在这张纸条上思考时发生的事情就在这里，我们有这与我们将世界连接到我的性别到我的公共电源和进入我的收件箱的 24 伏电压相同的方式。
Now what happened in thinking in board this note is here we have this is the same way we have connected the world to my sex to my common and 24 volts coming to my inbox.

这是人们的思考投入，而我的思考意味着你正在避免大胆地走向共同的主导地位。
This is guys thinking inputs and me thinking that means you are avoiding you bold to a common dominant.

好的。
OK.

另一种类型是采购输入。
The other type is sourcing input.

现在内包输入，但你已经完成了。
Now in-sourcing input but you have done this OK.

这是这个，是一样的。
This is this is the same.

如果开关打开则输入未打开，开关关闭则输入打开，这与输入是相同的思维输入。
This is the same thinking input if the switches open the input is not on switches close the input is on.

另一种类型是采购输入内源输入。
OK another type is sourcing input in-sourcing input.

看看我们的接线有什么变化。
See we have a change in the wiring.

我们已经将 24 个 void 连接到我的公共终端，而不是零投票。
We have connected 24 void's to my common terminal instead of zero for zero votes.

但我认为我们已经做好了战争的准备。
But I think we are ready for war.

这称为来源输入。
This is called sourcing input.

现在我们必须将零声音连接到我的输入来为其供电。
Now we have to connect zero voice to my inputs to energize it.

所以搜索是开放的。
So the search is open.

这不是在封闭系统上。
This is not on a closed system.

现在为什么我们有两种类型的谎言。
Now why we have two types of lying.

是什么原因。
What is the reason.

所以原因是有时我们让您了解不同类型的传感器。
So the reason is sometimes we have you know different types of sensors.

因此，如果您使用这种类型的照明，我们可以使用 PNB 传感器 BNP 传感器通常可为您的 PC 提供 24 个空隙。
So if you are using this type of lighting we can use PNB sensors BNP sensors provide you generally 24 voids in your PC.

因此，如果您在操作过程中使用 PNB 传感器，则必须深入了解。
So if you are using PNB sensors in your in your operation in your process you must do sinking in.

你必须运用思考来进行良好的布线。
You must use thinking in good wiring.

如果您使用的是 NBN N.P，则可以。
OK if you're using NBN N.P.

传感器和金融家会给你零伏。
and sensors and financier's will give you zero volts.

好吧，在这种情况下，您必须进行源输入类型的输入，并且必须确保您的输入是否为 NBN，如果您的输入传感器是 PNB，则可以在评论中获得 24 伏电压，并且您常见的连接零电压是什么。
OK in that case you have to do sourcing input types of and you have to make sure if your inputs are NBN you can get 24 volts to your comment if your input sensors are PNB and what's connect zero voltage you are common.

这就是我们有两种谎言的唯一原因。
That's the only reason why we have two types of lying.

好的，如果您已经幸存下来，并且公共端已经为零，那么您必须订购 PNB 传感器。
OK so if you are already survived the sinking input if it is already having zero to the common you must order the PNB sensors.

如果您打算为您的电脑购买传感器，因为没有传感器，那么接下来的所有输入中只有一个共同点。
If you're going to buy the sensors for your pc because there are no there are just one common in all the inputs that are second coming.

在购买传感器之前，您必须先确定您的接线方式。
You have to make sure what you are doing with the wiring before before purchasing the sensor.

确保您知道 PC 中已完成的接线类型。
Make sure you know what is the type of wiring already done in your PC.

好的，继续吧。
OK so moving ahead.

输出接线类型。
Output wiring types.

同样，对于这个高达 2 安培的交流负载，我们有良好的接线时间。
Similarly we have good wiring time for this AC load which is up two ampere.

因此，在两个 Imperio 动力学地进入输出之后，就像我昨晚向您展示的那样，这是一条线，这是直接连接到指示器的输出。
So after two Imperio kinetically going to the output just like I've shown you in the last night this is a line going here and this is the output directly connected to the indicator.

如果有负载，电流小于 2 安培。
If it's load it's less than 2 ampere.

现在这意味着什么。
Now what does it mean.

现在加载以比较平均值。
Now load up to compare means.

如果您的输出消耗电流，例如，您知道在没有任何负载的情况下运行的电机会消耗 400 教母的电流，有时会消耗 0.6 英里/小时或 0.4 英里/小时，那么电机就带负载了。
If your output draws a current to embarras ok for example a motor running you know without any load draws 400 godmother's draws 0.6 mph or 0.4 trampers sometimes OK then motor is on load.

在明火和配对下可能需要 1 英里/小时，因此如果其值在此范围内，您可以以异乎寻常的方式连接到您的电脑。
It may take 1 mph on an open fire and pair so if its value is within this range you can get exotically to your PC.

好吧，如果你的价值受到太大损害，你会做什么。
OK if your value is beyond too impaired what you will do.

还得再带一台电脑吗？
Do you have to take another PC.

不，还有其他选择。
No there are alternatives.

您可以连接另一个继电器。
You can connect another relay.

好的，现在这是一个简单的提供继电器线圈的线圈。
OK now this is a simple offer coil a coil of a relay.

所以让我用一个别针。
So let me use a pin.

那么如果这个输出继续下去会发生什么。
So what happens if this output goes on.

这将为该继电器通电，因此该继电器为真。
This will energize this relay so this relay will be true.

因为这里确实有联系。
Because this is really connected here.

线路是从这里过来的。
Line is coming from here.

因此，我们假设这个继电器已接通，并且我刚刚通电 220 伏。
So let's suppose this relays and I just energized by 220 volts.

好的，这个继电器将打开，这将打开这里的这个位。
OK so this relay will be on which will turn on this bit here.

这是继电器触点。
This is the relay contact.

好吧，如果你知道它是如何运作的。
OK so if you know how it really works.

它有一个线圈，如果接触的线圈为真，则它有一个触点。
It has a coil and it has a contact if coils on contact will be true.

该接触点将通过这条线从这里传播，它将为刚刚进入的低迷注入能量。
This contact is through this line will travel from here and it will energize the slump just going into the.

该实验通常是负载的示例。
This lab is generally an example of a load.

房东不超过两个尴尬，但如果他有一盏灯或任何其他设备，其轴承超过两个尴尬，你可以像这样连接。
The landlord is not more than two embarras but in case if he had a lamp or any other device whose bearings more than two embarras you can connect like this.

好的，这就是交流负载的例子，下面是令人尴尬的问题，上面是令人尴尬的问题。
OK so this is the example of AC load the doubt or below to embarrass and above to embarrass.

因此，继续前进，我们有类似的 DC 负载，最多有两个成员，正如您可以得到的那样。
So moving ahead we have similarly DC loads up to two members same as you can get that.

但如果你没有在这种情况下，你必须训练 24 伏并查看它而不是火线和中性线。
But in case you have not in this case you have to train 24 volts and see that instead of line and neutral.

因此，如果您的直流负载超过两对，这与继电器的使用方式相同。
So if you have a DC load more than two pairs this is the same way you have a relay.

您可以仅使用 4 和 0 连接继电器。
You can connect the relay using only 4 and 0.

同样，您可以连接输出。
Similarly you can connect the output.

所以这要简单得多。
So this is much simpler.

但你必须知道，如果你的操作低于你的低等级，你一定不能连接到它，因为你会损坏你的输入。
But you must know that if your operating is less than your low rating you must not connected to it because you will damage your input.

好的，让我们在下一张幻灯片中看到基本原理图的概念到后面的逻辑，以便它们在下一个视频中继续。
OK so let's next in the next slide will see notion of basic schematics into later logics so they continue in the next video.