发 帖  
原厂入驻New
[问答] 面包板版本8针原型板与PIC10F200如何编程程序节布线?
259 PIC10F 连接器
分享
到目前为止,这是一个左边的电压调节器,6针编程连接器是右下角。我们如何编程程序节布线?

以上来自于百度翻译


      以下为原文

    Progress so far.

That's a voltage regulator on left.

6 pin programming connector is bottom right.

How do we make programing section wiring?
   Attached Image(s)

0
2019-5-7 12:36:46   评论 分享淘帖 邀请回答
12个回答
MCLR>MCLRPGD & GT;ICSPDATA PGC-GT;ICSPCKPKGM & GT;NthHug VCC—& VCCNGD & GND0.1UF单片陶瓷或陶瓷盘电容器连接VCC YO接地的PIC

以上来自于百度翻译


      以下为原文

    MCLR -> MCLR
PGD  ->  ICSPDATA                                   
PGC  ->  ICSPCLK
PGM -> Nothing
Vcc   -> Vcc
GND -> GND
 
0.1uF monolithic Ceramic or Ceramic Disk capacitor connected Vcc yo Ground close to the PIC
2019-5-7 13:48:42 评论

举报

你的上一篇文章似乎没有意义。正如其他人已经注意到的,你完全忽略了所有的建议,不要浪费时间在古代工具上,所以提供任何建议是毫无意义的。再见。

以上来自于百度翻译


      以下为原文

    Your last post seems empty of meaning.
As others have already noted, you're completely ignoring all the advice to stop wasting your time on ancient tools, so it's pointless offering any advice. Bye.
 
2019-5-7 13:57:21 评论

举报

KurzmanHow,你明白了吗?非常感谢。把它藏在记事本文件里。准备好再做一些工作时,就会打印出来。

以上来自于百度翻译


      以下为原文

    Kurzman
 
How did you figure that out?
 
Many thanks.
 
Stashing that away in Notepad file.
 
Will print it out when ready to work on this some more.
2019-5-7 14:13:56 评论

举报

PGD & Gt;ICSPDATA/D是DATAPGC--GT;ICSPLK//C是时钟。它应该在数据表中的某个地方。

以上来自于百度翻译


      以下为原文

    PGD  ->  ICSPDATA   // D is for Data
PGC  ->  ICSPCLK     // C is for clock.
It should be in the data sheet somewhere.
2019-5-7 14:22:20 评论

举报

KurzmanWill明天早上在这一段上安装跳线,在PIC10F200上交换PIC12F63。

以上来自于百度翻译


      以下为原文

    Kurzman
 
Will put jumper wires on this section tomorrow morning.
 
Swap in PIC10F200 for PIC12F683 that was on there temporarily.
2019-5-7 14:40:14 评论

举报

KurZman编程电路除了电容器外都跳过。关于电源电路,我在PIC10F200上看到VDD和VSS引脚。跳线从电压调节器输出到VDD,电源轨负到VSS。HTTP://www. Ti.COM/LIT/DS/Simulk/LM29 40C.PDF

以上来自于百度翻译


      以下为原文

    Kurzman
 
Have programming circuit all jumpered except for capacitor.
 
About the power circuit, I see VDD and VSS pins on PIC10F200.
 
Jumper from voltage regulator output to VDD and power rail negative to VSS?
 
http://www.ti.com/lit/ds/symlink/lm2940c.pdf
2019-5-7 14:48:38 评论

举报

是的,不要忽略调节器电容器。

以上来自于百度翻译


      以下为原文

    Yes, and do not omit the regulator capacitors.
2019-5-7 14:54:08 评论

举报

你觉得这个怎么样?http://www. SPARKFAY.COM/Studio/7He使用相同的程序员。OLIMEX PG1和PG2。什么是脱钩帽?我知道电容器是电容器。

以上来自于百度翻译


      以下为原文

    Kurzman
 
What do you think of this?
 
https://www.sparkfun.com/tutorials/75
 
He's using same programmers we are. Olimex PG1 and PG2.
 
What's a decoupling cap?
 
I know cap is for capacitor.
2019-5-7 15:02:44 评论

举报

他已经标记为去耦电容的电容器不是。去耦电容器通常是一个0.1UP陶瓷帽,从VCC连接到地尽可能接近IC。数字电路快速切换。这意味着需要一股电流来实现这一目标。这会在芯片上造成很短的电压降。这可能导致VCC低于所需的最小值。这可能导致芯片故障。去耦帽提供了电源的水库。一些设计师也会添加01和1的陶瓷。网站上的一个将是主要的输入过滤器。如果你查看你的数据表,它会列出并输入一个上限和一个输出。没有这些盖,调节器可能不稳定,输出将变化或振荡。你知道你可以谷歌“去耦电容”这是一个常见的术语。

以上来自于百度翻译


      以下为原文

    The capacitor that he has marked as decoupling capacitor is not.

A decoupling capacitor is Usually a 0.1up ceramic cap connected from Vcc to ground as close to the IC as possible. Digital Circuits switch quickly. That means it will need a burst of current to do that. That can cause a very short voltage drop at the chip. This can cause Vcc to fall below the required minimum. The could cause the chip to malfunction. The decoupling cap provides that reservoir of power. Some designers will add a .01 and a 1.0 ceramic too.

The one on the web site would be the main input filter.
If you look at the data sheet for you regulator it will list and input cap and an output one. Without these caps the regulator may not be stable and the output will vary or oscillate.

You know you could google "decoupling Capacitor" it is a common term.
2019-5-7 15:09:37 评论

举报

这是一个非常古老的(01/01/01)教程,在很多方面都是错误的。他们不再使用的程序员:HTTPS://www. SPARKFUN.COM/Studis/LayRe/8i仍然不知道你要完成什么,以及为什么你继续从微控制器文物中挖掘文物。我已经尽力帮助了。只是看着娱乐,爆米花和啤酒。大声笑:

以上来自于百度翻译


      以下为原文

    That is a very old (01/01/01) tutorial, and is wrong in many ways. The programmer they use is no longer being made:
https://www.sparkfun.com/products/retired/8
 
I still don't know what you are trying to accomplish, and why you continue to dredge up relics from microcontroller antiquity. I'm done trying to help. Just watching for amusement, with popcorn and beer. LoL:
2019-5-7 15:25:18 评论

举报

“我知道电容器是电容器的。”它是给美国队长的。“想象加创新等于实现”。

以上来自于百度翻译


      以下为原文

    "I know cap is for capacitor."
It's for Captain America.
 
"imagination plus innovation equals realization"
 
 
2019-5-7 15:37:33 评论

举报

“船长明显”!

以上来自于百度翻译


      以下为原文

    "Captain Obvious"!
2019-5-7 15:51:34 评论

举报

只有小组成员才能发言,加入小组>>

54个成员聚集在这个小组

加入小组

创建小组步骤

关闭

站长推荐 上一条 /10 下一条

快速回复 返回顶部 返回列表