Source: How to load balance Microsoft Windows FTP Server with HAProxy

ShareFollow

Source: networking – How to configure haproxy port range to range one by one? – Stack Overflow

Source: 1/50/100pcs A2 304 Stainless Steel Hex Hexagon Nut for M1 M1.2 M1.4 M1.6 M2 M2.5 M3 M4 M5 M6 M8 M10 M12 M16 M20 M24 Screw Bolt|Nuts| – AliExpress

Од трите типа DS3231 зедов по едно.

Source: DS3231 AT24C32 IIC Module DS1302 RTC I2C Precision Clock Module DS1307 Memory module mini module Real Time For Raspberry Pi|Integrated Circuits| – AliExpress

Source: IoT Utility – Visual Studio Marketplace

Philo Taylor Farnsworth (August 19, 1906 – March 11, 1971) was an American inventor and television pioneer.He made many crucial contributions to the early development of all-electronic television. He is best known for his 1927 invention of the first fully functional all-electronic image pickup device (video camera tube), the image dissector, as well as the first fully functional and complete all-electronic television system. Farnsworth developed a television system complete with receiver and camera—which he produced commercially through the Farnsworth Television and Radio Corporation from 1938 to 1951, in Fort Wayne, Indiana.^[7][8]

In later life, Farnsworth invented a small nuclear fusion device, the Farnsworth–Hirsch fusor, employing inertial electrostatic confinement (IEC). Like all fusion devices, it was not a practical device for generating nuclear power, although it provides a viable source of neutrons.^[9] The design of this device has been the inspiration for other fusion approaches, including the Polywell reactor concept. Farnsworth held 300 patents, mostly in radio and television.

Source: Philo Farnsworth – Wikipedia

Change the design rule, not your vias!. Just go into your Design Rule… settings and lower the via diameter and drill sizes by a fraction (for example, .6mm and .304mm) such that they are slightly smaller than whatever you already placed on your board. Your vias will then nicely exceed the minimum and all the errors will go away.

Source: Forum – EasyEDA – An Easier Electronic Circuit Design Experience – EasyEDA

The quick way:

1. Before you start your design, go to:

https://easyeda.com/order

2. Click on the question mark next to “Layers”;
3. Read the page that opens;
4. Select 4 or 6 layers;
5. Click on the question mark next to “Impedance”;
6. Read the page that opens;
7. Select “Yes”;
8. Click on “Impadance calculator”;
9. Choose your desired transmission line structure (single ended or differential covered microstrip, inner layer stripline, offset stripline);
10. use the calculator and note the trace dimensions.
11. Following the Design Flow in the Tutorial, start your design in the Schematic Editor of EasyEDA and then convert it to a PCB, then manually route your layout using the calculated trace dimensions.

The longer way for 4 and 6 layer PCBs only:

1. Before you start your design, read “Controlled Impedance PCB” in:

https://jlcpcb.com/capabilities/Capabilities;

2. Choose your PCB stack up:

https://jlcpcb.com/quote/pcbOrderFaq/PCB%20Stackup

or:

https://jlcpcb.com/client/index.html#/impedance;

3. Choose your desired transmission line structure (single ended or differential covered microstrip, inner layer stripline, offset stripline);
4. then use:

https://jlcpcb.com/client/index.html#/impedanceCalculation

5. use the calculator and note the trace dimensions.
6. Following the Design Flow in the Tutorial, start your design in the Schematic Editor of EasyEDA and then convert it to a PCB, then manually route your layout using the calculated trace dimensions.

The more detailed and flexible way but which will not be covered by any warranty from JLCPCB:

1. Install a copy of a simple field solver impedance calculator:

https://www.maartenbaert.be/alterpcb/tlinesim/
https://sourceforge.net/projects/mdtlc/files/development/0_2_1_dev/
or:
https://sourceforge.net/projects/mmtl/files/tnt/1.2.2/

2. Choose your PCB stackup:

https://jlcpcb.com/client/index.html#/impedance

3. Then use their figures as inputs to the field solver to calculate the trace widths and spacings for your desired transmission line structure (bare microstrip, covered microstrip, buried microstrip, symmetrical stripline, offset stripline, differential variants of microstrip and striplines,coplanar wiveguide, etc. etc.)
4. Note the trace dimensions.
5. Following the Design Flow in the Tutorial, start your design in the Schematic Editor of EasyEDA and then convert it to a PCB, then manually route your layout using the calculated trace dimensions.

• Note that:

(i) for 2 layer PCBs the information provided about the PCB material is incomplete;
(ii) using tools and stack ups other than those specified by JLCPCB will almost certainly void any claim against them for the resulting PCB failing to the target impedance.

Source: Forum – EasyEDA – An Easier Electronic Circuit Design Experience – EasyEDA

2N2222

Source: best transistor for relay driving | PICAXE Forum