Infrared remote control fan circuit principle

The remote control fan circuit as shown in the figure has a remote control distance of about 8m, and no special remote control is required. Use any kind of infrared remote control to press any key against the infrared receiving head, IC2 will receive the infrared pulse signal, and the pulse signal will be filtered, detected, amplified, etc., and coupled to IC3, IC3 NE555 via C6. The special trigger reshapes the pulse signal in order to obtain the ideal rectangular wave. R1 is a pull-up resistor. Choosing a suitable resistance value can greatly improve the anti-interference of the circuit. The resistance of R1 is selected in the range of 200kΩ~470kΩ. Too small R1 will reduce the sensitivity of the circuit; if it is too large, the circuit performance will be weakened. The pulse signal after shaping is output by pin 3, and then sent to the decimal counter CD4017 for pulse counting.

Infrared remote control fan circuit principle

The output terminal Q0 of CD4017 outputs high level, and other output terminals are low level. The output high level is sent to the decoding by the diode, and the driver CD40110 drives the digital tube to display "1". While driving the bidirectional thyristor VS1 through the current-limiting resistor to turn on, the fan is set to gear 1. When any key on the remote control is pressed again, Q1 outputs high level, other output terminals are low level, the fan is set to 2 gears, and the digital tube displays "2". When you press it for the third time, Q2 outputs high level, the fan is set to gear 3, and the digital tube displays "3". When pressing the fourth time, Q3 outputs high level, CD4017 and CD40110 are reset at the same time, the fan stops rotating, and the digital tube displays "0". AN is the reset/stop button. The 5V power supply of the circuit can be directly obtained after the transformer step-down, rectification and filtering, and 7805 voltage stabilization.

1.0mm Male Header

1.0mm (.039″) Pitch Pin Headers

Overview

Antenk offers a variety of high quality and competitively priced 1.0mm pitch single, dual, three, quad row pin (male) headers used in many board-to-board PCB connections, fitting small-sized, densely-packed devices.


This low-profile component is made from high-temperature thermoplastic and is offered with several means of connections and mounting styles such as through-hole (THM) or surface mount (SMT) and can be in vertical (straight), elevated or at a right angle configuration/orientation dissipating current of about 1.0 A or less.


The pin (male) header is generally mated with receptacle or stackable header connectors (female sockets). This types of pin headers are suitable for PCB board to board connection or for signal transmission application.


Applications of 1.0mm Pitch Pin Headers

Its small size is most suitable for PCB connections of small equipment and devices such as WiFi equipment, gaming consoles, measurement instruments, and other equipment in need of a special interface to become interconnected


Mount Type: Through-hole vs Surface Mount

At one side of this pin header is a series of pins which can either be mounted and soldered directly onto the surface of the PCB (SMT) or placed into drilled holes on the PCB (THM).


Through-Hole (Poke-In)

Best used for high-reliability products that require stronger connections between layers.

Aerospace and military products are most likely to require this type of mounting as these products experience extreme accelerations, collisions, or high temperatures.

Useful in test and prototyping applications that sometimes require manual adjustments and replacements.

1.0mm vertical single row header, 1.0mm vertical dual row header, 1.0mm Elevated single row pin header, 1.0mm Elevated dual row pin Header, 1.0mm Right-angle single row header and 1.0mm Right-angle dual row header are some examples of Antenk products with through-hole mount type.


Surface-Mount

The most common electronic hardware requirements are SMT.

Essential in PCB design and manufacturing, having improved the quality and performance of PCBs overall.

Cost of processing and handling is reduced.

SMT components can be mounted on both side of the board.

Ability to fit a high number of small components on a PCB has allowed for much denser, higher performing, and smaller PCBs.

1.0mm Right-angle Dual Row pin header, 1.0mm SMT Single row pin header, 1.0mm SMT Dual row pin header and 1.0mm Elevated Dual Row Pin Header are Antenk`s SMT pin headers.

Soldering Temperature for 1.0mm Pitch Pin Headers

Soldering SMT pin header can be done at a maximum peak temperature of 260°C for maximum 60 seconds.


Pin-Type: Vertical (Straight) and Right-Angle

1.0mm pitch headers may be further classified into pin orientation as well, such as vertical or straight male header or right-angle male header.


Vertical or Straight Pin (Male) Header Orientation

One side of the series of pins is connected to PCB board in which the pins can be at a right-angle to the PCB surface (usually called "straight" or [vertical") or.

Right-Angle Pin (Male) Header Orientation

Parallel to the board's surface (referred to as "right-angle" pins).

Each of these pin-types have different applications that fit with their specific configuration.


PCB Connector Stacking

Elevated Pin Header Orientation

Elevated pins aka Stacked Pins or Mezzanine are simply stacked pin headers providing an exact distance requirement between PCBs that optimizes electrical reliability and performance between PCB boards.


Profile Above PCB

This type of configuration is the most common way of connecting board-to-board by a connector. First, the stacking height is calculated from one board to another and measured from the printed circuit board face to its highest insulator point above the PCB.


Single, Dual or Multiple Number of Rows

For a 1.0mm straight or vertical male pin header, the standard number of rows that Antenk offers ranges from 1 to 2 rows. However, customization can be available if 3 ,4 or n number of rows is needed by the customer. Also, the number of contacts for the single row is about 2-50 pins while for dual row, the number contacts may vary from 4-100 pins.


Pin Material

The pins of the connector have been designed with copper alloy. With customer`s demand the pins can be made gold plated.


Breakaway design

The pin headers are also equipped with a breakaway design making them fully compatible with their female receptacles.


Custom 1.0mm Pitch Pin Headers

Customizable 1.0 mm pitch pin headers are also available, making your manufacturing process way faster as the pins are already inserted in the headers, insulator height is made at the right size and the accurate pin length you require is followed.


Parts are made using semi-automated manufacturing processes that ensure both precision and delicacy in handling the headers before packaging on tape and reel.


The tape and reel carrier strip ensures that the headers are packaged within accurately sized cavities for its height, width and depth, securing the headers from the environment and maintaining consistent position during transportation.


Antenk also offer a range of custom Tape and reel carrier strip packaging cavities.



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ShenZhen Antenk Electronics Co,Ltd , https://www.antenkelec.com