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Módulo de Força


Primeiramente gostaria de salientar que não sou o autor principal do conteúdo deste artigo. A minha intenção é de mostrar o que outros autores tem realizado (referenciando links para o conteúdo original) neste blog até como um guia pessoal para uso próprio e ainda compartilhar minhas anotações e pequenas modificações que realizo no conteúdo, desejando que possa ajudar mais alguém em algum lugar.
First and foremost, I take no credit for any of this post’s content. I am really just taking what others have done (which I have links to bellow) and am putting it on my blog for a personal reference and hopefully the small changes that I made to their guides will help someone somewhere.

link: http://www.aliexpress.com/item/1PC-Wholesale-New-Dedicated-Power-Module-3-3V-5V-MB102-Solderless-Bread-Board-DIY-Power-Module/1666947934.html

Dedicated Power Module,3.3V 5V MB102 Solderless Bread Board DIY Power Module Breadboard


Description:

  • 100% Brand new and high quality
  • Breadboard power supply module, compatible with 5 V, 3.3 V
  • Apply to MB102 breadboard
  • Input voltage: 6.5-12 V (DC) or USB power supply
  • Output voltage: 3.3V/5V can switch over
  • Maximum output current: <700 ma
  • Fluctuation two road independent control, can switch over to 0 V, 3.3 V, 5 V
  • On-board two groups of 3.3V, 5V DC output plug pin, convenient external lead use.
  • Size: About 5.3cm x 3.5cm
Package Content:
  • 1 x MB102 Breadboard power supply module (Breaboard not included)
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The MB102 is a breadboard power supply module manufactured by the YwRobot Corporation in China. This module has the marking 545043 and MB V2 on the printed circuit board (PCB). It provides dual 5 V and 3.3 V power rails, and has a multi-purpose female USB socket.

I decided to review this one and test it out because it seems to be low-cost, and there does not seem to be much information available in the way of a manual or any documentation. Hence, this article might prove to be useful to anyone considering buying it or needs to know how it works. The one I received came with a small sheet of paper stating the input voltage and current levels.

I performed a short circuit test by shorting the power supply rails for a full one minute, and surprisingly the voltage regulators are still operating properly. I noticed that the 5 V regulator heated up, but when the short was taken away it cooled down and continued to operate within normal parameters. I then repeated the test to measure the loading on the power source when the voltage regulator output was shorted, and I am glad to say that the source was protected.

Since the green power LED is connected to the output rail, when I applied a short to either of the voltage rails it would go out, hence this is an excellent indicator of a short in the power rails that the hobbyist can make use of when building breadboard projects.

Barrel Socket Power Input

USB and Barrel Socket Power Input

There is a green LED to indicate the presence of power, and an ON / OFF latching switch to control the power to the board. On this particular model and version, the centre pin of the barrel socket is positive; however, please double check with the manufacturer’s instructions, in case they have made any changes. You have to push the switch IN to use this device.

The operating instructions state that the input voltage through the barrel socket must be between 6.5 V and 12 V. Hence, if you wish to use it to its maximum capability you will need to remain in that range. This is a non-adjustable fixed power supply model, which is good enough for most applications. The manual states maximum output current to be 700 mA. However, it is probably better to use much lower voltages and current to be on the safe side in case you make a mistake on your breadboard circuit.

Jumper Pins and Headers

Jumper Pins and Headers

Jumper pins are utilised for selecting the voltage levels on each side of the breadboard power rails. You can choose between 5 V, OFF, and 3.3 V. There are two sets of jumper selectors for each side of the breadboard power rails; hence, you can have any combination of voltages on either rail. There are also header pins for tapping off voltages, using a cable or jumper wires.

Voltage Regulator AMS1117 Spec

Voltage Regulator AMS1117 Spec

The AMS1117 is a voltage regulator manufactured by Advanced Monolithic Systems. There are two regulators where one regulator establishes a 3.3 V rail, whilst another establishes the 5 V rail. These are a good make of components found in a SOT-223 package. Their documentation states that this series can provide a maximum output current of 1 A, and the absolute maximum input voltage rating is 15 V.

The documentation indicates that these regulators have built-in protection against short-circuit through power limiting circuitry. There is also thermal overload protection circuitry, which will shut-down the regulator should its junction temperature reach 165 °C.

These regulators also have internal diode protection and can handle transient surge currents from 50 A to 100 A.

This is a high efficiency low dropout regulator, which can operate down to 1 V. It has a 1 V input-to-output differential and therefore useful for battery powered applications. Line regulation is 1.2 % and maximum load regulation 0.4 %.

The AMS1117 series is an excellent choice for creating adjustable power supplies as well. The package provides a 1.25 V reference voltage from the adjust pin, and with a pair of resistors in a voltage divider network the regulated output can be adjusted. The documentation is also very clear and comprehensive in its use.

How to use a Breadboard Power Supply

How to use a Breadboard Power Supply

This is a plug-in power supply and the headers below the board simply plug-in to the breadboard.

Once plugged in, the voltage rails to both sides on the breadboard then provide power. You then use the yellow jumpers to select the voltage levels required. This is a dual output 3.3 V, 5 V regulated board and you can have either voltage on either rail on the breadboard, which is very useful.



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