That LED Lamp is Awesome for Christmas!

More of my post, the coming weeks well be all about Christmas. Who doesn’t like Christmas eh? It’s the time of the year where you receive present and lots of food. What I love about Christmas is the Filipino tradition of “Simbang Gabi”. We would wake up early dawn, around 3 o’clock so we can attend the mass. There are going to be lots of lights on the streets. And on the church, it will be full of decorations, Christmas lights and the Nativity scene; it’s one of my favorite parts in the church on Christmas season.

So as I was checking all the decorations and lightings of the church, I was so interested in this one lamp. I was thinking that it was not an ordinary lamp because it stands out with the rest of the lighting. It turns out, the lamp was custom made.  I was so eager to know how it was made since I want to have that lamp as decoration in my house this Christmas. I found this guide while searching the web. It’s a guide on how to create an ultra bright LED lamp from scratch. With a little electronics knowledge, I’ll be able to get my hands dirty on this and have some awesome lamp.

The ultra-bright while LED lamp works on 230V AC with minimal power consumption. It can be used to illuminate VU meters, SWR meters, etc. These LEDs emit a 1000-6000mCd bright white light like welding arc and work on 3 volts, 10 mA. Their maximum voltage is 3.6 volts and the current is 25 mA. Anti-static precautions should be taken when handling the LEDs.

It's Christmas! Time to Decorate our House!

I’ve been out for a couple of weeks and haven’t really visited the Internet, which means no blogging for me. It’s December 1, it’s Christmas season again! I’m pretty excited because this time of the year, we get to decorate the entire house! Lots of Santas and Elves coming our way!

We will decorate the house with some old and new decors. My wife bought these lights for our Christmas trees. We will also be decorating the house with mistletoes, poinsettias and ribbon decorations. These are all my wife’s ideas.

As for me, I am preparing something for our Christmas decoration. I’ve found this guide about Christmas LED displays that shows various images, a perfect fit for a unique Christmas décor. The projects will be an 8x16 pixel array built with ATtiny861 microcontroller which can show images, like Santa images or even candles, it will be displayed in a window to provide eye catching displays to passersby.

The main component of the hardware is the ATtiny861 microcontroller which runs at 20MHz. In order for the microcontroller to dim the LEDs without any visible flickering, the speed should be fast enough. A vertical row of 16 LEDs are driven by each of the eight A6276 driver ICs from Allegro Microsystems. Since there is no internal regulator needed on the circuit board, a regulated 5V wall pack can be used to run the board.

A total of 128 LEDs is contained in the circuit which results to building up 3 boards. The mixture of blue and white LEDs are in the first board, all blue LEDs in the second board, and all white LEDs were built up in the third board. The white LED board went into a transparent enclosure while the blue LED board went into a semi-transparent blue enclosure. Near the center of the board is the huge block of DIP ICs which serve as the driver chips for LEDs.

I want to Save My Laptop Battery From Total Destruction

Laptops are considered one of the most portable devices you can carry. Laptops have evolved from a luxury device in the past and then became a common device in the present. I think many, while not all can afford a laptop these days. It became cheap because of the competition, not just cheap, but the coming of tablets made the laptops more affordable.

One disadvantage of owning a laptop is its battery lifespan. Laptops batteries are one of the many parts a laptop are having trouble, if can be frustrating at times. When you’re not careful, your battery lifespan might get shorter, every day when you are over-charging it. Laptop batteries are too expensive when replaced. So here’s a guide I found in how to salvage your laptop batteries.

It must be remembered that most laptop batteries cannot be repaired if damaged. This is because of their complex construction. And even if it were to be repaired, one would need specific and expensive instruments to do so.

The battery has two parts, the chemical and the digital circuit. Chemical part can be restored with the risk of getting your files would be corrupted. It should be checked regularly for compatibility every time you use existing chargers. Batteries must also be kept alive with enough supply of voltage during cell replacements. Disconnecting the circuit, if only for a fraction of a second, can erase vital data and render the circuit unusable. To assure continued operation when changing the cells, connect a secondary voltage through a 100 Ohm resistor before disconnecting the cells. Always keep in mind to remove the secondary supply only after the circuit is fed with the needed operating voltage from the new cells.

The Good Ol’ Atari Joysticks

The Atari game console has its glorious times back in the days. The Atari game console was at the peak on the golden age of arcade video games. The Atari helped define the electronic entertainment industry from the 1970s to the mid-1980s.

Atari will always have a special place in my heart. I had a wonderful childhood because of this invention. I played long hours playing the games Missile Command. I also spent so much time playing Pole Position, being an F1 driver, at least on the video game.

Back to the present, I have this one interesting project in mind. My son always plays computer games, but not like the ones I used to play in the past. Today is the age of PC gaming, Atari have gone, not gone totally, but this era is for PC gaming. I wanted for my some to experience what I played, so I wanted to build this Atari joystick for his PC gaming.

The Atari joystick will be connected though the USB port. What I wanted to do is emulate Atari games on his PC. There are a lot of Atari emulators out there that’s free.

A cheap USB gamepad can be used in this project especially those without pressure sensitive buttons or analog joysticks but only digital inputs. This will avoid paying for unwanted parts for the adapter. The plastic casing of the Logitech Wingman Precision USB gamepad was removed and concentrated on the internals. The tracing of connections from input to the pins of the single IC was made easy because the layout of the circuit board is really sparse.

To power auto-fire circuits, most computers that have Atari joystick ports provide +5V on the pin 7 of the D-sub connector. The auto-fire function present in some joysticks can also be activated by connecting the D-sub pin 7 with the pin 10 on the IC with a safety resistor. A second fire button can also be produced by connecting the D-sub connector pin to pin 4 (Button 2) on the Logitech chip. The effective way is soldering the wires of the 9-pin D-sub connector into the pins required by the joystick and the other ends straight to the pins of the Logitech chip.

The board and the connector were installed in a small plastic box to make the adapter ready. It can be made smaller if the IC and other parts were unsoldered and placed on veroboard.

The Walls have Ears

Remember how I wrote an article about me creating a spy microphone, well, on this article we will be discussing about Spy Ears. The DIY spy microphone was cool, but the setup will be cooler and awesome if we add this spy ears. Imagine you can hear anything from a long distance. You can hear conversations from another room or beyond the wall.

While binoculars improve vision, this personal sound enhancer circuit improves listening. This gadget will have a light weight; it will produce an adjustable gain on sounds that is picked up from a built-in high-sensitivity microphone.

Here’s the circuit diagram for the original article:

As shown in diagram above, a small signal amplifier is built around transistor BC547 (T1).

Transistor T1 and the related components amplify the sound signals picked up by the condenser microphone (MIC). The amplified signal from the preamplifier stage is fed to input pin 3 of IC LM386N (IC1) through capacitor C2 (100nF) and volume control VR1 (10-kilo-ohm log). A decoupling network comprising resistor R5 and capacitor C3 provides the preamplifier block with a clean supply voltage. Audio amplifier IC LM386N (IC1) is designed for operation with power supplies in the 4-15V DC range.

It is housed in a standard 8-pin DIL package, consumes very small quiescent current and is ideal for bat tery-powered portable applications. The processed output signal from capacitor C2 goes to one end of volume control VR1. The wiper is taken to pin 3 of LM386N audio output amplifier. Note that the R6-C4 network is used to RF-decouple positive-supply pin 6 and R8-C7 is an optional Zobel network that ensures high frequency stability when feeding an inductive headphone load.

Capacitor C6 (22µF, 16V) wired between pin 7 and ground gives additional ripple rejection. The output of LM386N power amplifier can safely drive a standard 32-ohm monophonic headphone/earphone. Assemble the circuit on a small general-purpose PCB and house in a suitable metallic enclosure with an integrated battery holder and headphone/earphone socket. Fit the on/off switch (S1), volume control (VR1) and power indicator (LED1) on the enclosure. Finally, fit the condenser microphone (MIC) on the front side of the enclosure and link it to the input of the preamplifier via a short length of the shielded wire.

Good thing I found this Spy Ear guide, it’s really a cool project to build for your spy role.

On to a Foggy Season

December is coming, and we all know what this means, it will be the season with longer nights and shorter days. What I really like if this season is the long dark hours, Christmas lights will light the starry nights. Thought I like this season very much, there’s one thing that I hate on this time of the year, Christmas in here in our place has always been rainy, and have I mention yet that I’m on a tropical country?

Rainy season here in my country starts in June, all the way to January or February. One common thing happens on rainy days is the foggy surroundings. Have you watched horror movies where there are some foggy scenes that the character encounters? Yes, we always experience foggy dusk and nights.

The problem with fog is when you’re on the road. It’s really a pain in the a*s if you’re out of fog lights. Fog lights are very helpful when the road has zero visibility. My mustang does not have a fog light yet, so I am planning to put one on. Searching on the internet, I found this one amazingguide, from Harrie Dogge of Elektor Electronics on fog lamp sensor circuit.

I will also put on some rear fog lamp, though it’s not mandatory, it will improve visibility under foggy conditions, it will help those who are following the car see what’s ahead of them. This fog lamp sensor circuit will be built on a mechanical switch that is built into a 13-way female connector in order to switch of the fog lamp. This circuit was also design to anyone who uses a 7-way connector, this switching can also be implemented electronically with the aid on the circuit illustrated below, taken from the original guide article.

So take that extra precaution for your safety on the road. Be a defensive driver. Cheers!

An Entry Level Server that’s good for Space Saving

So I was hired by a small company to setup their servers. I was so keen on doing this job since I have a friend working for this small company. I consulted them to know what are their server specifications and needs. Since they are just a small and a starting company, their budget is limited, not to mention they have a small office space.

With these settings, I compared entry level servers from IBM, HP, Lenovo and Fujitsu. Comparing the servers from these brands, I found out that the most viable unit would be the M10-1 server from Fujitsu. It is a space saving entry level server, perfect for my friend’s company’s requirements! It can perfectly suit to the office’s space and at the same time, it suits for their budget since the server come at an affordable price.

The M10-1 server supports as many as 16 cores, large-capacity memory modules, and a large-capacity disk in a space-saving one rack unit (1U) chassis, its product specifications says.

Here are the Main features of the server:

• 16-core SPARC64 X / SPARC64 X+ processor and 512 GB of main memory
• 1 RU form factor
• Mainframe-class reliability, availability, and serviceability (RAS) capabilities
• Core-based CPU activation
• Software-on-Chip instructions implemented directly on SPARC64 X / SPARC64 X+ processors
• Built-in no-cost virtualization: Oracle VM Server for SPARC and Oracle Solaris Zones technologies
• Supports Oracle Solaris 11 and Oracle Solaris 10, also Solaris 9 and 8 with Oracle Solaris Legacy Containers
• Oracle Solaris 100% Binary Compatibility Guarantee

So my conclusion, this will be the perfect server setup for small companies.