E-Guide: how to choose a DVD player

If you buy for yourself or a gift for a loved one, finding that only certain DVD player is not as easy as it sounds. There are so many formats, sizes and features added to DVD players today that you can sift through hundreds of players before finding the right one for the right price. Use this quick guide to compare the types of DVD players available in the electronics market.

DVD Player sizes

Determine what size you need player. If you are adding a DVD player to your home entertainment system, determine where you are going to put it and how much space is available. Full-size DVD players may be large enough for you to make sure your space before buying. DVD players are also very thin at the time and most have a slot in the front that slides in and out to insert the DVD. This is great if you have a space that is limited in time.

For odd shaped spaces or places very tight, there are different sizes and shapes of DVD players. These are usually available at electronics stores online so you'll have plenty of styles to choose from. DVD player Vertical, for example, sits upright like a vertical computer drive. It comes with support for maintain it in a strong position. If you still have your old VHS collection, there are combo DVD/VHS machines that play both formats. This saves space as well. Also available are super slim DVD players and DVD players of "space saver" to suit your personal needs.

Types of DVD players

After you determine what size you need, you are ready to compare name brands and characteristics in electronics store or site of your choice. Often you can find many different brands and styles of players in the mall a single electronics online. This will allow you to compare without spending hours searching through many sites.

Some of the features that you will see include progressive, slip recording time, EZ Edition, zoom, slow motion, HD (high definition) DVD, video/audio front Sockets, playback of CD-R/-RW, MP3-CD playback, D/A converter, favorite scene selection, TV Guardian and many others. You cannot find a special DVD player that loads all the resources, so it is wise to determine which features are important to you before you select a player. What features you will probably use more? You will probably never use?

You'll also notice that there are many brand names of DVD players. Some of the well-known brands include Philips, Coby, Emerson, Magnavox, Toshiba, Sanyo and Panasonic. Prices for DVD players can range from about $ 50 to $ 500 depending on the features you choose.

If you buy a DVD player for your son, also there are players with children's themes. The player will look really like cartoon character child's favorite!

To find the DVD player that is right for you, look it up online by brand name, features or price to compare. Or, you can visit a shopping online to compare all in one place. In addition to electronics, you can also find other great items on an online shopping such as computers, notebooks, lingerie, pets, automotive products, phones, jewelry, household products, toys and much more. Take your time to find the DVD player that meets your needs. You'll enjoy years of quality entertainment!

Flashlight buying guide

Gone are the days when buying a flashlight meant one would automatically looking Maglite. While acknowledging the impact and the unprecedented success of Maglite design, LED, HID (High Intensity Discharge) and Xenon technology along with ultra strong coating materials means that the Lantern has evolved into a State where the stronger beam is not necessarily means the larger the flashlight.

When looking for a high performance, affordable lighting tools is easy to become swamped by the amount of brands in the market. Flashlight technology at the beginning of the 21st century offers a bewildering variation of the type of lamp, material of the body, body size, source range and price of energy. This guide is an overview of the salient points worth consideration when buying any quality flashlight.

In the same way that the legs measure length so measured brightness. lumens The higher the count of lumen, brighter and more the beam will show. Occasionally you can find the brightness levels measured in candelas or intensity, this describes a unit Candlepower light at source. Candelas/Candela intensity equals 12.57 Lumens.

Perhaps the most significant breakthrough in lighting technology was L.E.D (Light Emitting Diode). The L.E.D. produces light at the molecular level as distinct from a normal lamp that heats a filament, so using more energy to produce less light. As a result a L.E.D. will last a lifetime and dramatically increase the life of a battery. They do, however, vary in degree of purity. Like diamonds, at the point of production some produce clean white light while others have a very light shade of blue, green or violet.

Xenon lights produce a wide spectrum of light (including infrared) and can be made to have a high maximum lumen output by adding Xenon gas in the bulb light to be produced at a higher pressure, thus, but they are comparatively less efficient users of power. H.I.D technology (High Intensity Discharge) Xenon lamp uses a slightly different with the addition of an outer bulb and an inner tube with a partition of cerium doped quartz bulb in to block most ultraviolet rays. HID lamps have Lumen output of approximately 500-1000. Lighting technology can be described as a battle between the light and heat as energy to produce heat affect, which produces light. The undisputed master is the LED. Does light without the need to heat a filament, thereby increasing battery and bulb life. However the power of a Xenon lamp can be amazingly brilliant even harder the batteries.

Enclosure material progressed so far to be nearly indestructible if dropped and virtually water-resistant in very wet conditions. A good, quality Lantern will invariably aerospace aluminum body and a robust construction and design.

Manufacturers vary in quality and specialty. Surefire has a quality range of Xenon and LEDs with a wide range of accessories. Ledwave produce LED lights and Xenon excellent, powerful and reasonably priced. Nextorch can boast the extraordinary Saint, able to produce an enormous 450 lumens, plus a range of ergonomically designed, versatile LED, Xenon and rechargeable flashlights.

Navigate the maze of Lantern production is complicated and, ultimately, dependent on that work will request it. Lumen output to size ratio, durable material resistant coating/bulb and battery life are essential elements to be taken into consideration when choosing a lighting tool for last and perform over time.

Guide in Buying HDTV

I wrote this article originally for the HDTVetc magazine for the August 2003 issue, and it was later published on the HDTV Magazine in 2006. Consumers still go through the same struggle at national-chain stores today. I updated the article to include current HD equipment and technologies. Its tutorial substance and analysis are still applicable today, and are intended to help consumers in making the right purchasing decisions. Enjoy the reading.

The following topics are covered in this segment:

H/DTV and NTSC TV Systems, What are they?

The First Effort of the DTV Transition

Quality HDTV, or Quantity DTV, or Both?

Backward Compatibility with Legacy Analog TV for Digital Broadcast

Satellite/Cable, and the DTV Transition

Tuner Integration

The Effect DVD had for DTV

The Rush for Knowledge

You have been hearing about HDTV and decided to start looking for one. A friend of yours reminds you that the general knowledge about buying regular TVs from the CRT analog era is not sufficient to select a digital product today, so you quickly review what you read about widescreen, black bars, digital tuners and resolution, and hope things would clear out at the store.

You get into the typical nationwide consumer electronic store most people go to, and suddenly see several dozens of HDTV demo sets staring back at you. A salesperson is approaching you, the person's face is familiar; the salesperson is the one that sold you the new dishwasher two weeks ago; now the person is selling HDTVs with authority. At that point you start feeling worried, but you hang in there.

Obviously this store is not a quality dedicated A/V retail place. Many consumers make their purchases based on the uninformed advice of untrained staff from typical nationwide consumer electronic chains.

In the near past, a typical store could only have one of those HDTVs actually displaying HD, the only one that had an HD tuner; the rest were showing the same image from a video distribution loop not suitable for HD quality.

Today perhaps the whole store feed is all HD, and the sets that are staring at you show the same picture, but with different colors, contrast, image enhancements, blacks, whites, etc. because no one bothered to set them correctly. So you start wondering why HDTV is not consistently perfect as is being preached, is that what HDTV is about?

The sales person turns toward you and, in the middle of your consumer panic attack, tells you: "trust me, buy this TV, it would look much better at home once connected to an HD tuner". Would you buy a car without test-driving it?

Millions of people went through similar experiences since HDTV was introduced in November 1998. Fortunately, some improvement is gradually seen in the stores, especially in dedicated A/V retail stores, which should take more time to help consumers understand the concepts behind each display technology, and not just quickly sell the HDTV inventory with the red tags, as most national consumer electronic chains do.

Most consumers love red tag savings, and many leave the stores wallet-happy with a product they do not understand. Perhaps many of those do not actually want to understand because the HDTV technology has been introduced with a complexity level they refuse to deal with to just get a TV.

To illustrate the complexity of an HDTV purchase decision you might want to read Is HDTV Complex Enough?

The objective of the article you are reading is to help you make your purchase with more confidence, but first allow me to cover the following basic subjects about HDTV:

H/DTV and NTSC TV Systems, What are they?

You might already know of the US plan to replace our current analog interlaced TV system (NTSC) dated from the 1940's by a digital DTV system, by February 17, 2009. Curiously enough the idea started as "analog" HDTV until General Instruments proposed an all-digital system in 1990.

The DTV standard is composed of 18 digital formats grouped into two levels of quality, as approved by the ATSC (American Television Systems Committee) in 1995:

1) SD: Standard Definition, with 480i/p (i:interlaced, p:progressive) viewable horizontal lines of vertical resolution (rows counted from top to bottom), each line with up to 704 total pixels of horizontal resolution (counted from left to right), and with an aspect ratio (relation of width to height in units) of 4x3 (as regular TV), or widescreen 16x9.

2) HD: High Definition, with 720p and 1080i/p viewable horizontal lines of vertical resolution (rows counted from top to bottom), each line with respectively 1280 (for 720p) or 1920 (for 1080i/p) total pixels of horizontal resolution (counted from left to right), and only in widescreen 16x9 aspect ratio.

Note that, because is not complex enough, the horizontal lines (rows) are expressed as "vertical" resolution (480, 720, 1080), and the vertical columns made of the aligned pixels on the horizontal lines are expressed as "horizontal" resolution (704, 1280, 1920).

DTV was 15 years in the making before it went on the air in November 1998. HDTV is the quality part of DTV, but its implementation is not mandatory, SD is. I will use the term DTV only when addressing the digital TV system in general.

Later in 2000, the Consumer Electronics Association (CEA), allegedly to help confused consumers, created another resolution level in between: ED (enhanced definition).

This promoted the 480p SD format to ED level, leaving only the 480i format in the SD level. It also granted any TV the right to be labeled HDTV if capable to display only 810i lines of vertical resolution within the displayed image, rather than 1080i.

One can argue how much this intervention from the CEA helped consumers more than helped manufacturers getting rid of mediocre sets. But that was back when CRT based DTV sets were the strength of the market; now most DTV sets are fixed pixel displays and their resolution is clearly specified as a pixel count in both directions.

Our current NTSC over-the-air (OTA) TV system is 480i analog interlaced (actually 525i with 480i viewable horizontal lines of vertical resolution). The regular channels of digital satellite and digital cable could be compared to digital SD of broadcast DTV, but they are also transmitting dozens of channels in HDTV.

To facilitate the transition, broadcasters were given one extra channel slot from the FCC for the simultaneous broadcasting of the analog and digital versions of their programming. It is a large investment for TV stations to build a DTV facility with new cameras, production, equipment, etc.

When DTV is fully implemented, broadcasters have to return one of the two channels, analog over-the-air broadcasting will stop, and current analog TVs, VCRs, TiVos with analog tuners would stop "tuning" as well (but they will still work as display devices if fed with a 480i analog signal from a converter, VHS tape, DVD player, etc). This date was originally set for January 2007 but has been extended to February 17, 2009. Once DTV is implemented, the FCC will auction that spectrum of airwaves.

Most OTA terrestrial TV stations are already broadcasting DTV in SD and HD widescreen, and consumers are buying HDTV sets at accelerated pace every year.

The First Effort of the DTV Transition

Just a look back at CEA's 2003 statistics, on the first 5 years of HDTV approximately 6 million DTVs (of which only 300,000 where integrated with DTV tuners) and 400,000 tuner set-top-boxes (STBs), were sold between 1999 and 2003. By the end of 2007, the HDTV count was 8 times fold, and about 50% of households have digital TV sets, according to the CEA.

Back in 1998/9 it was not unusual for first generation HDTV monitors to cost $10,000, and HD STB tuners to cost from $700 to $3,000. It was expensive for early adopters.

By the end of 2007, a huge variety in technologies and TV sets was available for every viewing environment. DTV sets are much better in quality, and sell for a small fraction of the price they sold back in 1998.

Quality HDTV, or Quantity DTV, or Both?

We all love the incredible video quality of HD, however, since HD is not mandated within the DTV plan, it allows a broadcasting station to use the allotted 6 MHz space (for the HD channel), to multicast instead several sub-channels of lower SD quality, as it is actually happening on many stations across the US.

When sharing the same 6MHz total bandwidth, SD sub-channels rob about 2-3 Mbps each from the needed bandwidth of an HD channel that by itself should broadcast at 19.4 Mbps (if the station also multicasts an HD sub-channel). The parallel broadcast forces further compression of the 19.4 Mbps HD signal to a lower bit rate to make room for the SD sub-channel, compromising HD quality.

In many cases, more than one SD sub-channel is multicast together with the HD sub-channel. When the reduced HD bit rate compresses the signal beyond acceptable limits, it renders a lower quality image with noticeable artifacts, especially on fast moving images in sports, which are more evident, and unacceptable, on large screens (more on it later).

It might also be possible that the TV station desires to share some of the bandwidth for data-casting interactive services, or for mobile DTV applications for hand-held portable devices (because there will be no analog broadcasting to those portable devices as well). For more information, check the articles I wrote on the "Mobile DTV" series, where I analyze the potential impact of mobile applications on the quality of an HD channel when robbing from its bandwidth.

We all hope that HD will reign, and HD quality will prevail over the digital-quantity business models, and you have to encourage DTV broadcasters to do so, besides, most consumers bought an HDTV not a SDTV.

Backward Compatibility with Legacy Analog TV for Digital Broadcast

When the DTV broadcast is fully implemented in February 17, 2009, there would be backward compatibility with your current analog equipment, but there is a catch, in order for you to watch DTV terrestrial digital channels on your current analog TV you would need a digital over-the-air STB tuner connected to it. Your current analog TV would display an analog interlaced 480i version of the digital image.

There is no need to rush for the replacement of an analog TV that might be in good working condition if you just want to continue watching similar quality TV, but you would have to buy a STB digital tuner for broadcast DTV.

This applies also to your analog VCR, DVD recorder, TiVo, etc., if you want them to have broadcast tuning independence. A few years ago, DTV STB tuners were relatively expensive, in the $400-$1000 price range, imagine buying a $400 digital tuner for a $30 analog VCR, but they are gradually coming down in price.

The US government has approved a subsidy coupon program to help people purchase DTV tuners to facilitate the analog-to-digital transition so existing analog TV sets can continue to be used for broadcast digital DTV.

For that purpose, Congress approved a fund of $1.5 billion dollars, with an initial allocation of $990 million dollars to subsidize up to two $40 coupons per household. The coupons became available in January 2008 and can be requested by consumers until March 2009, to use them toward the purchase of two DTV tuners.

The two coupons cannot be used together to purchase only one DTV tuner, neither they can be used to buy another type of OTA tuner/DVR STBs, satellite STBs with broadcast DTV tuners into them, or cable STBs.

The tuners offered by this program are expected to cost in the $50-$70 range each; the consumer would have to pay the difference after applying the $40 coupon. According to the plan, the tuners would become available by mid February 2008 through the national chains of Best Buy, Circuit City, etc.

Although the subsidized tuners are designed to tune digital SD and HD channels, they cannot output the tuned signal other than 480i analog resolution to an analog TV. In other words, the subsidized tuners would not perform as typical HD tuners passing resolutions of 480p, 720p, or 1080i to HDTV devices for HD viewing. Their functionality is just to downconvert because their purpose is backward compatibility to analog TVs, but their price is lower than typical ATSC HDTV tuners with variable output resolutions and digital outputs.

Satellite/Cable, and the DTV Transition

If you are a satellite subscriber you already have the satellite STB you need for their digital SD/HD services. Additionally, most satellite boxes also have a terrestrial ATSC tuner if you want to get free local channels using a VHF/UHF antenna. However, DirecTV introduced a new model in late 2007 without antenna input; the local channels would have to be viewed from the satellite feed, a service they have already for most major cities.

If you are a cable subscriber, when the cable company decides to disable the analog feed to your household and supply only the digital feed, you would need a digital-to-analog cable STB to view the digital channels on each analog TV in your house, similar to the approach of the coupon program for broadcast DTV above, but you would have to lease or buy the cable STB, no coupons.

Cable companies were authorized by the FCC in late 2007 to continue their analog feed service for another 5 years (up to 2012) if they prefer, but they are not obliged to do so. Cable STBs do not have DTV digital terrestrial tuners into them so you cannot use their STB connected to a UHF/VHF antenna to receive free local channels.

Cable companies face at least two alternatives on the analog-to-digital transition between 2007 and 2012:

a) If their subscriber base is mostly digital, a cable company might have the incentive to make a large up front investment to acquire enough digital STBs to convert all the remaining analog subscribers as soon as possible to digital tier services, who would have to lease one digital STB for each analog TV. That would release the bandwidth occupied by the analog broadcast channels on the cable feed, which could be used for additional digital channels, and receive an increased revenue if those are premium, VOD, PPV, etc. paid services.

b) If the subscriber's base is mostly analog, a cable company might prefer to keep the existing mix of analog and digital STBs, and maintain the analog tier as long as needed until 2012. Since the cable feed bandwidth allocation for the analog broadcast channels must continue with this alternative, the company would have to postpone the potential growth of digital channels and services, but there will not be a need for an up front large investment for expensive digital STBs because there is no forced conversion. This option seems economical for both the company and the subscriber, because a subscriber would not be forced to lease a digital STB for each analog TVs that might be currently connected to the wall coax without a STB, as many non-primary TVs are in most households.

While the up front investment of a large number of digital STBs could be expensive to a cable company, there could be a partial offset with the potential revenue received from additional digital pay services such as VOD, PPV, or premium channels. Additionally, the number of digital STBs required for a full digital conversion of the cable feed might be further reduced when considering the growing base of integrated HDTVs with CableCARD tuners expected to increase in 2008 and 2009.

However, since the integrated CableCARD tuners within HDTV sets are only unidirectional, there might still be a cable subscriber's base that would still require the bi-directional capabilities of cable HD-STBs for VOD, PPV, and cable supplied programming guide. Each cable company would have to balance those factors until 2012.

Tuner Integration

In 2002 the FCC issued a "mandatory" plan to gradually integrate digital broadcast tuners into DTV monitors and other tuning devices, such HD DVRs. The plan has been already implemented in 2007 for all the sets larger than 13", and all DTVs on sale today are mandated to include digital terrestrial tuners (except for some industrial/professional models). In most cases they also include a cable on-the-clear tuner for non-premium unscrambled channels, or even include a CableCARD tuner for premium channels and services.

As mentioned above, the CableCARD tuners are unidirectional only, and lack the bi-directional features of Video-on-Demand, Impulse Pay-per-View, and cable-company supplied programming guide, for which a separate set-top-box from the cable company would still be needed until integrated TV sets are designed to have bi-directional capabilities on their integrated CableCARD tuners.

Industry analysts commented for years that economies of scale would bring down the price of digital tuners to the level of today's very low price analog NTSC tuners within TVs, but the reality is that STBs for ATSC terrestrial, or for cable, satellite, DVRs, etc. (not the down-converting government-coupon STBs) still have a high price, considering that comparatively, large HDTVs came down from the $5,000-$10,000 in 98/99 to more accessible prices below $1000.

More on this subject is covered further down.

The Effect DVD had for DTV

Most of the 6 million people that bought HDTVs on the first 5 years of the transition (98-03) did so NOT to view HD, but rather to enjoy playing widescreen DVDs at 480p. Even now in 2008, after Hi-Def DVD has been already introduced in early 2006, regular DVDs are still a favorite content for DTV, because they certainly display quite well as progressive 480p, or upscaled to 720p or 1080i/p to the native resolution of the digital set (by either the DVD player or the TV set). The same DVD played on an analog TV would only show the image as a 480i interlaced scanning.

In addition, an HDTV has the capability to show widescreen DVDs in anamorphic format displaying all the original vertical resolution stored on the disc, while 4x3 analog TVs would show the same DVD letterboxing the image between larger top/bottom bars in order to maintain the wider aspect ratio of the movie, and with less vertical resolution for the image itself.

Air Compressor Purchasing Guide

An air compressor is a valuable piece of equipment for operating power tools. They are better in terms of efficiency and are easier on you. The type you need depends on the tools you will be using. Good choices include a Copeland compressor, Husky air compressors or Quincy compressors.

Factors to Consider in an Air Compressor

Consider how often you will use air compressors and how it will be used. What tools will you be using and how much power will be needed to operate them? Some tools, like nail guns, don’t need high volume compressor. Others, such as drills or sanders do need high volume because they require steady air flow.

Set a budget for your purchase. The price for these machines varies significantly from brand to brand. Buying a used compressor is one way to make your budget stretch further.

The style of the pump is another consideration. The most common are direct drive and belt drive. Direct drive pumps will last up to five hundred hours. These take up less room in your workshop. They are well suited for moderate uses. Another benefit of these is that no oil changes are needed. Belt drive pumps require oil changes every five hundred hours and will last for about fifteen hundred hours. These are good for do it yourself as well as professional use.

Consider the power of the compressor. Consider both the horsepower and pound per square inch (PSI) pressure. Make sure it is more powerful than the most powerful tool you will be using. Check your tools before purchasing the compressor.

The tank size is another important consideration. These come in sizes from two to one hundred gallons. The more you will use the equipment, the larger the tank you will need. Always go a little larger than you think you will need. This will ensure that you can get the optimum use from the compressor.

Finding an Affordable Air Compressor

Shop around before purchasing air compressor systems. Compare brands and read reviews on the internet. Compare the machines and features of each. Similar machines can differ by hundreds of dollars.

Consider a reconditioned machine. In these, the machines have been completely inspected. Worn or damaged air compressor parts are replaced. Many of these have gotten very little use and are in nearly new condition. You can find equipment at a considerable savings. Look for a model with a one year warranty to be sure you are getting a quality product.

Consider shopping online. Often, the prices are considerably less than in some stores. Many ship straight from the factory, saving retail mark up. This savings can be significant. In many cases, you won’t need to pay sales tax on the equipment, which can add up. Many sites offer free shipping on these purchases, so it won’t cost any additional money for shipping.

A Guide To Plasma Televisions

One of the newest additions in television technology, Plasma Televisions are the 21st century display devices which are fast becoming a popular choice among television viewers. Plasma televisions have higher resolution and quality performance than other conventional televisions; they guarantee crisp and clear images, and superior quality.

Plasma televisions became a reality after the successful invention of the plasma display panel in 1964, by Donald L. Bitzer and H. Gene Slottow at the University of Illinois at Urbana-Champaign. Embracing a unique technology, Plasma televisions produce pictures from a combination of inert gases such as xenon and neon. When the gas is charged using electrodes, the atoms collide with each other and release energy in the form of invisible ultra violet (UV) light. The light is then focused on the three phosphors (red, green, and blue) and a brilliant picture is produced.

Plasma televisions come as Enhanced Definition TV (EDTV) with a resolution of 852x480 and the Higher Definition TV (HDTV) featuring a native resolution of 1024x768. Plasma televisions have a high widescreen aspect ratio - the ratio between the width and height of the screen. As plasma televisions do not use any electron beams like the conventional ones, they are immune to the effects of magnetic fields. They offer a wider viewing angle and accurate image reproduction. Plasma televisions are slim and space-saving and can even be hung on a wall. Moreover, most of the plasma televisions come with a flat screen which eliminates edge distortion.

Plasma televisions can be used in meeting rooms, corporate offices, and network control rooms. They are ideal choices for home-theater enthusiasts. On account of quality performance in ambient light, plasma televisions are widely opted for teleconferencing.

A countless number of retail and online stores specialize in plasma television sale. Due to their inherent merits, plasma televisions are becoming the most demanded alternative to the standard CRT and projection televisions.