What is a solid state heater cooler ? Is it use in portable coolers /warmers and air condition systems?
Is solid state cooler heater the same device as peltier? Which is use for temperature change in potrable warmers/coolers? Can this technology be employed in a portable air condition unit? If so how does it work? The application and use for this solid state device.
Is it a pair of thermocouples run in reverse.
What is a thermocouple: if you join two dis-similar metals, you get a small voltage. If you get one T/C hot and keep another one cool and connect one lead of each, you will have a simple. solid state, low-efficiency electrical generator when you put an electrical load between the two remaining wires. Putting a bunch in series and in parallel lets you increase the available voltage and amperage.
Such a "thermocouple pile" is used one the Voyager spacecraft. One pile is heated by a nuclear reaction. The cold junction is hanging out in space, radiating heat away. Very simple and very reliable.
But only about 10-15% efficient.
Doing the reverse - apply a voltage to two different thermocouple piles - causes one to get hot and the other to get cold.
Those plug-in solid-state ice-chest/warmers use that effect. They also have a fan to blow heat away from the hot junction. You need an electrical source like line voltage or a cigarette lighter (not batteries!) because it sucks a lot of power for not much effect. It is better at keeping something hot or cold than it is at GETTING something cold. i.e. it would take a LONG time to make ice cubes.
It wouldn't make a very good air conditioner because the efficiency is so bad. Freon or some other compressible gas in a refridgeration cycle is MUCH more efficient and that pulls a few horsepower. To cool a car with a peltier-effect T/Cs would suck 100 hp or more. What it can do is cool a little volume, like a few beer cans.
Upgrade your laptop to high-performance and extend its battery life with the reliable SanDisk Ultra SSD. You'll enjoy faster boot-ups and shutdown in up to half the time compared to a 7200 RPM hard drives...
Solid state is an electrical term that refers to electronic circuitry that is built entirely out of semiconductors. The term was originally used to define those electronics such as a transistor radio that used semiconductors rather than vacuum tubes in its construction. Most all electronics that we have today are built around semiconductors and chips. In terms of a SSD, it refers to the fact that the primary storage medium is through semiconductors rather than a magnetic media such as a hard drive.
SSDs, or solid state drives, are becoming more and more popular in notebook computers. They are perfectly suited for ultraportable laptops because they consume less power than in spinning mechanical conventional hard disk drives. The thin Apple Air or Lenovo Thinkpad notebooks, amongst others, feature this solid state storage technology.
How Do They Work?
Traditional hard drives have a spinning platter with a head that reads data from the platter. Remember all those hard drive crashes? This was primarily due to the vulnerability of the head being jarred by dropping or bumping into the computer and crashing into the platter causing mechanical and or read/write errors. SSDs have no moving parts. Instead they have Nand flash chips and a controller. They are simply flash drives on a large scale. SSDs are attractive when considering speed, noise, power consumption, and reliability. They consume approximately half the power of traditional hard drives of the same size. For example a 2.5 inch Samsung SSD consumes less than 1 watt of power when active, as compared with 2.1 watts that a standard 2.5 inch HDD consumes.
Increased Performance?
SSDs are noted for faster startups and shutdowns. They also have improved performance when applications are launched. Traditional hard drives get fragmented and slower over time unlike SSDs. Because of this non fragmentation SSDs have a real time improvement with random reads. Performance remains constant throughout the entire drive even when it starts to fill up.
Battery Life?
Many components in a notebook computer effect battery life. LCD Screens in particular do. The savings are about 10% prolonged battery life for An SSD vs a traditional hard drive. For most, an SSD upgrade is not worth it for this feature alone. However when taken into account the other benefits of SSDs including: faster performance, less noise, less heat, lighter weight, no fragmentation, and a longer life expectancy an extra $1000 upgrade may well be worth it.
Which notebook brands have SSD options?
Apple, Lenovo, Samsung, Alienware, Dell, Asus, Sony, Motion Computer, and HP are amongst the brands offering SSDs now. SSDs are available in 64GB, 128GB, and 256 GB models.
The future for SSDs
At a component level, manufacturers have been doubling the density every 10 years for these types of notebook drives. This makes for larger storage capacity at smaller sizes. Price varies per manufacturers. A 64GB SSD which costs about $900 now is expected to cost $450 in 2009 and $200 in 2010. Both SSDs and traditional hard drives will probably coexist for a while to come. Because SSDs do offer added value and benefits in several ways they are expected to grow to be in nearly 40% of the notebook laptops by 2011.
About the Author
Paul Steinberg is webmaster and owner of http://LaptopsComputers.com , a notebook laptops website. He guides you as an expert in the computer field. Visit his site for great buys on top computer brands.
