In addition

In addition
it also has other features, according to China Association Canon Camcorder battery of epoxy resin industry experts, the main ones being: In order to meet fine pitch CSP and FC terminals packaging development, micro-conductors graphics technology will advance in the minimum line width / spacing of 25μm / 25μm, wiring center distance 50μm, the thickness of 5μm under the direction of conductor development; laser-guided process is a plot hole conduction panasonic NV-GS10 Battery method Multilayer Hole means the mainstream, CO2 laser and UV laser processing machine will be applied to practical processes the development of the mainstream, the minimum turn-Hole from the current 50μm ~ 80μm down to 30μm, pore diameter hole location accuracy and precision panasonic VDR-M50 Battery of lead up to ± 15μm; thin passive components embedded within the PCB panels were used in GSM mobile phone applications, future, there will be embedded within the IC components PCB boards and components embedded in thin-film flexible circuit boards; ink-jet printing technology, the maturity and development will be possible to lower costs, faster production of PCB; wiring nano-materials a new generation of PCB has appeared in the world, the widespread use of nano-technology will reduce the PCB dielectric constant and improve mechanical properties, heat resistance to enhance the product as well as panasonic SDR-H20 battery the application of environmental protection industry, a positive impact.

Investment to the PCB at both ends of an extension, which is an important trend in the industry chain. According to the China Association of epoxy resin industry experts, Kim Ik-ting invested 100 million yuan in Tianjin and the PCB to establish e-waste recycling plants; Huawei Hua Jian CCL sheet plant in Changshu; Hitachi Chemical invest 15 million U.S. dollars in Dongguan, the establishment of dry-film manufacturing plant, built old plants after a combined production capacity 10000 m2 / year panasonic CGR-D16S battery; solid Pao-teh, an area of 105 acres in Suzhou, the establishment of PCB factories, a 2 to 6 layers, capacity 36000 m2 / month, two for the LCD with the PCB, production capacity of 30000 m2 / month; Meiko Electronics invest 255 million U.S. dollars in Wuhan, plus all the Guangzhou plant is completed, PCB capacity of 9 million panasonic CGR-D08 battery m2 / year; New Young Group’s joint venture with the Suzhou Matsushita Electric Works, 1 billion yen, set up in Kunshan Flexible copper plate plant, “Song Yang Electronic Materials”, per month for non-adhesive copper foil for flex substrate 60000 m2 and 150,000 m2 of the protective film; Group invested 20 million yuan Changchun Zhangzhou in Fujian province to build “Changchun Chemical “for CCPPBT (positive ions poly butylene terephthalate acid) line of resins projects; & S invested panasonic NV-DS30 battery billions of dollars in Shanghai in August 2006 a second production plant NP-20; Tripod Wuxi in building four plants.

Man has long been on a quest for a better battery

Man has long been on a quest for a better battery
such as canon CV-11 battery. This has resulted in some less then ideal solutions, such as the potato battery (it was half baked) and the onion battery (too smelly). Finally, researchers at the University of Missouri have developed a smaller, more efficient, and hopefully radiation free nuclear canon BP-608 battery.

To be fair, there are already a few nuclear batteries around, but the problem with them is they break down rather quickly. This is due to the obvious problem of radioactivity causing the semiconductor to break down. The current versions of the nuclear canon ZR-CV battery are used in satellites and pacemakers.

Where the innovation comes in, is the size and how it’s made. The researchers have stated that their goal is to create a battery that is the size of a penny, using a liquid instead of a solid semiconductor. The long term goal, is to take the technology even farther to the newest canon NB-2LH battery, and create a nuclear battery that is smaller then the thickness of a human hair. Sounds like a great idea to me.

University of Missouri engineers are building a nuclear canon NB-2L battery the size of a penny. Their aim is to develop a long-lasting power source for tiny sensors, actuators, and labs-on-a-chip. While nuclear batteries sound, er, problematic, they’re actually relatively common in larger form factors to power pacemakers and instruments aboard space vehicles. From MU News Bureau:

(Professor Jae Kown’s) innovation is not only in the canon DM-MV30 battery’s size, but also in its semiconductor. Kwon’s battery uses a liquid semiconductor rather than a solid semiconductor.

“The critical part of using a radioactive battery (canon BP-512 battery) is that when you harvest the energy, part of the radiation energy can damage the lattice structure of the solid semiconductor,” Kwon said. “By using a liquid semiconductor, we believe we can minimize that problem.”

In the future, they hope to increase the battery’s power, shrink its size and try with various other materials. Kwon said that the canon BP-511 battery could be thinner than the thickness of human hair.