Devised by a research team from the University of "Southern California" America a new battery made of lithium can be fully charged within ten minutes.
The site said "Tech Hove" mail on news of technology "that the new battery contains inside a nanowire made of silicon flexible and wide pores. And post new material apparently increasing battery power tripled, and also allow the battery to bear about two thousand cycle charger before be disrupted for work. "
It is worth mentioning that the lithium batteries currently used can be shipped between 500 to 1000 times just before that disrupted work. The problem for the technology lithium batteries currently used in it consists of thin slices of material graphite or silicon, which allows the movement of charged ions inside every time you charge the battery or unloading cargo, and with repetition times loading and unloading and movement of ions across segments graphite or silicon, begins These slides in decomposition thereby decline in battery performance.
To remedy this problem, a team of researchers experience tiny silicon wires that have been designed accurate Bmsam allow spillover and shrinking silicon without refraction of these wires, as well as the movement of lithium ions within the battery at a higher speed which increases efficiency.
In the same context, revealed by researchers at the University of Spanish "they have developed a new system can improve the accuracy of GPS sites (LG. Me. Feed) so that it can determine the geographical coordinates within cities accuracy ranging between 5 t 3 to 5 t 6 feet."
The Tech Hove "that the new system, devised by a team of researchers from the University of Carlos III in the Spanish capital Madrid, and still in the process of experience, integrates signals obtained from the traditional system of GPS with other data received from the sensors, such as measuring devices rates of acceleration and gyroscope" .
The system can feed this information to correct any errors in the geographic coordinates which increases the accuracy of the GPS.
The prototype can be installed from the system in any type of car, and involves precise positioning within cities is of extreme importance to the team of researchers who use this technique to create a smart car.
The site said "Tech Hove" mail on news of technology "that the new battery contains inside a nanowire made of silicon flexible and wide pores. And post new material apparently increasing battery power tripled, and also allow the battery to bear about two thousand cycle charger before be disrupted for work. "
It is worth mentioning that the lithium batteries currently used can be shipped between 500 to 1000 times just before that disrupted work. The problem for the technology lithium batteries currently used in it consists of thin slices of material graphite or silicon, which allows the movement of charged ions inside every time you charge the battery or unloading cargo, and with repetition times loading and unloading and movement of ions across segments graphite or silicon, begins These slides in decomposition thereby decline in battery performance.
To remedy this problem, a team of researchers experience tiny silicon wires that have been designed accurate Bmsam allow spillover and shrinking silicon without refraction of these wires, as well as the movement of lithium ions within the battery at a higher speed which increases efficiency.
In the same context, revealed by researchers at the University of Spanish "they have developed a new system can improve the accuracy of GPS sites (LG. Me. Feed) so that it can determine the geographical coordinates within cities accuracy ranging between 5 t 3 to 5 t 6 feet."
The Tech Hove "that the new system, devised by a team of researchers from the University of Carlos III in the Spanish capital Madrid, and still in the process of experience, integrates signals obtained from the traditional system of GPS with other data received from the sensors, such as measuring devices rates of acceleration and gyroscope" .
The system can feed this information to correct any errors in the geographic coordinates which increases the accuracy of the GPS.
The prototype can be installed from the system in any type of car, and involves precise positioning within cities is of extreme importance to the team of researchers who use this technique to create a smart car.
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