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Gigabyte ga-ma780g-ud3h.GA-MA780G-UD3H Desktop Motherboard

 

Gigabyte ga-ma780g-ud3h

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Additional Information.GA-MAG-UD3H (rev. ) Support | Motherboard – GIGABYTE U.S.A.

 

Gigabyte GA-MAG-UD3H – motherboard – ATX – Socket AM2+ – AMD G overview and full product specs on CNET. The GA-MAG-UD3H introduces revolutionary GIGABYTE Ultra Durable 3 technology on AMD platform with featuring 2 oz copper PCB and further helps to reduce the system temperature and dramatically enhance the performance. Lasting Quality from TE Ultra Durable™ motherboards bring together a unique blend of features and technologies that offer users the absolute GA-MAG-UD3H (rev. ) Support | Motherboard – GIGABYTE U.S.A.

 

Gigabyte ga-ma780g-ud3h.Gigabyte GA-MAG-UD3H – motherboard – ATX – Socket AM2+ – AMD G Specs – CNET

The GA-MAG-UD3H introduces revolutionary GIGABYTE Ultra Durable 3 technology on AMD platform with featuring 2 oz copper PCB and further helps to reduce the system temperature and dramatically enhance the performance. Gigabyte GA-MAG-UD3H – motherboard – ATX – Socket AM2+ – AMD G overview and full product specs on CNET. Lasting Quality from TE Ultra Durable™ motherboards bring together a unique blend of features and technologies that offer users the absolute GA-MAG-UD3H (rev. ) Support | Motherboard – GIGABYTE U.S.A.
 
 
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Gigabyte GA-MA780G-UD3H – motherboard – ATX – Socket AM2+ – AMD 780G Specs
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GA-MAG-UD3H (rev. ) Support | Motherboard – GIGABYTE Global
Panasonic sets new record for electricity density

According to a source citing Matsushita Electric Industrial (Panasonic), the company managed to achieve a record energy density for lithium-ion batteries – 600 W * h / L.

An increase in energy density was achieved due to the use of a more complex composition of the positive electrode (as far as can be understood in machine translation from Japanese, the composition contains oxides of cobalt, aluminum and nickel). The new technology is said to create batteries that are about 15% more powerful than traditional technology. Charge voltage is 4.2V, same as previous versions of Panasonic batteries.

The new batteries are expected to go into production in October and are likely to find use in laptops and cell phones.

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