Because of the different materials used, the solid-state capacitor is less affected by temperature, and the motherboard is more stable after using solid-state capacitor, which is not easily affected by high temperature caused by long-term operation. Solid-state capacitors also have the characteristics of low impedance, which can not only make the motherboard obtain good capacitance performance, but also reduce the extra loss of electric energy, thus reducing the ambient temperature.
Solid-state capacitors are characterized by low temperature and are not easily affected by thermal expansion and cold contraction. The life of solid-state capacitors is incomparable to that of ordinary liquid capacitors. Generally speaking, under the working environment of 65℃, the service life of solid capacitors can be as high as 200,000 hours (about 23 years), while that of liquid capacitors is 32,000 hours (3.5 years). The service life of a solid capacitor is six times that of a common liquid capacitor. Even if it works at 85℃ for a long time, the life of solid-state capacitors is usually more than 20,000 hours (more than 2 years).
After the success of the ultra-durable generation in the market, various manufacturers began to follow suit and adopt all-solid-state capacitors. At this point, Gigabyte did not stop moving forward. In May, 2007, it introduced the super durable second-generation technology. On the basis of the ultra-durable generation, it not only continues the ultra-low ESR solid-state capacitor, but also strengthens the components around the CPU of the motherboard, using high-quality ferrite core choke inductor and low-resistance transistor (low RDS(on) MOSFET). In the material design, once again achieved the same industry leading.
Gigabyte's second generation ultra-endurance is mainly composed of three elements: low-resistance transistor (low RDS(on) MOSFET), ferrite core choke and all-Japan solid-state capacitor. Through this high-order, high-quality electronic components, the power module can be charged and discharged more efficiently, and then the system is more stable, lower in temperature, more durable and more powerful in overclocking ability.
Low resistance transistor-reduce operating temperature
Low rds (on) transistor has low electrical impedance, which can save the use of electric energy and reduce the generation of excess heat.
Ferrous salt core inductance saves power consumption
Ferrite core choke has excellent power conversion efficiency, better energy storage efficiency than traditional core inductor, and can also reduce power loss at high frequency.
All-Japan Solid State Capacitors-Long Service Life
The dielectric material of solid capacitor (solid aluminum electrolytic capacitor) is a kind of functional conductive polymer, which has excellent characteristics such as low impedance, high and low temperature stability and high ripple resistance, and can make the system have a longer service life.
Following the introduction of the first and second generation ultra-durability, Gigabyte also introduced dynamic energy-saving technology; However, Gigabyte's technological innovation time and time again is the basis for building a more perfect motherboard. In 2008, Gigabyte introduced three series of ultra-durable motherboards. The third generation ultra-durable motherboard includes the first and second generation all-Japan solid-state capacitors, ferrite core inductors and low-impedance transistors, and has a long life of 50,000 hours. More importantly, twice the amount of pure copper is added to the power layer and ground layer of PCB. This design is unprecedented in the motherboard industry, and Gigabyte is once again at the forefront of the motherboard industry.
On traditional motherboards, each signal layer and power/ground layer is 1 oz pure copper. Gigabyte's third-generation ultra-durable motherboard design doubled the amount of pure copper in the traditional power/ground layer, that is, each layer was designed with 2 ounces of pure copper. This is also the most unique place of the ultra-durable third-generation motherboard. From the motherboard of P45 chip, the ultra-durable third-generation technology has been widely used in Gigabyte.
What are the benefits of 2 ounces of copper PCB to the motherboard? Double pure copper per layer can bring better heat dissipation effect to the motherboard, and heat can be evenly distributed to the whole motherboard PCB in the area where heat is easy to accumulate on the motherboard. Gigabyte has proved through experiments that the performance of the third generation ultra-durable motherboard in Gigabyte can be about 50°C lower than that of the motherboard using traditional PCB.
In addition, the inner 2 oz pure copper circuit board can reduce the impedance value of PCB by 50%, and effectively measure the impedance of current. The smaller the current impedance value, the smaller the power consumption. "Gigabit Third Generation Super Durable Motherboard" can reduce the power consumption of PCB by 50%, and correspondingly reduce the generation of heat energy. The inner 2 oz pure copper circuit board can provide better signal quality, thus greatly improving the execution efficiency and overclocking stability of the motherboard. The 2-ounce pure copper circuit board can also improve signal integrity and reduce electromagnetic interference through an effective grounding layer.
In addition, Gigabyte Super Durable III technology also designed a simple energy saver for AMD AM2+ and the latest AM3 CPU. This economizer provides a simple and easy-to-understand interface. Users can easily operate the economizer switch button and the three-stage CPU automatic voltage adjustment button, which can save complicated setup or tuning procedures, and then accurately control CPU power consumption at any time. With AMD AM2+ and the latest 45nm AM3 CPU, Gigabyte Easy Energy Saving will automatically adjust the power supply according to the CPU load, avoid unnecessary energy waste, achieve the best energy efficiency and easy energy saving, and then achieve a better power saving state without affecting the system stability.
After three generations, Gigabyte's industry-leading four generations are super durable? Technology keeps users of Gigabyte motherboard away from the threats of daily life environment, such as humidity, static electricity, surge and high working temperature.
Moisture-proof-The PCB of Gigabyte motherboard is an open fiber PCB. Reduce the corrosion of circuit board caused by moisture, and reduce the possibility of short circuit of unknown motherboard caused by moisture.
High-temperature-resistant all-solid-state capacitors and ultra-low resistance transistor all-solid-state capacitors can not only reduce the temperature of the motherboard, but also have better high-temperature resistance. With the help of low-resistance transistors, your computer is more stable, more durable and lower in temperature than traditional transistors and capacitors.
Lightning protection-surge protection chip and patented dual BIOS
Gigabyte's full range of the fourth generation ultra-durable classic motherboards, equipped with exclusive dual BIOS technology, provides the best computer BIOS protection, and will automatically repair the BIOS damage or update failure caused by power jump. And the motherboard is equipped with a special anti-surge IC chip, which can protect the computer and motherboard from current surge and ensure that the computer will not be hurt by current supply or sudden voltage instability!
Antistatic-anti-static chip
Gigabyte's fourth-generation ultra-durable classic motherboard adopts high-quality ic chips, which has better anti-static effect than traditional chips.
Five generations are super durable? Technology, using components with ultra-high current tolerance, including the industry's highest rated current tolerance of 60 amps, IR3550 PowIRstage? Chip, this product can provide the best power supply for the processor, which not only strengthens its record-breaking performance, but also has the characteristics of low temperature, high efficiency and long service life of the motherboard.
Super durable through five generations? Thanks to this technology, the quality and durability of the motherboard will be improved again. This technology uses high rated current components in the power supply area of the processor, including the IR3550 PowIRstage, which won the highest media evaluation recommendation award. Chip, double-layer copper circuit board and ferrite inductor that can handle 60 amps ultra-high current will provide 60 degrees * lower temperature performance than the motherboard designed by traditional power supply. This new technology will be applied to carefully selected Intel? X79 and Z77 chipsets are new motherboards, and Gigabyte V is super durable? Technology is the next development of high quality motherboard design.