The .pensation Of A Switch Mode Power Supply-97179

Hardware A Switch mode power supply works on the principle of superior efficiency. The benefit of the switch mode is its lighter weight and reduced size. Saving weight and reducing size is crucial to lower shipping costs when they are distributed improving. The Switch Mode Power is designed to be a more efficient Unit running much cooler and draws less current which is beneficial all round. A switch-mode power supply creates DC from the AC mains power using transistor switches and other .ponents. As we know from experience of older power adapters, amps of high power tend to be quite heavy. One of the main factors in the increased weight is the iron in the transformer. Older designed transformers had to be large to avoid saturation at the 50 Hz or 60 Hz frequency of the AC supply. That issue resulted in poor performance at that lower frequency range. The switch mode power supply amplifier wastes very little power in the form of heat. Most of the in.ing AC power is converted to amplifier output power. How does that happen? Well, remember from Ohm’s Law that voltage times current equals power. When the voltage or current in a device is zero, so is the power. The switching or "chopping" transistors produce no current when they are switched off, and produce no voltage when switched on, so they generate very little power as heat. This results in a highly efficient power supply. Therefore we have learned that the switch mode power adapter is the primary choice for most manufacturers. There is but one disadvantage for the end user. The switch mode power works on more .plicated circuitry. If they fail there is not much likelihood of repair due to the specialized nature and costs. Most quality made PSU’s are very reliable and can last for years so a small disadvantage for a superior product. While adding add-on cards or other .ponents on a .puter, a technician should make sure that the power supply is not overloaded. Most of the time the power supply is overloaded by filling up the expansion slots and adding more hard disk or CD-ROM drives. Todays processors may also have high current requirement for the +5v or +3.3v supplies. Therefore, when selecting an SMPS for a .puter, technicians should have future system upgrades in mind. In case of a defect or problem with power supply, it is not re.mended that an inexperienced user open a power supply for repairing. The power supply has dangerously high voltage. Even after unplugging, power supplies can retain dangerous voltage and must be discharged (like a monitor) before servicing it. These internal repairs are not re.mended unless the technician is specially trained to repair such .ponents. Appreciation to switching power supplies, we can get clean well-.anized influence for our Electronic substance in a light and efficiently considered package. About the Author: 相关的主题文章: