Systems thinking project
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Introduction
There is little difference in how a laptop battery works and how other device batteries work. The batteries that power your portable CD players, radios, camcorders etc. are more or less the same except that a laptop battery is more intelligent if you can call it that. Just like the rest of the batteries, laptop batteries too come in different shapes and sizes with the addition to a complex electronic circuit that works in conjunction with the laptop hardware. This electronic circuit manages the power that flows into the battery while recharging and the power that flows out of each cell of the battery while discharging, a feature that is not included in ordinary rechargeable batteries for other household devices. Just like any other battery there are cells inside a laptop battery. Each cell is typically 1.5 volts and a number of cells are arranged in series and connected in parallel to deliver optimum power to the laptop or device. A number of cells are connected together to form a a battery. Connecting a number of cells in parallel means to connect all the negative terminals to each other and positive terminals likewise this increases the power delivering capacity of the battery but not the voltage. Then a number of these batteries are connected in series (negative to positive terminals to raise the voltage). This is done to optimize the voltage level of the battery. These cells are controlled by an internal electronic circuit in the battery. The internal electronic regulator is the unique property of a laptop battery. This circuit regulates the flow of charge into and out of each internal cell in the battery thus ensuring that each cell has an equal charge at all time in turn ensuring the optimum use and long life of each cell. It also ensures that the cells do not over charge. The plates of each cell react with the electrolyte (chemical/acid) in the battery causing a flow of electrons from the negative to positive terminals and a flow of ions from the positive to the negative terminal this is the flow of current as we know it. This flow continues until the electrolyte loses its acidity. When the battery is charged the ions are restored to their place in the cell and the electrolyte regains its acidity ready to generate electricity in the cell once again. This process is always the same irrespective of the type of battery. The process of charging or discharging of the battery is controlled by hardware built into your laptop. This hardware ensures the proper functioning of the cells in the battery and warns you of the tile left before you need to recharge the battery. This indicator is displayed in the right bottom corner of the screen in most notebooks or laptops. Though the laptop battery is rechargeable, like everything it does have a life span and cannot go on serving you for eternity. Proper care will ensure that the battery lasts longer than it would without the proper care. A battery will normally last between 500-700 charge cycles before it will need to be replaced with a new one. The number of charge cycles of the battery will depend on the usage of the laptop. The more often you need to charge your laptop the sooner you will have to replace battery. Every laptop model is designed to suit a particular function and so is the battery designed to match the power requirements of the laptop. The design of the battery depends on the weight and size of the laptop. A small light-weight laptop will have its design defeated if the battery weighs more than the laptop itself, so the battery has to be designed to suit the model of the laptop. A smaller battery means that each time you charge your computer, you consume less electricity. It's fairly simple math, really. When you charge your laptop from empty to full, you need 30W of power if the battery is 30W. The product's shallow self-power drain and lack of memory effect, which is present in nickel-cadmium and nickel-metal hydride batteries, are what make it so beautiful. It has a high energy density most importantly. So, compared to other laptop batteries, lithium batteries are far better. Between two and four years (approximately 1,000 full charges), lithium-ion laptop batteries have the highest cycle count when compared to other notebook batteries. Additionally, they charge other batteries considerably more quickly. The lithium-ion batteries charge more fast, achieve 80% charge quickly, and then slow down to trickle charge after that. The battery life will be extended by 20% delayed charging. The lifespan of a laptop depends on the battery type, usage, and maintenance. Usually, laptop batteries last between two and four years. But the laptop battery’s performance degrades after about 1-2 years or 300-500 charge cycles. When the battery starts failing, you need to replace it with a new battery. Download 279.22 Kb. Do'stlaringiz bilan baham: 
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