由罗杰斯公司发布
高弹体材料解决方案
Twelve countries around the globe have set goals to end the sale of gas- and diesel-powered vehicles starting in 2040. 这将大大加快电动汽车 (EV) 和混合动力汽车 (HEV) 的普及。而对于用于监控高压电池组的经改良电池管理系统,以及用于电池管理、车载充电、信息娱乐、电动机等的功率半导体芯片的需求也将增加。
For EVs and HEVs, the introduction of high-voltage, high-density batteries, and fast chargers increases heat generation in battery packs. Higher power densities allow for smaller and lower cost hybrid batteries. But battery manufacturers need to design for higher powers and higher densities using optimized cell chemistries and specialty materials.
Li-ion batteries have high energy per unit mass relative to other electrical energy storage systems, as well as a high power-to-weight ratio, high energy efficiency, and good high-temp performance. But there are safety concerns, as witnessed by the Samsung Galaxy Note 7 smartphone recall. Li-ion based systems need to ensure they don’t overheat or malfunction, such as from thermal runaway – when a sequence of exothermic reactions takes place within a cell, leading to overheating and potentially resulting in an explosion. Also, they contain cobalt and nickel, which are costly and toxic.
Li-S batteries pack two to three times more energy than their Li-ion counterparts. They’re also less prone to overheating, which means they don’t need the complex control systems that keep Li-ion batteries from erupting in flames when overcharged or overtaxed. Increased safety and the fact that sulfur is abundant and cheap means Li-S power packs would be much less expensive to produce than Li-ion batteries. Unfortunately, Li-S batteries don’t hold a charge for long.
Iron-air batteries have been around for decades, but they suffered from extreme inefficiency, losing half their power to a side reaction that produces hydrogen. Researchers have reduced the loss to 4 percent, bringing the technology closer to practical use.
Flow batteries are thought to be the answer for large-scale, grid storage. Car manufacturers are thinking about putting them in vehicles because they are headed for $100 per kWh and their size and weight might fit. They don’t age the way solid batteries do; there are no electrodes to break down over time. They’re also flexible. The solutions can undergo recharging—by a renewable energy source, for instance—or they can simply be replaced with fresh, fully charged solutions.
Solid-state batteries provide substantially higher energy than conventional Li-ion batteries that rely on liquid-based electrolytes. In fact, as much as two to three times more energy. Solid-state batteries can also lower costs due to the potential for eliminating many of the expensive safety features typically associated with Li-ion systems. But solid-state electrolytes are expensive to make…for now.
Batteries, especially those in vehicles, need to be packaged to absorb internal impact energy. PORON® polyurethane and BISCO® silicone materials‘ Compression Set Resistance (C-set) withstands collapse due to the stresses of compression and temperature over time. 这可以通过持续密封和减震来延长电池的使用寿命。
Sensitive electronics need to be packaged to withstand the elements and function in all environments. Safety can be a concern as severe damage is possible – electrical shock or explosion – if a battery pack is not properly sealed. Gaskets based on BISCO® silicone materials seal the interface where a battery is plugged into an electrical grid and provide exceptional UV resistance and cold temperature flexibility. PORON® polyurethanes offer an economical alternative.
In battery technology, semiconductors serve critical functions: boosting performance, reducing power losses, and optimizing thermal management.
Rogers’ ROLINX® busbars act as power distribution “highways.” These laminated busbars provide a customized power liaison for connecting battery cells or interconnecting between battery packs. The busbars can integrate both power and signal lines, including, for example, temperature measurement.
In IGBT and MOSFET power modules, substrates provide connections and cool components. curamik® ceramic substrates are able to carry higher currents, provide higher voltage isolation, and operate over a wide temperature range.
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燃油汽车与电动/混合动力汽车
发布于 2018 年 1 月 17 日
