专利汇可以提供HIGH EFFICIENCY HIGH ENERGY HIGH FIRING RATE CD IGNITION专利检索,专利查询,专利分析的服务。并且An improved high efficiency, high energy, rapid firing capacitive discharge ignition system for internal combustion engines employing energy storage capacitor means (6) of capacitance Cp, one or more ignition coils Ti with associated switch means Si (5) which are preferably IGBT switches capable of being rapidly turned off, and associated shunt diode means Di (7) shunting the primary windings (3) of the coil Ti with side-by-side windings wound on a segmented bobbin (60) in a high efficiency configuration of thin magnetic laminations (61) and Litz wire, the ignition operating such that the switch Si is turned off prior to full discharge of the capacitor means allowing for rapid recharging of the capacitor from an initial voltage Vci of 30 % to 40 % of the capacitor voltage Vc, the ignition using a high efficiency high output power converter and selected values of Vc, capacitance Cp, and coil leakage inductance Lpe to produce an approximately 500 ma triangular distribution flow-resistant ignition spark discharge fired at a very rapid rate made possible by a high efficiency residual primary current diversion circuit, the ignition having a battery-to-spark efficiency two to three times that of other CD systems, or 60 % or greater with a spark energy output of 100 mJ or greater.,下面是HIGH EFFICIENCY HIGH ENERGY HIGH FIRING RATE CD IGNITION专利的具体信息内容。
标题 | 发布/更新时间 | 阅读量 |
---|---|---|
一种基于多孔导热材料的热管散热系统 | 2020-05-11 | 34 |
适用于高频磁耦合式无线充电系统的利兹线的制备方法 | 2020-05-13 | 89 |
三相AC电抗器及其制造方法以及马达驱动装置 | 2020-05-11 | 302 |
一种三电平与可调LCC谐振无线充电系统 | 2020-05-11 | 76 |
均匀矩形阵列下的全方向波束赋形设计方法 | 2020-05-12 | 601 |
核电压力容器接管组焊电磁感应加热装置及其使用方法 | 2020-05-14 | 573 |
一种巡检无人机高压电缆无线充电装置及方法 | 2020-05-15 | 406 |
一种无线传输网络补偿供电系统 | 2020-05-17 | 156 |
蜂窝形无线供能装置 | 2020-05-12 | 195 |
电刺激装置 | 2020-05-08 | 64 |
高效检索全球专利专利汇是专利免费检索,专利查询,专利分析-国家发明专利查询检索分析平台,是提供专利分析,专利查询,专利检索等数据服务功能的知识产权数据服务商。
我们的产品包含105个国家的1.26亿组数据,免费查、免费专利分析。
专利汇分析报告产品可以对行业情报数据进行梳理分析,涉及维度包括行业专利基本状况分析、地域分析、技术分析、发明人分析、申请人分析、专利权人分析、失效分析、核心专利分析、法律分析、研发重点分析、企业专利处境分析、技术处境分析、专利寿命分析、企业定位分析、引证分析等超过60个分析角度,系统通过AI智能系统对图表进行解读,只需1分钟,一键生成行业专利分析报告。