搜索资源列表
wireless
- Example: Distributed Wireless Control System,可用于无线传感器网络中-This example shows distributed control of a DC-servo using communication over a wireless network. The example also shows how to simulate power consumption and how to use the battery block.
PTC_SER
- 串联式混合动力电动汽车的能量控制策略,恒温控制策略,当电池SOC在合适范围内依靠电机驱动,发动机关闭与否取决于汽车行驶所需要的能量。低于SOC下限时,依靠发动机驱动,多余能量为蓄电池充电。高于上限时关闭发动机依靠电机驱动。-Series Hybrid Electric Vehicle Control Strategy of energy, constant temperature control strategy, when the battery SOC at the right to rel
spsBatteryModel
- 常用的铅酸蓄电池mdl模型,参数按照标准电池参数设定欢迎下载-Mdl model commonly used lead-acid batteries, battery parameters in accordance with the standard parameter settings are welcome to download
Battery_Dual_DCDC
- 基于Matlab simulink的蓄电池双向DCDC控制模型-Battery bidirectional DCDC control model based on Matlab simulink
BATTERY-SOC
- 蓄电池核电状态的评估,与MATLAB仿真-This article the lithium ion power battery current- voltage response , through the experiment analyzes the FreedomCar battery model existing shortcomings, puts forward improvement on its, and prove the feasibility of the improv
battery-based-on-grid
- 储能电池在电网备用中的matlab图解 清晰展示了电池如何控制及如何与电网连接-battery is connected to grid through 3-phase inverter. PI based controller is developed for control of inverter according to Line to Line voltage of grid. and load is connected in between grid and battery. 100K
PVMPPT
- 运用MATLAB中Simulink仿真实验平台和友好的GUI界面,在Simulink中设计光伏电池数学模型,并实现最大功率点追踪;在GUI中设计可直接修改光伏电池参数的界面,探究光伏电池输出功率的影响因素,将结果在GUI界面上统一输出,最终直观得出各因素对光伏电池功率输出的影响。-This paperdesigneda mathematical model of photovoltaic cells in Simulink ,achieved its maximum power point tr
battery-microgrid
- 在matlab的基础上,仿真带有蓄电池的,由多台逆变器组成的微电网-Simulation of microgrid composed of muotiple inverters based on matlab with battery
chargerall
- 搭建了一个基于锂电池看的SOC 模型 原理清晰(Set up a model of SOC based on lithium battery to see clear principles)
PV
- 基于数学模型搭建的光伏电池模型,可以测量PU、UI特性曲线,电池模型内部参数可调(Based on the mathematical model to build the photovoltaic cell model, you can measure the PU, UI characteristic curve, the battery model internal parameters adjustable)
soc_kalman
- 电动汽车锂离子动力电池SOC估计模型,基于电化学模型技术的卡尔曼滤波算法(SOC estimation model of Li ion power battery for electric vehicle and Calman filtering algorithm based on electrochemical model technique)
RUL of battery based on PF
- 粒子滤波算法预测电池寿命。包括电池容量数据和MATLAB程序。(The RUL prediction of battery based on partical filter. Including battery capacity data and matlab code.)
微电网蓄电池模型
- matlab编程,对微电网下储能电池模型建模(Modeling of energy storage battery model under microgrid based on MATLAB programming)
SOC估算
- 基于卡尔曼滤波器的锂电池SOC预测,通过仿真并得到印证,证明了方法的可行性。(SOC prediction of lithium battery based on Calman filter)
上传文件
- 基于遗传算法进行戴维宁电池模型的参数辨识。(Parameter Identification of Thevenin Battery Model Based on Genetic Algorithm.)
电动汽车SOC估计算法
- 在安时计量方法的基础上, 采用基于折算库仑效率的卡尔曼滤波算法估计蓄电池荷电状态(SOC),并 将此方法应用于 HEV6580混合动力电动汽车镍氢电池管理系统。系统实现的功能包括: 数据监测、数据显示、CAN 通信、SOC估计、热管理和安全报警。经电池试验台模拟工况试验验证, 电池管理系统各子系统达到设计要求且工 作稳定。改进 SOC估计方法解决了传统安时计量法不能估计初始 SOC、难于准确测量库仑效率的问题, 为电池管 理系统稳定工作提供保证(Based on the countin
three_phase_charge
- 完成进行三段式充电仿真,模拟电池充电过程,实现充电管理(to carry on charging as to simulate battery to charge)
parallel_battery_SC_boost_converter
- 基于simulink环境搭建的超级电容、蓄电池混合储能仿真模型(Hybrid energy storage simulation model of super capacitor and battery based on Simulink environment)
基于_matlab_的光伏电池半物理仿真系统的研究
- 基于matlab的光伏电池半物理仿真系统的研究 本文从原理上得出简化的光伏电池板数学模型,并分析了在阴影条件下光伏电池板的运行规律,并加以改善,从而得到比较完善的光伏电池板模型。将光伏电池模型在 Matlab/Simulink 中建模并仿真,在 PC机上得出光伏电池 V-I,V-P 特性。最后将 PC 机上 Matlab/Simulink 建立的光伏电池模型通过 AD/DA 板卡于外界真实量交互,为在 Matlab/Simulink 上搭建光伏系统能量提供部分的半物理仿真提出了可行性和合理性。
LIONSIMBA-master
- 该代码为基于MATLAB编制的锂离子电池伪二维模型(This code is a pseudo two-dimensional model of lithium ion battery based on MATLAB.)