Commit for R2023a

Author: JiteshJhaIN

Components/BatteryHV/BatteryPlantModel_Table.slx

@@ -37,7 +37,7 @@
 
 %% Documentation
 % 
-% * <matlab:open('BatteryElectricVehicleModelOverview.html') Battery Electric Vehicle Model>
+% * <matlab:web('BatteryElectricVehicleModelOverview.html') Battery Electric Vehicle Model>
 % * <matlab:open('PMSMmotorTestBenchDescription.mlx') PMSM Thermal Model>
 % 
 

Components/Vehicle/VehicleElec.slx

@@ -6,7 +6,7 @@
    <!--
 This HTML was auto-generated from MATLAB code.
 To make changes, update the MATLAB code and republish this document.
-      --><title>Electric Vehicle Design with Simscape&#8482;</title><meta name="generator" content="MATLAB 9.14"><link rel="schema.DC" href="http://purl.org/dc/elements/1.1/"><meta name="DC.date" content="2023-09-22"><meta name="DC.source" content="ElectricVehicleDesignOverview.m"><style type="text/css">
+      --><title>Electric Vehicle Design with Simscape&#8482;</title><meta name="generator" content="MATLAB 9.14"><link rel="schema.DC" href="http://purl.org/dc/elements/1.1/"><meta name="DC.date" content="2023-11-08"><meta name="DC.source" content="ElectricVehicleDesignOverview.m"><style type="text/css">
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@@ -67,8 +67,7 @@
 
 
 
-  </style></head><body><div class="content"><h1>Electric Vehicle Design with Simscape&#8482;</h1><!--introduction--><p>This repository contains model and code to help engineers design battery electric vehicle (BEV), including range estimation and battery sizing workflows.</p><!--/introduction--><h2>Contents</h2><div><ul><li><a href="#1">Overview</a></li><li><a href="#3">Design Workflows</a></li><li><a href="#4">Documentation</a></li><li><a href="#5">Models</a></li><li><a href="#7">Acronyms</a></li></ul></div><h2 id="1">Overview</h2><p>Battery electric vehicles (BEV) are gaining popularity as the prices of battery cells fall and the consumer demand for a clean mobility solution increases. The key challenges in their adoption lie in addressing the vehicle range anxiety, safety, and the total ownership cost for the consumer. Li-ion based batteries and electric drivetrains with permanent magnet synchronous motors (PMSM) and/or induction motors power modern BEV systems. Modeling and simulation helps you design vehicles that meet the desired range on the road and perform under all environmental conditions. Virtual design of a BEV platform requires a coupled electro-thermal system model for performance evaluation. In this example repository, you <b>learn how to simulate a BEV AWD/FWD model to estimate its on-road range</b>. You also <b>learn how to size your HV battery pack</b> to achieve your desired range with the vehicle.</p><pre class="codeinput">open_system(<span class="string">'BEVsystemModel'</span>)
-</pre><img vspace="5" hspace="5" src="ElectricVehicleDesignOverview_01.png" alt=""> <h2 id="3">Design Workflows</h2><div><ul><li><a href="matlab:open('BEVRangeEstimationMain.mlx')">Range Estimation for Battery Electric Vehicles</a></li><li><a href="matlab:open('BEVBatterySizingMain.mlx')">Sizing Battery for Electric Vehicles</a></li><li><a href="matlab:open('BatteryNeuralNetModel.mlx')">Battery Neural Network Model for Temperature Prediction</a></li><li><a href="matlab:open('PMSMmotorTestBench.mlx')">PMSM Thermal Test Bench for Battery Electric Vehicle (BEV)</a></li></ul></div><h2 id="4">Documentation</h2><div><ul><li><a href="matlab:open('BatteryElectricVehicleModelOverview.html')">Battery Electric Vehicle Model</a></li><li><a href="matlab:open('PMSMmotorTestBenchDescription.mlx')">PMSM Thermal Model</a></li></ul></div><h2 id="5">Models</h2><div><ul><li><a href="matlab:open_system('BEVsystemModel.slx')">Battery Electric Vehicle</a></li></ul></div><h2 id="7">Acronyms</h2><div><ul><li>BEV   : Battery Electric Vehicle</li><li>PMSM : Permanent Magnet Synchronous Motor</li><li>AWD   : All Wheel Drive</li><li>FWD   : Forward Wheel Drive</li></ul></div><p class="footer">Copyright 2022 - 2023 The MathWorks, Inc.<br><a href="https://www.mathworks.com/products/matlab/">Published with MATLAB&reg; R2023a</a><br></p></div><!--
+  </style></head><body><div class="content"><h1>Electric Vehicle Design with Simscape&#8482;</h1><!--introduction--><p>This repository contains model and code to help engineers design battery electric vehicle (BEV), including range estimation and battery sizing workflows.</p><!--/introduction--><h2>Contents</h2><div><ul><li><a href="#1">Overview</a></li><li><a href="#3">Design Workflows</a></li><li><a href="#4">Documentation</a></li><li><a href="#5">Models</a></li><li><a href="#7">Acronyms</a></li></ul></div><h2 id="1">Overview</h2><p>Battery electric vehicles (BEV) are gaining popularity as the prices of battery cells fall and the consumer demand for a clean mobility solution increases. The key challenges in their adoption lie in addressing the vehicle range anxiety, safety, and the total ownership cost for the consumer. Li-ion based batteries and electric drivetrains with permanent magnet synchronous motors (PMSM) and/or induction motors power modern BEV systems. Modeling and simulation helps you design vehicles that meet the desired range on the road and perform under all environmental conditions. Virtual design of a BEV platform requires a coupled electro-thermal system model for performance evaluation. In this example repository, you <b>learn how to simulate a BEV AWD/FWD model to estimate its on-road range</b>. You also <b>learn how to size your HV battery pack</b> to achieve your desired range with the vehicle.</p><img vspace="5" hspace="5" src="ElectricVehicleDesignOverview_01.png" alt=""> <h2 id="3">Design Workflows</h2><div><ul><li><a href="matlab:open('BEVRangeEstimationMain.mlx')">Range Estimation for Battery Electric Vehicles</a></li><li><a href="matlab:open('BEVBatterySizingMain.mlx')">Sizing Battery for Electric Vehicles</a></li><li><a href="matlab:open('BatteryNeuralNetModel.mlx')">Battery Neural Network Model for Temperature Prediction</a></li><li><a href="matlab:open('PMSMmotorTestBench.mlx')">PMSM Thermal Test Bench for Battery Electric Vehicle (BEV)</a></li></ul></div><h2 id="4">Documentation</h2><div><ul><li><a href="matlab:web('BatteryElectricVehicleModelOverview.html')">Battery Electric Vehicle Model</a></li><li><a href="matlab:open('PMSMmotorTestBenchDescription.mlx')">PMSM Thermal Model</a></li></ul></div><h2 id="5">Models</h2><div><ul><li><a href="matlab:open_system('BEVsystemModel.slx')">Battery Electric Vehicle</a></li></ul></div><h2 id="7">Acronyms</h2><div><ul><li>BEV   : Battery Electric Vehicle</li><li>PMSM : Permanent Magnet Synchronous Motor</li><li>AWD   : All Wheel Drive</li><li>FWD   : Forward Wheel Drive</li></ul></div><p class="footer">Copyright 2022 - 2023 The MathWorks, Inc.<br><a href="https://www.mathworks.com/products/matlab/">Published with MATLAB&reg; R2023a</a><br></p></div><!--
 ##### SOURCE BEGIN #####
 %% Electric Vehicle Design with Simscape(TM)
 % 
@@ -109,7 +108,7 @@
 
 %% Documentation
 % 
-% * <matlab:open('BatteryElectricVehicleModelOverview.html') Battery Electric Vehicle Model>
+% * <matlab:web('BatteryElectricVehicleModelOverview.html') Battery Electric Vehicle Model>
 % * <matlab:open('PMSMmotorTestBenchDescription.mlx') PMSM Thermal Model>
 % 
 

Components/Vehicle/VehicleElectroThermalLoTp.slx

@@ -0,0 +1,3 @@
+% Copyright 2022 - 2023 The MathWorks, Inc.
+
+web('BatteryElectricVehicleModelOverview.html')