Acerca de este Curso
3.3
3 calificaciones
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Fechas límite flexibles

Fechas límite flexibles

Restablece las fechas límite en función de tus horarios.
Nivel intermedio

Nivel intermedio

Hours to complete

Aprox. 19 horas para completar

Sugerido: 5 hours/week...
Available languages

Inglés (English)

Subtítulos: Inglés (English)...
100% online

100% online

Comienza de inmediato y aprende a tu propio ritmo.
Fechas límite flexibles

Fechas límite flexibles

Restablece las fechas límite en función de tus horarios.
Nivel intermedio

Nivel intermedio

Hours to complete

Aprox. 19 horas para completar

Sugerido: 5 hours/week...
Available languages

Inglés (English)

Subtítulos: Inglés (English)...

Programa - Qué aprenderás en este curso

Semana
1
Hours to complete
4 horas para completar

Defining an equivalent-circuit model of a Li-ion cell

In this module, you will learn how to derive the equations of an equivalent-circuit model of a lithium-ion battery cell....
Reading
9 videos (Total: 138 min), 13 readings, 8 quizzes
Video9 videos
2.1.2: How do we model open-circuit voltage (OCV) and state-of-charge (SOC)?21m
2.1.3: How do we model voltage polarization?14m
2.1.4: What is a "Warburg impedance" and how is it implemented?14m
2.1.5: How do I convert a continuous-time model to a discrete-time model?24m
2.1.6: What is a quick way to get approximate model parameter values?18m
2.1.7: What is hysteresis in a lithium-ion cell and how can I model it?22m
2.1.8: Summarizing an equivalent-circuit model of a lithium-ion cell9m
2.1.9: Summary of "Defining an ECM of a Li-ion cell" and next steps5m
Reading13 lecturas
Notes for lesson 2.1.11m
Frequently Asked Questions5m
Course Resources5m
How to Use Discussion Forums5m
Earn a Course Certificate5m
Notes for lesson 2.1.21m
Notes for lesson 2.1.31m
Notes for lesson 2.1.41m
Notes for lesson 2.1.51m
Notes for lesson 2.1.61m
Notes for lesson 2.1.71m
Notes for lesson 2.1.81m
Notes for lesson 2.1.91m
Quiz8 ejercicios de práctica
Practice quiz for lesson 2.1.210m
Practice quiz for lesson 2.1.310m
Practice quiz for lesson 2.1.410m
Practice quiz for lesson 2.1.510m
Practice quiz for lesson 2.1.610m
Practice quiz for lesson 2.1.710m
Practice quiz for lesson 2.1.810m
Quiz for week 130m
Semana
2
Hours to complete
4 horas para completar

Identifying parameters of static model

In this module, you will learn how to determine the parameter values of the static part of an equivalent-circuit model....
Reading
6 videos (Total: 85 min), 7 readings, 6 quizzes
Video6 videos
2.2.2: What cell tests are needed to determine open-circuit voltage?14m
2.2.3: How to determine a cell's coulombic efficiency and total capacity18m
2.2.4: How do I determine a cell's temperature-dependent OCV?19m
2.2.5: Introducing Octave code to determine static part of ECM20m
2.2.6: Summary of "Identifying parameters of static model" and next steps2m
Reading7 lecturas
Notes for lesson 2.2.11m
Notes for lesson 2.2.21m
Notes for lesson 2.2.31m
Notes for lesson 2.2.41m
Notes for lesson 2.2.51m
Introducing a new element to the course!10m
Notes for lesson 2.2.61m
Quiz6 ejercicios de práctica
Practice quiz for lesson 2.2.110m
Practice quiz for lesson 2.2.26m
Practice quiz for lesson 2.2.310m
Practice quiz for lesson 2.2.410m
Practice quiz for lesson 2.2.510m
Quiz for week 230m
Semana
3
Hours to complete
5 horas para completar

Identifying parameters of dynamic model

In this module, you will learn how to determine the parameter values of the dynamic part of an equivalent-circuit model....
Reading
9 videos (Total: 158 min), 9 readings, 7 quizzes
Video9 videos
2.3.2: How are cell data used to find dynamic-model parameter values?34m
2.3.3: Introducing Octave code to determine dynamic part of an ECM33m
2.3.4: Introducing Octave toolbox to use ECM16m
2.3.5: Understanding Octave code to simulate an ECM9m
2.3.6: Understanding Octave code to look up model parameter value7m
2.3.7: Understanding Octave code to compute OCV19m
2.3.8: Some example results from using the Octave ESC toolbox14m
2.3.9: Summary of "Identifying parameters of dynamic model" and next steps4m
Reading9 lecturas
Notes for lesson 2.3.11m
Notes for lesson 2.3.21m
Notes for lesson 2.3.31m
Notes for lesson 2.3.41m
Notes for lesson 2.3.51m
Notes for lesson 2.3.61m
Notes for lesson 2.3.71m
Notes for lesson 2.3.81m
Notes for lesson 2.3.91m
Quiz7 ejercicios de práctica
Practice quiz for lesson 2.3.16m
Practice quiz for lesson 2.3.26m
Practice quiz for lesson 2.3.36m
Practice quiz for lesson 2.3.56m
Practice quiz for lesson 2.3.66m
Practice quiz for lesson 2.3.76m
Quiz for week 330m
Semana
4
Hours to complete
5 horas para completar

Simulating battery packs in different configurations

In this module, you will learn how to generalize the capability of simulating the voltage response of a single battery cell to a profile of input current versus time to being able to simulate constant-voltage and constant-power control of a battery cell, as well as different configurations of cells built into battery packs....
Reading
6 videos (Total: 85 min), 6 readings, 6 quizzes
Video6 videos
2.4.2: How do I use the ECM to simulate constant power?13m
2.4.3: How do I simulate battery packs?17m
2.4.4: Introducing Octave code to simulate PCMs20m
2.4.5: Introducing Octave code to simulate SCMs11m
2.4.6: Summary of "Simulating battery packs in different configurations" and next steps3m
Reading6 lecturas
Notes for lesson 2.4.11m
Notes for lesson 2.4.21m
Notes for lesson 2.4.31m
Notes for lesson 2.4.41m
Notes for lesson 2.4.51m
Notes for lesson 2.4.61m
Quiz6 ejercicios de práctica
Practice quiz for lesson 2.4.110m
Practice quiz for lesson 2.4.210m
Practice quiz for lesson 2.4.315m
Practice quiz for lesson 2.4.46m
Practice quiz for lesson 2.4.56m
Quiz for week 430m

Instructor

Gregory Plett

Professor
Electrical and Computer Engineering

Acerca de University of Colorado System

The University of Colorado is a recognized leader in higher education on the national and global stage. We collaborate to meet the diverse needs of our students and communities. We promote innovation, encourage discovery and support the extension of knowledge in ways unique to the state of Colorado and beyond....

Acerca del programa especializado Algorithms for Battery Management Systems

In this specialization, you will learn the major functions that must be performed by a battery management system, how lithium-ion battery cells work and how to model their behaviors mathematically, and how to write algorithms (computer methods) to estimate state-of-charge, state-of-health, remaining energy, and available power, and how to balance cells in a battery pack....
Algorithms for Battery Management Systems

Preguntas Frecuentes

  • Una vez que te inscribes para obtener un Certificado, tendrás acceso a todos los videos, cuestionarios y tareas de programación (si corresponde). Las tareas calificadas por compañeros solo pueden enviarse y revisarse una vez que haya comenzado tu sesión. Si eliges explorar el curso sin comprarlo, es posible que no puedas acceder a determinadas tareas.

  • Cuando te inscribes en un curso, obtienes acceso a todos los cursos que forman parte del Programa especializado y te darán un Certificado cuando completes el trabajo. Se añadirá tu Certificado electrónico a la página Logros. Desde allí, puedes imprimir tu Certificado o añadirlo a tu perfil de LinkedIn. Si solo quieres leer y visualizar el contenido del curso, puedes auditar el curso sin costo.

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