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Bounty Ended with Peter Smith's answer chosen by CommunityBot
Notice added Canonical answer required by user220456
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I am reading some answers related to my questions based on control loop stability of SMPS.

I came across this question.

The accepted answer states:

A switch mode power supply is essentially a sampled-data system, therefore the theoretical maximum bandwidth is one half the switching frequency. Practically the phase and transport lag there make it impossible to close the loop there, so 1/5 to 1/10th the switching frequency is a good rule of thumb.

I want to understand this answer in a little more simpler andway with clearer terms electrically.

Can someone please break this answer indown into simpler terms for my understanding.? Would be really helpful.

I am reading some answers related to my questions based on control loop stability of SMPS.

I came across this question.

The accepted answer states:

A switch mode power supply is essentially a sampled-data system, therefore the theoretical maximum bandwidth is one half the switching frequency. Practically the phase and transport lag there make it impossible to close the loop there, so 1/5 to 1/10th the switching frequency is a good rule of thumb.

I want to understand this answer a little more simpler and clearer terms electrically.

Can someone please break this answer in simpler terms for my understanding. Would be really helpful.

I am reading some answers related to my questions based on control loop stability of SMPS.

I came across this question.

The accepted answer states:

A switch mode power supply is essentially a sampled-data system, therefore the theoretical maximum bandwidth is one half the switching frequency. Practically the phase and transport lag there make it impossible to close the loop there, so 1/5 to 1/10th the switching frequency is a good rule of thumb.

I want to understand this answer in a little more simpler way with clearer terms electrically.

Can someone please break this answer down into simpler terms for my understanding? Would be really helpful.

edited body
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user220456
user220456

I am reading some answers related to my questions based on vontrolcontrol loop stability of SMPS.

I came across this question.

The accepted answer states:

A switch mode power supply is essentially a sampled-data system, therefore the theoretical maximum bandwidth is one half the switching frequency. Practically the phase and transport lag there make it impossible to close the loop there, so 1/5 to 1/10th the switching frequency is a good rule of thumb.

I want to understand this answer a little more simpler and clearer terms electrically.

Can someone please break this answer in simpler terms for my understanding. Would be really helpful.

I am reading some answers related to my questions based on vontrol loop stability of SMPS.

I came across this question.

The accepted answer states:

A switch mode power supply is essentially a sampled-data system, therefore the theoretical maximum bandwidth is one half the switching frequency. Practically the phase and transport lag there make it impossible to close the loop there, so 1/5 to 1/10th the switching frequency is a good rule of thumb.

I want to understand this answer a little more simpler and clearer terms electrically.

Can someone please break this answer in simpler terms for my understanding. Would be really helpful.

I am reading some answers related to my questions based on control loop stability of SMPS.

I came across this question.

The accepted answer states:

A switch mode power supply is essentially a sampled-data system, therefore the theoretical maximum bandwidth is one half the switching frequency. Practically the phase and transport lag there make it impossible to close the loop there, so 1/5 to 1/10th the switching frequency is a good rule of thumb.

I want to understand this answer a little more simpler and clearer terms electrically.

Can someone please break this answer in simpler terms for my understanding. Would be really helpful.

deleted 19 characters in body; edited title
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JRE
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Relationship between switching frequency and controller's crossover frequency in DC-DC Convertersconverters

I am reading some answers related to my questions based on Control Loop Stabilityvontrol loop stability of SMPS.

I came across this question.

The accepted answer states:

A switch mode power supply is essentially a sampled-data system, therefore therefore the theoretical maximum bandwidth is one half the switching frequency frequency. Practically the phase and transport lag there make it impossible impossible to close the loop there, so 1/5 to 1/10th the switching frequency frequency is a good rule of thumb.

I want to understand this answer a little more simpler and clearer terms electrically.

Can someone please break this answer in simpler terms for my understanding. Would be really helpful.

Relationship between switching frequency and controller's crossover frequency in DC-DC Converters

I am reading some answers related to my questions based on Control Loop Stability of SMPS.

I came across this question.

The accepted answer states

A switch mode power supply is essentially a sampled-data system, therefore the theoretical maximum bandwidth is one half the switching frequency. Practically the phase and transport lag there make it impossible to close the loop there, so 1/5 to 1/10th the switching frequency is a good rule of thumb.

I want to understand this answer a little more simpler and clearer terms electrically.

Can someone please break this answer in simpler terms for my understanding. Would be really helpful.

Relationship between switching frequency and controller's crossover frequency in DC-DC converters

I am reading some answers related to my questions based on vontrol loop stability of SMPS.

I came across this question.

The accepted answer states:

A switch mode power supply is essentially a sampled-data system, therefore the theoretical maximum bandwidth is one half the switching frequency. Practically the phase and transport lag there make it impossible to close the loop there, so 1/5 to 1/10th the switching frequency is a good rule of thumb.

I want to understand this answer a little more simpler and clearer terms electrically.

Can someone please break this answer in simpler terms for my understanding. Would be really helpful.

Source Link
user220456
user220456
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