Microprocessor consumes more power during over-clocked operations.
Probably the PWM controller increases its duty cycle to tackle the power requirement during over-clock.
I haven't went through the datasheet attached by you (just read the description)
Though replied so that you can catch-up something better from this.
Hi bala0x07, thank you! Does your statement "Microprocessor consumes more power during over-clocked operations" means the load current will need to increase with the unchanged Vout, or it requires the Vout to change as well?
In addition, is it more challenging for the transient response when the same processor operates in overclocking instead of normal condition?
The datasheet does not include any detailed information of the overclocking requirements. It is only saying this controller can be used for overclocking applications. Therefore, I am curious, what feature should a controller have, to make the converter be able to accomodate the overclokcing requirement.
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Microprocessor consumes more power during over-clocked operations.
Probably the PWM controller increases its duty cycle to tackle the power requirement during over-clock.
I haven't went through the datasheet attached by you (just read the description)
Though replied so that you can catch-up something better from this.
Hi bala0x07, thank you! Does your statement "Microprocessor consumes more power during over-clocked operations" means the load current will need to increase with the unchanged Vout, or it requires the Vout to change as well?
In addition, is it more challenging for the transient response when the same processor operates in overclocking instead of normal condition?
The datasheet does not include any detailed information of the overclocking requirements. It is only saying this controller can be used for overclocking applications. Therefore, I am curious, what feature should a controller have, to make the converter be able to accomodate the overclokcing requirement.