Difference between revisions of "DC-DC converter"
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A DC-DC converter is rated based upon the maximum current that it can pass through. They can be sized as follows: | A DC-DC converter is rated based upon the maximum current that it can pass through. They can be sized as follows: | ||
| − | {| class="wikitable" border=1 style="width: | + | {| class="wikitable" border=1 style="width: 60%;" |
| − | ! style="width: | + | ! style="width: 40%"|Minimum current rating of the DC-DC converter |
! style="text-align:left;"| = Sum of all the power rating of all loads/lights ÷ Output voltage | ! style="text-align:left;"| = Sum of all the power rating of all loads/lights ÷ Output voltage | ||
|} | |} | ||
Revision as of 13:52, 6 January 2021
DC-DC converters are used to power appliances that run on a different voltage than the energy storage system supplies. There are two types of DC converters: step-down DC converters (output a lower voltage) and step-up DC converters (output a higher voltage). The majority of loads are designed for use with 12 V systems, fewer for 24 V systems, and very limited options for use with 48 V systems. A step-down DC converter to 12 V from 24 V or 48 V is the most common application.
A DC-DC converter is rated based upon the maximum current that it can pass through. They can be sized as follows:
| Minimum current rating of the DC-DC converter | = Sum of all the power rating of all loads/lights ÷ Output voltage |
|---|
