Folks:
I have an Antek 3225 toroid (two 25 V secondaries, 300 VA) which will be used in a Gainclone project for my daughter. The chassis we will use is small (an 80mm tall HiFi2000 Galaxy Maggiorato) and we need to conserve space, so I'd like to wind some additional wire around the toroid and create another 10 to 12 volt secondary to power things like relays (for the source selector) and LEDS for the front panel. Here's the question: what gauge wire should we use? We aren't going to need much current but I don't want to undersize anything and create a safety hazard.
Suggestions?
Thank you,
Scott
I have an Antek 3225 toroid (two 25 V secondaries, 300 VA) which will be used in a Gainclone project for my daughter. The chassis we will use is small (an 80mm tall HiFi2000 Galaxy Maggiorato) and we need to conserve space, so I'd like to wind some additional wire around the toroid and create another 10 to 12 volt secondary to power things like relays (for the source selector) and LEDS for the front panel. Here's the question: what gauge wire should we use? We aren't going to need much current but I don't want to undersize anything and create a safety hazard.
Suggestions?
Thank you,
Scott
A rough rule of thumb is 450 amps/cm^2 of copper. So, if you know the RMS current you can calculate the necessary cross sectional area. This, in turn, can be used to determine the wire gauge. For example, 20 gauge magnet wire has a cross sectional area of .00517 cm^2 and can handle 2.32 amps.
sawreyrw:
Thank you! Is there a good reason to use magnet wire instead of regular single conductor insulated wire? Radio Shack apparently sells magnet wire but I have single conductor stuff on hand. As noted, my requirements are minimal (probably under 100 mA).
Regards,
Scott
Thank you! Is there a good reason to use magnet wire instead of regular single conductor insulated wire? Radio Shack apparently sells magnet wire but I have single conductor stuff on hand. As noted, my requirements are minimal (probably under 100 mA).
Regards,
Scott
Hi,
0.6mm diam copper can give upto 800mA. The continuous DC current available will be 400mAdc. 0.5mm <=300mAdc
Insulation simply wastes space. Do ensure it stays cool. Enamel is available in 130degC and higher, the thermoplastic insulations generally available will fail below 100degC.
0.6mm diam copper can give upto 800mA. The continuous DC current available will be 400mAdc. 0.5mm <=300mAdc
Insulation simply wastes space. Do ensure it stays cool. Enamel is available in 130degC and higher, the thermoplastic insulations generally available will fail below 100degC.
Hi
It may be different, or may not
I just finished rewinding a toroid with double windings, intended to be used fore speaker xo
Its 5mH and 0.5mH
Coupled in series "the right way" it gives 9mH
But if I reverse one winding I get a low 2mH
Which indicates to me that there is some sort of phasing going on
Maybe you also have to consider the right orientation of the new winding ?
Just realised how to measure the orientation of a power supply toroid, to avoid wrong phase
Am I right on this issue ?
It may be different, or may not
I just finished rewinding a toroid with double windings, intended to be used fore speaker xo
Its 5mH and 0.5mH
Coupled in series "the right way" it gives 9mH
But if I reverse one winding I get a low 2mH
Which indicates to me that there is some sort of phasing going on
Maybe you also have to consider the right orientation of the new winding ?
Just realised how to measure the orientation of a power supply toroid, to avoid wrong phase
Am I right on this issue ?
wire amperage chart
I thought this might be helpful:
American Wire Gauge table and AWG Electrical Current Load Limits with skin depth frequencies
A rough rule of thumb is 450 amps/cm^2 of copper. So, if you know the RMS current you can calculate the necessary cross sectional area. This, in turn, can be used to determine the wire gauge. For example, 20 gauge magnet wire has a cross sectional area of .00517 cm^2 and can handle 2.32 amps.
I thought this might be helpful:
American Wire Gauge table and AWG Electrical Current Load Limits with skin depth frequencies
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