Power Transformer: 110V and 220V input, with two 15V outputs 180 degrees out of phase
up vote
6
down vote
favorite
I have never designed a power supply before and have a few questions and would appreciate any help.
Firstly, I want to use a transformer that can both take 220V and 110V inputs. Can I use a center tap transformer and for 110V put the coils in series and for 220V only use one coil and leave the second open circuited?
Secondly, I need an output of + and - 15, so do I select a transformer with a center tap secondary and wire the two identical outputs to be 180 degrees out of phase?
Lastly, I cannot find any transformers with these specifications. What I've been looking for is a center tap primary and secondary with a ratio of 15:1
Thank you in advance.
power transformer
New contributor
add a comment |
up vote
6
down vote
favorite
I have never designed a power supply before and have a few questions and would appreciate any help.
Firstly, I want to use a transformer that can both take 220V and 110V inputs. Can I use a center tap transformer and for 110V put the coils in series and for 220V only use one coil and leave the second open circuited?
Secondly, I need an output of + and - 15, so do I select a transformer with a center tap secondary and wire the two identical outputs to be 180 degrees out of phase?
Lastly, I cannot find any transformers with these specifications. What I've been looking for is a center tap primary and secondary with a ratio of 15:1
Thank you in advance.
power transformer
New contributor
1
Is that 15V AC or DC? And does it need to be isolated?
– ratchet freak
13 hours ago
1
A centre tapped transformer CANNOT be rewired as you seem to be implying.
– Andy aka
13 hours ago
add a comment |
up vote
6
down vote
favorite
up vote
6
down vote
favorite
I have never designed a power supply before and have a few questions and would appreciate any help.
Firstly, I want to use a transformer that can both take 220V and 110V inputs. Can I use a center tap transformer and for 110V put the coils in series and for 220V only use one coil and leave the second open circuited?
Secondly, I need an output of + and - 15, so do I select a transformer with a center tap secondary and wire the two identical outputs to be 180 degrees out of phase?
Lastly, I cannot find any transformers with these specifications. What I've been looking for is a center tap primary and secondary with a ratio of 15:1
Thank you in advance.
power transformer
New contributor
I have never designed a power supply before and have a few questions and would appreciate any help.
Firstly, I want to use a transformer that can both take 220V and 110V inputs. Can I use a center tap transformer and for 110V put the coils in series and for 220V only use one coil and leave the second open circuited?
Secondly, I need an output of + and - 15, so do I select a transformer with a center tap secondary and wire the two identical outputs to be 180 degrees out of phase?
Lastly, I cannot find any transformers with these specifications. What I've been looking for is a center tap primary and secondary with a ratio of 15:1
Thank you in advance.
power transformer
power transformer
New contributor
New contributor
edited 12 hours ago
SamGibson
10.6k41537
10.6k41537
New contributor
asked 13 hours ago
Andre Faraday
333
333
New contributor
New contributor
1
Is that 15V AC or DC? And does it need to be isolated?
– ratchet freak
13 hours ago
1
A centre tapped transformer CANNOT be rewired as you seem to be implying.
– Andy aka
13 hours ago
add a comment |
1
Is that 15V AC or DC? And does it need to be isolated?
– ratchet freak
13 hours ago
1
A centre tapped transformer CANNOT be rewired as you seem to be implying.
– Andy aka
13 hours ago
1
1
Is that 15V AC or DC? And does it need to be isolated?
– ratchet freak
13 hours ago
Is that 15V AC or DC? And does it need to be isolated?
– ratchet freak
13 hours ago
1
1
A centre tapped transformer CANNOT be rewired as you seem to be implying.
– Andy aka
13 hours ago
A centre tapped transformer CANNOT be rewired as you seem to be implying.
– Andy aka
13 hours ago
add a comment |
2 Answers
2
active
oldest
votes
up vote
8
down vote
accepted
Using a centre-tapped primary usually means that you de-rate the transformer to half power.
Figure 1. Series and parallel connections for split-winding transformer. Image source: Electro-Dan. The linked article discusses torroidal transformers but the principle is the same for standard transformers.
Instead, the common approach due to its flexibility is to use a transformer with two 110 V primaries and two equal secondaries. The primaries can then be wired in series for 220 V operation and parallel for 110 V. Similarly, the secondaries can be wired in parallel for high current or series for higher voltage. The series connection point is, in effect, the secondary centre-tap.
Figure 2. For switching primary voltage by the user you would add a voltage selector switch. Source: Modulus Amplification.
Thank you very much! Helped a lot!
– Andre Faraday
11 hours ago
The yellow and blue is not a center tap, they are the ends of two windings. A center tap is continuous through the transformer and cannot be separated.
– Harper
6 hours ago
add a comment |
up vote
6
down vote
Firstly, I want to use a transformer that can both take 220V and 110V inputs. Can I use a center tap transformer and for 110V put the coils in series and for 220V only use one coil and leave the second open circuited?
The normal approach is to use a transformer that has two identical primary windings, each rated for 110V and half the total transformer power. You put them in parallel for 110V operation and put them in series for 220V operation. This optimizes the amount of copper required.
Secondly, I need an output of + and - 15, so do I select a transformer with a center tap secondary and wire the two identical outputs to be 180 degrees out of phase?
If you ground the center tap, you can use the other two terminals to make separate +15V and -15V supplies. The fact that they are out of phase allows you to use full-wave rectification for both supplies.
Lastly, I cannot find any transformers with these specifications.
That would be a product recommendation, which is off-topic here.
Yeah, and don't attempt to half-wave rectify them unless either your load is balanced or your transformer mount is very sturdy and well dampened :)
– rackandboneman
6 hours ago
add a comment |
2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
oldest
votes
active
oldest
votes
up vote
8
down vote
accepted
Using a centre-tapped primary usually means that you de-rate the transformer to half power.
Figure 1. Series and parallel connections for split-winding transformer. Image source: Electro-Dan. The linked article discusses torroidal transformers but the principle is the same for standard transformers.
Instead, the common approach due to its flexibility is to use a transformer with two 110 V primaries and two equal secondaries. The primaries can then be wired in series for 220 V operation and parallel for 110 V. Similarly, the secondaries can be wired in parallel for high current or series for higher voltage. The series connection point is, in effect, the secondary centre-tap.
Figure 2. For switching primary voltage by the user you would add a voltage selector switch. Source: Modulus Amplification.
Thank you very much! Helped a lot!
– Andre Faraday
11 hours ago
The yellow and blue is not a center tap, they are the ends of two windings. A center tap is continuous through the transformer and cannot be separated.
– Harper
6 hours ago
add a comment |
up vote
8
down vote
accepted
Using a centre-tapped primary usually means that you de-rate the transformer to half power.
Figure 1. Series and parallel connections for split-winding transformer. Image source: Electro-Dan. The linked article discusses torroidal transformers but the principle is the same for standard transformers.
Instead, the common approach due to its flexibility is to use a transformer with two 110 V primaries and two equal secondaries. The primaries can then be wired in series for 220 V operation and parallel for 110 V. Similarly, the secondaries can be wired in parallel for high current or series for higher voltage. The series connection point is, in effect, the secondary centre-tap.
Figure 2. For switching primary voltage by the user you would add a voltage selector switch. Source: Modulus Amplification.
Thank you very much! Helped a lot!
– Andre Faraday
11 hours ago
The yellow and blue is not a center tap, they are the ends of two windings. A center tap is continuous through the transformer and cannot be separated.
– Harper
6 hours ago
add a comment |
up vote
8
down vote
accepted
up vote
8
down vote
accepted
Using a centre-tapped primary usually means that you de-rate the transformer to half power.
Figure 1. Series and parallel connections for split-winding transformer. Image source: Electro-Dan. The linked article discusses torroidal transformers but the principle is the same for standard transformers.
Instead, the common approach due to its flexibility is to use a transformer with two 110 V primaries and two equal secondaries. The primaries can then be wired in series for 220 V operation and parallel for 110 V. Similarly, the secondaries can be wired in parallel for high current or series for higher voltage. The series connection point is, in effect, the secondary centre-tap.
Figure 2. For switching primary voltage by the user you would add a voltage selector switch. Source: Modulus Amplification.
Using a centre-tapped primary usually means that you de-rate the transformer to half power.
Figure 1. Series and parallel connections for split-winding transformer. Image source: Electro-Dan. The linked article discusses torroidal transformers but the principle is the same for standard transformers.
Instead, the common approach due to its flexibility is to use a transformer with two 110 V primaries and two equal secondaries. The primaries can then be wired in series for 220 V operation and parallel for 110 V. Similarly, the secondaries can be wired in parallel for high current or series for higher voltage. The series connection point is, in effect, the secondary centre-tap.
Figure 2. For switching primary voltage by the user you would add a voltage selector switch. Source: Modulus Amplification.
answered 13 hours ago
Transistor
77.4k577170
77.4k577170
Thank you very much! Helped a lot!
– Andre Faraday
11 hours ago
The yellow and blue is not a center tap, they are the ends of two windings. A center tap is continuous through the transformer and cannot be separated.
– Harper
6 hours ago
add a comment |
Thank you very much! Helped a lot!
– Andre Faraday
11 hours ago
The yellow and blue is not a center tap, they are the ends of two windings. A center tap is continuous through the transformer and cannot be separated.
– Harper
6 hours ago
Thank you very much! Helped a lot!
– Andre Faraday
11 hours ago
Thank you very much! Helped a lot!
– Andre Faraday
11 hours ago
The yellow and blue is not a center tap, they are the ends of two windings. A center tap is continuous through the transformer and cannot be separated.
– Harper
6 hours ago
The yellow and blue is not a center tap, they are the ends of two windings. A center tap is continuous through the transformer and cannot be separated.
– Harper
6 hours ago
add a comment |
up vote
6
down vote
Firstly, I want to use a transformer that can both take 220V and 110V inputs. Can I use a center tap transformer and for 110V put the coils in series and for 220V only use one coil and leave the second open circuited?
The normal approach is to use a transformer that has two identical primary windings, each rated for 110V and half the total transformer power. You put them in parallel for 110V operation and put them in series for 220V operation. This optimizes the amount of copper required.
Secondly, I need an output of + and - 15, so do I select a transformer with a center tap secondary and wire the two identical outputs to be 180 degrees out of phase?
If you ground the center tap, you can use the other two terminals to make separate +15V and -15V supplies. The fact that they are out of phase allows you to use full-wave rectification for both supplies.
Lastly, I cannot find any transformers with these specifications.
That would be a product recommendation, which is off-topic here.
Yeah, and don't attempt to half-wave rectify them unless either your load is balanced or your transformer mount is very sturdy and well dampened :)
– rackandboneman
6 hours ago
add a comment |
up vote
6
down vote
Firstly, I want to use a transformer that can both take 220V and 110V inputs. Can I use a center tap transformer and for 110V put the coils in series and for 220V only use one coil and leave the second open circuited?
The normal approach is to use a transformer that has two identical primary windings, each rated for 110V and half the total transformer power. You put them in parallel for 110V operation and put them in series for 220V operation. This optimizes the amount of copper required.
Secondly, I need an output of + and - 15, so do I select a transformer with a center tap secondary and wire the two identical outputs to be 180 degrees out of phase?
If you ground the center tap, you can use the other two terminals to make separate +15V and -15V supplies. The fact that they are out of phase allows you to use full-wave rectification for both supplies.
Lastly, I cannot find any transformers with these specifications.
That would be a product recommendation, which is off-topic here.
Yeah, and don't attempt to half-wave rectify them unless either your load is balanced or your transformer mount is very sturdy and well dampened :)
– rackandboneman
6 hours ago
add a comment |
up vote
6
down vote
up vote
6
down vote
Firstly, I want to use a transformer that can both take 220V and 110V inputs. Can I use a center tap transformer and for 110V put the coils in series and for 220V only use one coil and leave the second open circuited?
The normal approach is to use a transformer that has two identical primary windings, each rated for 110V and half the total transformer power. You put them in parallel for 110V operation and put them in series for 220V operation. This optimizes the amount of copper required.
Secondly, I need an output of + and - 15, so do I select a transformer with a center tap secondary and wire the two identical outputs to be 180 degrees out of phase?
If you ground the center tap, you can use the other two terminals to make separate +15V and -15V supplies. The fact that they are out of phase allows you to use full-wave rectification for both supplies.
Lastly, I cannot find any transformers with these specifications.
That would be a product recommendation, which is off-topic here.
Firstly, I want to use a transformer that can both take 220V and 110V inputs. Can I use a center tap transformer and for 110V put the coils in series and for 220V only use one coil and leave the second open circuited?
The normal approach is to use a transformer that has two identical primary windings, each rated for 110V and half the total transformer power. You put them in parallel for 110V operation and put them in series for 220V operation. This optimizes the amount of copper required.
Secondly, I need an output of + and - 15, so do I select a transformer with a center tap secondary and wire the two identical outputs to be 180 degrees out of phase?
If you ground the center tap, you can use the other two terminals to make separate +15V and -15V supplies. The fact that they are out of phase allows you to use full-wave rectification for both supplies.
Lastly, I cannot find any transformers with these specifications.
That would be a product recommendation, which is off-topic here.
answered 13 hours ago
Dave Tweed♦
115k9143252
115k9143252
Yeah, and don't attempt to half-wave rectify them unless either your load is balanced or your transformer mount is very sturdy and well dampened :)
– rackandboneman
6 hours ago
add a comment |
Yeah, and don't attempt to half-wave rectify them unless either your load is balanced or your transformer mount is very sturdy and well dampened :)
– rackandboneman
6 hours ago
Yeah, and don't attempt to half-wave rectify them unless either your load is balanced or your transformer mount is very sturdy and well dampened :)
– rackandboneman
6 hours ago
Yeah, and don't attempt to half-wave rectify them unless either your load is balanced or your transformer mount is very sturdy and well dampened :)
– rackandboneman
6 hours ago
add a comment |
Andre Faraday is a new contributor. Be nice, and check out our Code of Conduct.
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1
Is that 15V AC or DC? And does it need to be isolated?
– ratchet freak
13 hours ago
1
A centre tapped transformer CANNOT be rewired as you seem to be implying.
– Andy aka
13 hours ago