PCB Trace Repair (Need to keep track shape?)
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Need to repair a trace on my PCB. The burnt trace has a hairpin turn on it. Instead of following the same hairpin shape, can I just bridge across the undamaged points at the bottom? And also, the printed "TF b=0.4mm" on the PCB, does it have any significance to it? Next to it appears 0.6mm that has the same hairpin shape, but trace looks a bit wider. I have superimposed two pics together. One has light shone through the PCB
trace
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up vote
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Need to repair a trace on my PCB. The burnt trace has a hairpin turn on it. Instead of following the same hairpin shape, can I just bridge across the undamaged points at the bottom? And also, the printed "TF b=0.4mm" on the PCB, does it have any significance to it? Next to it appears 0.6mm that has the same hairpin shape, but trace looks a bit wider. I have superimposed two pics together. One has light shone through the PCB
trace
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add a comment |
up vote
1
down vote
favorite
up vote
1
down vote
favorite
Need to repair a trace on my PCB. The burnt trace has a hairpin turn on it. Instead of following the same hairpin shape, can I just bridge across the undamaged points at the bottom? And also, the printed "TF b=0.4mm" on the PCB, does it have any significance to it? Next to it appears 0.6mm that has the same hairpin shape, but trace looks a bit wider. I have superimposed two pics together. One has light shone through the PCB
trace
New contributor
Need to repair a trace on my PCB. The burnt trace has a hairpin turn on it. Instead of following the same hairpin shape, can I just bridge across the undamaged points at the bottom? And also, the printed "TF b=0.4mm" on the PCB, does it have any significance to it? Next to it appears 0.6mm that has the same hairpin shape, but trace looks a bit wider. I have superimposed two pics together. One has light shone through the PCB
trace
trace
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asked 6 hours ago
Newbie ET
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2 Answers
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Since they're labeled TF, it's safe to state they're thermal fuses.
Therefor, since inductance is likely irrelevant, you could replace them with through-hole fuses of the correct value. The current value depends on copper layer thickness, but for 1 oz. Cu, 0.4 mm would be about 1.5 A and 0.6 mm ~2.5 A... but it would be better to find out what the actual current ratings are.
N.B. Since that 0.4 mm trace is thoroughly fried, first fix the issue that burned it out. The fuse has a purpose, and it likely prevented further damage or even a fire, so don't just bypass it.
add a comment |
up vote
0
down vote
Keep the track shape, the design probably intended either forming an inductor from the trace or a thermal separation or fuse. Keep the wire's cross sectional area to be a similar size of the trace. If you do make a repair, make sure the root cause of the burned trace is identified, otherwise a wire repair may end up burning out also.
It could also be meant as a fuse.
– TimWescott
6 hours ago
Thank you for those who have answered. Besides the fried trace, there's also an exploded varistor (14D241K) on the other side of the PCB. The two legs above the burnt hairpin is where the varistor is soldered. I guess it's all part of the voltage surge protection. I plan to replace the varistor, just not sure how to proceed with the hairpin trace. Great input from you guys.
– Newbie ET
5 hours ago
add a comment |
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2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
oldest
votes
active
oldest
votes
up vote
5
down vote
Since they're labeled TF, it's safe to state they're thermal fuses.
Therefor, since inductance is likely irrelevant, you could replace them with through-hole fuses of the correct value. The current value depends on copper layer thickness, but for 1 oz. Cu, 0.4 mm would be about 1.5 A and 0.6 mm ~2.5 A... but it would be better to find out what the actual current ratings are.
N.B. Since that 0.4 mm trace is thoroughly fried, first fix the issue that burned it out. The fuse has a purpose, and it likely prevented further damage or even a fire, so don't just bypass it.
add a comment |
up vote
5
down vote
Since they're labeled TF, it's safe to state they're thermal fuses.
Therefor, since inductance is likely irrelevant, you could replace them with through-hole fuses of the correct value. The current value depends on copper layer thickness, but for 1 oz. Cu, 0.4 mm would be about 1.5 A and 0.6 mm ~2.5 A... but it would be better to find out what the actual current ratings are.
N.B. Since that 0.4 mm trace is thoroughly fried, first fix the issue that burned it out. The fuse has a purpose, and it likely prevented further damage or even a fire, so don't just bypass it.
add a comment |
up vote
5
down vote
up vote
5
down vote
Since they're labeled TF, it's safe to state they're thermal fuses.
Therefor, since inductance is likely irrelevant, you could replace them with through-hole fuses of the correct value. The current value depends on copper layer thickness, but for 1 oz. Cu, 0.4 mm would be about 1.5 A and 0.6 mm ~2.5 A... but it would be better to find out what the actual current ratings are.
N.B. Since that 0.4 mm trace is thoroughly fried, first fix the issue that burned it out. The fuse has a purpose, and it likely prevented further damage or even a fire, so don't just bypass it.
Since they're labeled TF, it's safe to state they're thermal fuses.
Therefor, since inductance is likely irrelevant, you could replace them with through-hole fuses of the correct value. The current value depends on copper layer thickness, but for 1 oz. Cu, 0.4 mm would be about 1.5 A and 0.6 mm ~2.5 A... but it would be better to find out what the actual current ratings are.
N.B. Since that 0.4 mm trace is thoroughly fried, first fix the issue that burned it out. The fuse has a purpose, and it likely prevented further damage or even a fire, so don't just bypass it.
answered 5 hours ago
DrMoishe Pippik
6065
6065
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add a comment |
up vote
0
down vote
Keep the track shape, the design probably intended either forming an inductor from the trace or a thermal separation or fuse. Keep the wire's cross sectional area to be a similar size of the trace. If you do make a repair, make sure the root cause of the burned trace is identified, otherwise a wire repair may end up burning out also.
It could also be meant as a fuse.
– TimWescott
6 hours ago
Thank you for those who have answered. Besides the fried trace, there's also an exploded varistor (14D241K) on the other side of the PCB. The two legs above the burnt hairpin is where the varistor is soldered. I guess it's all part of the voltage surge protection. I plan to replace the varistor, just not sure how to proceed with the hairpin trace. Great input from you guys.
– Newbie ET
5 hours ago
add a comment |
up vote
0
down vote
Keep the track shape, the design probably intended either forming an inductor from the trace or a thermal separation or fuse. Keep the wire's cross sectional area to be a similar size of the trace. If you do make a repair, make sure the root cause of the burned trace is identified, otherwise a wire repair may end up burning out also.
It could also be meant as a fuse.
– TimWescott
6 hours ago
Thank you for those who have answered. Besides the fried trace, there's also an exploded varistor (14D241K) on the other side of the PCB. The two legs above the burnt hairpin is where the varistor is soldered. I guess it's all part of the voltage surge protection. I plan to replace the varistor, just not sure how to proceed with the hairpin trace. Great input from you guys.
– Newbie ET
5 hours ago
add a comment |
up vote
0
down vote
up vote
0
down vote
Keep the track shape, the design probably intended either forming an inductor from the trace or a thermal separation or fuse. Keep the wire's cross sectional area to be a similar size of the trace. If you do make a repair, make sure the root cause of the burned trace is identified, otherwise a wire repair may end up burning out also.
Keep the track shape, the design probably intended either forming an inductor from the trace or a thermal separation or fuse. Keep the wire's cross sectional area to be a similar size of the trace. If you do make a repair, make sure the root cause of the burned trace is identified, otherwise a wire repair may end up burning out also.
edited 6 hours ago
answered 6 hours ago
laptop2d
23.3k123175
23.3k123175
It could also be meant as a fuse.
– TimWescott
6 hours ago
Thank you for those who have answered. Besides the fried trace, there's also an exploded varistor (14D241K) on the other side of the PCB. The two legs above the burnt hairpin is where the varistor is soldered. I guess it's all part of the voltage surge protection. I plan to replace the varistor, just not sure how to proceed with the hairpin trace. Great input from you guys.
– Newbie ET
5 hours ago
add a comment |
It could also be meant as a fuse.
– TimWescott
6 hours ago
Thank you for those who have answered. Besides the fried trace, there's also an exploded varistor (14D241K) on the other side of the PCB. The two legs above the burnt hairpin is where the varistor is soldered. I guess it's all part of the voltage surge protection. I plan to replace the varistor, just not sure how to proceed with the hairpin trace. Great input from you guys.
– Newbie ET
5 hours ago
It could also be meant as a fuse.
– TimWescott
6 hours ago
It could also be meant as a fuse.
– TimWescott
6 hours ago
Thank you for those who have answered. Besides the fried trace, there's also an exploded varistor (14D241K) on the other side of the PCB. The two legs above the burnt hairpin is where the varistor is soldered. I guess it's all part of the voltage surge protection. I plan to replace the varistor, just not sure how to proceed with the hairpin trace. Great input from you guys.
– Newbie ET
5 hours ago
Thank you for those who have answered. Besides the fried trace, there's also an exploded varistor (14D241K) on the other side of the PCB. The two legs above the burnt hairpin is where the varistor is soldered. I guess it's all part of the voltage surge protection. I plan to replace the varistor, just not sure how to proceed with the hairpin trace. Great input from you guys.
– Newbie ET
5 hours ago
add a comment |
Newbie ET is a new contributor. Be nice, and check out our Code of Conduct.
Newbie ET is a new contributor. Be nice, and check out our Code of Conduct.
Newbie ET is a new contributor. Be nice, and check out our Code of Conduct.
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