VDE PSE CCC KTL UR cUR Listed Time-Lag Glass Tube Fuse 6.3A 250V 5x20mm With Harmonized System Code 8536100000
Applications
- Primary Protection in Equipment
- LED Lights
- UPS
- Power Supplies
- White goods
- Home Appliances
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Standards and Agency Approvals
Standards:In accordance with IEC60127-1, IEC60127-3, GB9364.1, GB9364.3.
Agency Approvals
Voltage Rating |
Agency |
Ampere Range |
Agency File Number |
250V | UR | 200mA ~ 10A | E340427(JDYX2) |
C-UR | 200mA ~ 10A | E340427( JDYX8) | |
CCC | 200mA ~ 10A | 2016010207899506 | |
VDE | 1A,2A,3.15A,5A,6.3A | 40037363 | |
PSE | 200mA ~ 10 A | PSE16021071 | |
KTL | 200mA ~ 10 A | SU05052-16002/16001 |
Structural size (mm)
Electrical Performances
Part No. |
Ampere Rating |
Voltage Rating |
Max Voltage Drop (mv) |
I2TMelting Integral(A2.S) |
Agency Approvals |
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UR | VDE | CCC | PSE |
KC
|
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TBC0200A | 200mA | 250V | 1500 | 0.1 | ● | ○ | ○ | ○ | ○ |
TBC0250A | 250mA | 250V | 1300 | 0.18 | ● | ○ | ○ | ○ | ○ |
TBC0315A | 315mA | 250V | 1100 | 0.3 | ● | ○ | ○ | ○ | ○ |
TBC0400A | 400mA | 250V | 1000 | 0.65 | ● | ○ | ○ | ○ | ○ |
TBC0500A | 500mA | 250V | 900 | 0.85 | ● | ○ | ○ | ○ | ○ |
TBC0630A | 630mA | 250V | 300 | 1.6 | ● | ○ | ○ | ○ | ○ |
TBC0800A | 800mA | 250V | 250 | 2.3 | ● | ○ | ○ | ○ | ○ |
TBC1100A | 1A | 250V | 150 | 3.5 | ● | ● | ● | ● | ● |
TBC1125A | 1.25A | 250V | 150 | 4.3 | ● | ○ | ○ | ○ | ○ |
TBC1160A | 1.6A | 250V | 150 | 7.2 | ● | ○ | ○ | ○ | ○ |
TBC1200A | 2A | 250V | 150 | 10 | ● | ● | ● | ● | ● |
TBC1250A | 2.5A | 250V | 120 | 22 | ● | ○ | ○ | ○ | ○ |
TBC1315A | 3.15A | 250V | 100 | 39 | ● | ● | ● | ● | ● |
TBC1400A | 4A | 250V | 100 | 54 | ● | ○ | ○ | ○ | ○ |
TBC1500A | 5A | 250V | 100 | 115 | ● | ● | ● | ● | ● |
TBC1630A | 6.3A | 250V | 100 | 200 | ● | ● | ● | ● | ● |
TBC1800A | 8A | 250V | 100 | 320 | ● | ○ | ○ | ○ | ○ |
TBC2100A | 10A | 250V | 100 | 510 | ● | ○ | ○ | ○ | ○ |
Blown Standards
% of Ampere Rating(In) |
Opening Time (200mA~10A) |
Opening Time (12.5A~16A) |
210%*In |
2 min Max |
5 min Max |
275%*In |
600 ms~10 s |
600 ms~15 s |
400%*In |
150 ms~3 s |
150 ms~5 s |
1000%*In |
20 ms~300 ms |
20 ms~400 ms |
Packaging
Type | Details |
Bulk |
Bulk 500/200 pcs in per poly bag; 10 poly bags in per inner box; 4 inner boxes in per outer carton |
Carton Size |
Inner box:L240±2 * W170±2 * H110±2 Outer carton:L390±5 * W240±5 * H250±5 |
Suitable Fuseholder Option
Fuses: What are the practical differences between Ceramic and Glass cartridge fuses ?
Just to be sure: We're talking about d = 5 mm and l = 20 mm sized fuses?
My experience is that ceramic fuses, compared to glass fuses, tend to be better when it comes to things like switching off ("tripping", "blowing") during high-current events. A rough estimate is that the best fuses have a ceramic body and contain sand to extinguish any arcs that appear when the fuse blows. The worst fuses I have seen and experienced were indeed glass fuses. There really are very big differences between various fuses, even when they all have the same basic rating (for example: "6.3 A, T, 250 Vac"). Some just trip quite silently, others explode with a massive and loud show including flying pieces of glowing material.
This being said, I am sure you can get really poor ceramic fuses and you probably can get glass fuses that are actually good and were approved to any standards you may require (UL, VDE, ...).
Sometimes, a certain piece of equipment got its UL sign with one particular manufacturer and model of fuse. Strictly speaking, You would violate this UL mark using any other fuse.