Fuse Rating Problem: Which is True?

In summary, some physics books state that the fuse rating is the maximum current it can carry without melting, while others say that it indicates the current at which it will immediately melt. The latter is generally true, with fast-blow fuses melting as soon as the rating is reached and slow-blow fuses being able to tolerate transient excesses of current before blowing. Fuses are rated based on the current they can pass without melting, and a full specification will show curves indicating how long a specific current will take to blow a given fuse. The difference between slow blow and fast blow fuses lies in the shape of these curves, not the current that blows them in a steady state. All fuses will fail to blow on short transient bursts
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Some physics books said that the fuse rating is the maximum current that the fuse can carry without melting it. But some said that the fuse rating is indicating the current at which the fuse would immediately melt. Which is true?
 
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  • #2
The latter, generally.

A fast-blow fuse will melt as soon as the rating is reached.
A slow-blow fuse may tolerate transient excesses of current, but will blow if this state is prolonged.
 
  • #3
Fuses are rated according to the current which they will pass without melting. A full specification for a fuse will show curves giving the length of time a specific current will cause a typical fuse (of the given specification) to blow. As an example, see page four of:
http://www.bussmann.com/library/bifs/5022.PDF

Note that in the above diagram, the curve for the 3A rated fuse shows that it didn't blow below 4 amps. In other words, that fuse is supposed to carry 3 amps forever.

In actual use, I've seen fuses that apparently blew at their rated amperage, but that's not what the specs show. Maybe the circuit really takes more current than I thought. Maybe the fuse was defective. But the spec is clear. The fuse passes the rated current without blowing.

The difference between slow blow and fast blow fuses is in the shape of those curves, not the current that blows them in the steady state. In other words, if you draw a fast blow and slow blow curve on the same graph, the fast blow curve will be sharper, but they will intersect the long end of the time scale (i.e. the top of the graph on page 4 of the above link) at the same amperage (i.e. about 4 amps for a 3 amp fuse).

As far as transients go, all fuses will fail to blow if a transient of a given magnitude is sufficiently short in time. A fast blow fuse will blow on shorter transients than slow blow fuses. This is another way of saying that the "blow" side of their graph includes more territory in the above graph, but no fuse has a graph with a square corner (at the bottom left corner of the above graph).

Carl
 
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1. What is a fuse rating?

A fuse rating refers to the maximum amount of current that a fuse can safely handle without blowing. It is usually measured in amperes (A).

2. What are the consequences of using a fuse with the wrong rating?

If a fuse with a higher rating is used, it may not blow when it should, causing damage to the circuit or equipment. If a fuse with a lower rating is used, it may blow too frequently, disrupting the function of the circuit.

3. What factors determine the appropriate fuse rating?

The appropriate fuse rating is determined by the maximum current that the circuit or equipment can safely handle, as well as the type of fuse and its thermal properties.

4. Is it better to use a fuse with a higher or lower rating?

It is always safer to use a fuse with a lower rating, as it will blow before the circuit or equipment is damaged. However, the fuse rating should also be high enough to prevent frequent blows that may disrupt the function of the circuit.

5. How can I determine the correct fuse rating for a specific circuit or equipment?

The correct fuse rating can be determined by consulting the manufacturer's specifications or by consulting a professional electrician. It is important to ensure that the fuse rating is appropriate to prevent any potential hazards or damage.

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