Advantages and disadvantages of expulsion fuse cutout

27 May.,2024

 

Advantages and disadvantages of expulsion fuse cutout

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The fuse invented by Edison more than a hundred years ago was used to protect the expensive incandescent lamps at that time. So do you know expulsion fuse cutout? The expulsion fuse cutout is also a kind of fuse. Next, let us take a look at the advantages and disadvantages of expulsion fuse cutout. Here are some answers.


Here is the content list:

  • The main advantages and characteristics of expulsion fuse cutout.

  • The main shortcomings and weaknesses of expulsion fuse cutout.


The main advantages and characteristics of expulsion fuse cutout.

Good selection of expulsion fuse cutout. The rated current of the upper and lower expulsion fuse cutouts shall be regarded as the upper and lower levels as long as they meet the requirements of the overcurrent selection ratio specified by the national standard and IEC standard of 1.6:1, that is, the rated current of the upper fuse is not less than 1.6 times, the value of the lower Can selectively cut off the fault current.

The expulsion fuse cutout has good current limiting characteristics and high breaking capacity. Under the rated working voltage, the breaking capacity of the expulsion fuse cutout can reach 80-120 kA.

In addition, compared with the circuit breaker, the expulsion fuse cutout has a small size, a large breaking capacity, convenient installation, and flexible use. In addition, the reliability of expulsion fuse cutout is good. Compared with the circuit breaker, the expulsion fuse cutout combination electrical appliance has a simpler internal structure and high reliability during operation.

The operation and maintenance cost of expulsion fuse cutout is low. In the event of a short circuit or overload failure, because the expulsion fuse cutout combined electrical appliance protects the fuse, it is a part of the expulsion fuse cutout that is damaged. You only need to replace the fuse part, which is convenient and quick. The circuit breaker protects the internal trip unit system, and the damage is the internal trip unit. In the case of several consecutive failures, the damage of the expulsion fuse cutout combined electrical appliance is still the melt. At this time, the circuit breaker cannot meet the usage requirements, and a new circuit breaker must be replaced, which is time-consuming and troublesome. Therefore, the operating cost of the expulsion fuse cutout combination appliance is much lower than that of the circuit breaker.


The main shortcomings and weaknesses of expulsion fuse cutout.

First, the expulsion fuse cutout must be replaced after it blows due to a fault. Second, the protection function of expulsion fuse cutout is single, with only a period of overcurrent inverse time characteristic, and this protection is used for overload, short circuit, and ground fault. Third, the expulsion fuse cutout cannot be remotely controlled, it needs to be combined with electric knife switches and switches to be possible.


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Fusing Guide

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Fusing Guide

Overview

Fuses are critical in any electrical system and are used to protect a circuit's cabling from excessive current that could lead to damage and, very often, an electrical fire. Excessive current is most likely to be caused by three things:

  • Incorrect wiring - wrong connections as a result of human error
  • Damage to the circuit - e.g. a wire working loose or insulation wearing through and causing a +ve wire to short to ground.
  • Overloading the circuit - e.g. connecting one or more pieces of equipment that draw more current than the circuit is designed to carry or, conversely, using cable of insufficient size for the current draw of the intended equipment.

Where and when to use fuses

In an ideal world each individual section of positive cable would be fused as this would provide the most protection and make fault finding relatively straight forward, because it would allow you to narrow down the problem to a single section of cable (i.e. where the fuse has blown). Having said that this is ideal it is nearly always impractical as it would lead to many fuses fitted throughout an electrical system. A good compromise is that every individual circuit should be fused as this provides a good degree of protection and at least allows you to narrow down the problem to one circuit.

It is important to note that the section of cable coming from the battery +ve terminal to the first fuse (or battery distribution box) is effectively an unprotected part of the circuit. If there is a short anywhere along this length then it is very likely to catch fire as the first fuse will not experience the excess current. For this reason the length of cable from the battery +ve to the first fuse should be as short as possible so that damage is minimised in the event of an electrical fire.

Fusing Exceptions

There are some instances where fuses are not normally used and one example is for the, normally short, length of cable from the battery to the starter motor. Starter motors are normally the highest current draw electrical item on a vehicle as they have to crank the engine, and the current can reach several hundred Amps, especially with large diesel engines that have a high compression ratio. For this reason it is usually deemed impractical to fuse this length of cable, although some vehicles do have fusible links which are simply a small section of lower current rating cable encased in a fireproof sleeve. They are installed with the cable being protected and are designed to melt and break the circuit in an over-current condition. The other reason for not fusing the starter circuit is that if the battery is disconnected from the alternator whilst it is turning (as would be the case if a fuse blew) the diodes in the alternator's rectifier can be damaged.

To offer an increased level of safety it is common in many race car, kit car, custom car and leisure vehicle builds to fit a battery cut-off or master switch that can be manually operated to isolate the main battery or auxiliary batteries from the rest of the vehicle's electrical system in the event of a problem.

Typical after-market fusing arrangement

The following diagram shows how electrical loads such as lights etc. might be fused in an after-market circuit.

 

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Note that the main feed from the battery is fused to protect this section of cable and this cable should be large enough to supply the current required by all the loads operating at the same time (worst case). Consequently the fuse used for this cable (fuse 1) will be of a higher rating than fuses 2-5 (see below for selecting a fuse rating).

Each of the four circuits supplying the loads are then fused individually in the fuse box at the beginning of each circuit (and before the switches). This is important because if a section of cable shorts to ground it will only be protected if there is a fuse before the shorting point (otherwise the fuse will not experience the excess current because it will be outside of the short-circuit).

Fuse ratings

  • Continuous rating

Fuse are marked with the current that they will continuously pass (at a specified temperature) without blowing, known as the continuous rating. It is good practice not to allow the continuous current to exceed 75% of the fuse's rated value to accommodate momentary current surges that might cause the fuse to fatigue over time or blow unnecessarily (nuisance blow).

  • How much current will it take for a fuse to blow?

In simplified terms the greater the current is above the continuous rating, the faster the fuse will blow. For example, if a 10A fuse is exposed to 11A then it might take many minutes for it to blow but if it is exposed to 20A then it may blow in a fraction of a second. Manufacturers show this blow time on a Current-Time chart but for the typical user it's not necessary to go into this level of technical detail as long as you follow some basic fuse selection guidelines as described in the next section:

Selecting the correct fuse rating

If replacing a blown fuse in a manufacturer-designed (factory) application, e.g. in a vehicle fuse panel, then the same type and rating of fuse should be used. If a fuse continues to blow then there must be a fault with the circuit and a higher rating fuse should never be fitted to overcome this, even temporarily. Doing this creates a high risk of component failure and electrical fire.

When specifying a fuse for an after-market application, the key consideration is that the fuse should be the weakest point (i.e. lowest rated component) so that it always blows before any damage occurs to other parts of the electrical circuit. However, you also do not want the fuse to keep blowing under normal operation (known as a nuisance blow), so the two elements to consider are:

  • The current rating of the smallest cable in the circuit
  • The current draw on the circuit under normal expected operating conditions

>The fuse rating should lie somewhere between these two values to allow normal operation but blow on overload. For example, if the normal expected current draw is 10A and the cable size is 25A, then a fuse rated at 15A would be appropriate.

Types of Fuse

There are several types of fuse currently in use in the automotive market and the table below gives a brief description of each:

 

Fuse category Fuse type  Image Common ratings (A)
   Description Glass Cartridge 20mm (radio)  1 - 10

Older style fuses with a glass body and metal end caps joined to the fusible link inside, with the number referring to the overall length of the fuse. 20mm fuses are 5mm in diameter and 30 & 32mm fuses are 6.4mm in diameter (1/4"). Generally now used in lower current applications such as audio head units and accessories (cigar lighter socket plugs etc.)

These fuses are normally used in fuse holders that screw or twist-lock together. The 30mm & 32mm fuses are generally interchangeable because the springs in the holders accommodate the small difference in length.

30mm 1 - 50 32mm 1 - 50 Blade Micro (low-profile mini)  2 - 30

Blade fuses are now the most commonly used category of fuses with almost every new vehicle featuring one or more of the different types. They push-fit into fuse holders or boxes and are held in place by friction.

The standard blade fuse (also known as APR, ATC or ATO fuses) is the most common with many cars now using the mini blade version (also known as APM or ATM fuses). Increasing in popularity is the micro blade version (also known as APS or ATT fuses) with more widespread use expected in the future as manufacturers attempt to fit more electrical systems into the same space

Maxi blade fuses (also known as APX fuses) tend to be used for higher current or 'power' applications and are available in higher ratings.

Mini 2 - 30 Standard 1 - 40 Maxi 20 - 120 Link Strip 30 - 100 Strip and midi link fuses are for higher current or 'power' applications (e.g. winch motors) with mega link fuses used for very high current applications. These fuses are bolted down into fuse holders or boxes. Midi 30 - 150 Mega 100 - 500 Continental  N/A 5 - 25 Also known as Bosch, Ceramic, Torpedo, ATS or GBC fuses. Now superseded in modern vehicles by blade fuses but found in some older cars and still used for some classic restorations. These fuses are held in place between sprung metal contacts in fuse boxes or holders.

 

Circuit Breakers

What is a circuit breaker?

Circuit breakersprovide overload protection for the circuit in the same way that a fuse does (by breaking the circuit continuity) but, unlike a fuse, can be reset rather than having to be replaced. These are useful in applications where, due to their nature, an over-current condition is expected to occur now and again under normal use and to have to frequently replace fuses would be inconvenient (e.g. electric motors used for winches, power windows etc.). They are also useful where you might need to reset the circuit quickly and don't want to spend time looking for a fuse.

How do they work?

Most circuit breakers found in 12V or 24V systems operate thermally. The heat generated by the excess current during an overload causes the contacts inside the breaker to come apart and break the circuit. These are then reset either manually or automatically depending on the design of the circuit breaker. Circuit breakers that have to be manually reset provide an opportunity to check for any problems before using the circuit again and on some types you can manually trip the breaker, which is useful for isolating the circuit and for testing the breaker.

Fuses vs circuit breakers

Whilst circuit breakers are very useful solution in certain applications it should be noted that a good quality fuse will ultimately be more reliable (there are no moving parts) so should be considered first, and where sensitive electronic equipment is involved a circuit breaker should never be used. This is because the time taken for the circuit breaker to operate can be longer than it would take a traditional fuse to blow, potentially exposing the circuit to damaging overload currents for longer.

Disclaimer - The information contained in these articles is provided in good faith and we do our best to ensure that it is accurate and up to date, however, we cannot be held responsible for any damage or loss arising from the use or mis-use of this information or from any errors or omissions. The installer is ultimately responsible for the safety of the system so if you are in any doubt, please consult a qualified electrician.

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