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Fuse Accessories

Whether you need a Class J fuse removal tool, a fuse adapter, a cabinet to safely store and logically organize replacement fuses, Littelfuse delivers. We make extensive lines of fuse pullers with handles designed to ensure ease of use, fuse reduces to prevent overfusing in industrial power applications, and specialty fuse accessories. You can also rely on us to supply high-performance fuse caps, fuse covers, fuse clips, fuse disconnect switches for telecommunication equipment, and fuse jumpers for customizing circuits and upgrading overcurrent protection.

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Selection of the Fuse and Holder Solution

The first step is to answer the following questions:

  • Will the fuse need to accessible for replacement?
  • How often will the fuse need to be replaced?
  • Should the end customer of the appliance have access to change the fuse?
  • Should the fuse only be accessible from outside the appliance?
  • How much is available to spend on safety and reliability?

5.1.2. Requirements and characteristics

The most important standards for fuse-holders, which specify requirements, characteristics and testing methods are:

  • IEC-publication 257 (1968) and Amendment no. 2 to this publication dated January 1989.
  • UL-standard no. 512.

Both standards show considerable differences. In the case of fuse links, compliance with the UL-standard does not usually mean that the fuse-holder under consideration meets IEC-requirements and vice versa. In the following, some of the most important differences between the two standards will be indicated.

From an application point of view, a fuse-holder is characterized by the features discussed in the previous section by its rated values for voltage, current, and accepted power. Considerable differences exist between the IEC and the UL standards regarding the rated current of a fuse-holder. According to IEC 257, the rated current is determined by the rated accepted power of a fuse-holder. The rated accepted power is, according to IEC 257, "A stated value of power dissipation (of a fuse link) which a fuse-base or fuse-holder can accept under prescribed conditions of use and behavior." Rated values of accepted power are 1.6 W, 2.5 W or 4 W. For example, it means that at a power dissipation of 4 W (by a fuse link placed in the fuse holder) temperatures of the fuse-holder should not exceed certain limit values as specified in the standard. This rated accepted power determines the rated current. Basically, this means that the rated current is not a fixed value. As an example, let us assume that the rated accepted power of a fuse-holder is 2.5 W.

Quick-acting fuse links specified in IEC 127 part 2, standard sheet II, have power dissipations which do not exceed 2.5 W (see table 4.3). For these fuse types the fuse-holder under consideration is able to accept all fuse ratings up till 6.3 A of this type of fuse links. High breaking capacity fuses specified in IEC 127, part 2 standard sheet I, however, show power dissipations up to 4 W at highest ratings (see table 4.3). Fuse links of this type with rated currents of max. 1 A show a maximum power dissipation of 2.5 W or less. This means that only fuses of this type with a rated current of 1 A maximum can be used in combination with the fuse-holder under consideration.

UL measures the temperature rise of a fuse-holder using a solid copper dummy fuse. In this case the fuse resistance is negligible. Most heat comes from the contact resistance of the clips; the current is turned up till a certain temperature rise occurs, and this current value is considered to be the rated current of the fuse-holder. However, we have no heat generated from the fuse and the copper dummy fuse acts as a heatsink, extracting heat from the clip area much better than a fuse would do.

It might well be that in this way a current rating of 20 A is defined, whereas following IEC-requirements the rated accepted power is 2.5 W. This means that for certain types of fuse links the current rating is limited to 1 A.

Roughly speaking, a UL rated fuse-holder should be run at no more than 30% of its rating in a real-life application. In the case of panel-mounted fuse-holders it may be safer to derate even further due to their enclosed nature and the tendency to use push-on connectors which also have a contributory contact resistance. A fuse link in a panel-mounted fuse-holder should be downrated by 5 or 10%, due to the poorer heat transfer properties in this arrangement.

The voltage rating of a fuse-holder is governed by a number of design aspects like the distance between terminals, creepage distances and minimum clearance distances. Further aspects of insulation coordination as specified in IEC 664/664A have an influence on the voltage rating. In general a fuse-holder will perform satisfactory at any voltage equal to or lower than the rated voltage. As a remark the existing standard IEC 257 will be replaced by a fully revised standard, viz IEC 127, part 6.

Rerating (Derating) a Fuse Holder

For 25 °C ambient temperatures, it is recommended that fuse holders be operated at no more than 60% of the nominal current rating established using the controlled test conditions specified by Underwriters Laboratories. The primary objective of these UL test conditions is to specify common test standards necessary for the continued control of manufactured items intended for protection against fire, etc. A copper dummy fuse is inserted in the fuse holder by Underwriters Laboratories, and then the current is increased until a certain temperature rise occurs. The majority of the heat is produced by the contact resistance of the fuse holder clips. This value of current is considered to be the rated current of the fuse holder, expressed as 100 % of rating.

Some of the more common, everyday applications may differ from these UL test conditions as follows: fully enclosed fuse holders, high contact resistance, air movement, transient spikes, and changes in connecting cable size (diameter and length). Even small variations from the controlled test conditions can greatly affect the ratings of the fuse holder. For this reason, it is recommended that fuse holders be derated by 40% (operated at no more than 60% of the nominal current rating established using the Underwriter Laboratories test conditions, as previously stated).

Selection Considerations for Fuse Holders and Fuse Blocks

Equally important to the selection of the proper fuse is the correct selection of the proper fuse holder or fuse block for a given application. Fuse holders are available using most of the same Selection Considerations outlined for UL fuse classes.

Considerations for fuse holders include:

  • Current Rating
  • Voltage Rating
  • Interrupting Rating
  • Physical Size
  • Indication

Additional selection considerations for fuse holders and fuse blocks include:

  • Number of poles
  • Mounting configuration
  • Connector type

Number of Poles

The number of poles for each set of fuses is determined by the characteristics of the circuit. Most fuse block series are available in 1, 2, or 3 pole configurations, although some are also available with four or more poles. The option to gang individual fuse blocks into longer strips will be determined by the available space and type of wire being used.

Mounting Configuration

Depending on the fuse block design, another selection consideration to evaluate is how the fuse block is mounted or inserted into the panel. Historically, fuse blocks simply screwed into the back of the panel, but many newer designs have now added (or replaced the screw-in design with) a DIN rail mounting capability. The DIN rail mounting feature allows the blocks to be quickly installed and removed from the rails.

Connector Type

For Littelfuse fuse blocks, a choice of three connector types or wire terminations is available:

  • Screw—for use with spade lugs or ring terminals.
  • Screw with Pressure Plate—for use with solid or stranded wire without terminal and recommended for applications where vibration will be a factor.
  • Box Lug—the most durable of the three options and used with all types of solid wire and Class B and Class C stranded wire.

There are a few additional aspects to keep in mind when selecting the fuse holder or fuse block needed for a given application.

UL Class H blocks accept Class H, Class K5, and Class R fuses. Similarly, Midget-style fuseblocks accept both Midget and UL Class CC fuses.

Both UL Class R and Class CC fuse holders contain a rejection feature which prevents the insertion of a different Class or type of fuse. The physical size and dimensions of UL Class J and Class T fuses accomplish the same thing in preventing the insertion of a different Class of fuse as well.

Fuse Block Electrical Characteristics

UL class Voltage (V) Amperage Case Size(A) DIN Rail Mountable Indication Universal Mounting Holes Smallest Available Width* Cover Available
H/K5 250V
600V
30 X 600 V only X 250 V: 2P & 3P
600 V: All
X
60 X X X X
100 X X 600 V only X
200 X X
400 X X
600 X
R 250V
600V
30 X 600 V only X 250 V: 2P & 3P
600 V: All
X
60 X X X X
100 X X 600 V only X
200 X X
400 X X
600 X
J 600V 30 X X X X X
60 X X X X
100 X X 2P only X
200 X X
400 X X
600 X X
T 300V
600V
30 X X X X
60 X X X X
100 X X X
200 X X X
400 X 1P only X
600 X X X
G 480V 30 X X 1P & 2P
60 X X 1P & 2P
600V 15 X X 1P & 2P
20 X X 1P & 2P
CC 600V 30 X X X
CC↑ 600V 60 X X X X X


Fuse Block Covers
UL Class Fuseblock Base Part Number*   Voltage (V) Amperage (A)   Cover Ordering Number
 Class H/R  LFH25030 / LFR25030  250  30  LFH25030FBC
 Class H/R  LFH25060 / LFR25030   250  60  LFH25060FBC
 Class H/R  LFH25100 / LFR25100   250  100  LFH25100FBC
 Class H/R  LFH60030 / LFR60030   600  30  LFH60030FBC
 Class H/R  LFH60060 / LFR60060   600  60  LFH60060FBC
 Class H/R  LFH60100 / LFR60100   600  100 LFH60100FBC
 Class J   LFJ60030  600  30  LFJ60030FBC
 Class J   LFJ60060  600  60  LFJ60060FBC
 Class J   LFJ60100  600  100  LFJ60100FBC
 Class T  LFT30030  300  30  LFT30030FBC
 Class T  LFT30060  300  60  LFT30060FBC
 Class T  LFT30100  300 100  LFT30100FBC
 Class T  LFT60030  600  30  LFT60030FBC
 Class T  LFT60060  600  60  LFT60060FBC
 Class T  LFT60100  600 100   LT60100FBC
 Class T  LFT60200  600  200  LT60200FBC
 Class T  LFT60400  600  400  LT60400FBC
 Class T  LFT60600  600  600  LT60600FBC
 Class CD  LFC60060  600  60  LFC60060FBC
 Class CC  L60030C  600  30  SPL001

* Part number shown excludes reference to number of poles and terminal type