a 6.3 amp 125 volt fuse
a 6.3 amp 250 volt or 300 volt is fine with similar time delays
depending on application it may be easier to find a 10A it should still protect most of the components
a 4 amp, 125 volt fuse.
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If that is the size of the equipments originally fuse then the replacement should be exactly the same as the equipment manufacturer used. When fusing is that small it is used to protect the equipment very closely. By up sizing the fuse and allowing more amperage to reach the components of the equipment, on a fault could likely destroy the equipment.
If the manufacturer of the equipment recommends a 6.3 amp fuse then that is what should be used in the device.
If it is an emergence to get the equipment up and running a substitution fuse should be no higher than 7 and no lower than 6 amps. Once the correct fuse is obtained change out the temporary fuse for the fuse with the correct rating of 6.3 amps.
Not a good idea. T500 is a slow blow. F500 has a faster response characteristic, as in fast blow. You could go the other way around in a pinch if it was an F500 sub'd for a T500 but not the T500 for an F500.
T means Slow blow , 6.3A is the maximum current this fuse will conduct , any more and the fuse will heat up and melt the conductor . Maximum voltage capacity is 250V , this means the maximum voltage that the fuse can block from "jumping" . It means you can use it in a system from 0 - 250V with a maximum current handle of 6.3A .
The most likely reason for an electric motor to slow down after reaching its operating RPM is due to the increase in mechanical load or friction it experiences. This can be caused by a variety of factors, such as increased resistance in the motor's bearings, increased resistance in the driven load, or inadequate power supply to the motor. To maintain the desired RPM, it may require adjustments to the load or power supply.
For the 400 watt max power motor, the stock fuse on the Oster, two speed, 4094 is 8amp 250v (not sure if it's a slow of fast burn). After recently blowing my fuse, ran down to Radio Shack and got a replacement. Upgraded the connection by buying a fuse holder and soldered the connections. Works perfectly.
Your cartridges or cartridge must be bad or blocked with debris. Remove, clean and replace if necessary.
no A FRN fuse is a slow blow fuse where an non is a fast blow fuse. In a pinch a slow blow fuse can be use in a fast blow circuit but not the other way around.
It depends on the precise type of slow blow fuse, but in general terms a fuse with a slow blow characteristic will take longer to operate (blow) at high overload currents than one with a normal characteristic. For low overload currents it will operate in about the same time as a normal fuse.
If the fuse is labelled F it is fast-blow or T OR S it is slow-blow, the letter should be on the metal cap on the ends of the fuse.
The fast blow fuse will generally only have a straight wire between the terminals, while the slow blow version will have part of that wire coiled up as a spring.
another name could be "dual-element fuse" as these are the slow-blow type.
The time it takes for a fuse to blow, either "fast blow" or "slow blow" is determined by the design of the fuse and is described in a table or graph provided by the manufacturer. In general, the higher the applied overload current, the faster the fuse will blow. Fast blow fuses can open in milliseconds, slow blow fuses can open in several seconds. The fuse used depends entirely on the application and what kind of circuit it is protecting.
slow
Slow burning fuse usually to alot time to evacuate an area
Any piece of machinery that is designed to use a fast blow fuse should only use a fast blow fuse. For safety reasons this could save your life instead of taking it.
Not a good idea. T500 is a slow blow. F500 has a faster response characteristic, as in fast blow. You could go the other way around in a pinch if it was an F500 sub'd for a T500 but not the T500 for an F500.
T means Slow blow , 6.3A is the maximum current this fuse will conduct , any more and the fuse will heat up and melt the conductor . Maximum voltage capacity is 250V , this means the maximum voltage that the fuse can block from "jumping" . It means you can use it in a system from 0 - 250V with a maximum current handle of 6.3A .
Make sure that the fuse is the right size and the right type (slow blow or fast blow.) It the fuse is right then the electrical system will have to be checked to see what is drawing too much power.