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Fusible Resistor

文章出处:FUSE manufacturers Author:Yaxun Electronics Popularity: Time:2018-02-09 12:32 【Big Middle Small
Fusible Resistors
Fusible Resistors
FUSIBLE RESISTOR. •. Non-flame coating, raw materials used for fusible resis tors are that of metal film resistors. •. Ideal circuit opening controller, disconnecting units from overload rating specified. •. Too low or too high ohmic value can be supplied on a case-to-case basis. Explanation of Part Number & Ordering ...

fusible resistor 10 Ohms Metal Film Resistors | Mouser South Africa
10 Ohms fusible resistor Metal Film Resistors are available at Mouser Electronics. Mouser offers inventory, pricing, & datasheets for 10 Ohms fusible resistor Metal Film Resistors.

Fusible Resistor - Type SQF Series - Tyco Electronics ... - Octopart
Fusible Resistor - Type SQF Series - Tyco Electronics ... - Octopart
+/-5%. Fusible Resistor. Type SQF Series. 1-1773455-9 CIS BI 06/2011. Dimensions are in millimeters. Dimensions are shown for. For email, phone or live chat, go to: te.com/help and inches unless otherwise reference purposes only. specified. Values in brackets. Specifications subject are standard equivalents. to change.

UL Recognised Fusible Resistors - DigiKey Electronics
surge and fuse characteristics, such as. EMC and ULW. This application note aims to simplify the processes of value selection and design verification, and should be read in conjunction with the full product datasheet. # Fusible resistor replaces resistor + fuse combination in mains. (line) input applications. # UL recognised.

Fusible resistors NFR25/25H/1W/2W
Fusible resistors NFR25/25H/1W/2W
DESCRIPTION. A homogeneous film of metal alloy is Deposited on a high grade ceramic body. After a laser groove has been cut in the resistive layer, tined connecting leads of electrolytic copper are welded to the end-caps. The resistors are coated with a grey and green non flammable lacquer witch provides electrical ...

FUSIBLE RESISTORS SILICONE / CEMENT COATED SERIES ...
In order to meet the growing demand worldwide for resistors to fuse or blow as a safety mea- sure, HTR can provide fusible resistors which fuse or blow if they are subjected to an abnor- mal spike of voltage / current or in the event of malfunction of the circuit. UL RECOGNIZED. As per UL 1412 Fusing Resistors and ...

FUSIBLE RESISTOR B F W 4 J 0 2 2 1 A 0 0
FUSIBLE RESISTOR B F W 4 J 0 2 2 1 A 0 0
FUSIBLE RESISTOR. Page 30. Non-flame coating, raw materials used for fusible resis- tors are that of metal film resistors. Ideal circuit opening controller, disconnecting units from overload rating specified. Too low or too high ohmic value can be supplied on a case-to-case basis. Resistor. Type: Coated. Resistors. Tolerance ...

CEMENT THERMAL FUSIBLE RESISTOR
CEMENT THERMAL FUSIBLE RESISTOR. Page 50. Self extinguishing. Excellent flame and moisture resistance. Extremely small and mechanically safe. Provides outstanding feature against surges. Too low or too high ohmic values on Wire-wound & Power Film type can be supplied on a case to case basis. Dimension:.

FUSE
FUSE
In electronics and electrical engineering, a fuse is an electrical safety device that operates to provide overcurrent protection of an electrical circuit. Its essential component is a metal wire or strip that melts when too much current flows through it, thereby interrupting the current. It is a sacrificial device; once a fuse has operated it is an open circuit, and it must be replaced or rewired, depending on type.
Fuses have been used as essential safety devices from the early days of electrical engineering. Today there are thousands of different fuse designs which have specific current and voltage ratings, breaking capacity and response times, depending on the application. The time and current operating characteristics of fuses are chosen to provide adequate protection without needless interruption. Wiring regulations usually define a maximum fuse current rating for particular circuits. Short circuits, overloading, mismatched loads, or device failure are the prime reasons for fuse operation.

Thermal fuse
Thermal fuse
Thermal fuse is a cutoff which uses a one-time fusible link. Unlike a thermal switch which may automatically reset itself when the temperature drops, the thermal fuse is more like an electrical fuse: a single-use device that cannot be reset and must be replaced when it fails or is triggered. A thermal fuse is used when the overheating is a result of a rare occurrence, such as failure requiring repair (which would also replace the fuse) or replacement at the end of service life.
One mechanism is a small meltable pellet that holds down a spring. When the pellet melts, the spring is released, separating the contacts and breaking the circuit. The Tamura LE series, NEC Sefuse SF series, Microtemp G4A series, and Hosho Elmwood D series, for example, may use alloy pellets that contain copper, beryllium, and silver to melt at a precise temperature. is a cutoff which uses a one-time fusible link. Unlike a thermal switch which may automatically reset itself when the temperature drops, the thermal fuse is more like an electrical fuse: a single-use device that cannot be reset and must be replaced when it fails or is triggered. A thermal fuse is used when the overheating is a result of a rare occurrence, such as failure requiring repair (which would also replace the fuse) or replacement at the end of service life.
One mechanism is a small meltable pellet that holds down a spring. When the pellet melts, the spring is released, separating the contacts and breaking the circuit. The Tamura LE series, NEC Sefuse SF series, Microtemp G4A series, and Hosho Elmwood D series, for example, may use alloy pellets that contain copper, beryllium, and silver to melt at a precise temperature.

Resettable fuse
Resettable fuse
polymeric PTC device is made up of a non-conductive crystalline organic polymer matrix that is loaded with carbon black particles
[2] to make it conductive. While cool, the polymer is in a crystalline state, with the carbon forced into the regions between crystals, forming many conductive chains. Since it is conductive (the "initial resistance"),
[3] it will pass a current. If too much current is passed through the device the device will begin to heat. As the device heats, the polymer will expand, changing from a crystalline into an amorphous state.
[4] The expansion separates the carbon particles and breaks the conductive pathways, causing the device to heat faster and expand more, further raising the resistance.
[5] This increase in resistance substantially reduces the current in the circuit. A small (leakage) current still flows through the device and is sufficient to maintain the temperature at a level which will keep it in the high resistance state.  Leakage current can range from less than a hundred mA at rated voltage up to a few hundred mA at lower voltages. The device can be said to have latching functionality.[
6] The hold current is the maximum current at which the device is guaranteed not to trip. The trip current is the current at which the device is guaranteed to trip.
[7]When power is removed, the heating due to the leakage current will stop and the PPTC device will cool. As the device cools, it regains its original crystalline structure and returns to a low resistance state where it can hold the current as specified for the device.
[8] This cooling usually takes a few seconds, though a tripped device will retain a slightly higher resistance for hours, slowly approaching the initial resistance value. The resetting will often not take place even if the fault alone has been removed with the power still flowing as the operating current may be above the holding current of the PPTC. The device may not return to its original resistance value; it will most likely stabilize at a significantly higher resistance (up to 4 times initial value). It could take hours, days, weeks or even years for the device to return to a resistance value similar to its original value, if at all.
[9]A PPTC device has a current rating and a voltage rating.

Fuse Holder
Fuse Holder
Automotive and Commercial Vehicle Fuse Holders. Fuseholders for automotive style fuses including MINI, ATO, MAXI, MIDI, MEGA, JCASE and Universal Glass Fuses. Fuseholders are available for In-Line, Bolt-Down, Panel Mount and PCB applications.

Automotive Fuses
Automotive Fuses
Automotive fuses are a class of fuses used to protect the wiring and electrical equipment for vehicles. They are generally rated for circuits no higher than 32 volts direct current, but some types are rated for 42-volt electrical systems. They are occasionally used in non-automotive electrical products.

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