1A - 3A Non Resettable Thermal Fuse 125C Over Temperature Protection
Product Details:
Place of Origin: | China |
Brand Name: | TAMURA |
Certification: | UL VDE CCC PSE |
Model Number: | K-F Series |
Payment & Shipping Terms:
Minimum Order Quantity: | 1000pcs |
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Price: | Negotiable |
Packaging Details: | PE bag, Bulk |
Delivery Time: | 5-7 work days |
Payment Terms: | T/T, Paypal, Mastercard, Wetern Union, Alipay, etc |
Supply Ability: | 1000000PCS per Month |
Detail Information |
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Product Name: | K-F Series TAMURA Thermal Fuse | Rated Current: | 1A To 3A |
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Rated Voltage: | 250V AC | Temperature: | 65C To 125C |
Leads: | Axial | Wire: | Tinned Copper Wire |
Resettable: | Non-resettable | Function: | Over-temperature Protection |
Material: | Ceramic | Package: | PE Bag, Bulk |
Highlight: | 3A Thermal Fuse 125C,Non Resettable Thermal Fuse 125C,125C Non Resettable Thermal Fuse |
Product Description
K-F Series TAMURA Axial Leads Resistor Type Temperature Fuse Non Resettable Thermal Cutoff
●It is a fusible aloy type thermal links corresponding to RoHS.
● It is excellent small in the thermosensing property.
●It is non-return type of thermal links. It means even if the ambient temperature falls after the thermal link operates but never re-connection.
●46 substances of very high concern (SVHC) specified by the REACH rule is not used. (46 substances are published on December 15, 2010)
Unit : mm
A | B | C | D | E |
6.0土0.3 | 1.5土0.1 | 1.8 and under | 0.53士0.05 |
68士3.0(K□F) 38士3.0(K□F~C) |
Model name | Rated functionig lemperature | Functioning temperture | AC/DC | Rated Vollage | Rated current | Th [C] | Tm [C] | Normal al opernling temperalure |
K06F* | 65 | 61土3 | AC | 250 | 1.0 | 55 | 200 | 45 |
K0F | 76 | 72土3 |
AC DC |
250 125 50 |
1.0 1.5 2.0 |
55 55 50 |
200 |
50 50 45 |
K1F | 86 | 81土2 |
AC DC |
250 125 50 |
1.0 1.5 2.0 |
60 55 50 |
200 |
55 55 50 |
K2F | 102 | 98士3 |
AC DC |
250 125 50 |
1.0 1.5 3.0 |
80 75 70 |
200 |
70 70 65 |
K3F | 115 | 111土2 |
AC DC |
250 125 50 |
1.0 2.0 3.0 |
99 95 90 |
200 |
85 85 80 |
K4F | 127 | 123+2 |
AC DC |
250 125 50 |
1.0 2.0 3.0 |
110 110 110 |
200 |
90 90 80 |
K13F | 133 | 129士3 |
AC DC |
250 125 50 |
1.0 2.0 3.0 |
110 105 95 |
200 |
90 90 80 |
K5F | 136 | 131士2 |
AC DC |
250 125 50 |
1.0 2.0 3.0 |
115 105 95 |
200 |
90 90 80 |
K6F | 139 | 134士2 |
AC DC |
250 125 50 |
1.0 1.5 3.0 |
120 120 105 |
200 |
90 90 80 |
K7F | 145 | 140士2 |
AC DC |
250 125 50 |
1.0 2.0 3.0 |
125 125 120 |
200 |
115 115 80 |
Introduction
•Thermal fuse has a limited service life.
The thermal element of the thermal fuse is made of durable materials designed for long-term use. However, the service life of a thermal fuse depends on its application environment, especially if the thermal fuse is exposed to an environment close to its operating temperature for a long time.
Therefore, we recommend that the designer conduct a reliability test, that is, install the thermal fuse in the actual final application environment and simulate a normal operating condition to predict the service life of the device.
•When current passes through the thermal fuse, the temperature of its body rises.
The thermal fuse may heat up to the temperature of the body higher than the surrounding temperature due to conduction. In addition, the body temperature of the fuse may also increase due to many other factors such as installation methods. Therefore, we recommend that the designer measure the body temperature of the thermal fuse after performing the reliability test.
•Please remember to use a voltage and current lower than the rated value of the thermal fuse.
If a voltage and current higher than the rated value of the thermal fuse are used, the contacts in the SF type may fuse together and cause the thermal fuse to malfunction; the SM type and D6 type may also rupture.
•Please do not use the thermal fuse in an environment outside the standard specifications, such as an environment containing sulfur dioxide, nitrogen oxide gas, ammonia or formic acid. Its products are also not suitable for use in high humidity environments or immersed in liquids.
The housing of the thermal fuse* is made of copper alloy. Therefore, installing a thermal fuse under these or similar conditions may cause damage to the packaging resin or cracks in the case due to corrosion. As a result, the thermal fuse may operate when the operating temperature is below the operating temperature, or not operate when the operating temperature is exceeded.