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Axial Leaded Cartridge Slow Blow Ceramic Tube Fuse 3.6x10mm 125mA-15A 125V 250V UL CUL
Product Description Of The Slow Blow Ceramic Tube Fuse 3.6x10mm 125mA-15A 125V 250V
3.6x10mm ceramic tube fuse was made of alloy element , brass cap and cerramic tube , with current range 125mA-15A ,rated voltage 125V and 250V, slow blow and structure can be axial leaded or cartridge according to different application environments, UL and CUL recognized.
Ordering Info Of The Slow Blow Ceramic Tube Fuse 3.6x10mm 125mA-15A 125V 250V
Part No. | Ampere Rating | Voltage Rating | Breaking Capacity | I2TMelting Integral(A2.S) |
PTU0125A/B | 125mA | 250V/125V | 50A@125V/250VAC | 0.0025 |
PTU0160A/B | 160mA | 250V/125V | 50A@125V/250VAC | 0.0042 |
PTU0200A/B | 200mA | 250V/125V | 50A@125V/250VAC | 0.0065 |
PTU0250A/B | 250mA | 250V/125V | 50A@125V/250VAC | 0.010 |
PTU0300A/B | 300mA | 250V/125V | 50A@125V/250VAC | 0.018 |
PTU0315A/B | 315mA | 250V/125V | 50A@125V/250VAC | 0.020 |
PTU0350A/B | 350mA | 250V/125V | 50A@125V/250VAC | 0.025 |
PTU0400A/B | 400mA | 250V/125V | 50A@125V/250VAC | 0.035 |
PTU0500A/B | 500mA | 250V/125V | 50A@125V/250VAC | 0.060 |
PTU0630A/B | 630mA | 250V/125V | 50A@125V/250VAC | 0.150 |
PTU0750A/B | 750mA | 250V/125V | 50A@125V/250VAC | 0.350 |
PTU0800A/B | 800mA | 250V/125V | 50A@125V/250VAC | 0.5 |
PTU1100A/B | 1A | 250V/125V | 50A@125V/250VAC | 0.6 |
PTU1125A/B | 1.25A | 250V/125V | 50A@125V/250VAC | 1.2 |
PTU1150A/B | 1.5A | 250V/125V | 50A@125V/250VAC | 1.6 |
PTU1160A/B | 1.6A | 250V/125V | 50A@125V/250VAC | 1.8 |
PTU1200A/B | 2A | 250V/125V | 50A@125V/250VAC | 2.4 |
PTU1250A/B | 2.5A | 250V/125V | 50A@125V/250VAC | 3.2 |
PTU1300A/B | 3A | 250V/125V | 50A@125V/250VAC | 6.0 |
PTU1315A/B | 3.15A | 250V/125V | 50A@125V/250VAC | 7.0 |
PTU1350A/B | 3.5A | 250V/125V | 50A@125V/250VAC | 7.5 |
PTU1400A/B | 4A | 250V/125V | 50A@125V/250VAC | 8.0 |
PTU1500A/B | 5A | 250V/125V | 50A@125V/250VAC | 15 |
HTP1600A/B | 6A | 250V | 100A@250VAC | 24 |
HTP1630A | 6.3A | 250V | 100A@250VAC | 28 |
HTP1700A | 7A | 250V | 100A@250VAC | 36 |
HTP1800A | 8A | 250V | 100A@250VAC | 40 |
HTP2100A | 10A | 250V | 100A@250VAC | 45 |
PTU2120A HTP2120A | 12A | 250V | 100A@250VAC | 50 |
PTU2120A HTP2150A | 15A | 250V | 100A@250VAC | 55 |
Product Characteristics Of The Slow Blow Ceramic Tube Fuse 3.6x10mm 125mA-15A 125V 250V
Lead Pull Strength | 5N for 10±1 Seconds |
Lead Thrust Strength | 2N for 10±1 Seconds |
Solder ability | Wave : 260℃,≤3s; Soldering Iron: 350±10℃,≤3s. |
Soldering Heat Resistance | Wave : 260℃,10s; Soldering Iron: 350℃,5s. |
Electrical Characteristics Of The Slow Blow Ceramic Tube Fuse 3.6x10mm 125mA-15A 125V 250V
1. Test Condition
All electrical test is to be conducted with the ambient air at a
temperature of 25±5℃.
2. Load capacity:
When the fuse loads through 100% of rated current, should blow
within 4 hours.
3. Interrupting Rating:
Breaking Capacity: 50A at 125V/250V AC.
4. Rising Temperature Test:
When the 100% times of Ampere Rating passes the fuse, after
reaching thermal balance , the temperature on the fuse surface
rising shall not be higher than 75℃. Note: Rising temperature = the
Surface temperature - Ambient temperature.
5. Operating Characteristics
% of Ampere Rating(In) | Blowing Time |
100% * In | 4 hours Min |
200% * In | (60 sec Max |
Selection Of The Slow Blow Ceramic Tube Fuse 3.6x10mm 125mA-15A 125V 250V
a) Determine the safety mark: According to the market requirements of the product to be sold, select the safety certification mark and safety standard (UL standard or IEC standard fuse tube) of the fuse tube.
b) Determine the external size: According to the installation space and the determined safety certification mark and safety standards, select the external size of the fuse tube.
c) Determine the model: According to the current characteristics of the protected circuit, select the model of the fuse tube. For example, if the current characteristic of the protected circuit is a constant current, the fast-blow type is selected.
d) Determine the rated voltage: Determine the rated voltage of the fuse tube according to the input voltage and use requirements of the protected circuit. For example, if the input voltage of the protected circuit is 220V, a fuse with a rated voltage above 220V must be selected, 250V, 300V, 350V, etc. can be selected; however, considering the cost factor, it is not necessary to select an excessively high rated voltage.
e) Determine the minimum rated current: Preliminarily determine the rated current of the fuse tube according to the stable operating current of the protected circuit and the related use loss factor. For example, if the stable operating current of the protected circuit is 1A, and the UL standard time-delay fuse tube is selected, and the working environment temperature is about 80℃, the minimum rated current of the fuse tube is selected: 1A×1.25÷0.5=2.5A.
f) Determine the minimum I2T of the fuse: According to the surge I2T of the protected circuit, determine the I2T of the fuse. For example, the surge I2T of the protected circuit is 1 (A2S). To ensure that the fuse can withstand more than 100,000 shocks, the I2T of the fuse should be greater than: 1÷0.2=5 (A2S).
g) Determine the rated current of the fuse tube: According to the
minimum rated current and minimum I2T value, check the
corresponding model specifications in the product catalog, and
select the primary rated current specification that is greater than
the minimum rated current and its I2T value is also greater than
the minimum I2T value as the selected fuse The rated current of the
tube. For example, based on the minimum value above,
(1) If the I2T with a rated current of 2.5A is 4.3 A2S, and the I2T
with a 3A is 5.4A2S, then take 3A as the rated current of the fuse
tube;
(2) If the rated current of 2A I2T is 5.3 A2S, and the 2.5A I2T is
7.6A2S, take 2.5A as the rated current of the fuse tube.