Universal Modular Fuse Slow Blow Micro Fuse is slow low breaking ability fuse used for the over-current protection circuits with AC voltage is 250V/300V/350V/500V, and breaking capacity is less than 100 A .96T series fuse is mainly used in LED driver circuit, power adapter, battery chargers, industrial control equipment, etc.
Universal Modular Fuse Link 12x6x9mm Time Lag Micro Fuse 5A 250V 300V 350V 500V
Main Features Of Universal Modular Fuse Slow Blow Micro Fuse
Main Characteristics |
Universal modular fuse-links(UMF);Super Time-Lag (TT) |
Standard |
IEC 60127-4 |
Materials |
Fuse body: Thermoplastic Lead: Tin plated copper |
Operating Temperature |
55℃ to +125℃ |
Storage Conditions |
+10℃ to +60℃ Relative humidity:≤75% yearly average without dew, maximum 30 days at 95% |
Vibration Resistance |
24 cycles at 15 min. each (60068-6) 10-60Hz at 0.75mm amplitude 60-2000Hz at 10g acceleration |
Soldering Parameters |
260℃.≤5 sec (Wave Soldering) 350℃.≤3 sec (Hand Soldering) Soldering Peak: 260℃. 10 sec |
Size (L*W*H) |
12x6x9mm |
Certifications Of Universal Modular Fuse Slow Blow Micro Fuse
Standards:In accordance withIEC60127-1,IEC60127-3 Standard sheet4,GB9364.1-1997,GB9364.3-1997.
Agency |
Ampere Range |
Agency File Number |
UR |
50mA ~ 20A |
E340427(JDYX2) |
C-UR |
50mA ~ 20A |
E340427(JDYX8) |
VDE |
50mA ~ 6.3A |
40039420 |
CQC |
50mA ~ 6.3A |
CQC20012238052 |
PSE |
50mA ~ 6.3A |
PSE16021073 |
KC |
50mA ~ 6.3A |
SU05052-16004/16005/16006 |
Series Parameters Of Universal Modular Fuse Slow Blow Micro Fuse
Catalog No. |
Ampere Rating |
Voltage Rating |
Max Voltage Drop (mv) |
I2TMelting Integral(A2.S) |
96T0050A |
50mA |
350V |
555 |
0.02 |
96T0100A |
100mA |
350V |
355 |
0.11 |
96T0125A |
125mA |
350V |
323 |
0.12 |
96T0160A |
160mA |
350V |
296 |
0.17 |
96T0200A |
200mA |
350V |
272 |
0.21 |
96T0250A |
250mA |
350V |
251 |
0.41 |
96T0315A |
315mA |
350V |
237 |
0.63 |
96T0400A |
400mA |
350V |
211 |
1.22 |
96T0500A |
500mA |
350V |
202 |
2.34 |
96T0630A |
630mA |
350V |
191 |
2.88 |
96T0800A |
800mA |
350V |
172 |
3.92 |
96T1100A |
1A |
350V |
200 |
5.77 |
96T1125A |
1.25A |
350V |
200 |
8.34 |
96T1160A |
1.6A |
350V |
190 |
13.60 |
96T1200A |
2A |
350V |
170 |
25.90 |
96T1250A |
2.5A |
350V |
170 |
42 |
96T1300A |
3A |
350V |
165 |
45 |
96T1315A |
3.15A |
350V |
150 |
64 |
96T1400A |
4A |
350V |
130 |
92 |
96T1500A |
5A |
350V |
130 |
140 |
96T1630A |
6.3A |
350V |
130 |
208 |
96T1800A |
8A |
350V |
100 |
265 |
96T2100A |
10A |
350V |
100 |
295 |
96T2150A |
15A |
350V |
85 |
300 |
96T2160A |
16A |
350V |
84 |
301 |
96T2200A |
20A |
350V |
81 |
305 |
Notes:
1. Permissible continuous operating current is ≤100% at ambient temperature of 23°C (73.4°F)
2. The current values used for calculating I2T should be within the standard range of 10In
Operating Characteristics Of Universal Modular Fuse Slow Blow Micro Fuse
Special products according to the product itself characteristic
% of Ampere Rating(In) |
Blowing Time |
150%* In |
60 minMinimum |
210%* In |
2 min Max |
275%* In |
400 ms~10 s |
400%* In |
150 ms~3 s |
1000%* In |
20 ms~150 ms |
How Fuses Work
Fuses are made of a piece of metal that will melt when too much power passes through it, effectively disrupting the circuit and preventing that power surge from reaching your appliance. However, once that piece of metal melts, you'll need to replace the fuse to restore the connection. To some homeowners, this represents too much of a hassle. However, fuses remain a highly effective option for overcurrent protection.
Fuses represent a less expensive route for overcurrent protection. They also react faster than a circuit breaker, and they are believed to be more failsafe than breakers because they contain fewer moving parts. The metal either melts or it does not. Circuit breakers, on the other hand, could potentially fail if the inner workings prove faulty. Because they react slower than a fuse, appliances and electronics could potentially be damaged.
Replacing a fuse requires careful attention to the amperage of the circuit. Installing a 30 amp fuse on a 20 amp circuit could ultimately lead to an electrical fire.