1206 Thin Film Surface Mount Fast Blow Chip Fuse 12B1100B 1A 125V 3216 Metric With 50 Amp Interrupting Rating
Description
Quick Details
Testing Standard:UL248-1 UL248-14
Interrupting Rating:50 Amperes at 125V AC/DC
Operating Temperature:-55℃ ~+125℃
Materials:
Substrate:ceramic/glass cover
Termination:sliver over-plated with nickel and tin
Element:silver
Soldering Method:
Reflow soldering: 260℃, 10s max
Packaging:
Automaton taped 3000PCS per rell,
90000PCS per carton
Dimension in mm
Specification
Catalog | Ampere | Voltage | Marking |
Melting Integral |
No. | Rating | Rating | (A2.S) | |
12B0250B | 250mA | 125V | .25 | 0.0035 |
12B0375B | 375mA | 125V | E | 0.0011 |
12B0500B | 500mA | 125V | 0.5 | 0.0020 |
12B0750B | 750mA | 125V | .75 | 0.0053 |
12B1100B | 1A | 125V | 1 | 0.0062 |
12B1125B | 1.25A | 125V | J | 0.022 |
12B1150B | 1.5A | 125V | 1.5 | 0.028 |
Electrical Characteristics
Ampere Rating | Ampere Rating | Opening Time | ||
250mA~1.5A | 100% | 4 hours Min | ||
250mA~1.5A | 250% | 5 s Max |
Time-Current Characteristics
Applications
- Applications where high reliability and availability is needed
- Medical equipment
- Offshore
- Defense
Environmental data
Soldering Methods Reflow, Wave Soldering Profile
Solderability 245°C / 3sec acc. to IEC 60068-2-58, Test Td
Resistance to Soldering Heat 260 +0/-5°C / 30sec acc. to IPC/JEDEC J-STD-020D, Level 1
Life Test MIL-STD-202, Method 108A 1000h @ 0.60 x In @ 70°C
Load Humidity Test MIL-STD-202, Method 103B 0.1 x In @ 0.85 r.H. @ 85°C
Moisture Resistance Test MIL-STD-202, Method 106E (50 cycles in a temp./mister chamber)
Terminal Strength MIL-STD-202, Method 211A (Deflection of board 1 mm for 1 minute)
Thermal Shock MIL-STD-202, Method 107D (200 air-to-air cycles from -55 to +125°C)
Resistance to Solvents MIL-STD-202, Method 215A
Flammability min. UL 94V-1 (acc. to EIA/IS-722, Test 4.12)
Derating Curves
Features
Current ratings from 50 mA to 25 A
Rated voltages up to 125 VAC/VDC
High breaking capacity up to 600 A (internal tests)
Super-quick-acting (FF), quick-acting (F), and time-lag (T)
Precise, low loss, resistant to vibrations and pulses