| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
Ametherm |
ICL 1.5 OHM 25% 50A 68MM |
8 |
|
 |
Cantherm |
ICL 10 OHM 20% 700MA 7MM |
41255 |
|
 |
Ametherm |
ICL 2.5 OHM 20% 7A 16MM |
0 |
|
 |
TDK EPCOS |
ICL 8 OHM 20% 4A 13MM |
0 |
|
 |
TDK EPCOS |
ICL 5 OHM 20% 4.2A 9.5MM |
1954 |
|
 |
Ametherm |
ICL 12 OHM 10% 4A 12.7MM |
0 |
|
 |
TDK EPCOS |
ICL 80 OHM 20% 1.6A 11.5MM |
21061 |
|
 |
Cantherm |
ICL 7 OHM 20% 4A 15.5MM |
0 |
|
 |
Ametherm |
ICL 1 OHM 15% 20A 22.86MM |
0 |
|
 |
Thermometrics (Amphenol Advanced Sensors) |
ICL 47 OHM 3A 19.56MM |
445 |
|
 |
Ametherm |
ICL 120 OHM 25% 2A 22MM |
0 |
|
 |
Ametherm |
ICL 20 OHM 20% 5A 22MM |
0 |
|
 |
Ametherm |
ICL 2.5 OHM 15% 7A 15.24MM |
0 |
|
 |
Ametherm |
ICL 30 OHM 20% 5A 23MM |
0 |
|
 |
Cantherm |
ICL 10 OHM 20% 5A 17.5MM |
0 |
|
 |
TDK EPCOS |
ICL 7 OHM 20% 4.2A 15MM |
3927 |
|
 |
Ametherm |
ICL 20 OHM 20% 5A 22MM |
0 |
|
 |
Ametherm |
ICL 220 OHM 25% 2A 22MM |
0 |
|
 |
TDK EPCOS |
ICL 500 MOHM 20% 30A 30.5MM |
0 |
|
 |
Ametherm |
ICL 10 OHM 20% 8A 22MM |
202 |
|
Inrush Current Limiters (ICL) are electronic components designed to suppress peak currents during device startup, protecting circuits from thermal and electrical stress. These transient currents, often 10-100 times higher than steady-state levels, occur in capacitive or inductive loads like power supplies, motors, and transformers. Modern electronics increasingly rely on ICLs to ensure system reliability, comply with safety standards, and extend product lifespans.
| Type | Functional Characteristics | Application Examples |
|---|---|---|
| NTC Thermistor ICL | Resistance decreases with temperature rise, self-resetting capability | Switching power supplies, LED drivers |
| PTC Thermistor ICL | Resistance increases with temperature, latching protection | Motor start circuits, battery management systems |
| Active ICL | Electronic control using MOSFETs/IGBTs with precise timing | High-precision industrial equipment |
| Hybrid ICL | Combines passive and active elements for optimized performance | Electric vehicle charging stations |
ICLs typically consist of three key elements:
Active ICLs additionally integrate control ICs, gate drivers, and heat dissipation structures.
| Parameter | Description | Importance |
|---|---|---|
| Maximum Steady-State Current (Imax) | Rated operational current after inrush suppression | Determines continuous load capacity |
| Response Time (tresponse) | Time to activate current limiting function | Protects against fast transient events |
| Clamping Voltage (Vclamp) | Maximum voltage during limiting operation | Prevents downstream component damage |
| Operating Temperature Range | Functional temperature limits | Ensures reliability in extreme environments |
| Energy Absorption (I t) | Total energy handling capability | Defines survival under fault conditions |
Major industries utilizing ICLs include:
Typical case: NTC ICLs reduce 50A startup surges to 5A in 500W switching power supplies.
| Manufacturer | Product Series | Key Features |
|---|---|---|
| TDK Corporation | B59xxx Series | High-reliability NTCs for automotive applications |
| Littelfuse | PTCLxxx Series | AEC-Q100 qualified PTC devices |
| Bel Fuse | 0Zxxx Series | Multi-layer ceramic thermistors |
| EPCOS (TDK) | B25xxx Series | Hybrid ICLs with integrated sensors |
Critical factors for proper ICL selection:
Example: A 240VAC motor drive requires an ICL with 15A Imax and 300Vclamp.
Emerging developments include:
Market growth driven by EV charging infrastructure and renewable energy systems, projected at 7.2% CAGR through 2027.