| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/8PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/9PF SMD |
2703 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/8PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/8PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/8PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/17PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/20PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/20PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/8PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/28PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/28PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER LC(PI) 17NH/16PF ESD SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/17PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER LC(PI) 17NH/16PF ESD SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/9PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/28PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/28PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/9PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/28PF SMD |
0 |
|
 |
Alpha and Omega Semiconductor, Inc. |
FILTER RC(PI) 100 OHM/9PF SMD |
0 |
|
EMI/RFI (Electromagnetic Interference/Radio-Frequency Interference) filters are passive components designed to suppress unwanted high-frequency noise in electronic circuits. These filters utilize LC (inductor-capacitor) or RC (resistor-capacitor) networks to attenuate noise while allowing desired signals to pass. In modern electronics, they are critical for ensuring electromagnetic compatibility (EMC), preventing interference between devices, and meeting regulatory standards in industries such as automotive, aerospace, and telecommunications.
| Type | Functional Characteristics | Application Examples |
|---|---|---|
| LC Filters | Use inductors and capacitors to create low-pass or band-pass filtering; high attenuation at target frequencies | Power supplies, motor drives, RF transceivers |
| RC Filters | Resistor-capacitor networks for broadband noise suppression; lower cost, simpler design | Signal lines, analog circuits, medical devices |
| LCR Filters | Combines inductors, capacitors, and resistors for enhanced damping and stability | High-precision instrumentation, industrial automation |
| Multi-stage Filters | Cascaded LC/RC stages for improved attenuation over wide frequency ranges | Switching power supplies, EV charging systems |
A typical EMI/RFI filter consists of: - Inductors (L): Wound coils or ferrite beads that block high-frequency currents. - Capacitors (C): Ceramic or film capacitors that shunt noise to ground. - Resistors (R): Used for damping oscillations in LCR filters. - Enclosure: Shielded metal or plastic housing to prevent radiation. - Terminals: Screw, PCB, or panel-mount interfaces for integration. The components are arranged in (Pi), T, or ladder configurations based on filtering requirements.
| Parameter | Description | Importance |
|---|---|---|
| Cutoff Frequency | Frequency at which attenuation reaches -3dB | Determines noise suppression range |
| Insertion Loss | Signal loss at target frequencies (dB) | Measures filtering effectiveness |
| Rated Voltage/Current | Max continuous operating voltage/current | Ensures safe operation |
| Impedance | Matching with source/load impedance ( ) | Optimizes performance |
| Temperature Range | Operating temperature limits ( C) | Affects reliability |
| ESR (Equivalent Series Resistance) | Internal resistance of capacitors | Influences damping and efficiency |
EMI/RFI filters are used in: - Consumer Electronics: Smartphones, TVs, switching power supplies. - Industrial Automation: PLCs, motor drives, sensors. - Automotive: On-board chargers (OBC), CAN bus systems. - Medical Devices: MRI machines, ECG monitors. - Telecommunications: 5G base stations, fiber optic transceivers. - Aerospace: Avionics, satellite communication systems.
| Manufacturer | Representative Product | Key Features |
|---|---|---|
| TDK Corporation | FK18 series | Miniature LC filters for DC power lines, 100kHz 1GHz range |
| Murata Manufacturing | NXU series | Multi-layer ceramic EMI filters for automotive applications |
| Schaffner Group | FN9266 | High-current 3-phase filter for industrial motor drives |
| Coilcraft | 1500R series | RC networks for signal line filtering in IoT devices |
| Bourns Inc. | 2008-RC | Surface-mount LC filters for telecom infrastructure |
Key considerations for selecting EMI/RFI filters: 1. Frequency Range: Match cutoff frequency to target noise spectrum. 2. Circuit Impedance: Ensure impedance compatibility (e.g., 50 systems). 3. Physical Constraints: Size, mounting type (through-hole/SMD), and weight. 4. Environmental Factors: Temperature, humidity, and vibration resistance. 5. Cost vs. Performance: Balance attenuation requirements with budget. 6. Compliance: Certifications (CE, FCC, CISPR) for target markets. Example: For a 12V DC motor driver, select an LC filter with a 1MHz cutoff frequency, 5A current rating, and IP67 enclosure.
Future developments include: - Miniaturization: Increased integration of LC/RC components in chip-scale packages. - High-Frequency Support: Filters for 5G (up to 40GHz) and mmWave applications. - Wide Bandgap Compatibility: Optimized for GaN/SiC devices in EVs and fast chargers. - Smart Filters: Embedded sensors for real-time EMI monitoring. - Environmental Compliance: Lead-free materials and RoHS/WEEE adherence. The global EMI filter market is projected to grow at 8.2% CAGR through 2030, driven by IoT and electrified transportation.