NOISE FILTER, 30A, 0.42MH, 0.47UF
- RS Stock No.:
- 8456814
- Brand:
- Cosel
Legislation and Compliance
RoHS Status: Not Applicable
Statement of Conformity
This statement confirms that the product detailed below complies with the specifications currently published in the RS media and has been subject to the strict quality conditions imposed by RS Components’ internal management systems. Furthermore and where applicable, it confirms that all relevant semiconductor devices have been handled and packed under conditions that meet the administrative and technical requirements of ANSI/ESD S20.20 and EN61340-5-1 electrostatics control standards.
RS stock number | 8456814 |
Product description | NOISE FILTER, 30A, 0.42MH, 0.47UF |
Manufacturer / Brand | Cosel |
The foregoing information relates to product sold on, or after, the date shown below.
RS COMPONENTS
Date | Dec 27, 2024 |
RS Components Pte Ltd Robinson Road, P.O. Box 1582, Singapore 903132
Product Details
Noise Filter - Cosel
Cosel - NAC Series
The NAC series is a single phase noise filter designed for applications with a high-attenuation type of common mode noise from 150 kHz to 1 MHz. Maintenance and instillation time is reduced as they feature quick and easy push-down terminal. Connect the wires, push down and tighten the screws with a screwdriver.
Featues and Benefits:
High attenuation type of common mode noise from 150 kHz to 1 MHz
Single Phase 250 V ac
Selectable leakage current
DIN Rail installation type (Optional)
Push down type terminal block
Specifications
Attribute | Value |
Brand | Cosel |
Maximum Current Rating | 30 A |
Maximum Voltage Rating | 250 V ac/dc |
Mounting Type | Panel Mount |
Termination Style | Screw |
Number of Phases | 1 |
Series | NAC |
Number of Stages | Single Stage |
Operating Frequency | 150 kHz → 1 MHz |
Length | 92 mm |
Depth | 53 mm |
Capacitance | 4.7 nF |
Height | 43 mm |
Dimensions | 92 x 53 x 43 mm |
Minimum Operating Temperature | -40 °C |
Leakage Current | 0.5 mA |
Maximum Operating Temperature | +85 °C |
Resistance | 100 MΩ |