CMC 1.8MH 10A 2LN TH Product overview: RN152-10-02-1M8 from Schaffner EMC, Inc. is an Inductor and Choke for power conversion, EMI filtering, RF circuits, signal conditioning, and energy storage in switching supplies. It is useful for engineers and buyers comparing datasheets, replacement parts, BOM lines, package options, lifecycle status, and procurement availability. Key searchable attributes include 1.8MH, 10A. Search-friendly keywords include inductor, choke, ferrite bead, power conversion, EMI, 1.8MH, 10A, Inductor and Choke, Common Mode Chokes. This listing supports clearer product discovery for industrial, commercial, repair, automation, power, sensing, and embedded system projects. Product number 839-RN152-10-02-1M8 can be used for catalog matching and distributor lookup.
Win Source Part Number: 1182207-RN152-10-02-
Category: Filters>Common Mode Chokes
Series: RN
Package: Tube
Voltage Rating - AC: 300V
Current Rating (Max): 10A
Standard Package: 100
Filter Type: Power Line
Height (Max): 0.996" (25.30mm)
Number of Lines: 2
Inductance @ Frequency: 1.8 mH @ 10 kHz
DC Resistance (DCR) (Max): 14mOhm (Typ)
Mounting Type: Through Hole
Package / Case: Horizontal, 4 PC Pin
Temperature Range - Operating: -40°C ~ 100°C
Dimension: 1.693" L x 1.646" W (43.00mm x 41.80mm)
ECCN: EAR99
Fake Threat In the Open Market: 59 pct.
MSL Level: 1 (Unlimited)
REACH Status: REACH Unaffected
HTSUS: 8548.00.0000
Mfr: Schaffner EMC Inc.
Other Names: 817-2150,816531
Base Product Number: RN152
Approval Agency: ENEC, UR, VDE
| ERSAELECTRONICS PTE. LTD. | Win Source Electronics | |
|---|---|---|
| Product Category | Inductors, Coils, and Chokes | Inductors, Coils, and Chokes |
| Product Number | 839-RN152-10-02-1M8 | 1182207-RN152-10-02-1M8 |
| Product Name | 1.8MH 10A Inductor and Choke | Filters - Common Mode Chokes |
| Operating Temperature | -40 to 100 C (-40 to 212 F) | -40 to 100 C (-40 to 212 F) |
| Mounting Option | Through Hole | |
| Technology | Power Line | |
| Core Material | Ferrite | |
| Inductance Range | 1800 microH | 1800 microH |