4.64 kOhms ±1% 0.4W, 2/5W Chip Resistor MELF, 0204 Anti-Sulfur, Automotive AEC-Q200 Thin Film
4.64 kOhms ±1% 0.4W, 2/5W Chip Resistor MELF, 0204 Anti-Sulfur, Automotive AEC-Q200 Thin Film
4.64 kOhms ±1% 0.4W, 2/5W Chip Resistor MELF, 0204 Anti-Sulfur, Automotive AEC-Q200 Thin Film
MELF Resistors 0.4W 4.64Kohms 1% 0204 MELF 200V 50ppm Product overview: MMA02040C4641FB300 from Vishay / Beyschlag / Draloric is a Resistor for current limiting, voltage division, biasing, sensing, termination, and precision electronic circuits. It is useful for engineers and buyers comparing datasheets, replacement parts, BOM lines, package options, lifecycle status, and procurement availability. Key searchable attributes include 0.4W, 200V. Search-friendly keywords include resistor, SMD, current sense, precision, termination, 0.4W, 200V, Chip Resistor(SMD). This listing supports clearer product discovery for industrial, commercial, repair, automation, power, sensing, and embedded system projects. Product number 52-MMA02040C4641FB30
RES 4.64K OHM 1% 2/5W MELF 0204
RES, 4K64, 1%, 0.4W, 0204, THIN FILM ROHS COMPLIANT: YES
RES 4.64K OHM 1% 2/5W MELF 0204
| DigiKey | ERSAELECTRONICS PTE. LTD. | ODG (Origin Data Global) | Newark, An Avnet Company | Shenzhen Shengyu Electronics Technology Limited | |
|---|---|---|---|---|---|
| Product Category | Resistors | Resistors | Chip Resistors | Resistors | Resistors |
| Product Number | 749-1912-2-ND | 52-MMA02040C4641FB300 | MMA02040C4641FB300 | 84AH7441 | MMA02040C4641FB300 |
| Product Name | Chip Resistor - Surface Mount | 0.4W 200V Resistor | Chip Resistor - Surface Mount | Res, 4K64, 1%, 0.4W, 0204, Thin Film Rohs Compliant Vishay | Resistors - Chip Resistor - Surface Mount |
| Configuration | Single Resistor | Single Resistor | |||
| Category / Application | Automotive; General Use | ||||
| Technology / Construction | Thin Film (Chip) | Thin Film (Chip) | Thin Film (Chip) | Thin Film (Chip) | |
| Mounting / Packaging | MELF, 0204 | MELF, 0204 | |||
| Tolerance | 1 +/- % | 1 +/- % | 1 +/- % | 1 +/- % |