Chip Resistor - Surface Mount72,990 Products
| Image | Part Number | Manufacturer | Description | Availability | Actions | |
|---|---|---|---|---|---|---|
 PDF | ERJ-U02D1R47X | Panasonic Electronic Components | RES 1.47 OHM 0.5% 1/10W 0402 | In Stock | MOQ: 10000 Hover to quote | |
PDF | ERJ-S1TD2R49U | Panasonic Electronic Components | RES 2.49 OHM 0.5% 1W 2512 | In Stock | MOQ: 4000 Hover to quote | |
PDF | ERJ-S06D5R23V | Panasonic Electronic Components | RES 5.23 OHM 0.5% 1/8W 0805 | In Stock | MOQ: 5000 Hover to quote | |
PDF | ERJ-U06D1R21V | Panasonic Electronic Components | RES 1.21 OHM 0.5% 1/8W 0805 | In Stock | MOQ: 10000 Hover to quote | |
PDF | ERJ-S1TD4R22U | Panasonic Electronic Components | RES 4.22 OHM 0.5% 1W 2512 | In Stock | MOQ: 4000 Hover to quote | |
PDF | ERJ-U14D8R87U | Panasonic Electronic Components | RES 8.87 OHM 0.5% 1/2W 1210 | In Stock | MOQ: 5000 Hover to quote | |
PDF | ERJ-U14D2R94U | Panasonic Electronic Components | RES 2.94 OHM 0.5% 1/2W 1210 | In Stock | MOQ: 5000 Hover to quote | |
PDF | ERJ-S06D2R94V | Panasonic Electronic Components | RES 2.94 OHM 0.5% 1/8W 0805 | In Stock | MOQ: 5000 Hover to quote | |
PDF | ERJ-S06D7R87V | Panasonic Electronic Components | RES 7.87 OHM 0.5% 1/8W 0805 | In Stock | MOQ: 5000 Hover to quote | |
PDF | ERJ-S02D8R66X | Panasonic Electronic Components | RES 8.66 OHM 0.5% 1/10W 0402 | In Stock | MOQ: 10000 Hover to quote | |
PDF | ERJ-U12D3R24U | Panasonic Electronic Components | RES 3.24 OHM 0.5% 3/4W 1812 | In Stock | MOQ: 5000 Hover to quote | |
PDF | ERJ-U1DD8R25U | Panasonic Electronic Components | RES 8.25 OHM 0.5% 3/4W 2010 | In Stock | MOQ: 5000 Hover to quote | |
PDF | ERJ-S1DD2R26U | Panasonic Electronic Components | RES 2.26 OHM 0.5% 3/4W 2010 | In Stock | MOQ: 5000 Hover to quote | |
PDF | ERJ-S1DD2R61U | Panasonic Electronic Components | RES 2.61 OHM 0.5% 3/4W 2010 | In Stock | MOQ: 5000 Hover to quote | |
PDF | ERJ-U14D1R74U | Panasonic Electronic Components | RES 1.74 OHM 0.5% 1/2W 1210 | In Stock | MOQ: 5000 Hover to quote | |
PDF | ERJ-S1DD1R33U | Panasonic Electronic Components | RES 1.33 OHM 0.5% 3/4W 2010 | In Stock | MOQ: 5000 Hover to quote | |
PDF | ERJ-U06D2R26V | Panasonic Electronic Components | RES 2.26 OHM 0.5% 1/8W 0805 | In Stock | MOQ: 10000 Hover to quote | |
PDF | ERJ-S1TD1R40U | Panasonic Electronic Components | RES 1.4 OHM 0.5% 1W 2512 | In Stock | MOQ: 4000 Hover to quote | |
PDF | ERJ-S03D2R61V | Panasonic Electronic Components | RES 2.61 OHM 0.5% 1/10W 0603 | In Stock | MOQ: 10000 Hover to quote | |
PDF | ERJ-U03D5R90V | Panasonic Electronic Components | RES 5.9 OHM 0.5% 1/10W 0603 | In Stock | MOQ: 10000 Hover to quote |
A chip resistor - surface mount (SMT) is a type of resistor designed for surface-mount technology, which allows electronic components to be mounted directly onto the surface of printed circuit boards (PCBs). These resistors are typically rectangular or cylindrical and are available in various sizes to fit different PCB layouts and design requirements. Key features of chip resistors - surface mount include: Compact Size: Their small size allows for high-density circuit designs, making them ideal for modern electronics where space is at a premium. Ease of Assembly: Designed for automated placement, chip resistors streamline the manufacturing process, reducing assembly time and costs. Reliability: With no leads to bend or break, SMT chip resistors offer enhanced mechanical stability and reliability. Wide Range of Values: Available in various resistance values, tolerances, and power ratings to suit diverse application needs. Thermal Performance: Good thermal conductivity helps in dissipating heat, ensuring stable performance in various operating conditions. Chip resistor surface mount (SMT) composition types refer to the materials and manufacturing processes used to create these resistors. The main types include: Thick Film Resistors: Composition: Made by screen-printing a resistive paste (a mixture of ceramic and conductive materials) onto a ceramic substrate. Characteristics: Cost-effective, widely used, and suitable for general-purpose applications. They offer good stability and are available in a wide range of resistance values. Applications: Consumer electronics, automotive, industrial controls. Thin Film Resistors: Composition: Manufactured by depositing a very thin layer of resistive material (such as nickel-chromium) onto an insulating substrate through sputtering or evaporation. Characteristics: Provide higher precision, better stability, and tighter tolerance compared to thick film resistors. They are also more expensive. Applications: High-precision and high-reliability applications such as medical devices, instrumentation, and communication equipment. Metal Film Resistors: Composition: Similar to thin film resistors but generally involve a thicker layer of metal alloy deposited on a ceramic base. Characteristics: Known for excellent accuracy, stability, and low noise. They offer better performance than thick film resistors but are less precise than thin film resistors. Applications: Precision circuits, audio equipment, and various instrumentation. Metal Element Resistors: Composition: Consist of a metal oxide film, such as tin oxide, deposited on a ceramic substrate. Characteristics: Offer good stability, high-temperature performance, and resistance to overloads and environmental factors. They are typically more robust than metal film resistors. Applications: Power supplies, motor controls, and industrial equipment. Carbon Film Resistors: Composition: Made by depositing a thin layer of carbon onto a ceramic substrate. Characteristics: Less stable and accurate compared to metal and oxide films but are cost-effective for general-purpose applications. Applications: Low-cost consumer electronics, general-purpose circuits. Each composition type offers distinct advantages and is chosen based on the specific requirements of the application, including factors like precision, stability, cost, and environmental conditions. Applications for chip resistors - surface mount include consumer electronics, telecommunications, automotive systems, industrial equipment, and medical devices. Their compact form factor and reliable performance make them essential components in the design and manufacture of modern electronic circuits.