380 Optoelectronics |
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| Allicdata Part #: | 380JK-ND |
| Manufacturer Part#: |
380 |
| Price: | $ 0.32 |
| Product Category: | Optoelectronics |
| Manufacturer: | JKL Components Corp. |
| Short Description: | LAMP INCAND T1.75 MIDG FLAN 6.3V |
| More Detail: | Incandescent Lamp Clear 6.3V Round with Domed Top,... |
| DataSheet: |  380 Datasheet/PDF |
| Quantity: | 1000 |
| Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
| Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
| 100 +: | $ 0.28350 |
| Series: | -- |
| Part Status: | Active |
| Lead Free Status / RoHS Status: | -- |
| Type: | Incandescent |
| Moisture Sensitivity Level (MSL): | -- |
| Color: | Clear |
| Voltage Rating: | 6.3V |
| MSCP (Mean Spherical Candle Power): | 0.03 |
| Lens Style: | Round with Domed Top |
| Lens Size: | RT-1 3/4 |
| Lead Style: | Midget Flange |
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Incandescent and neon lamps are two of the most popular lighting options on the market today. Both produce light by electrical power, but with different processes. Incandescent lamps, also referred to as tungsten filament lamps, use electric power to heat a tungsten filament, causing it to glow and emit light. Neon lamps, on the other hand, use an electric charge to excite neon or other gases and cause them to glow and emit light.
One key difference between incandescent and neon lamps is the amount of light they produce. Incandescent lamps typically emit a shorter wavelength and a higher intensity of light compared to neon lamps, while neon lamps generally produce longer wavelengths with lower intensities of light. This affects the visual look of each lamp, as the longer wavelengths created by neon lamps will appear to be more soft, while incandescent lamps appear to provide sharper and brighter light.
In terms of applications, incandescent lamps are most commonly used for residential and decorative lighting, while neon lamps are largely used to create signs and displays. Incandescent lamps are also more commonly found in living spaces, due to their lower cost and easier installation, while neon lamps are largely used in more commercial settings.
In terms of energy efficiency, incandescent lamps generally have a poorer energy efficiency rating when compared to neon lamps. This is because incandescent lamps rely on electric current to directly heat the tungsten filament to create light, while neon lamps use an electric field to excite the gas within the lamp’s tube. As such, incandescent lamps will generally require more energy to power compared to neon lamps.
The working principle of both incandescent and neon lamps is similar, in that they rely on electric current to power them. Incandescent lamps use electricity to directly heat a tungsten filament, which will then glow and emit light. On the other hand, neon lamps require an electric charge to excite the gas within the lamp’s tube, causing it to glow and emit light.
Overall, incandescent and neon lamps are two of the most popular lighting options available on the market. Incandescent lamps are better suited for residential and decorative lighting, while neon lamps are largely used for commercial applications and displays. In terms of energy efficiency, neo lamps have the edge over incandescent lamps, as they generally require less energy to power.
The specific data is subject to PDF, and the above content is for reference
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| 380C325K | Honeywell Se... | 12.19 $ | 15 | POT 25K OHM 2W PLASTIC LI... |
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| 380C11000 | Honeywell Se... | 14.5 $ | 19 | POT 1K OHM 2W PLASTIC LIN... |
| 380C31000 | Honeywell Se... | 13.52 $ | 700 | POT 1K OHM 2W PLASTIC LIN... |
| 380C310K | Honeywell Se... | 12.76 $ | 228 | POT 10K OHM 2W PLASTIC LI... |
| 380C35000 | Honeywell Se... | 13.15 $ | 265 | POT 5K OHM 2W PLASTIC LIN... |
| 380C31MEG | Honeywell Se... | 12.19 $ | 108 | POT 1M OHM 2W PLASTIC LIN... |
| 380C150K | Honeywell Se... | 14.89 $ | 300 | POT 50K OHM 2W PLASTIC LI... |
| 380C210K | Honeywell Se... | 15.81 $ | 104 | POT 10K OHM 2W PLASTIC LI... |
| 380LQ121M450H022 | Cornell Dubi... | 1.81 $ | 553 | CAP ALUM 120UF 20% 450V S... |
| 380LQ472M063J032 | Cornell Dubi... | 1.98 $ | 1000 | CAP ALUM 4700UF 20% 63V S... |
| 380LX103M025K012 | Cornell Dubi... | 2.06 $ | 333 | CAP ALUM 10000UF 20% 25V ... |
| 380LX222M100K022 | Cornell Dubi... | 2.1 $ | 541 | CAP ALUM 2200UF 100V 20% ... |
| 380LX273M025A032 | Cornell Dubi... | 2.43 $ | 514 | CAP ALUM 27000UF 20% 25V ... |
| 380LX102M200A022 | Cornell Dubi... | 2.52 $ | 1670 | CAP ALUM 1000UF 200V 20% ... |
| 380LQ271M400K022 | Cornell Dubi... | 2.68 $ | 554 | CAP ALUM 270UF 20% 400V S... |
| 380LX562M080A032 | Cornell Dubi... | 2.77 $ | 314 | CAP ALUM 5600UF 20% 80V S... |
| 380LX393M025A452 | Cornell Dubi... | 2.87 $ | 1489 | CAP ALUM 39000UF 20% 25V ... |
| 380LX182M200A452 | Cornell Dubi... | 2.99 $ | 808 | CAP ALUM 1800UF 20% 200V ... |
| 380LQ102M250K032 | Cornell Dubi... | 3.31 $ | 448 | CAP ALUM 1000UF 20% 250V ... |
| 380LX472M100A042 | Cornell Dubi... | 3.4 $ | 394 | CAP ALUM 4700UF 20% 100V ... |
| 380LX820M450J012 | Cornell Dubi... | 3.43 $ | 320 | CAP ALUM 82UF 20% 450V SN... |
| 380LX562M100A452 | Cornell Dubi... | 3.51 $ | 528 | CAP ALUM 5600UF 100V 20% ... |
| 380LX471M450A452 | Cornell Dubi... | 3.56 $ | 2439 | CAP ALUM 470UF 450V 20% S... |
| 380LX151M500A012 | Cornell Dubi... | 4.53 $ | 1000 | CAP ALUM 150UF 500V 20% S... |