Magnifier lamps
What is important when buying a magnifying lamp?
A high-quality magnifying lamp is characterized by distortion-free magnification, glare-free illumination and a long service life. The magnification required depends largely on the application in question. Particularly for precision mechanical work - such as soldering - a sufficient working distance under the lens is crucial to ensure sufficient space for tools and ergonomic handling.
As a general rule, the higher the magnification, the shorter the working distance. A magnification of 1.75x is sufficient for most applications. Some models offer the option of exchanging lenses with different magnifications in order to be able to react flexibly to different requirements. In addition, care should always be taken to avoid visual fatigue when choosing the right magnification.
In addition, a high-quality, stable arm is essential to ensure precise and flexible positioning of the magnifying lamp. All models on offer impress with their first-class quality, energy efficiency and always ensure a distortion-free, well-lit view.
Model | Magnification | Equipment | Lightning power | Color temperature | Light current | Dimmable/ | ESD | |
1.75x / 4x | LED / UV | 6,000 / 4,000 | 6,000 | 700 |
|
| ||
2.25x | LED / UV / camera | 6,500 | 6,500 - 3,500 | 1100 | ✓ | ✓ | ||
2.5x | LED |
| 4,000 | 420 | ✓ |
| ||
1.75x / 4.0x | LED | 6,300 - 1,800 4-stage dimmer | 6,000 | 814 | ✓ |
| ||
1.75x | LED |
| 3,800 | 680 | ✓ | ✓ | ||
1.75x / 2.25x | LED | 7,000 / 6,300 / 5,500 | 6,000 | 814 / 548 | ✓ |
| ||
1.875x / 2.25x | LED / UV | 4,600 | 4,000 |
| ✓ | ✓ | ||
1.875x / 2.25x | LED | 3,830 | 4,000 |
| ✓ |
| ||
1.75x | LED | 5,300 / 3,000 | 6,000 | 770 / 406 | ✓ |
| ||
1.75x / 2.25x | LED | 4,900 / 2,100 | 4,000 / 2,100 |
| ✓ |
| ||
1.75x / 2.25x | LED | 3,000 | 4,000 | 900 | ✓ | ✓ | ||
1.875x / 3x | LED | 6,000 | 4,000 | 950 / 750 | ✓ | ✓ | ||
1.875x | LED |
| 5,000 | 800 | ✓ |
| ||
1.88x / 2.5x | LED | 6,000 | 6,500 |
| ✓ |
|
What is the difference between lumen and lux?
The unit of measurement lumen (lm) describes the luminous flux, how much light the light source emits in all directions. The more lumens, the brighter the light source appears. However, how bright the surface actually is depends on the distance between the luminaire and the work surface.
The illuminance on the work surface is measured in lux. It takes into account how much of the emitted light actually reaches the surface. The smaller the distance between the luminaire and the work surface, the higher the illuminance in lux.
Which color temperature is ideal for electronics work?
Choosing the right color temperature is crucial for electronics work. Illuminance in the range of 5,000 to 6,500 Kelvin is particularly suitable. This light color comes very close to natural daylight and ensures realistic color rendering - an important factor when it comes to reliably identifying color-coded components, conductor tracks or solder joints.
In addition, light with a high color temperature has an activating and concentration-enhancing effect, which is particularly beneficial for precise and prolonged activities in electronics production.
Models that either offer a fixed daylight color or can even be switched between different light colors are ideal - this allows the lighting to be flexibly adapted to different tasks and personal preferences.
Product overview
Workwear | Professional Footwear 2024
DPV main catalog 2023 | 2024