Extreme light for extreme situations
Organisations aiming to save lives are among the most important achievements of human civilization. Sometimes, courageous helpers and volunteer rescue workers have to spend hours or even days at the scene of action – be it natural catastrophes or tragic accidents. Frequently these missions take place in pitch-black night under the worst visibility and weather conditions. More often than not, the only two things helping rescue workers withstand extreme conditions are their iron will and their equipment. And they have to be able to count on the latter a hundred percent. Tools that don’t fail even in the most extreme conditions are their best and sometimes only ally. The LED LENSER® M14 is the flashlight of choice for long-time missions. Before this lamp entered mass production, it had passed – with flying colors! – a multitude of thorough practical tests involving rigorous procedures.Our engineers especially had in mind emergency units whose working hours are incalculable: disaster relief workers, firefighters or police forces. When put to continuous use, the LED LENSER® M14 impresses by its light output, its functionality and its outstanding running time: 50 hours** of reliable light! Due to its extreme beam distance (320 meters*), this handy lamp literally puts many a competitor’s model in the shade. In addition, you can set the LED LENSER® M14 to your particular requirements via light programs (Smart Light Technology), so that the light functions you need are accessible in a flash. The LED LENSER® M14 with individual light programs is a lighting tool that makes your work safer and more effective.
* Luminous flux (lumens) or the maximal lighting range measured in metres on the brightest setting (Boost) when turned on with a set of fresh alkaline batteries. Average value may vary by +/- 15% depending on the chip and the battery.
** Average burn time at the lowest setting (Low-Power) up to a luminous flux of 1 lumen.
*** Calculated capacity value in Watt hours (Wh). This applies to the fully intact charged energy storage contained in the relevant article in the delivered state.