kolejna superlatarka?
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kolejna superlatarka?
nieźle wygląda na zdjęciach,nie doczytałem się szczegółowych parametrów,ale zapowiada sie super,reszta na: [link widoczny dla zalogowanych Użytkowników]
pzdr
pzdr
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Re: kolejna superlatarka?
A to jest ciekawe, chcociaż design jest...hmmm... kontrowersyjny powiedzmy.
Latarka jest dość droga, aczkolwiek parametry ma ciekawe. Niestety nigdzie nie podają ile lumenów potrafi oddać dioda. (jeszcze nie przekopałem topicu o tej latarce na CPF'ie)
Jest droga, zwłaszcza wersje tytanowe: 145-455 USD
Jak dla mnie, HDS jest ciekawszą propozycją, zeby o Indium smart nie wspomnieć. (ok.350USD)
Troszkę info: (z CPF)
-Lux III 50mA to 1000mA (adjustable by using a small screwdriver)
-fully waterproof
The housing design:
1. Designed to maximize thermal efficiency by maximizing exposed surface area.
2. Mechanical housing assembly analyzed using finite element analysis (FEA) in order to insure structural integrity under stress
3. Materials: 316 Stainless steel or Titanium (both with hand polished finish)
4. Water sealing designed to withstand depths greater than 1 meter
5. Aerospace grade 100 deg. flat head screws per military specification NAS662
6. Housing screws thread staked for added durability.
7. Assembly performed in accordance with qualified spaceflight hardware procedures and requirements, in order to maximize reliability and quality.
8. Silicone environmental seals fabricated with the use of high vacuum degas process.
9. High precission components: <0.0005" tolerance
10. Heatsink bars pressed into main body under >500lbs axial force in order to maximize thermal efficiency.
Circuit design:
1. Circuit board designed to meet the requirements of IPC-A-610, Class 3 (High reliability) And NASA-STD-8739.3 (The same requirements applied to spaceflight circuit boards)
2. copper or aluminum heatsink to provide maximum thermal dissipation.
3. Circuit designed to handle up to 2000mA of current for short durations.
4. Adjustable current from 50mA to 1000mA (Luxeon III)
5. Future versions up to 1500mA (K2)
6. Circuit board assembly performed by NASA qualified technician per NASA-STD-8739.3
7. LED mounted to circuit board using high performance thermal dissipation pad commonly used in spaceflight applications.
8. Circuit board epoxy potted using aerospace grade thermally conductive epoxy to maximize thermal mass and conduction surface area
9. Preliminary circuit design rated to 85 deg. C
Assembly testing:
1. Assembly tested using laboratory grade test equipment and processes.
zamówienia i ceny: [link widoczny dla zalogowanych Użytkowników]
Latarka jest dość droga, aczkolwiek parametry ma ciekawe. Niestety nigdzie nie podają ile lumenów potrafi oddać dioda. (jeszcze nie przekopałem topicu o tej latarce na CPF'ie)
Jest droga, zwłaszcza wersje tytanowe: 145-455 USD
Jak dla mnie, HDS jest ciekawszą propozycją, zeby o Indium smart nie wspomnieć. (ok.350USD)
Troszkę info: (z CPF)
-Lux III 50mA to 1000mA (adjustable by using a small screwdriver)
-fully waterproof
The housing design:
1. Designed to maximize thermal efficiency by maximizing exposed surface area.
2. Mechanical housing assembly analyzed using finite element analysis (FEA) in order to insure structural integrity under stress
3. Materials: 316 Stainless steel or Titanium (both with hand polished finish)
4. Water sealing designed to withstand depths greater than 1 meter
5. Aerospace grade 100 deg. flat head screws per military specification NAS662
6. Housing screws thread staked for added durability.
7. Assembly performed in accordance with qualified spaceflight hardware procedures and requirements, in order to maximize reliability and quality.
8. Silicone environmental seals fabricated with the use of high vacuum degas process.
9. High precission components: <0.0005" tolerance
10. Heatsink bars pressed into main body under >500lbs axial force in order to maximize thermal efficiency.
Circuit design:
1. Circuit board designed to meet the requirements of IPC-A-610, Class 3 (High reliability) And NASA-STD-8739.3 (The same requirements applied to spaceflight circuit boards)
2. copper or aluminum heatsink to provide maximum thermal dissipation.
3. Circuit designed to handle up to 2000mA of current for short durations.
4. Adjustable current from 50mA to 1000mA (Luxeon III)
5. Future versions up to 1500mA (K2)
6. Circuit board assembly performed by NASA qualified technician per NASA-STD-8739.3
7. LED mounted to circuit board using high performance thermal dissipation pad commonly used in spaceflight applications.
8. Circuit board epoxy potted using aerospace grade thermally conductive epoxy to maximize thermal mass and conduction surface area
9. Preliminary circuit design rated to 85 deg. C
Assembly testing:
1. Assembly tested using laboratory grade test equipment and processes.
zamówienia i ceny: [link widoczny dla zalogowanych Użytkowników]
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