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本帖最后由 小米 于 2012-11-6 13:18 编辑 + e: w1 q4 B; e. A+ O4 s
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|  DSH 1028 | Evaluation of spectrum of blue laser-based source projector
4 b |) z) _' } j. ?, U% j1 E | 8.3 & 9
4 z( A) X/ ?$ c( Q | 60825-1(ed.2)
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0 u2 m0 r- N/ n I2 B+ `Standard(s) (incl. year) Subclause(s) No. Year# i* U* g( t7 g, `- e' \) f6 N2 r
IEC 60825-1: 2007 (2nd Edition) 8.3 & 9 PDSH* G, Y- R! f' p- k* {0 O& Z! | y
1028$ z, L- J$ k4 r: C- F( U i
2011$ R: \, U2 l& O ]
Category# ~ q4 V) W" s4 e5 Q, P# l
MISC+ X$ o5 f L1 V. W0 z3 z
Subject Keywords Developed by To be approved
^: _% M. J! ~8 g/ h k1 FEvaluation of spectrum of blue& r" S8 g, ~3 @
laser-based source projector
5 ?' [$ z$ L6 V+ _* s& o! M8 q$ \Laser projector, spectrum,! z+ _) ^) w7 f' D, o
fluorescent layer+ z+ r& F' E3 z+ N4 e
ETF 11 2013 CTL
% ^. [( c5 O" [4 L. `% XPlenary Meeting
3 x& n5 i! M" y& Q7 t' VQuestion$ h* ^0 P) Y% |# E. q. M' ^
A laser-based light engine projector emits a white light spectrum with three dominant colours (see the& R" F1 ]' O* e' N( l( l% s' O
optical spectrum, Fig. 1 below, in comparison with the optical spectrum of a mercury lamp projector,8 S, t0 H* k4 f4 `) j: y3 V
Fig. 2). The blue light (ca. 440 nm) is generated by a blue laser diode; other wavelengths (with peaks8 P; k; d2 M* u( h% M6 a4 x% B6 R9 K
of green and red) are emitted from a fluorescent layer.
' i; f, g6 x+ e' q6 ]9 g# s: T4 uIs it acceptable to evaluate the eye safety hazard according to IEC 60825-1 by only assessing the
: a; D9 m! |' w4 b9 x% Temission in blue (thus disregarding other parts of the spectrum, i.e. green and red)?( E1 @! X ]+ B X3 X
Decision
5 s: p# H0 F5 a, `4 b5 P XNo. The coherent portion and incoherent portion of the entire spectrum shall be individually evaluated
4 O$ _" {, r7 j- ]2 [" yto the applicable hazards/requirements per IEC 60825-1 and IEC 62471 respectively.
4 E: p& a6 g, `# N! w* J: S$ tMeasurements for calculations and determination of the respective applicable accessible emission
4 [; ~" r- B& H9 a' llevels must reflect this for each and every possible radiation hazard.9 Q1 A X1 Z6 a5 T' M* V+ \1 y& x
Notes:
( h4 u3 E& K3 e1 O: t" D1. Due to the short-wavelength characteristics, which are associated with blue ray hazard, and the
) |. V! @* C8 z& m& \more stringent hazard limit for blue light, this blue light hazard may be over-classified if the total
; F ?, I/ @% F, i. |power (from this light engine) is measured and considered in the allowable limit calculations. An' ~6 c0 F& s! |- k* O( G
appropriate optical device may be used to filter out the blue light for the blue light hazard+ C7 [% P4 W6 N$ D2 k& g5 q
measurements and evaluation.8 c% W: v+ V' R- M7 W
2. Depending on its energy content, the remaining blue laser beam can be a very dangerous" U1 T2 ~8 e: L- ^" T
weapon, as it hides inside the seemingly safe broad-band white light to which users would not
7 }( V9 H* }( a, l) l) F1 Fapply their behavioural/precautionary safety guard as they would to a sharp, bright, and' ^- c/ P% s$ i. M+ g0 Z7 u
collimated blue laser beam. During the evaluation of the blue laser beam the following extra+ G! Y: _; h+ n+ y5 e
precautions shall be adequately taken:- E2 J: P/ e1 d; P6 M7 V) f
a. additional safeguarding$ k6 m) z( `# {0 X5 J
b. means of protection
$ D" e% k2 w6 s! D3 s- }c. cautionary markings and/or instructions, etc , particularly if the remaining laser beam% ? j# ]! \5 G8 N9 v
contains high energy content.
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发表于 2012-11-6 13:15
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