Reference wavelength light generating apparatus

Optics: measuring and testing – By dispersed light spectroscopy

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C356S326000, C356S329000, C356S432000, C356S433000

Reexamination Certificate

active

06552785

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a reference wavelength light generating apparatus for generating predetermined reference wavelength light in an optical spectrum analyzer and so on.
Normally, a measuring apparatus such as an optical spectrum analyzer performing various measurements by using a predetermined measuring beam often displays measurement results in a graphical form with its horizontal axis corresponding to wavelengths and its vertical axis corresponding to detection levels. In case of displaying such measurement results, there are cases where wavelengths of the horizontal axis deviate over time due to environment such as temperature. For this reason, wavelengths are adjusted to the horizontal axis by using predetermined reference wavelength light of which wavelength has a known absorption spectrum. An apparatus for generating reference wavelength light to be used for such calibration is the reference wavelength light generating apparatus.
FIG. 9
is a diagram showing configuration of a conventional reference wavelength light generating apparatus used for an optical spectrum analyzer and so on. Reference wavelength light generating apparatus
200
shown in
FIG. 9
is intended to simultaneously generate predetermined reference wavelength light used for calibration and a predetermined measuring beam used for measurement, and is comprised of two light sources
210
,
240
, two fiber collimators
212
,
214
and an optical cell
216
.
The two light sources
210
,
240
are formed by using an edge emitting type LED for instance. The light source
210
on the one hand is used to generate reference wavelength light, and the light emitted from this light source
210
is let into the fiber collimator
212
via an optical fiber
220
and is converted into parallel rays. These parallel rays pass through the optical cell
216
to have predetermined wavelength components absorbed. The parallel rays after passing through the optical cell
216
are led to an optical connector for reference wavelength light
230
via an optical fiber
222
after having their light gathered by the other fiber collimator
214
. Moreover, the other light source
240
is used to generate a measuring beam, and any light emitted from this light source
240
is led to an optical connector for measuring beam
252
via an optical fiber
224
.
Incidentally, there has been a problem that, in the above-mentioned conventional reference wavelength light generating apparatus, adjustments are not easy as to the two fiber collimators
212
and
214
placed sandwiching optical cell
216
. To have the parallel rays emitted from fiber collimator
212
on the one hand exactly let into the other fiber collimator
214
, the horizontal and vertical positions of the two fiber collimators as well as their respective angles of inclination must be adjusted. As there are so many points to be adjusted and adjustments of the adjusted angles and horizontal and vertical positions must be made simultaneously, it is not easy to perform desired adjustments exactly.
In addition, in the above-mentioned conventional reference wavelength light generating apparatus, there has been a problem that two light sources
210
,
240
and two fiber collimators
212
,
214
which are relatively expensive parts are used in order to generate reference wavelength light and a measuring beam so that production cost increases. For instance, a SELFOC lens that is a relatively expensive part is used for the above-mentioned fiber collimators
212
,
214
affixed to one end each of the above-mentioned optical fibers
220
,
222
.
SUMMARY OF THE INVENTION
The present invention was devised in consideration of such points, and its object is to provide a reference wavelength light generating apparatus allowing time and effort for adjustments to be reduced and also capable of cost cutting by reducing the number of parts.
In order to attain the above-mentioned object, the reference wavelength light generating apparatus of the present invention is equipped with a light source for generating light having a predetermined wavelength range, an absorbing member for absorbing a predetermined wavelength component from incident light, a reflecting member for reflecting any light emitted from the above described absorbing member in the direction of the above described absorbing member, light branching unit for branching and emitting the light emitted from the above described light source in both a direction of the above described absorbing member and a direction different from that of the above described absorbing member and also branching and emitting the light incident from the above described absorbing member in both a direction of the above described light source arid a direction different from that of the above described light source, and a collimator for converting the light emitted from the above described light branching unit to the above described absorbing member side via an optical fiber into parallel rays at the end of the above described optical fiber and letting them into the above described absorbing member, in which the light branched from the above described light branching unit in a direction different from that of the above described light source is emitted as reference wavelength light and the light branched from the above described light branching unit in a direction different from the above described absorbing member is emitted as a measuring beam. As the light reflected by the reflecting member can be accurately let into the absorbing member again merely by adjusting an angle of the reflecting member, it can significantly reduce time and effort for adjustments required for generating reference wavelength light. In addition, as it can generate reference wavelength light and a measuring beam by using one light source, cost cutting by reducing the number of parts is possible. Moreover, the light having been converted into parallel rays by the collimator can easily proceed along a reverse optical path by passing through the absorbing member and then being reflected by the reflecting member. In particular, as the number of collimators used for letting into and emitting light to and from the absorbing member can be only one, the number of collimators, which is a relatively expensive component, can be reduced compared with a conventional case where two collimators in total are used at both ends of the absorbing member, so that cost cutting thereby is possible.
The reference wavelength light generating apparatus of the present invention is equipped with a light source for generating light having a predetermined wavelength range, an absorbing member for absorbing a predetermined wavelength component from incident light, a reflecting member for reflecting any light emitted from the above described absorbing member in the direction of the above described absorbing member, light branching unit for emitting the light emitted from the above described light source in a direction of the above described absorbing member and also branching and emitting the light incident from the above described absorbing member in both a direction of the above described light source and a direction different from that of the above described light source, and a collimator for converting the light emitted from the above described light branching unit to the above described absorbing member side via an optical fiber into parallel rays at the end of the above described optical fiber and letting them into the above described absorbing member, in which the light branched from the above described light branching unit in a direction different from that of the above described light source is emitted as reference wavelength light. As the light reflected by the reflecting member can be accurately let into absorbing member again merely by adjusting an angle of the reflecting member, it can significantly reduce time and effort for adjustments required for generating reference wavelength light. In addition, the light having been converted into parallel rays by the collim

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Reference wavelength light generating apparatus does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Reference wavelength light generating apparatus, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Reference wavelength light generating apparatus will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-3009772

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.