| 摘要 |
1,173,439. Optical communication system. NIPPON ELECTRIC CO. Ltd. Dec. 9, 1966 [Dec.15, 1965], No.55382/66. Heading G1A. In an optical communication system, a number of light beams, representing different communication channels, are received by a common optical receiver which focuses the beams on to the appropriate ones of an array of photo-electric detectors, the separation of neighbouring detectors such as to ensure that the corresponding beams which they receive may be distinctly separated from one another even when there is atmospheric turbulence which might cause spreading of the beams. Fig. 1 shows one arrangement of the optical receiver, in which a concave mirror 11 focuses light beams 13, 13' from different transmitters on to different units 14, 14' of an array of photoelectric detector units 20. Each of the units, illustrated in detail in Fig.2, comprises a box having an aperture 24 through which light reached a p-n, or p-i-n junction-type diode detector, mounted on the back, inside wall of the box. The boxes provide electrical and optical screening for the photo-diodes. In an alternative arrangement, the photo-diodes may be formed in a single wafer. The transmitting sources for producing light beams such as 13, 13' are lasers e.g. of the Helium- Neon or Argon type. Light from each laser is modulated with the information to be transmitted and collimated by a Galilean telescope optical transmitter, Fig. 5 (not shown) which may be directed as required. In a multi-channel communication system, each receiver is associated with an array of transmitters arranged around it and a number of arrangements such as this associated with one another in a coordinate array, Fig. 3. The two identical arrays are mounted on the roofs of respective buildings providing multi-channel communication between them. In such a system, a receiver of a particular transmitter-receiver arrangement of one array, receives beams from widely separated transmitters of different transmitter-receiver arrangements on the other array, thus providing distinct angular separation of the beams through the atmosphere. Examples of beam path configurations are illustrated in Figs.6 and 7 (not shown). Alternative optical receivers employing a polyhedral mirror, Fig. 8 (not shown), and a dichroic mirror Fig. 9 (not shown), to achieve spacial division of the beams, are described. Photo-multipliers may be used instead of photodiodes.
|
