Abstract: A portable transceiver of one or more signals includes an input, frequency modulation, a splitter and a plurality of lasers in a transmitter module. A receiver module includes a Mangin mirror aligned with an input aperture. A photodiode receives the signal from the mirror for subsequent demodulation. An interference filter is arranged between the mirror and the photodiode. The filter is hemispherical, having a center of curvature at the focal point of the mirror. The transceiver may include a video camera and gyro-stabilizer accessories. A visual siting scope is aligned with the lasers and the receiver. A separate transceiver for ethernet input signals interfaces with a 10/100 ethernet switch and does not employ frequency modulation.

Abstract: A highly efficient thermoelectric cooler controller for temperature stabilization. The circuit comprises a temperature sensor and a thermoelectric cooler, both in thermal communication with a component to be temperature stabilized. The circuit further comprises a power amplifier electrically coupled to the thermoelectric cooler. The power amplifier is employed as a controlled current source to efficiently supply current to the thermoelectric cooler when maximum cooling is required.

Abstract: An optical transceiver comprises a signal transmitter emitting an outgoing communication signal and transmit optics to transmit that includes a transmit telescope. The transceiver additionally comprises receive optics that includes a receive telescope to receive an incoming communication signal and a signal receiver. A dual-axis tilt mirror optically couples the signal transmitter to the transmit optics so that the outgoing communication signal is transmitted by the transmit telescope. The same dual-axis tilt mirror also optically couples the receive optics to the signal receiver so that the incoming communication signal is received by the signal receiver. Thusly configured, the angular orientation of the dual-axis tilt mirror simultaneously controls the reception and transmission orientations of the receive and transmit telescopes, respectively.

Abstract: A highly efficient thermoelectric cooler controller for temperature stabilization. The circuit comprises a temperature sensor and a thermoelectric cooler, both in thermal communication with a component to be temperature stabilized. The circuit further comprises a power amplifier electrically coupled to the thermoelectric cooler. The power amplifier is employed as a controlled current source to efficiently supply current to the thermoelectric cooler when maximum cooling is required.

Abstract: An optical amplifier comprising a pump source and a light-transmitting medium. The light-transmitting medium is power-coupled to the pump source and has a first side and a convex side. The first side opposes and lies at least partially within a focal plane of the convex side. An optical coating that reflects optical signals is disposed on the first side. The light-transmitting medium amplifies optical signals through stimulated emission.

Abstract: An optical wireless transceiver for communicating broadband signals through free space includes an input, a regenerator, a splitter and a plurality of lasers in transmitter modules. A very fast (low f-number) optical receiver module includes a reflector, preferably a Mangin mirror or parabolic reflector with field corrector, aligned with an input aperture. A photodiode receives the signal from the reflector for subsequent demodulation. A background rejection filter is disposed between the reflector and the photodiode at the focal point of the mirror. The transceiver provides signal regeneration and switchable data rates. Connections are made to optical or electrical digital inputs and outputs bearing signals of various protocols. The plurality of lasers includes adjustable-beamwidth collimating lenses. Monitoring circuitry including a controller monitors the system. A stand-alone backup RF transceiver operating in conjunction with the laser transceiver provides enhanced availability.