Patent ID: 11901646
Assignee: RAYTHEON COMPANY
Field: Measurement (Instruments)
Classification: CPC G  H | IPC G  H

Claim 0:
1. A sensing system, comprising:
a radio frequency (RF) antenna array for receiving an RF signal of a scene originated from a radio frequency (RF) transmitter;
an RF to optical converter for converting the received RF signal to a first optical signal;
an optical receiver for receiving an optical signal of the scene generated by an optical transmitter, and producing a focused optical signal, wherein the focused optical signal includes an active optical signal and a passive optical signal, wherein the active optical signal is received by the optical receiver when the optical transmitter illuminates the scene, and wherein the passive optical signal includes electromagnetic radiation received by the optical receiver not originated from within the sensing system;
an optical beam combiner optically coupled to the RF to optical converter and to the optical receiver for optically combining the first optical signal and the focused optical signal to produce a combined optical signal having different wavelength ranges;
an optical detector array optically coupled to the optical beam combiner that detects the first optical signal with a first wavelength range and detects the focused optical signal in a second different wavelength range for sensing the combined optical signal for said different wavelength ranges and converting the sensed combined optical signal to electrical charge;
a read out integrated circuit electrically coupled to the optical detector for measuring the electrical charge and outputting a first digital signal corresponding to the first wavelength range for an image from the RF transmitter and a second digital signal corresponding to the second wavelength range different from the first wavelength range for an image from the optical transmitter proportional to the measured charge; and
a processing circuit electrically coupled to the read out integrated circuit capable of separating the images and displaying only the image from the RF transmitter, only the image from the optical transmitter, and both images from the RF transmitter and the optical transmitter, on a display, wherein outputs of the RF transmitter and the optical transmitter are time multiplexed such that time intervals of the RF signal from the scene and the focused optical signal from the scene do not overlap.