公开(公告)号：WO2009045577A1

公开(公告)日：2009-04-09

申请号：PCT/US2008/066812

申请日：2008-06-13

Applicant: ELBIT SYSTEMS OF AMERICA, LLC ,  FISHER, Jeremy Francis

Inventor： FISHER, Jeremy Francis

IPC: G01S13/00

CPC classification number: B64D1/04 ,  B64D7/00 ,  F41F3/042 ,  F41G3/02 ,  F41G7/226 ,  F41G7/2293 ,  F42B15/01 ,  F42B39/26 ,  G01S7/003 ,  G01S13/885

Abstract: An integrated weapons pod includes a plurality of pod components such as a targeting system, a weapons bay, a central processing unit ("CPU"), a wireless data link, and an external shell. The external shell houses the targeting system, the weapons bay, the CPU, and the wireless data link in a single freestanding unit. The weapons bay is configured to house one or more weapons and deploy the one or more weapons at a target. The CPU is operable to control operation of the targeting system, the weapons bay, and the wireless data link. The targeting system is operable to provide to the one or more weapons location information identifying a location of the target, and the wireless data link is operable to exchange data with a remote operator.

Abstract translation: 集成的武器舱包括多个舱组件，例如目标系统，武器舱，中央处理单元（“CPU”），无线数据链路和外壳。 外壳在单个独立单元中容纳瞄准系统，武器舱，CPU和无线数据链路。 武器舱配置为容纳一个或多个武器，并将一个或多个武器部署在目标上。 CPU可操作地控制目标系统，武器舱和无线数据链路的操作。 所述瞄准系统可操作以向所述一个或多个武器位置提供标识所述目标的位置的信息，并且所述无线数据链路可操作以与远程操作员交换数据。

公开(公告)号：US12224148B2

公开(公告)日：2025-02-11

申请号：US17222582

申请日：2021-04-05

Applicant: ELBIT SYSTEMS OF AMERICA, LLC

Inventor： Arlynn Walter Smith

IPC: H01J31/50 ,  H01J1/34 ,  H01J9/233

Abstract: A night vision system along with an image intensifier tube and method for forming the tube are provided. The night vision system incorporates the image intensifier tube in both an analog channel as well as a digital channel, with an addressable display within the analog image intensifier tube analog channel configured to create an electronically addressable output. An analog image intensifier tube is included in the digital imager for presenting binary digital signals representative of an image, or of symbol indicia, and registering those digital representation from the digital imager onto one or more electron multipliers of the analog image intensifier tube within the analog channel. The provided night vision system also utilizes a cathodoluminescent screen, which is a highly efficient light source that reduces system power.

公开(公告)号：US20250030933A1

公开(公告)日：2025-01-23

申请号：US18223904

申请日：2023-07-19

Applicant: Elbit Systems of America, LLC

Inventor： John Barnett Hammond

IPC: H04N23/16 ,  H04N23/55 ,  H04N23/62 ,  H04N25/709

Abstract: A camera system includes a first imaging sensor, a second imaging sensor, and a controllable mirror system. The mirror system includes a mirror disposed at a fixed position to the first imaging sensor and the second imaging sensor, and a controller to control a signal applied to the mirror. The mirror system transmits a first portion of incident light through the mirror to the first imaging sensor, and reflects a second portion of the light to the second imaging sensor. A method of producing color images includes receiving incident light on a surface of the mirror, controlling the mirror to direct a first portion of the light to a first imaging sensor and a second portion of the light to a second imaging sensor, receiving first imaging sensor data from the first imaging sensor, and receiving second imaging sensor data from the second imaging sensor.

公开(公告)号：US20240186129A1

公开(公告)日：2024-06-06

申请号：US18442690

申请日：2024-02-15

Applicant: Elbit Systems of America, LLC

Inventor： Stephen Carroll ,  William J. Baney ,  Cooper Gray Temple ,  Matthew Robert Curtis

IPC: H01J43/28 ,  C03C15/00 ,  C23C14/04 ,  C23C14/14 ,  C23C14/22 ,  C23C14/24 ,  C23C14/50 ,  H01J43/02 ,  H01J43/12

CPC classification number: H01J43/28 ,  C03C15/00 ,  C23C14/042 ,  C23C14/14 ,  C23C14/225 ,  C23C14/24 ,  C23C14/505 ,  H01J43/02 ,  H01J43/12

Abstract: A night vision system, a microchannel plate (MCP), and a planetary deposition system and methodology are provided for selectively depositing an electrode contact metal on one side of MCP channel openings. MCPs can be secured to a face of a platter that rotates about its central platter axis. The rotating platter can be tilted on a fixture surrounding an evaporative source of contact metal. A mask with a variable size mask opening is arranged between the rotating platter and the evaporative source. While the mask orbits around the evaporative source with the rotating platter, the mask does not rotate along its own axis as does the rotating platter. Depending on the opening of the non-rotating mask, and the tilt angle of the rotating platter, the respective circumferential distance around and the depth into the shaded first side of the channel opening is controlled.

公开(公告)号：US11901151B2

公开(公告)日：2024-02-13

申请号：US17706112

申请日：2022-03-28

Applicant: Elbit Systems of America, LLC

Inventor： Stephen W. Carroll ,  Arlynn W. Smith ,  Todd A. Smith

IPC: H01J31/50 ,  G02B23/12 ,  H01J9/12

CPC classification number: H01J31/507 ,  G02B23/12 ,  H01J9/125 ,  H01J2231/5016 ,  H01J2231/50026 ,  H01J2231/50063

Abstract: A night vision system along with an image intensifier tube having a microchannel plate and method of forming the microchannel plate are provided. The microchannel plate comprises a plurality of spaced channels extending through the microchannel plate, wherein each channel sidewall surface near the input face of the microchannel plate comprises a series of layers formed thereon. The input face of the microchannel plate, as well as the sidewall surfaces of each channel near the input surfaces, are configured with an electron backscatter layer arranged between a contact metal layer and a secondary electron booster layer. When formed partially into the channel openings near the input face, the electron backscatter layer and overlying secondary electron booster layer are configured circumferentially around the sidewall surfaces and extend radially inward toward a central axis of each channel.

公开(公告)号：US11810747B2

公开(公告)日：2023-11-07

申请号：US17377065

申请日：2021-07-15

Applicant: Elbit Systems of America, LLC

Inventor： Dan W. Chilcott ,  Arlynn W. Smith ,  John B. Hammond

IPC: H01J31/26 ,  H01J29/04 ,  H01J29/08

CPC classification number: H01J31/26 ,  H01J29/04 ,  H01J29/085

Abstract: An apparatus, system and method is provided for producing stacked wafers containing an array of image intensifiers that can be evacuated on a wafer scale. The wafer scale fabrication techniques, including bonding, evacuation, and compression sealing concurrently forms a plurality of EBCMOS imager anodes with design elements that enable high voltage operation with optional enhancement of additional gain via TMSE amplification. The TMSE amplification is preferably one or more multiplication semiconductor wafers of an array of EBD die placed between a photocathode within a photocathode wafer and an imager anode that is preferably an EBCMOS imager anode bonded to or integrated within an interconnect die within an interconnect wafer.

公开(公告)号：US11408765B2

公开(公告)日：2022-08-09

申请号：US15789061

申请日：2017-10-20

Applicant: ELBIT SYSTEMS OF AMERICA, LLC

Inventor： James Anton Harder ,  Michaelene Williams Sprague

IPC: G01J1/04 ,  G01J1/42 ,  G01J1/02 ,  F41G7/22

Abstract: There is provided in a first form, a detector. The detector includes a photosensitive detector element; and a reflecting surface disposed about and proximal to the photosensitive detector element, wherein the reflecting surface is configured to reflect radiation impinging on the reflecting surface onto the photosensitive detector element; and wherein the reflecting surface is further configured to determine a field of regard greater than a predetermined field of view.

公开(公告)号：US20210343514A1

公开(公告)日：2021-11-04

申请号：US17375734

申请日：2021-07-14

Applicant: Elbit Systems of America, LLC

Inventor： Mark Michalski ,  Ransom Hal Castleberry ,  John A. Balboni ,  Arlynn W. Smith ,  Raymond Leo Chabot

IPC: H01J40/16 ,  H04N5/232 ,  H01J40/02

Abstract: A method of controlling the performance of a night vision device includes supplying, by a power supply, to a microchannel plate of a light intensifier tube, a control voltage that controls a gain of the microchannel plate, determining an amount of compensation to apply to the control voltage based on a change to the control voltage attributed to a change in temperature of an operating environment of the night vision device, adjusting the control voltage in accordance with the amount of compensation to obtain a compensated control voltage, and supplying, by the power supply, the compensated control voltage to the microchannel plate of the light intensifier tube. The method may further include determining whether the night vision device has been used for a predetermined amount of time, and only after that predetermined amount of time, is the method configured to supply the compensated control voltage.

公开(公告)号：US20200312169A1

公开(公告)日：2020-10-01

申请号：US16371751

申请日：2019-04-01

Applicant: ELBIT SYSTEMS OF AMERICA, LLC

Inventor： John G. Williams

IPC: G08G5/02 ,  G08G5/00 ,  G08G5/06

Abstract: A landing zone designation system is provided that includes a master and a slave landing strobes. A detector on an aircraft can detect master and slave optical signals, and a processor can be coupled to the detector to compute placement of the aircraft relative to the master and slave landing strobes. A method is provided for designating a landing zone for an aircraft. The method includes emitting first and second optical signals, where a determination is made whether the aircraft is to land at a first landing zone or a second landing zone depending on a difference between the first optical signal and the second optical signal. A distance to landing within the determined first landing zone or the second landing zone can also be determined.

公开(公告)号：US20200307828A1

公开(公告)日：2020-10-01

申请号：US16371840

申请日：2019-04-01

Applicant: ELBIT SYSTEMS OF AMERICA, LLC

Inventor： John G. Williams

IPC: B64F1/20

Abstract: A landing strobe is provided having an optical emitter configured to emit an optical signal. An input device can be coupled to the optical emitter for setting the optical signal to a signature strobe output unique to the landing strobe. A landing zone designation system is also provided having a landing strobe configured to emit a signature strobe output unique to the landing strobe. An aircraft spaced from the landing strobe can include a detector for optically receiving the signature strobe output to determine the landing zone is proper to land the aircraft if the signature strobe output matches an expected signature strobe output.