Digitally controlled optical tapped time delay modules and arrays

US 7,724,994 B1
Filed: 02/04/2008
Issued: 05/25/2010
Est. Priority Date: 02/04/2008
Status: Expired due to Fees

First Claim

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1. An optical time delay module comprising:

a. a plurality of rows of time delay elements connected in a series, an initial time delay element in an initial row in said series being responsive to an optical input to said module;

b. a plurality of optical output couplers wherein each of said optical output couplers is operationally connected between each row of time delay elements in said series, the optical output couplers providing a plurality of optical outputs from said module with different optical delays controlled by a digital control word;

c. wherein each row of time delay elements has a plurality of time delay elements coupled in series via optical switches, each time delay element having an associated optical bypass arranged so that an optical switch connected immediately upstream of one of the time delay elements and its associated optical bypass controls whether light passing via the switch is conveyed via said one of the time delay elements or its associated optical bypass;

d. the optical switches being controlled to switch an output thereof onto either a following time delay element or following bypass by a bit of said digital control word.

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Abstract

An optical time delay module has a plurality of time delay elements connected in a series and a plurality an optical output couplers wherein each of said optical output couplers is operationally connected between one or more time delay elements in said series, the optical output couplers providing a plurality of optical outputs from said module with different optical delays controlled by a digital control word.

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6 Claims

1. An optical time delay module comprising:
- a. a plurality of rows of time delay elements connected in a series, an initial time delay element in an initial row in said series being responsive to an optical input to said module;
  
  b. a plurality of optical output couplers wherein each of said optical output couplers is operationally connected between each row of time delay elements in said series, the optical output couplers providing a plurality of optical outputs from said module with different optical delays controlled by a digital control word;
  
  c. wherein each row of time delay elements has a plurality of time delay elements coupled in series via optical switches, each time delay element having an associated optical bypass arranged so that an optical switch connected immediately upstream of one of the time delay elements and its associated optical bypass controls whether light passing via the switch is conveyed via said one of the time delay elements or its associated optical bypass;
  
  d. the optical switches being controlled to switch an output thereof onto either a following time delay element or following bypass by a bit of said digital control word.
- View Dependent Claims (2, 3, 4, 5)
- - 2. An optical time delay module according to claim 1 further including another optical output coupler connected upstream of initial said time delay element in said initial row in said series, the another optical output coupler providing an additional optical output from said module which is not affected by said digital control word.
  - 3. An optical time delay module according to claim 1 wherein the number of optical switches in each row of time delay elements corresponds to the number of bits in said digital control word.
  - 4. An optical time delay module according to claim 3 wherein the optical switches in each row of time delay elements are controlled in common by said digital control word so that a single, common digital control word is applied to the optical switches in each row of time delay elements in said module whereby the amount of delay imposed on the optical signal in each row of time delay elements is a function of the state of the digital control word.
  - 5. The optical time delay module of claim 1 wherein each time delay element is formed by a optical fiber spiral.

6. An two dimensional programmable time delay optical array comprising:
- a plurality of elongate optical time delay modules arranged in parallel to each other in a two dimensional array wherein each time optical delay module in said two dimensional array includes;
  
  a. a plurality of rows of time delay elements connected in a series, an initial time delay element in an initial row in said series being responsive to an optical input to said module;
  
  b. a plurality an optical output couplers wherein each of said optical output couplers is operationally connected between each row of time delay elements in said series, the optical output couplers providing a plurality of optical outputs from said module with different optical delays controlled by a first digital control word;
  
  c. wherein each row of time delay elements has a plurality of time delay elements coupled in series via optical switches, each time delay element having an associated optical bypass arranged so that an optical switch connected immediately upstream of one of the time delay elements and its associated optical bypass controls whether light passing via the switch is conveyed via said one of the time delay elements or its associated optical bypass;
  
  d. the optical switches being controlled to switch an output thereof onto either a following time delay element or following bypass by a bit of said first digital control word;
  
  and an additional time delay module having;
  
  e. a plurality of rows of time delay elements connected in a series, an initial time delay element in an initial row in said series being responsive to an optical input to said additional time delay module;
  
  f. a plurality an optical output couplers wherein each of said optical output couplers is operationally connected between each row of time delay elements in said series, the optical output couplers providing a plurality of optical outputs from said additional time delay module with different optical delays controlled by a second digital control word, wherein the optical outputs from said additional time delay module are each coupled to an optical input of the optical time delay modules forming said two dimensional array;
  
  g. wherein each row of time delay elements has a plurality of time delay elements coupled in series via optical switches, each time delay element having an associated optical bypass arranged so that an optical switch connected immediately upstream of one of the time delay elements and its associated optical bypass controls whether light passing via the switch is conveyed via said one of the time delay elements or its associated optical bypass;
  
  h. the optical switches being controlled to switch an output thereof onto either a following time delay element or following bypass by a bit of said second digital control word.

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Current Assignee
HRL Laboratories LLC (The Boeing Co.)
Original Assignee
HRL Laboratories LLC (The Boeing Co.)
Inventors
Sumida, David, Pepper, David M.
Primary Examiner(s)
Petkovsek; Daniel

Application Number

US12/025,643
Time in Patent Office

841 Days
Field of Search

385/15, 385/24, 385/27, 385/39, 385/40, 385/48, 398/52, 398/53, 398/102, 342/368, 342/375
US Class Current

385/27
CPC Class Codes

G02B 6/124   Geodesic lenses or integrat...

G02F 1/2955   by controlled diffraction o...

G02F 1/313   in an optical waveguide str...

G02F 1/3135   Vertical structure

G02F 2201/20   delay line

G02F 2201/205   of fibre type

G02F 2201/302   grating coupler

G02F 2203/24   beam steering

H01Q 3/2676   Optically controlled phased...

Digitally controlled optical tapped time delay modules and arrays

First Claim

2 Assignments

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Abstract

41 Citations

6 Claims

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Digitally controlled optical tapped time delay modules and arrays

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

41 Citations

6 Claims

Specification

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Solutions

Use Cases

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