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A method for producing an optical output in substantially linear relationship with an input electrical AC signal, including the following steps: providing a light-emitting transistor having emitter, base, and collector regions, the light-emitting transistor producing light emission from its base region in response to electrical signals applied with respect to the emitter, base, and collector regions; applying a signal derived from the input signal to the light-emitting transistor; deriving a feedback signal from an electrical operating signal of the light-emitting transistor; applying a predistortion factor to the derived feedback signal to produce a predistorted feedback signal; and combining the predistorted feedback signal with the input signal to produce the signal derived from thr input signal; whereby the light emission comprises an optical output in substantially linear relationship with the input signal.

Titel:	Method and apparatus for producing linearized optical signals
Autor/in / Beteiligte Person:	Then, Han Wui ; Feng, Milton ; Holonyak, JR., Nick
Link:	View record in USPTO Patent Applications (Volltext)
Veröffentlichung:	2010
Medientyp:	Patent
Sonstiges:	Nachgewiesen in: USPTO Patent Applications Sprachen: English Document Number: 20100315018 Publication Date: December 16, 2010 Appl. No: 12/802439 Application Filed: June 07, 2010 Claim: 1. A method for producing an optical output in substantially linear relationship with an input electrical AC signal, comprising the steps of: providing a light-emitting transistor having emitter, base, and collector regions, said light-emitting transistor producing light emission from its base region in response to electrical signals applied with respect to said emitter, base, and collector regions; applying a signal derived from said input signal to said light-emitting transistor; deriving a feedback signal from an electrical operating signal of said light-emitting transistor: applying a predistortion factor to the derived feedback signal to produce a predistorted feedback signal; and combining said predistorted feedback signal with said input signal to produce said signal derived from said input signal; whereby said light emission comprises an optical output in substantially linear relationship with said input signal. Claim: 2. The method as defined by claim 1, wherein said step of applying said predistortion factor comprises applying controllable gain or attenuation of said derived feedback signal. Claim: 3. The method as defined by claim 1, wherein said step of applying said predistortion factor comprises applying controllable phase variation of said derived feedback signal. Claim: 4. The method as defined by claim 1, wherein said step of applying said predistortion factor comprises applying controllable gain or attenuation of said derived feedback signal and applying controllable phase variation of said derived feedback signal. Claim: 5. The method as defined by claim 1, wherein said combining of said predistorted feedback signal with said input signal comprises subtracting said predistorted feedback signal from said input signal. Claim: 6. The method as defined by claim 1, wherein said step of providing a light emitting transistor comprises providing a transistor laser, and wherein said optical output comprises a laser output. Claim: 7. The method as defined by claim 4, wherein said step of providing a light emitting transistor comprises providing a transistor laser, and wherein said optical output comprises a laser output. Claim: 8. The method as defined by claim 1, wherein said step of deriving a feedback signal from an electrical operating signal of said light-emitting transistor comprises deriving an electrical current from said light-emitting transistor. Claim: 9. The method as defined by claim 8, wherein said step of deriving said feedback signal further comprises amplifying said electrical current derived from said light-emitting transistor. Claim: 10. The method as defined by claim 9, wherein said step of providing a light-emitting transistor comprises providing a heterojunction bipolar light-emitting transistor, and wherein said step of amplifying said electrical current comprises amplifying said current using at least one heterojunction bipolar transistor. Claim: 11. The method as defined by claim 10, further comprising forming said heterojunction bipolar light-emitting transistor and said at least one heterojunction bipolar transistor using a common semiconductor layer structure. Claim: 12. The method as defined by claim 9, wherein said step of deriving a feedback signal from an electrical operating signal of said light-emitting transistor comprises deriving said electrical operating signal from the collector current of said light-emitting transistor. Claim: 13. A feedback linearization apparatus for producing an optical output in substantially linear relationship with an input electrical AC signal, comprising: a light-emitting transistor having emitter, base, and collector regions, said light-emitting transistor being operative to produce light emission from its base region in response to electrical signals applied with respect to said emitter, base, and collector regions; a difference circuit, which receives, as its positive input, said input signal, and as its negative input, a predistorted feedback signal, the output of said difference circuit being applied to said light-emitting transistor; and a feedback circuit responsive to an electrical operating signal of said light emitting transistor for producing said predistorted feedback signal; whereby said light emission comprises an optical output in substantially linear relationship with said input signal. Claim: 14. The feedback linearization apparatus as defined by claim 13, wherein said light emitting transistor is a laser transistor having an optical resonant cavity enclosing at least a portion of said base region, and wherein said light emission comprises laser emission. Claim: 15. The feedback linearization apparatus as defined by claim 14, wherein said feedback circuit is operative to produce said predistorted feedback signal as a version of said electrical operating signal to which predetermined gain or attenuation control and predetermined phase control has been applied. Claim: 16. A feedback linearization method for producing an optical output in substantially linear relationship with an input electrical AC signal, comprising the steps of: providing a transistor laser having emitter, base, and collector regions, and an optical resonant cavity enclosing at least a portion of said base region, said transistor laser producing laser emission from its base region in response to electrical signals applied with respect to said emitter, base, and collector regions; applying a signal derived from said input signal to said transistor laser; deriving a feedback signal from an electrical operating signal of said transistor laser. applying a predistortion factor to the derived feedback signal to produce a predistorted feedback signal; and combining said predistorted feedback signal with said input signal to produce said signal derived from said input signal; whereby said laser emission comprises an optical output in substantially linear relationship with said input signal. Claim: 17. The method as defined by claim 16, wherein said step of applying said predistortion factor comprises applying controllable gain or attenuation of said derived feedback signal. Claim: 18. The method as defined by claim 16, wherein said step of applying said predistortion factor comprises applying controllable phase variation of said derived feedback signal. Claim: 19. The method as defined by claim 16, wherein said step of applying said predistortion factor comprises applying controllable gain or attenuation of said derived feedback signal and applying controllable phase variation of said derived feedback signal. Claim: 20. The method as defined by claim 16, wherein said combining of said predistorted feedback signal with said input signal comprises subtracting said predistorted feedback signal from said input signal. Claim: 21. The method as defined by claim 20, wherein said step of deriving a feedback signal from an electrical operating signal of said transistor laser comprises deriving an electrical current from said transistor laser. Claim: 22. The method as defined by claim 21, wherein said step of deriving said feedback signal further comprises amplifying said electrical current derived from said transistor laser. Claim: 23. The method as defined by claim 21, wherein said step of providing a transistor laser comprises providing a heterojunction bipolar transistor laser, and wherein said step of amplifying said electrical current comprises amplifying said current using at least one heterojunction bipolar transistor. Claim: 24. The method as defined by claim 23, further comprising forming said heterojunction bipolar transistor laser and said at least one heterojunction bipolar transistor using a common semiconductor layer structure. Current U.S. Class: 315/291 Current International Class: 05

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Method and apparatus for producing linearized optical signals