Who has Standing to Appeal of IPR Decision? And What is Teaching Away?

| April 21, 2021

General Electric Company v. Raytheon Technologies Corporation, No. 2019-1319.

Decided on December 23, 2020

Before Lourie, Reyna and Hughes (Opinion by Hughes).

Summary

Raytheon had ’920 patent which was related to a gas turbine engine. GE filed IPR and PTAB reviewed the claim and found the patent is non-obvious. GE filed a request for rehearing challenging the PTAB’s application of the legal standard for both teaching away and motivation to combine. The PTAB denied the request for rehearing and GE appealed to the CAFC. Raytheon claimed that GE does not have standing to appeal because GE did not have the injury in fact. At the appeal, GE showed a concrete business plan as evidence of injury in fact, and the CAFC found that GE has a substantial risk of future infringement and has standing. Then, the CAFC reviewed the PTAB’s decision on obviousness issue. Upon review, the CAFC found that the PTAB correctly set forth the standard for teaching away, however, applied it erroneously. The CAFC also found that the PTAB lacked substantial evidence for its conclusion that GE did not establish a motivation to combine the prior arts. Therefore, the CAFC vacated the PTAB’s decision and remanded the case to the PTAB.

Details

Background

Raytheon Technologies Corporation (“Raytheon”[1]) filed US Patent No.8,695,920 (“’920 patent”) in 2011 and the patent was issued in April 2014.

In December 2016, General Electric Company (“GE”), a competitor of Raytheon in the industry of commercial aviation, petitioned to the Patent Trial and Appeal Board (“PTAB”) for reviewing the 920 patent’s claims 1-4, 7-14, and 19. GE explained that the claims were obvious based on two prior art references, Wendus and Moxon.

Before the IPR institution Raytheon disclaimed claims 1-4, 7, 8, 17, and 19. The PTAB reviewed only claims 9 -14. After the IPR institution, Raytheon disclaimed 9 and the PTAB only ruled on claims 10-14.

The disputed claims 10-14 were depended on independent claim 9.

9. A method of designing a gas turbine engine comprising:

providing a core nacelle defined about an engine centerline axis;

providing a fan nacelle mounted at least partially around said core nacelle to define a fan bypass flow path for a fan bypass air-flow;

providing a gear train within said core nacelle;

providing a first spool along said engine centerline axis within said core nacelle to

drive said gear train, said first spool includes a first turbine section including be-tween three–six (3–6) stages, and a first compressor section;

providing a second spool along said engine centerline axis within said core nacelle, said second spool includes a second turbine section including at least two (2) stages and a second compressor section;

providing a fan including a plurality of fan blades to be driven through the gear train by the first spool, wherein the bypass flow path is configured to provide a bypass ratio of airflow through the bypass flow path di-vided by airflow through the core nacelle that is greater than about six (6) during engine operation.

10. The method as recited in claim 9, wherein said first turbine section defines a pressure ratio that is greater than about five (5.0).

11. The method as recited in claim 10, wherein a fan pressure ratio across the plurality of fan blades is less than about 1.45.

12. The method as recited in claim 11, wherein the gear train is configured to provide a speed reduction ratio greater than about 2.5:1.

13. The method as recited in claim 12, wherein the plurality of fan blades are configured to rotate at a fan tip speed of less than about 1150 feet/second during engine operation.

14. The method as recited in claim 13, wherein the second turbine section includes two (2) stages.

The PTAB concluded that Wendus taught away from combination with Moxon and GE did not establish the obviousness of claim 10 when considered as a whole. Therefore, the PTAB found claims 10-14 are nonobvious. GE filed a request for rehearing challenging the PTAB’s application of the legal standard for both teaching away and motivation to combine. The PTAB denied the request for rehearing and GE timely appealed to the Federal Circuit (“CAFC”).

Standing

Raytheon moved to dismiss this appeal for lack of standing because GE has never “sued or threatened to sue” for infringing the ’920 patent. Raytheon also mentioned that GE “had never alleged that an engine exists that presents a concrete and substantial risk of infringing the ’920 patent,”

In JTEKT[2], the CAFC found that when the appellant does not currently engage in infringing activity and “relies on potential infringement liability as a basis for injury in fact”, the appellant must show that “it has concrete plans for future activity that creates a substantial risk of future infringement or would likely cause the patentee to assert a claim of infringement.”

In prior lawsuit between the same parties GE v. UTC[3], GE failed to show the evidence. However, the CAFC shows some guideline of what kind of evidence do we need to have a standing to appeal IPR decision to CAFC. GE responds that it has alleged facts that show it “is currently undertaking activities” likely to lead Raytheon to sue it for infringement.

Here, GE has shown concrete plans for future activities:

  • GE spent $10–12 million in 2019 developing a geared turbofan architecture and design;
  • GE intends to keep developing its geared turbofan engine design;
  • The design is GE’s technologically preferred design for the next-generation narrow body market;
  • GE has offered this preferred geared turbofan design to Airbus;
  • GE has also established that such a sale would raise a substantial risk of an infringement suit; and
  • GE believes its preferred design raises a substantial risk of infringement.

GE explicitly stated that “this preferred geared turbofan design includes a gear train driven by the low-pressure spool and a two-stage high-pressure turbine.” The CAFC found that this GE’s declaration “plausibly establish that its preferred next-generation engine design substantially risks infringing the ’920 patent.” With these concrete plans, the CAFC found that GE has shown concrete plans raising a substantial risk of future infringement.

Obviousness

The CAFC reviewed the PTAB’s decision on Obviousness. The patent at issue is related to “turbofan gas turbine engines used to propel commercial airliners.”  Typically, a turbofan engine has four main components, (1) the fan, (2) compressor, (3) combustor, and (4) turbine[4]. In a turbofan engine, there are two ways airflow, “bypass flow” and “core flow.” The bypass ratio is a ratio of bypass flow to core flow and it was known that a “higher bypass ratio increases fuel efficiency.”

In the industry, the high-pressure compressor and high-pressure turbine are referred to as the “high spool” and the low-pressure compressor and low-pressure turbine are referred to as the “low spool.” Ordinary, “direct-drive” turbofan engine has a low spool and all connected to the same shaft and rotate at the same speed. On the other hand, a high bypass ratio (fuel-efficient) turbofan, the difference of the diameter of the fan and the engine creates the difference of the rotational speed and the rotational speed is ideal compared to the low-pressure turbine.

Contrary to the ordinary “low spool” turbofan, Raytheon’s patent was a “‘geared’ turbofan which uses a gearbox mounted between the low-pressure compressor and the fan to reduce the rotational speed of the fan compared to the” low spool turbine. When the gearbox is used, “the fan to rotate more slowly than the rest of the low spool.” Therefore, each part can rotate at an optimal speed and create many benefits. Such as reducing engine fuel consumption, improving aerodynamic efficiency with less costly design, reducing the mechanical stress on the fan and improving safety, reducing torque on the low spool shaft and allowing to design smaller diameter shaft, and reducing engine noise.

During the IPR, GE explained that “Wendus discloses all elements of claims 9–14 except that it teaches a one-stage high-pressure turbine instead of the “at-least-two-stage” high-pressure turbine taught in claim 9 and narrowed to two stages in claim 14” and “Moxon concludes that because of increased performance demands on the high-pressure turbine required to improve fuel efficiency, “a move to one instead of two high pressure turbine stages is thought unlikely, although designs have been carried out and demonstrations have been run.”

However, the PTAB found that Wendus taught away from combination with Moxon “despite the PTAB’s prior findings of the benefits of the two-stage high-pressure turbine” and concluded “GE did “not establish the obviousness of claim 10 when considered as a whole.” Therefore, the PTAB found claims 10-14 are nonobvious.

Therefore, GE pointed the errors of the Board’s decision on three issues before the CAFC. As to the first issue, teaching away, GE asserted that “the PTAB errored by misreading Wendus to find that it disparages or discourages the use of a two-stage high pressure turbine, and therefore erred in finding that Wendus taught away from a two-stage high-pressure turbine.” For the second issue, artisan’s motivation to combine references, GE also argues that the PTAB “applied an overly rigorous requirement for motivation to combine the Wendus and Moxon references.” Lastly, GE argues that the PTAB also erred by requiring GE to show that an artisan would be motivated to retain the claimed performance parameters taught in Wendus in combining Wendus and Moxon.

Raytheon counter-argued that the CAFC must affirm the PTAB’s decision if there is substantial evidence of “(1) Wendus teaches away from modifying its advanced engine to add a two-stage high-pressure turbine; (2) no matter if Wendus teaches away, Wendus discloses a strong preference for a one-stage high-pressure turbine, undermining GE’s motivation-to-combine arguments; or (3) GE failed to establish a motivation for modifying the Wendus advanced engine to achieve the invention of claim 10, ‘as a whole.’”

CAFC stated that the PTAB correctly set forth the standard for teaching away.

“[a] reference does not teach away ‘if it merely expresses a general preference for an alternative invention but does not “criticize, discredit, or otherwise discourage” investigation into the invention claimed.’”

The PTAB found that criticism of the use of a two-stage high-pressure turbine in the prior art suggests a general preference for a one-stage high-pressure turbine.

By referencing Table 16 of Wendus[5], the PTAB concluded that “Wendus discourages the useof a two-stage high-pressure turbine rather than merely suggesting a general preference for a one-stage high-pressure turbine because…A person of ordinary skill in the art would have known that modifying the Wendus [advanced] engine to include a two-stage turbine would have increased the weight and cost of the engine which Wendus criticizes, discredits, or otherwise discourages.”

However, the CAFC found that the PTAB misleads Table 16 in the full context of Wendus because “Wendus itself only weakly supports that a one-stage high-pressure turbine has weight and cost advantages over a two-stage high pressure turbine.” Also, the CAFC mentioned that “Wendus itself does not criticize the use of a two-stage turbine for weight or cost reasons” and “Wendus references neither efficiency nor number of parts in comparison to any other high-pressure turbine design.”

The CAFC also explained that “even if an artisan recognized that a one-stage turbine would have led to reduced engine weight and lower engine cost than a two-stage turbine, Wendus is hardly consistent in indicating that weight and cost concerns alone mandate the correct design choices of an improved engine, compared to other factors like fuel efficiency or reliability.”

“Wendus ‘expressly weigh[ed] the tradeoffs [between a one-stage and two-stage turbine] and cho[se] the one-stage option’ cannot withstand scrutiny.” Therefore, the CAFC conclude that “Wendus does not criticize, credit, or discourage the use of a two-stage high-pressure turbine” and there is no substantial evidence to support the PTAB’s conclusion of teaching away.

Secondly, the CAFC concluded that the PTAB lacks substantial evidence for its conclusion that GE did not establish a motivation to combine Wendus and Moxon. By referring the PharmaStem Therapeutics[6], the CAFC confirmed the standard of obviousness is that “a person of ordinary skill in the art would have had reason to attempt to make the composition or device, or carry out the claimed process, and would have had a reasonable expectation of success in doing so.”

The CAFC found that the PTAB again misread Wendus and applied “its faulty findings that Wendus described ‘the one-stage turbine as a critical and enabling technology providing significant advantages over a prior art engine having a two-stage turbine,’ and that ‘other [Wendus] engine components [being] specifically designed to accommodate the [one-stage] turbine[7].”

Finally, the CAFC concluded that the PTAB’s holding that GE did not establish the obviousness of claim 10 “as a whole” lacks substantial evidence. The CAFC pointed that “Wendus meets all the elements of claim 10 except for the two-stage high-pressure turbine, which Moxon discloses” and “GE does not merely identify each claim element as present in Wendus and Moxon. Instead, GE’s obviousness theory combines the elements disclosed in Wendus’s advanced engine with Moxon’s teaching of a two-stage high-pressure turbine to attain better turbine reliability and efficiency.”

Therefore, the CAFC vacated the PTAB’s decision and remand the case to the PTAB.

Takeaway

  • As to the standing requirement “injury in fact”, this case shows what degree the appellee needs to prove the concrete plans in the future and what type of evidence is appropriate. 35 U.S.C §319 states that “Any party to the inter partes review shall have the right to be a party to the appeal.” The law did not specifically state the minimum standing requirement to appeal of IPR decision.
  • An appellant’s declaration that it believes the preferred design raises a substantial risk of infringement is also plausible only if the declaration was supported by the other evidence.
  • When determining the obviousness by teaching away from the prior art references, the meaning must be interpreted by the entire reference, not the partial words in the reference.
  • Teaching away argument needs “criticize” more than “preference.”

[1] During the appeal, Raytheon was known as United Technologies Corporation.

[2] JTEKT Corp. v. GKN Auto. LTD., 898 F.3d 1217, 1221 (Fed. Cir. 2018), cert. denied, 139 S. Ct. 2713 (2019).

[3] Gen. Elec. Co. v. United Techs. Corp., 928 F.3d 1349 (Fed. Cir. 2019).

[4] The compressor pressurized the air come into the core flow. Then, the combustor mixed the compressed air and fuel and ignite and generates hot gas. The hot gas expands in the turbine and create power to rotate the blades in turbine.

[5] Wendus, See page 52 of https://ntrs.nasa.gov/api/citations/20030067946/downloads/20030067946.pdf

[6] PharmaStem Therapeutics, Inc. v. ViaCell, Inc., 491 F.3d 1342, 1360 (Fed. Cir. 2007).

[7] Final Written Decision at *13 (citations omitted).

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