Friday, January 26, 2024

Vertical Aerospace Founder Commits $50 Million to Get Air Taxis Flying

CEO and majority owner Stephen Fitzpatrick is putting his own money into the firm, which is expected to give it cash on hand through mid-2025.
January 23, 2024

A Vertical Aerospace VX4 air taxi prototype, registered as G-EVTL, suffered a crash during testing in August. [Courtesy: Vertical Aerospace]

An air taxi founder is putting his money where his mouth is.

Stephen Fitzpatrick—founder, CEO, and majority owner of electric vertical takeoff and landing (eVTOL) aircraft manufacturer Vertical Aerospace—on Monday committed to invest $50 million into the company, which risked running out of cash by September per its own projection.

The funding, which will support the development and planned 2028 certification of Vertical’s flagship VX4 air taxi, extends the firm’s cash runway into mid-2025, it said.

“The company has achieved significant technical progress, both in its prototype program and its certification plans in 2023, that I believe is not reflected in our share price,” Fitzpatrick said. “Given the success I have seen in the past 12 months, I am more confident than ever in our world class team, and I am delighted to further support the company with additional funding.”

Vertical’s stock (NYSE: EVTL) dipped dramatically in 2023 amid delays to its certification timeline and the crash of its Aircraft One prototype in August—so much so that the New York Stock Exchange has threatened to delist it if shares continue to trade below $1.

The manufacturer has also struggled to attract investors, reportedly missing a target to raise funding by December. Its previous raise of $205 million closed more than two years ago. Like other air taxi manufacturers, Vertical does not yet produce revenue, so investment is required to finance its operations: Net cash used in operating activities in 2023 totaled about $95 million.

Fitzpatrick’s investment is structured in two tranches. An initial $25 million investment—priced at $10 per share of common stock—is expected to close in March. The Vertical CEO will supply a further $25 million by the end of July, but only if the company is unable to raise that amount in alternative equity funding. Whatever it is unable to scrounge up, Fitzpatrick will supplant.

Vertical said it is engaged in discussions for further funding pending the completed flight test campaign of its second VX4 prototype. The company’s first prototype was the one that tumbled 30 feet onto the runway at Cotswold Airport (EGBP) in the U.K. in August, damaging its right wing and landing gear. Vertical later said the crash resulted from a wiring issue that caused a high-voltage short circuit.

The manufacturer’s second-generation prototype, Aircraft Two, promises to address the problem. The piloted full-scale prototype is nearing completion at partner GKN Aerospace’s Global Technology Center in the U.K.

The updated model will have more features aligned with the design Vertical hopes to certify with the U.K.’s Civil Aviation Authority (CAA). It adds a new propeller, second-generation powertrain, battery packs designed to meet thermal runaway safety requirements, and refined flight control system. Aircraft Two will also feature components made by Vertical certification partners Honeywell, GKN, Hanwha, Solvey, and Leonardo.

The upcoming prototype will complete a flight test campaign and several public demonstrations this year. These will include an appearance at the Farnborough International Airshow at Farnborough Airport (EGLF) in July, as well as flights to and from London Heathrow Airport (EGLL).

The demonstrations will put Vertical in position to refine and finalize the VX4 design, the company said. After that, the aircraft will need to pass final regulatory testing before being approved for production.

“I look forward to both our demonstrations and the completion of additional funding rounds to deliver on the promise the VX4 has to offer our customers and their passengers,” said Mike Flewitt, chairman of Vertical. “We are on track to deliver a transformative U.K. developed electric aircraft to our customers across the globe.”

In March, Vertical received design organization approval (DOA) from the CAA, a necessary step in the regulator’s type certification process. Only a handful of eVTOL air taxi firms, including Volocopter and Lilium, have obtained DOA. Vertical also said after the VX4 prototype crash that its timeline for CAA certification activities remained unaffected.

Once certification is obtained, Vertical has a large backlog of customers to serve. As of October, it had received preorders for 1,500 aircraft from dozens of customers worldwide. The company estimates its order backlog comprises $5 billion in value once fully realized.


NASA, Archer Battery Testing Partnership Aims to Assert U.S. Air Taxi Leadership

Archer said the initial focus on battery cell safety is part of a ‘much larger partnership’ between it and the space agency.
January 22, 2024

NASA will study and test battery cell systems designed for Archer Aviation’s Midnight electric air taxi. [Courtesy: Archer Aviation]


The technology expected to power the next generation of commercial aircraft could have some more cosmic applications, according to NASA.

The space agency on Monday announced a new collaboration with electric aircraft manufacturer Archer Aviation to explore how the company’s battery cell systems—designed for its flagship Midnight air taxi—could one day be applied for space.

A core focus of the collaboration, the partners said, is ensuring U.S. leadership in the next generation of air transportation. It follows air taxi simulations NASA conducted with Archer competitor Joby Aviation, and both come in the wake of the world’s first electric air taxi flight for a paying customer, completed by China’s EHang in December. EHang has also begun deliveries to its operational partners.

The industry leadership of Archer, Joby, and other American air taxi manufacturers is being challenged by Chinese firms, such as EHang and AutoFlight, as well as European rivals such as Volocopter. U.S. lawmakers and government agencies fear those companies could undermine American firms by beating them to commercial launch and scale.

“Many countries around the world are challenging the U.S. in this new era of flight, and our country is at risk of losing its global leadership position unless we work together, government and industry, to ensure we seize the moment and pioneer this new era of aviation technology, which stands to benefit all Americans,” said Adam Goldstein, founder and CEO of Archer.

The initial NASA project will study and test Archer’s battery packs to see how they can safely support advanced air mobility (AAM) operations. The goal is to validate the technology for electric vertical takeoff and landing (eVTOL) air taxis like Midnight, electric conventional takeoff and landing (eCTOL) designs such as Beta Technologies’ CX300, and potentially even usage in space.

According to Archer, the initial focus on battery cell safety is part of a “much larger partnership” with NASA under a Space Act Agreement for the advancement of “mission-critical” eVTOL aircraft technology.

The company believes the maturation of battery cell technology, in particular, will be key to U.S. mass production and adoption of eVTOL air taxis and other AAM services. Following testing, it plans to share the results with the industry to help it develop more efficient battery system supply chains.

“AAM promises to provide substantial public benefits to our communities, including transforming how urban and rural communities live and commute by maximizing mobility, bolstering cargo and logistics options, and creating pathways to manufacturing jobs and other ladders of social and economic opportunity,” Archer said in a news release. “Core to unlocking this potential is designing, developing, and mass producing batteries and electric motors that are purpose built for electric aircraft.”

Archer’s battery packs are designed specifically to power Midnight’s proprietary electric powertrain, which the company is beginning to mass manufacture. It said the cell’s cylindrical form factor “has a track record of safety, performance and scalability proven through decades of volume manufacturing, deployed across many applications globally, including in millions of electric vehicles.”

NASA will test the battery system’s safety, energy, and power performance capabilities using the European Synchrotron Radiation Facility (ESRF), one of the world’s most advanced high speed X-ray facilities. It will seek to understand how the cells function in “extreme abuse cases,” perhaps as a way to simulate the harsh environment of space.

NASA—which in addition to Archer and Joby is collaborating with the U.S. Air Force and other partners on an array of AAM initiatives—is one of many government agencies aiming to assert U.S. leadership in emerging aviation.

AFWERX, the innovation arm of the Air Force, is working with ArcherJoby, and plenty of other manufacturers in a series of “quid-pro-quo” arrangements. The manufacturers receive access to Air Force resources and feedback that can speed aircraft development, testing, and commercialization, and the Air Force gets to explore defense use cases for technology not yet on the market. AFWERX is also collaborating with the FAA to share flight test data and capabilities.

The FAA has been tasked with spearheading the growth of the domestic AAM industry. So far, the agency has released an AAM Concept of Operations, which will serve as the early blueprint for regulations and operational rules to enable scale. The first stage of that blueprint is detailed further in the regulator’s Innovate28 plan—a timeline of goals and milestones culminating in initial AAM operations by the time the 2028 Summer Olympics arrive in Los Angeles.

However, the U.S. may be four years behind its global competition: Germany’s Volocopter, China’s AutoFlight, and several other non-U.S. manufacturers plan to demonstrate or commercially launch their air taxis at the Paris Olympic Games this summer.

Both Archer and Joby anticipate entry into service in 2025, pending type certification of their respective aircraft. But though they may arrive on the scene after their foreign counterparts, the opportunity to lead remains. Later entrants will be able to evaluate the successes (or failures) of the initial wave of aircraft. Through collaborations such as the one between Archer and NASA, they’ll have more time to research safe, scaled operations.

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