Image source: Shutterstock

Highlights

  • PSK to deliver a defence test range shelter valued at approximately $0.8 million
  • Project scheduled for completion before the end of 2025
  • Contract awarded by a returning customer within the defence sector

MTI Wireless Edge Ltd (AIM: MWE) has announced that its subsidiary, P.S.K Wind Technologies Ltd. (PSK), has secured a defence-sector contract worth around $0.8 million. The agreement covers the construction and delivery of a specialised test range shelter and is expected to be completed before the end of 2025.

The project was awarded by a returning customer, suggesting a continued working relationship between PSK and the defence client. The contract adds to PSK’s existing order backlog and aligns with its ongoing activity in defence-related infrastructure and technology integration.

The scope of the project includes engineering, fabrication, and installation of the test range shelter, which will be used for defence testing purposes. While technical details of the shelter have not been disclosed, such installations typically require compliance with strict environmental and operational specifications, particularly in the context of sensitive military applications.

MTI Wireless Edge, the parent company, focuses on radio frequency and communication technologies across sectors including defence, agriculture, and telecommunications. PSK’s role within the group centres on wind energy and environmental control systems, with a growing involvement in defence infrastructure solutions.

MTI’s CEO, Moni Borovitz, commented on the contract, noting it was awarded within a relatively short timeframe. While financial details remain limited to the announced contract value, the deal contributes to PSK’s revenue visibility through 2025 and reflects sustained demand from defence-sector clients.

This development follows a broader trend of niche technology firms increasingly engaging in dual-use or defence-specific projects. The addition of this project enhances PSK’s project pipeline and extends its relevance in defence infrastructure beyond traditional energy-focused applications.