Singer Electric helps organisations design, build, maintain, and optimise smarter electrical infrastructure across buildings and transport — enabling safer, more efficient, and more sustainable operations.
Singer Electric delivers complex electrical infrastructure projects across buildings, transport, utilities, and critical energy systems throughout New Zealand. Our capability spans electrical design, engineering, construction, commissioning, maintenance, monitoring, and optimisation, allowing us to manage projects from concept through to long-term operational support.
We specialise in operating within live and high-risk environments where safety, reliability, compliance, and continuity of service are essential. Our experience includes commercial facilities, transport infrastructure, industrial sites, public sector assets, EV charging infrastructure, smart energy systems, and distributed energy technologies.
By combining practical electrical expertise with intelligent monitoring and energy management through our Apollo platform, we help organisations improve operational performance, gain greater visibility of infrastructure, reduce energy costs, and deliver more efficient and resilient electrical systems.
A rigorous 4-stage process from initial concept through to physical delivery — ensuring every project is engineered right, first time.
End-to-end project delivery across New Zealand — from feasibility and design through to installation, commissioning and ongoing management. One partner, one accountable team, every site.
Design, installation and maintenance of AC and DC EV charging infrastructure for private and public networks — from single sites to national portfolios.
End-to-end solar PV delivery from feasibility assessment through to installation and ongoing performance management, integrated with Apollo EMS for real-time generation monitoring.
Turnkey battery storage solutions as authorised ABB NZ channel partner. From demand peak shaving to solar self-consumption and grid ancillary services.
Full-scope gas to electric boiler and process heat conversion. We assess, design and deliver the transition from fossil fuel to clean electric heat — with minimal operational disruption.
Every Singer Electric engagement follows a structured, four-stage process. This ensures we fully understand your needs before committing resources, and that every design decision is defensible, client-approved, and buildable.
The result: projects delivered on time, on budget, and to specification — with no surprises.
Start with a Discovery →During the discovery stage, we assess existing infrastructure, operational requirements, and future objectives to identify practical electrical solutions. Through site investigations, technical analysis, and feasibility assessments, we help customers make informed decisions before delivery begins.
We develop multiple conceptual approaches to solving your challenge, with indicative costs and trade-off analysis. You choose the direction that best meets your needs.
The preferred concept is developed to a sufficient level of engineering detail to validate technical feasibility and generate an accurate cost estimate for the build phase.
Full construction-ready design documentation is produced, consents obtained where required, and the project is built by Singer Electric's qualified teams — followed by commissioning and handover.
Our maintenance model is powered by real-time data from the Apollo EMS platform. We know the health of every asset before a fault occurs — enabling proactive intervention and SLA delivery.
Apollo EMS monitors every managed asset around the clock. Alerts are triaged by our Network Operations Centre before they become service issues.
We commit to defined response and resolution time SLAs, backed by national field teams and remote resolution capability where applicable.
Performance data drives planned maintenance schedules, extending asset life and reducing the cost and disruption of reactive maintenance.
Tell us your project or challenge. We'll design and deliver the right solution — end to end.