Our site survey and preparation service in Rakhine is the groundwork that makes electrical and solar projects succeed on schedule, on budget, and without safety compromises. Before a single conduit is run or a panel is mounted, we study the site’s realities—space, structure, power quality, weather exposure, and workflow—so design choices match the building and not just the brochure. This pre-installation phase is especially important across Sittwe, Kyaukphyu, Thandwe, Mrauk-U, and coastal townships where salt air, cyclonic winds, and grid variability can punish poorly prepared projects.
The process begins with data, not guesswork. We review your most recent utility bills to understand load shape, peaks, and power factor, and we log voltage and frequency stability where needed. For existing buildings, we assess the main service, meter position, earthing system, and distribution board condition, noting spare ways, conductor sizes, and any overheating or nuisance trip history. If the project involves solar, our team captures roof orientation and tilt, maps shading with sun-path tools, and checks the condition of trusses, purlins, waterproofing layers, and corrosion points. Ground-mount candidates are evaluated for soil conditions, drainage, setbacks, and equipment access so that mounting foundations and cable routes are clear long before materials arrive.
Safety and access planning are built into the survey. We identify working-at-height zones, propose safe anchor points or scaffolding, and define exclusion areas to protect occupants during installation. For active sites like hotels, clinics, and retail, we plan phased work and temporary isolation to keep operations running. Where generators, UPS, or hybrid inverters are present, we document the changeover scheme and protective devices to ensure that any new equipment plays nicely with the existing system. These observations feed a single-line diagram, a preliminary circuit schedule, and a method statement that align the design with real-world constraints.
Structural and environmental risk often decide the lifespan of an installation, so we treat them seriously. On coastal roofs we specify stainless or hot-dip-galvanized fasteners, UV-resistant conduits, and compatible flashing kits, and we calculate wind uplift loads to select the right rail spans and clamp counts. For indoor upgrades, we survey cable routes to avoid sharp bends and heat sources, and we confirm that ceiling voids and shafts provide serviceable access rather than forcing hidden joints. If existing wiring shows age—brittle insulation, aluminum conductors, mismatched breakers—we record remediation steps so the new work is not tied to old weaknesses.
Utility coordination is handled early to prevent last-minute surprises. We confirm meter positions, sealing requirements, and any export limits or anti-islanding settings for PV systems. Where load increases are planned, we calculate prospective demand and short-circuit levels so protective devices and conductors are sized correctly, and we brief owners on any application forms or lead times. This is also when we reserve space for future growth: spare breaker ways, oversized containment in strategic runs, and clear service corridors so later expansions do not require demolition.
Documentation is the deliverable that turns a survey into a build-ready plan. You receive a concise report with photos, measurements, and findings; a site layout with proposed equipment positions; a draft single-line diagram; and a preparation checklist that assigns responsibilities for any prerequisite works—civil patches, waterproofing repairs, earthing upgrades, or DB reorganization. For solar projects we include preliminary stringing concepts within safe DC voltage windows and a shading summary that explains expected seasonal impacts. For electrical upgrades we outline protective device coordination targets and suggested RCD/RCBO placement for wet areas and portable-equipment circuits.
Training and communication keep the site calm during installation. We brief facility teams on isolation points, temporary signage, and housekeeping standards, and we agree on working hours to minimize disruption. Where essential loads must stay live—cold rooms, servers, point-of-sale—we plan bypasses or temporary feeds and mark them clearly in the method statement. These steps reduce downtime and make inspection days straightforward because everything is labeled, accessible, and auditable.
Compliance underpins the whole service. We align our recommendations with internationally recognized low-voltage practices while following local guidance from the Government of Myanmar. For official policy updates and technical resources, the Ministry of Science and Technology maintains an authoritative portal at https://myanmar.gov.mm/ministry-of-science-and-technology. Using vetted references ensures that your project’s preparation, documentation, and installation approach match current expectations for safety and reliability.
In short, preparation is not padding—it is performance insurance. By discovering constraints early, planning safety and access, coordinating with utilities, and producing clear diagrams and checklists, we remove uncertainty from the build phase. The result is a faster, cleaner installation that lasts longer in Rakhine’s climate, protects occupants and equipment, and leaves your property ready for future upgrades without rework or surprises.
