Sokkia Prolink Version 115 | Exclusive Link
Supports localized coordinate transformations.
Once raw data resides safely inside ProLink 1.15, you must transform it into formats usable by design packages like AutoCAD or civil mapping applications. Converting SDR to CSV or TXT
Power on the Sokkia total station and navigate to (often assigned to the F3 key).
On your Sokkia Total Station, navigate to the or Data menu. sokkia prolink version 115 exclusive
Sokkia ProLINK is a specialized data management software designed to connect surveying instruments—such as total stations GPS receivers digital levels
USB-to-serial adapters dynamically assign port numbers. Users must check the Windows Device Manager to identify the correct COM port number and match it within ProLink’s communications setup.
Sokkia’s native data format containing raw angles, distances, and point descriptions. Supports localized coordinate transformations
To understand the significance of Prolink 1.15, one must first understand the landscape of the late 1990s and early 2000s. Surveying was transitioning from the era of field books and transits into the age of Total Stations and GPS/GNSS.
Before plugging in your data cable, configure your hardware's internal COM settings:
Convert to DXF for AutoCAD or CSV for client reporting. Conclusion On your Sokkia Total Station, navigate to the or Data menu
The Sokkia Prolink Version 115 is a surveying-grade data collector and field software package designed for land surveyors, construction professionals, and GIS technicians who require accurate measurements, robust field workflows, and seamless data transfer. Version 115 refines usability with performance optimizations, improved hardware support, and enhanced interoperability with modern GNSS and total station equipment.
Outputs clean text files, standard CSV sheets, and AutoCAD-compatible DXF vectors. 🎛️ Step-by-Step Field Data Transfer Workflow
Once connected, the user initiates the receive command in ProLink while executing the send command on the total station. The software populates a spreadsheet-style grid with the raw observations. The user verifies the instrument heights, target heights, and control station coordinates before running the reduction utility to calculate final coordinates. Step 3: Exporting to Design Software
