The Stonex S980 GNSS receiver is a powerful, next-generation solution designed for professionals in construction, mining, civil engineering, and land surveying. Built for accuracy, reliability, and efficiency, the S980 delivers advanced RTK positioning, tilt compensation, and robust communication capabilities—making it ideal for demanding Australian site conditions.

If you’re looking for high-accuracy GNSS survey equipment in Australia, the Stonex S980 is a proven and versatile choice.

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What is the Stonex S980 GNSS Receiver?

The Stonex S980 is a multi-constellation GNSS RTK receiver that provides centimetre-level positioning accuracy using satellite systems including GPS, GLONASS, Galileo, and BeiDou.

Designed for flexibility and performance, it supports:

• Surveying and mapping
• Construction set-out
• Civil infrastructure projects
• Mining and machine control applications

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Key Features of the Stonex S980

RTK GNSS Accuracy

The S980 delivers reliable centimetre-level RTK positioning, ensuring precise results across a wide range of applications.

• Fast RTK initialisation
• Stable fixed solutions
• Multi-frequency GNSS tracking

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IMU Tilt Compensation

The integrated IMU (Inertial Measurement Unit) allows accurate measurements without needing to hold the survey pole perfectly vertical.

• Measure points at angles
• Faster data collection
• Increased efficiency on-site

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Advanced GNSS Communications

The S980 is equipped with a full suite of communication technologies:

• 4G LTE modem for NTRIP corrections
• UHF radio for base and rover operations
• Bluetooth and Wi-Fi connectivity

This ensures seamless communication between devices in the field.

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Rugged Design for Field Conditions

Built to perform in tough environments, the S980 features:

• IP68 rating (waterproof and dustproof)
• Shock and drop resistance
• Designed for extreme temperatures

Perfect for construction and mining sites across Australia.

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Long Battery Life

The S980 supports full-day field use with:

• Extended battery performance
• Internal storage for data logging
• Reliable operation in remote locations

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Applications of the Stonex S980

The Stonex S980 GNSS receiver is widely used in:

• Construction surveying – accurate set-out and measurements
• Civil engineering – roads, infrastructure, utilities
• Mining operations – positioning and site control
• Land surveying – mapping and geospatial data collection

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Stonex S980 vs S880: What’s the Difference?

Compared to the Stonex S880:

• The S980 focuses on core GNSS performance and reliability
• The S880 adds visual stakeout (camera-based AR)

👉 If you need visual guidance, choose S880
👉 If you want robust GNSS performance at great value, the S980 is ideal

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Why Choose the Stonex S980 GNSS Receiver?

Key Benefits:

• Reliable RTK accuracy
• Strong communication options (4G + UHF)
• Durable for harsh environments
• Cost-effective alternative to premium brands
• Flexible compatibility across systems

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Stonex S980: Built for Australian Surveying Conditions

Australia’s construction and mining industries demand equipment that can handle:

• Heat and dust
• Remote locations
• High productivity requirements

The Stonex S980 GNSS receiver is designed to meet these challenges while maintaining accuracy and reliability in the field.

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Looking to upgrade your GNSS receiver or survey equipment?

👉 Contact our team today to learn more about the Stonex S980 GNSS receiver and find the right solution for your project.

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🔥 FAQ

What is the Stonex S980 used for?

The Stonex S980 is used for surveying, construction set-out, civil works, mining applications, and geospatial data collection.

Does the Stonex S980 support RTK?

Yes, the Stonex S980 provides centimetre-level RTK positioning for high-accuracy applications.

Does the Stonex S980 have tilt compensation?

Yes, it includes IMU tilt compensation for faster and more flexible measurements.

Is the Stonex S980 suitable for construction sites?

Yes, it is designed for rugged environments and performs well in construction and mining conditions.

Choosing the best GNSS receiver in Australia is essential for achieving accuracy, efficiency, and reliability in surveying, construction, and mining projects.

With rapid advancements in RTK GPS, IMU tilt compensation, and site communications, 2026 brings a strong lineup of GNSS receivers designed to improve productivity in the field.

In this guide, we compare the top GNSS receivers available in Australia, helping you select the right solution for your workflow and budget.

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What to Look for in a GNSS Receiver

Before choosing a system, it’s important to evaluate key performance factors:

1. RTK Accuracy

Look for centimetre-level positioning for construction and survey applications.

2. Tilt Compensation

Modern GNSS receivers use IMU technology to measure accurately without levelling the pole.

3. Communications

Reliable connectivity is critical:

• 4G LTE (NTRIP corrections)
• UHF radio
• Bluetooth / Wi-Fi

4. Durability

Australian conditions demand rugged, IP-rated equipment that can handle dust, heat, and impact.

5. Software Compatibility

Consider whether the receiver works across multiple platforms or locks you into a single ecosystem.

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Top GNSS Receivers in Australia for 2026

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1. Stonex S880 GNSS Receiver (Best Value & Innovation)

The Stonex S880 is one of the most advanced and cost-effective GNSS receivers available in Australia.

Key Features:

• RTK centimetre-level accuracy
• Visual stakeout (AR technology)
• IMU tilt compensation
• 4G + UHF communications
• Open platform compatibility

Why It Stands Out:

The S880 combines modern features, strong performance, and competitive pricing, making it ideal for businesses wanting premium capability without premium cost.

Best For:

• Construction and civil contractors
• Surveyors seeking flexibility
• Mining and infrastructure projects

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2. Trimble R12i / R980 (Best Premium Performance)

The Trimble R12i and R980 are industry-leading GNSS receivers known for precision and advanced GNSS processing.

Key Features:

• ProPoint GNSS engine
• Advanced tilt compensation
• Strong performance in difficult environments
• Full Trimble ecosystem integration

Considerations:

• Premium pricing
• Best suited to Trimble users

Best For:

• Large-scale survey operations
• Businesses already using Trimble systems

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3. Leica GS18 (Best for Precision Workflows)

Leica GNSS receivers are recognised globally for accuracy and engineering quality.

Key Features:

• High-precision RTK performance
• Advanced tilt compensation
• Imaging capabilities (GS18 I)

Considerations:

• High cost
• Strong reliance on Leica ecosystem

Best For:

• Professional surveyors
• High-precision projects

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GNSS Receiver Comparison (2026)

Feature	Stonex S880	Trimble R12i / R980	Leica GS18
Accuracy	High (RTK)	Very High	Very High
Tilt Compensation	IMU	Advanced	Advanced
Visual Stakeout	✅ Yes	❌ No	⚠️ Limited
Communications	4G + UHF	4G + UHF	4G + UHF
Ecosystem	Open	Trimble	Leica
Price	$$	$$$$	$$$$

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Best GNSS Receiver by Use Case

Best Overall GNSS Receiver

👉 Stonex S880 – Best balance of performance, features, and value

Best Premium GNSS Receiver

👉 Trimble R12i / R980 – Leading performance and integration

Best for High-Precision Surveying

👉 Leica GS18 – Exceptional accuracy and reliability

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Why the Stonex S880 is Gaining Popularity in Australia

The Stonex S880 GNSS receiver is rapidly becoming a preferred choice due to:

• Lower cost compared to premium brands
• Advanced features like visual stakeout
• Flexible compatibility with different systems
• Strong performance in real-world site conditions

For many businesses, it delivers everything needed without overpaying for brand ecosystems.

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How to Choose the Right GNSS Receiver

To select the best system:

• Define your accuracy requirements
• Consider your existing equipment ecosystem
• Evaluate budget vs long-term ROI
• Choose a system with reliable local support in Australia

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📌 Call to Action

Looking for the best GNSS receiver in Australia for your business?

👉 Contact our team today to compare options, get pricing, and find the right solution for your project.

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🔥 FAQ Section

What is the best GNSS receiver in Australia?

The best GNSS receiver depends on your needs, but the Stonex S880 offers the best balance of performance, features, and value in 2026.

Are GNSS receivers accurate enough for construction?

Yes, modern RTK GNSS receivers provide centimetre-level accuracy, suitable for construction and civil projects.

What is RTK GPS?

RTK (Real-Time Kinematic) is a positioning technique that delivers high-accuracy GPS data in real time using correction signals.

Which GNSS receiver is best for mining?

Rugged receivers like the Stonex S880, Trimble R12i, and Leica GS18 are all suitable for mining environments.

Choosing the right GNSS receiver is critical for achieving accuracy, efficiency, and reliability in surveying, construction, and mining projects. While premium brands like Trimble and Leica dominate the market, newer solutions like the Stonex S880 are rapidly gaining traction as high-performance, cost-effective alternatives.

In this guide, we compare the Stonex S880 vs Trimble R12i (R980) vs Leica GS18 to help you determine the best solution for your workflow.

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GNSS Receiver Comparison Table

Feature	Stonex S880	Trimble R12i / R980	Leica GS18
Accuracy (RTK)	~8mm H / 15mm V	~8mm H / 15mm V	~8–10mm H
Satellite Support	GPS, GLONASS, Galileo, BeiDou	Multi-constellation	Multi-constellation
Tilt Compensation	IMU tilt (no calibration needed)	TIP tilt (Trimble ProPoint)	Advanced IMU tilt
Visual Stakeout	✅ Integrated camera (AR)	❌ No AR	⚠️ Imaging available (GS18 I)
Communications	4G, UHF, Wi-Fi, Bluetooth	4G, UHF, Bluetooth	4G, UHF, Bluetooth
Ecosystem	Open compatibility	Closed Trimble ecosystem	Leica ecosystem
Ease of Use	High	Very high (Trimble software)	Moderate
Durability	IP68 rugged	Highly rugged	Highly rugged
Price Range	$$ (mid-range)	$$$$ (premium)	$$$$ (premium)

👉 Most modern GNSS receivers deliver centimetre-level RTK accuracy, making workflow efficiency, connectivity, and usability the key differentiators.

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Stonex S880: Best Value All-Round GNSS Receiver

The Stonex S880 stands out as a high-performance, cost-effective alternative to traditional premium brands.

Key Advantages:

• Visual stakeout (AR) – faster point location in complex environments
• IMU tilt compensation – no need to level pole
• Full communications suite – 4G, UHF, Wi-Fi
• Open platform – works with multiple software ecosystems

Best For:

• Construction companies
• Surveyors wanting performance without premium pricing
• Businesses needing flexibility across different systems

👉 The S880 delivers comparable accuracy while improving field efficiency and usability, especially with visual stakeout.

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Trimble R12i / R980: Premium Performance & Integration

Trimble remains a market leader in GNSS technology, known for innovation and strong software integration.

Key Advantages:

• Industry-leading GNSS engine (ProPoint)
• Excellent performance in challenging environments
• Seamless integration with Trimble workflows

Considerations:

• High cost (often 2–4x alternatives)
• Locked into Trimble ecosystem and licensing

Best For:

• Existing Trimble users
• Large-scale operations needing full ecosystem integration

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Leica GS18: Precision & Advanced Survey Features

Leica GNSS systems are known for precision, reliability, and innovation, particularly in imaging and tilt compensation.

Key Advantages:

• High precision performance
• Advanced tilt compensation and imaging capabilities
• Strong reputation for quality and accuracy

Considerations:

• Premium pricing
• Best performance within Leica software ecosystem

Best For:

• Surveyors already using Leica equipment
• Projects requiring integration with Leica systems

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Key Differences That Matter

1. Price vs Performance

• Stonex S880: Best value
• Trimble & Leica: Premium pricing with ecosystem benefits

2. Open vs Closed Systems

• Stonex = flexible, open compatibility
• Trimble & Leica = tightly integrated ecosystems

3. Workflow Efficiency

• Stonex leads with visual stakeout (AR)
• Trimble leads with software integration
• Leica excels in precision workflows

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Which GNSS Receiver Should You Choose?

Choose Stonex S880 if:

• You want high performance without premium cost
• You need visual stakeout and flexibility
• You operate across mixed systems

Choose Trimble R12i / R980 if:

• You are already in the Trimble ecosystem
• You need advanced workflow integration

Choose Leica GS18 if:

• You prioritise precision and Leica integration
• You already use Leica total stations/software

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Final Verdict

While Trimble and Leica remain industry leaders, the Stonex S880 GNSS receiver has emerged as a serious competitor—offering comparable accuracy, better flexibility, and significantly improved value.

For many construction, mining, and surveying businesses, the S880 represents the best balance between performance, cost, and modern features.

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Call to Action

Looking to compare GNSS receivers or upgrade your survey equipment?

👉 Contact our team today to find the right solution for your project and get expert advice on the Stonex S880 vs leading competitors.

The Stonex S880 GNSS receiver is a high-performance solution built for professionals in construction, mining, civil engineering, and land surveying. Designed to deliver centimetre-level RTK accuracy, advanced visual stakeout technology, and reliable site communications, the S880 is engineered for modern field workflows.

If you’re looking for survey equipment in Australia that improves productivity, accuracy, and reliability, the Stonex S880 is a standout choice.

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What is the Stonex S880 GNSS Receiver?

The Stonex S880 is a multi-constellation GNSS RTK receiver that provides highly accurate positioning using satellite systems including GPS, GLONASS, Galileo, and BeiDou.

It combines survey-grade accuracy with real-time communication capabilities, making it ideal for:

• Construction site set-out
• Civil infrastructure projects
• Mining operations
• Land surveying and mapping

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Key Features of the Stonex S880

RTK GNSS Accuracy You Can Trust

The S880 delivers high-precision RTK positioning, ensuring accurate data collection even in complex environments.

• Centimetre-level accuracy
• Fast RTK fix times
• Multi-frequency satellite tracking

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Visual Stakeout with Integrated Camera

One of the most advanced features of the Stonex S880 is its visual stakeout system.

Using an integrated camera, users can:

• Navigate to points using real-world visuals
• Reduce errors in complex or obstructed sites
• Improve efficiency compared to traditional stakeout methods

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IMU Tilt Compensation

With built-in IMU technology, the S880 allows accurate measurements without needing to keep the pole perfectly level.

• Measure points at angles up to 60°
• Faster data capture
• Ideal for difficult terrain or confined spaces

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Advanced GNSS Communications

Reliable communication is essential for real-time positioning.

The S880 includes:

• 4G LTE modem for NTRIP corrections
• UHF radio for long-range communication
• Bluetooth and Wi-Fi connectivity

This ensures seamless integration across your survey and machine control systems.

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Rugged Design for Australian Conditions

Built for harsh environments, the Stonex S880 is:

• IP68 rated (waterproof and dustproof)
• Resistant to drops and impacts
• Suitable for extreme temperatures

Perfect for demanding construction and mining sites across Australia.

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Long Battery Life for Full-Day Use

The S880 is designed for productivity in the field:

• Full-day battery performance
• Internal storage for data logging
• Reliable operation without interruptions

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Applications of the Stonex S880

The versatility of the Stonex S880 makes it ideal for:

• Construction surveying – accurate set-out and as-built data
• Civil projects – roads, infrastructure, utilities
• Mining operations – positioning and site control
• Surveying professionals – mapping and data collection

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Why Choose the Stonex S880 GNSS Receiver?

The Stonex S880 combines accuracy, speed, and advanced technology in one compact unit.

Benefits:

• Faster workflows with visual stakeout
• Reduced errors with tilt compensation
• Reliable connectivity in remote areas
• Durable design for harsh environments
• Optimised for modern survey workflows

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Stonex S880: A Smart Investment in Survey Technology

Upgrading to the Stonex S880 GNSS receiver means investing in efficiency, accuracy, and long-term reliability.

For businesses working in construction, mining, and surveying, it delivers the performance needed to stay competitive and productive.

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📌 Call to Action (Important for Conversions)

Looking to upgrade your survey equipment or GNSS systems?

👉 Contact our team today to learn more about the Stonex S880 GNSS receiver and how it can improve your operations.

FAQ section for the page

Add this near the bottom of your article, above the contact CTA.

Frequently Asked Questions

What is the Stonex S880 used for?
The Stonex S880 is a GNSS RTK receiver used for high-accuracy surveying, construction set-out, civil works, mining applications, and site positioning.

Does the Stonex S880 support RTK surveying?
Yes, the Stonex S880 supports RTK surveying and is designed to provide centimetre-level positioning accuracy for professional field applications.

Does the Stonex S880 have tilt compensation?
Yes, the Stonex S880 features IMU tilt compensation, allowing surveyors to capture accurate points without holding the pole perfectly level.

What industries use the Stonex S880?
The Stonex S880 is commonly used in construction, mining, civil engineering, infrastructure, and land surveying.

Does the Stonex S880 support visual stakeout?
Yes, the Stonex S880 includes visual stakeout functionality, helping users locate points more efficiently in the field.

Is the Stonex S880 suitable for harsh site conditions?
Yes, the Stonex S880 is built for demanding environments and is well suited to construction and mining sites where durability and reliability are essential.

What’s the Difference and Which One Do You Need?

If you’re working in construction, civil or mining, you’ve likely heard about survey equipment and machine control systems — but what’s the difference?

At QuipTech Solutions, this is one of the most common questions we get.

👉 The short answer:

• Survey = sets out the job
• Machine control = builds the job

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What is Survey?

Surveying is the process of measuring and marking positions on site so work can be carried out correctly.

Think of survey as:

👉 “Marking where everything needs to go”

Survey is used for:

• Setting out building positions
• Marking boundaries and levels
• Checking work (as-builts)
• Creating site control points

Typical survey equipment:

• GNSS (GPS) rovers
• Total stations
• Controllers and software

👉 A surveyor uses this equipment to guide the job before and during construction.

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What is Machine Control?

Machine control uses GPS technology to guide operators directly from inside the machine.

Think of machine control as:

👉 “Helping the operator dig or grade to the right level”

Machine control is used for:

• Excavation
• Grading
• Bulk earthworks
• Final trim work

Typical machine control setup:

• GNSS receivers on the machine
• In-cab screen for the operator
• Connection to site correction data

👉 The operator can see exactly where they are and what to cut or fill.

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Key Difference (Simple View)

Survey	Machine Control
Marks out the job	Builds the job
Used by surveyors	Used by machine operators
Works before and during construction	Works during construction
Focus on measurement	Focus on execution

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How They Work Together

This is where the real value comes in.

Step-by-step workflow:

1. Survey sets up control points on site
2. Survey marks key positions or uploads design data
3. Machine control uses that data to guide machines
4. Survey checks and verifies completed work

👉 Together, they create a connected and efficient workflow

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Why You Need Both

Using only one system limits your efficiency.

Survey only

• Slower workflows
• More manual work
• Higher labour costs

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Machine control only

• No accurate site control
• Risk of errors
• Limited verification

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Combined system (best option)

• Faster project delivery
• Reduced rework
• Higher accuracy
• Better productivity

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Where Stonex Fits In

Stonex technology supports both survey and machine control environments.

Survey side

• GNSS rovers
• Total stations
• Field controllers

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Machine control support

• GNSS base stations
• RTK correction systems
• Site positioning infrastructure

👉 This allows your entire site to run from the same accurate data source.

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Example: Real Site Scenario

Without integration:

• Survey sets out points
• Operator guesses between marks
• More checking and rework

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With survey + machine control:

• Survey sets control
• Machine follows digital design
• Less staking
• Faster and more accurate work

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Add Communications (The Missing Piece)

To make everything work reliably, you also need:

• RTK corrections (base station or network)
• 4G or Starlink connectivity
• UHF radio (for remote sites)

👉 This is where QuipTech Solutions delivers complete systems.

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Why Work with QuipTech Solutions

We don’t just supply equipment — we help you build a complete working system.

We support:

• Survey setup
• Machine control integration
• GNSS base stations
• Site communications
• Training and ongoing support

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Which One Do You Need?

If you’re just starting:

👉 Start with survey equipment

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If you want productivity gains:

👉 Add machine control

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If you want a fully optimised site:

👉 Use survey + machine control + communications

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Talk to QuipTech Solutions

If you’re unsure what your site needs, we can help you understand the best setup for your operation.

Contact us to:

• Discuss your project
• Compare options
• Build a complete system
• Arrange a demo

Request a Quote | Talk to Our Team | Book a Demo

How Stonex Technology Fits Into Modern Site Operations

Surveying is a fundamental part of modern construction, civil and mining projects. It provides the accurate positioning data needed to ensure work is completed correctly, efficiently and to design.

From initial site setup through to final as-built verification, survey technology plays a critical role in keeping projects on track.

At QuipTech Solutions, we help businesses implement practical survey systems using Stonex technology, ensuring accuracy, productivity and seamless integration across site operations.

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What is Surveying in Construction?

Surveying involves measuring and mapping positions on a site to ensure that work is carried out according to design.

Key survey tasks include:

• Setout (marking design positions on site)
• Site control (establishing reference points)
• As-built surveys (verifying completed work)
• Volume calculations and measurements

👉 Without accurate survey data, construction projects risk errors, rework and delays.

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How Survey Fits Into Your Operations

Surveying is no longer a standalone activity — it is now integrated into daily site workflows.

Modern site workflow

1. Survey establishes site control
2. GNSS systems position equipment and crews
3. Machine control uses this data for excavation and grading
4. Survey verifies and updates site data

👉 This creates a connected workflow across the entire project.

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The Role of GNSS Technology

GNSS (GPS) systems are now the backbone of modern surveying.

They provide:

• Real-time positioning (RTK accuracy)
• Fast data collection across large areas
• Integration with machine control systems

This allows surveyors and operators to work more efficiently and accurately.

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Where Stonex Fits Into Your Operation

Stonex provides a complete range of survey technology that integrates into each stage of your workflow.

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1. Site Setup and Control

Stonex GNSS receivers are used to establish accurate control points across the site.

Benefits:

• Reliable reference data
• Consistent positioning across all operations

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2. Survey and Setout

Survey crews use GNSS rovers and total stations to mark out design positions.

Benefits:

• Faster setout
• Reduced manual errors
• Improved accuracy

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3. Machine Control Integration

Survey data is used to guide machines such as excavators and dozers.

Benefits:

• Increased productivity
• Reduced rework
• Improved machine accuracy

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4. Verification and As-Builts

Survey equipment is used to confirm that work meets design specifications.

Benefits:

• Accurate project completion
• Reduced compliance risk

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Why Businesses Are Moving to Stonex

Stonex is becoming increasingly popular across Australia due to its balance of performance, flexibility and cost.

Key advantages

• High-accuracy GNSS positioning
• Modern multi-constellation tracking
• Compatibility with open RTK standards (RTCM)
• Flexible integration across mixed systems
• Lower cost compared to traditional premium brands

👉 Making it a practical choice for contractors and survey teams.

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Complete Survey Solutions with QuipTech

QuipTech Solutions supports businesses by delivering complete survey systems, including:

• GNSS base and rover setups
• Total stations
• Survey controllers and software
• RTK correction systems
• Site communications (4G / Starlink / UHF)
• Training and support

👉 Ensuring your survey system works as part of your overall operation.

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The Future of Surveying

The industry is moving toward:

• Fully connected job sites
• Integration between survey and machine control
• Real-time data sharing
• Scalable, cost-effective technology

Stonex aligns with this shift, offering modern solutions that support how projects are delivered today.

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Why Choose QuipTech Solutions

QuipTech Solutions focuses on:

• Practical, real-world solutions
• Integration across survey, machine control and communications
• Support for construction, civil and mining
• Delivering systems that work on site

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Get Started with Survey Solutions

If you’re looking to improve accuracy, efficiency and productivity on your site, QuipTech Solutions can help you implement the right survey system.

Contact our team to:

• Discuss your workflow
• Build a complete survey solution
• Compare equipment options
• Arrange a demo

Request a Quote | Talk to Our Team | Book a Demo

Complete Technology Systems for Construction, Civil and Mining

At QuipTech Solutions, we deliver complete, integrated technology systems combining machine control, GNSS positioning and site communications.

Rather than supplying individual components, we design and deploy fully connected solutions that improve accuracy, productivity and reliability across your entire site.

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The Problem with Disconnected Systems

Many sites operate with:

• Separate machine control systems
• Independent survey equipment
• Inconsistent correction sources
• Unreliable communication networks

👉 This leads to:

• Accuracy issues
• Downtime
• Compatibility problems
• Increased operational costs

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The QuipTech Integrated Solution

We combine three critical components into one seamless system:

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🚜 Machine Control Systems

High-accuracy positioning for:

• Excavators
• Dozers
• Graders

Benefits:

• Reduced rework
• Increased productivity
• Improved operator accuracy

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📡 GNSS Positioning & RTK

Powered by Stonex GNSS technology, including:

• Base stations
• Rover systems
• RTK correction delivery

Benefits:

• Centimetre-level accuracy
• Consistent positioning across site
• Support for multiple machines and crews

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🌐 Site Communications (QuipTech)

Reliable connectivity solutions including:

• 4G / LTE systems
• Starlink satellite internet
• UHF radio systems (5W / 35W)
• Site networking and routers

Benefits:

• Stable RTK correction delivery
• Remote support capability
• Connectivity in remote locations

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How It All Works Together

👉 Base Station → Communications → Machines & Rovers

1. GNSS base station generates RTK corrections
2. Corrections are transmitted via:
   • UHF radio
   • 4G / NTRIP
   • Starlink network
3. Machines and survey rovers receive corrections
4. Entire site operates from the same accurate reference

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Key Benefits of an Integrated System

Consistency Across Site

• All machines and crews working from the same data
• Eliminates discrepancies

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Improved Productivity

• Faster setout
• Less rework
• More efficient machine operation

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Reduced Downtime

• Reliable communication
• Fewer connection issues

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Flexibility

• Works across mixed fleets
• Open GNSS compatibility (RTCM)

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Scalability

• Easily add machines, crews or sites
• Future-proof system design

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Applications

Civil Construction

• Bulk earthworks
• Road construction
• Subdivisions

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Mining

• Remote site operations
• Large-scale machine control
• Reliable communication infrastructure

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Infrastructure Projects

• Rail
• Utilities
• Major developments

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Survey & Machine Control Integration

• Seamless workflow between survey teams and operators

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Example Site Setup

A typical QuipTech solution may include:

• Stonex GNSS base station
• GNSS rover for survey
• Machine control GNSS receivers
• UHF radio (5W / 35W) or Starlink setup
• Site router and network
• Field controllers and software

👉 Delivering a fully connected, operational site.

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UHF, 4G or Starlink — What Should You Use?

Option	Best For
UHF Radio	Remote sites, mining
4G / NTRIP	Urban and metro sites
Starlink	Remote sites needing connectivity

👉 Many sites use a hybrid approach for maximum reliability.

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Why Choose QuipTech Solutions

QuipTech Solutions is focused on delivering practical, working systems — not just selling hardware.

What sets us apart

• Complete system design and integration
• Expertise across GNSS, machine control and communications
• Support for remote and regional projects
• Flexible solutions for mixed fleets
• Ongoing technical support

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From Setup to Support

We work with you through the entire process:

1. Consultation – Understand your site and requirements
2. System Design – Build the right solution
3. Supply & Setup – Configure and deploy equipment
4. Training – Get your team operational
5. Support – Ongoing technical assistance

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Future-Proof Your Site

Modern construction and mining projects are moving toward:

• Connected job sites
• Integrated machine control and survey systems
• Reliable site-wide communications

👉 QuipTech Solutions helps you stay ahead with systems designed for the future.

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Talk to QuipTech Solutions

If you’re looking for a complete machine control, GNSS and communications solution in Australia, we can help you design and deploy the right system.

Contact our team to:

• Discuss your site requirements
• Build a complete solution
• Compare setup options
• Arrange a demo

Request a Quote | Talk to Our Team | Book a Demo

Step-by-Step Guide for Construction, Survey and Machine Control

Setting up a GNSS base station correctly is critical to achieving accurate and reliable positioning for machine control, survey and site operations.

At QuipTech Solutions, we regularly support clients with base station setups across construction, civil and mining projects. This guide outlines the practical steps to get your system up and running properly.

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What You Need Before You Start

Before setting up your base station, make sure you have:

• GNSS receiver (e.g. **Stonex SR35, S880, S1000)
• Tripod and tribrach
• Antenna or integrated receiver
• Radio (UHF) or 4G/NTRIP setup
• Power supply (battery or external)
• Controller or software
• Known point (if available)

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Step 1: Choose the Right Location

The base station location is critical.

Best practice

• Clear view of the sky (minimal obstructions)
• Elevated position where possible
• Away from buildings, trees and machinery
• Stable ground (no movement or vibration)

👉 Poor location = poor accuracy.

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Step 2: Set Up the Tripod

• Extend tripod legs evenly
• Position directly over your control point (if known)
• Ensure the tripod is stable and secure

👉 Accuracy starts here — take your time.

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Step 3: Mount and Level the Receiver

• Attach the GNSS receiver or antenna
• Use a tribrach or mount to level accurately
• Check height measurement (critical for accuracy)

👉 Record your antenna height correctly.

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Step 4: Configure the Base Station

Using your controller/software:

Set base mode

• Select Base Station Mode

Input position

• Known point (recommended for construction sites)
  OR
• Autonomous position (temporary setups)

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Set correction format

• RTCM (standard format for compatibility)

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Step 5: Set Up Communication Method

Option 1: UHF Radio

• Set frequency (licensed band)
• Match rover radio settings
• Select transmission power (5W / 35W)

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Option 2: NTRIP / 4G

• Insert SIM card
• Configure network settings
• Connect to correction server

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Option 3: Starlink / Site Network

• Connect base to router
• Enable NTRIP broadcasting
• Ensure stable internet connection

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👉 Choose the method based on your site conditions.

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Step 6: Start Broadcasting Corrections

• Activate base station
• Confirm RTK corrections are transmitting
• Check rover connection

👉 Always verify before starting work.

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Step 7: Test Accuracy on Site

Before full operation:

• Check position against known points
• Verify consistency across machines/rovers
• Confirm no dropouts in signal

👉 This step prevents costly mistakes later.

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Common Mistakes to Avoid

❌ Poor base location (obstructions)
❌ Incorrect antenna height
❌ Wrong radio frequency
❌ Unstable tripod setup
❌ Not verifying accuracy before use

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UHF vs Network Setup – Quick Guide

Setup Type	Best For
UHF Radio	Remote sites, mining
4G / NTRIP	Urban areas
Starlink	Remote + connected hybrid

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Pro Tips from QuipTech

• Always use a known control point where possible
• Keep base station secure and protected
• Use high-power UHF (35W) for large sites
• Consider backup communication (4G + radio)
• Regularly check calibration and setup

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Complete Base Station Solutions

QuipTech Solutions can supply and support:

• Stonex GNSS base stations
• UHF radio systems (5W / 35W)
• 4G and Starlink connectivity
• Controllers and software
• Site setup and commissioning
• Training and support

👉 We ensure your system is set up correctly from day one.

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Need Help Setting Up Your Base Station?

If you’re unsure about your setup or want a fully configured solution, QuipTech Solutions can help.

Contact us to:

• Configure your base station
• Set up RTK corrections
• Integrate with machine control
• Ensure accuracy across your site

Request a Quote | Talk to Our Team | Book a Demo

Reliable RTK Correction Solutions for Construction, Civil and Mining

Stonex base stations play a critical role in delivering accurate, reliable positioning for machine control systems across construction, civil and mining projects.

At QuipTech Solutions, we supply and configure Stonex GNSS base stations to provide consistent RTK correction data to excavators, dozers, graders and survey rovers — ensuring machines operate with precision and efficiency on site.

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What is a GNSS Base Station for Machine Control?

A GNSS base station is a fixed receiver that calculates its precise position and transmits correction data to machines and rovers on site.

This allows:

• Centimetre-level accuracy for machine control
• Consistent positioning across all machines
• Reliable site-wide performance

👉 Without a base station, machine control systems cannot achieve the accuracy required for construction work.

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How Stonex Base Stations Work with Machine Control

Stonex base stations integrate seamlessly into machine control environments by:

Broadcasting RTK Corrections

• UHF radio (5W / 35W options)
• NTRIP via 4G / Starlink
• Site network solutions

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Supporting Multiple Machines

• Excavators
• Dozers
• Graders
• Survey rovers

👉 One base station can support multiple machines across a site.

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Providing Consistent Accuracy

• Eliminates variation between machines
• Ensures all operators are working from the same reference
• Reduces rework and improves productivity

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Key Benefits of Stonex Base Stations

High-Accuracy Positioning

• RTK centimetre-level accuracy
• Stable correction delivery
• Reliable performance across site conditions

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Flexible Communication Options

• UHF radio for remote sites
• 4G / NTRIP for network-based correction
• Starlink integration for remote connectivity

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Compatibility with Machine Control Systems

• Works alongside mixed fleet environments
• Supports open RTCM correction formats
• Suitable for integration with multiple brands

👉 A major advantage over proprietary systems.

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Cost-Effective Site Setup

• Lower cost compared to traditional systems
• Scalable across multiple machines
• Reduced reliance on external correction services

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UHF vs Network RTK for Machine Control

Method	Best Use	Key Advantage
UHF Radio	Remote sites	Independent, reliable coverage
4G / NTRIP	Urban / connected sites	No local base required
Starlink	Remote + connected sites	High reliability internet

👉 Many sites use a hybrid approach depending on conditions.

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Applications for Stonex Base Stations

Construction Sites

Providing consistent positioning for excavators and earthmoving equipment.

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Civil Infrastructure Projects

Supporting large-scale operations with multiple machines and crews.

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Mining Operations

Reliable RTK correction in remote and harsh environments.

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Survey and Machine Control Integration

Ensuring survey teams and machine operators work from the same data.

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Complete Machine Control Solutions from QuipTech

QuipTech Solutions specialises in delivering complete site setups, including:

• Stonex GNSS base stations
• Rover units and survey equipment
• Machine control integration support
• UHF radio configuration (5W / 35W)
• 4G and Starlink connectivity
• Site network setup
• Training and technical support

👉 Ensuring your system is fully operational and reliable.

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Why Choose Stonex for Machine Control Base Stations

Stonex provides a strong combination of:

• Reliable GNSS performance
• Flexible communication options
• Open system compatibility
• Lower cost compared to traditional brands

👉 Making it a practical solution for modern construction sites.

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Why Work with QuipTech Solutions

QuipTech Solutions focuses on delivering real-world, working systems, not just equipment.

We help clients:

• Design site-wide RTK solutions
• Configure base stations correctly
• Integrate with machine control systems
• Ensure reliable communication across site
• Provide ongoing support

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Get a Quote on Stonex Base Stations

If you need a GNSS base station for machine control in Australia, QuipTech Solutions can help you build the right setup for your site.

Contact our team to:

• Configure a base station system
• Compare UHF vs network RTK
• Build a complete machine control solution
• Arrange a demo

Request a Quote | Talk to Our Team | Book a Demo

High-Power GNSS Rover with Integrated Radio for Reliable RTK Positioning

The Stonex SR35 with UHF radiomodem (5W / 35W) is a powerful GNSS solution designed for reliable RTK positioning in environments where network coverage is limited or unavailable.

Available through QuipTech Solutions, this configuration provides strong radio transmission capability, making it ideal for base station setups, remote sites and large-scale construction projects.

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Integrated UHF Radio for RTK Corrections

The SR35 UHF version includes an internal radiomodem capable of:

• 5W transmission for standard site coverage
• Up to 35W transmission for extended range applications
• Stable RTK correction broadcasting
• Reliable communication between base and rover

👉 This allows survey teams to operate independently of mobile networks.

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Why UHF Radio Matters

While 4G/NTRIP solutions are common, many sites still require radio-based correction delivery.

Ideal for:

• Remote and regional projects
• Mining operations
• Large civil construction sites
• Areas with poor or no mobile coverage
• Secure, standalone site setups

👉 UHF ensures consistent, uninterrupted RTK corrections where network solutions may fail.

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Flexible Base and Rover Configuration

The Stonex SR35 with UHF can be configured as:

Base Station

• Broadcast RTK corrections via UHF radio
• Support multiple rovers on site
• Ideal for dedicated project setups

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Rover Unit

• Receive corrections from UHF base
• Maintain high-accuracy positioning
• Operate independently of mobile networks

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Key Features

GNSS Performance

• Multi-constellation tracking (GPS, GLONASS, Galileo, BeiDou)
• RTK centimetre-level accuracy
• Fast convergence times

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UHF Radiomodem

• 5W / 35W transmission options
• Long-range communication capability
• Reliable correction delivery

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Field-Ready Design

• Rugged construction
• Suitable for harsh site conditions
• Compact and portable

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Connectivity Options

• UHF radio
• Bluetooth and Wi-Fi
• Optional 4G / NTRIP support

👉 Allows flexible deployment across different site requirements.

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Applications for SR35 UHF Systems

Remote Construction Projects

Reliable positioning where mobile coverage is limited.

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Mining and Resource Projects

Stable RTK correction across large, isolated sites.

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Civil Infrastructure

Dedicated base station setups for consistent site-wide accuracy.

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Machine Control Support

Providing correction data to multiple machines and rovers.

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UHF vs Network RTK (4G/NTRIP)

Feature	UHF Radio	Network RTK
Coverage	Site-based	Network dependent
Reliability	✅ High	⚠️ Variable
Setup	Requires base	No base needed
Best Use	Remote sites	Urban areas

👉 Many projects use both, depending on conditions.

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Why Choose the SR35 UHF from QuipTech

QuipTech Solutions specialises in delivering complete RTK solutions, not just hardware.

When you choose the SR35 UHF system, you get:

• Correct base station setup advice
• Radio configuration support
• Frequency and licensing guidance
• Integration with survey and machine control systems
• Ongoing technical support

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Complete UHF RTK Solutions

We can supply full systems including:

• SR35 base and rover units
• UHF radio configuration
• Tripods, poles and accessories
• Controllers and software
• Site communications integration
• Training and commissioning

👉 Delivering a fully operational RTK setup.

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Get a Quote on the Stonex SR35 UHF

If you need a high-power GNSS receiver with UHF radio in Australia, the Stonex SR35 is a practical and reliable solution.

Contact QuipTech Solutions to:

• Request pricing
• Configure a base and rover system
• Understand licensing requirements
• Arrange a demo

Request a Quote | Talk to Our Team | Book a Demo