Commercial model
Pricing not public
Contact manufacturer for pricing. That usually means the final commercial package depends on deployment scope, services, or negotiated terms.
Release
Jan 1, 2023
Price
Price TBA
Connectivity
1
Status
Active
Height
470mm (standing)
Weight
56kg (battery included)
Battery
2.5-4h (≥10km range)
Speed
4 m/s
Quadruped
Active
X30
DEEPRobotics' flagship industrial quadruped robot designed for inspection, security, surveying, and rescue operations. Features IP67 protection, operates from -20°C to 55°C, and can climb 45° slopes. Quick-swap battery system provides 2.5–4 hours of endurance and over 10 km range. Deployed in power utilities, tunnels, mining, and construction.
Listed price
Price TBA
Contact manufacturer for pricing
Release window
Jan 1, 2023
Current status
Active
DEEPRobotics
Last verified
Mar 7, 2026
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Technical overview
Core specifications and system stack
A fast read on the mechanical profile, sensing package, and platform integrations behind X30.
Technical Specifications
Height
470mm (standing)
Weight
56kg (battery included)
Battery Life
2.5-4h (≥10km range)
Charging Time
Not disclosed
Max Speed
4 m/s
Payload
Not disclosed
Tech Components
Sensors (3)
Connectivity (1)
Operational profile
How this robot is configured
Capabilities
6
Connectivity
1
Key capabilities
Autonomous Inspection45° Slope Climbing20cm Obstacle TraversalQuick Battery SwapAll-Weather Operation (-20°C to 55°C)Dark/Zero-Light Navigation
Certifications
IP67
Explore further
Benchmark set
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Coverage
Related Articles
Reporting and explainers linked to X30.
About the X30
3Sensors1Protocol6Capabilities
The X30 is a Quadruped robot built by DEEPRobotics. DEEPRobotics' flagship industrial quadruped robot designed for inspection, security, surveying, and rescue operations. Features IP67 protection, operates from -20°C to 55°C, and can climb 45° slopes. Quick-swap battery system provides 2.5–4 hours of endurance and over 10 km range. Deployed in power utilities, tunnels, mining, and construction.
Pricing has not been publicly disclosed. See all DEEPRobotics robots on the DEEPRobotics page.
Spec Breakdown
Detailed specifications for the X30
Height
470mm (standing)At 470mm (standing), the X30 is sized for its intended operating environment and use cases.
Weight
56kg (battery included)Weighing 56kg (battery included), the X30 balances structural integrity with portability and maneuverability.
Battery Life
2.5-4h (≥10km range)With a battery life of 2.5-4h (≥10km range), the X30 can operate for sustained periods before requiring a recharge. Battery life is measured under typical operating conditions and may vary based on workload intensity and environmental factors.
Maximum Speed
4 m/sA top speed of 4 m/s enables rapid traversal of terrain while maintaining stability on varied surfaces.
Payload Capacity
Not disclosedA payload capacity of Not disclosed determines what the robot can carry or manipulate. This is a critical spec for practical applications where the robot needs to handle physical objects.
The X30 uses Autonomous navigation and inspection in darkness/extreme environments as its intelligence backbone. This AI platform powers the robot's decision-making, perception processing, and autonomous behavior. The sophistication of the AI stack directly impacts how well the robot handles unexpected situations and adapts to new environments.
X30 Sensor Suite
The X30 integrates 3 sensor types, forming the perceptual foundation that enables autonomous operation.
This sensor configuration enables the X30 to navigate unstructured terrain, detect obstacles, build environment maps, and maintain stability on varied surfaces. Multiple sensor modalities provide redundancy and more robust perception than any single sensor type alone.
Explore sensor technologies: components glossary · full components directory
X30 Use Cases & Applications
Four-legged robots excel in environments where wheeled robots struggle — stairs, rough terrain, construction sites, and industrial facilities. Their biological-inspired locomotion provides stability and adaptability that makes them versatile platforms for a wide range of applications.
Capabilities That Enable Real-World Use
The X30 offers 6 distinct capabilities, each contributing to the robot's practical utility.
Autonomous Inspection
45° Slope Climbing
20cm Obstacle Traversal
Quick Battery Swap
All-Weather Operation (-20°C to 55°C)
Dark/Zero-Light Navigation
These capabilities work together with the robot's 3 onboard sensor types and Autonomous navigation and inspection in darkness/extreme environments AI platform to deliver practical, real-world performance.
X30 Capabilities
6
Capabilities
3
Sensor Types
AI
Autonomous navigation and in…
Autonomous Inspection
45° Slope Climbing
20cm Obstacle Traversal
Quick Battery Swap
All-Weather Operation (-20°C to 55°C)
Dark/Zero-Light Navigation
Connectivity & Integration
How the X30 communicates with your network, smart home devices, cloud services, and companion apps.
Network & Communication Protocols
Network protocols for device communication — enabling the X30 to participate in various networking scenarios.
X30 Technology Stack Overview
The X30 by DEEPRobotics integrates 5 distinct technology components across sensing, connectivity, intelligence, and interaction layers. The physical platform features a height of 470mm (standing), a weight of 56kg (battery included), a top speed of 4 m/s, providing the foundation on which this technology stack operates.
Perception — 3 Sensor Types
The perception layer is built on Depth Cameras, RGB Cameras, Fusion Perception System. These work in concert to give the robot a detailed understanding of its operating environment. This multi-sensor approach provides redundancy and enables the robot to function reliably even when individual sensors encounter challenging conditions such as low light, reflective surfaces, or cluttered spaces.
Connectivity — 1 Protocol
For communications, the X30 relies on Ethernet. This connectivity stack ensures the robot can communicate with cloud services, local smart home devices, mobile apps, and other networked systems in its environment.
Intelligence — Autonomous navigation and inspection in darkness/extreme environments
Autonomous navigation and inspection in darkness/extreme environments serves as the computational brain, processing sensor data, making navigation decisions, and orchestrating the robot's autonomous behaviors. The quality of this AI platform directly influences how well the robot handles novel situations, adapts to changes in its environment, and improves its performance over time through learning.
Who Should Consider the X30?
Target Audience
Quadruped robots are primarily purchased by industrial and enterprise customers for inspection, patrol, and data collection in environments too dangerous or tedious for humans. Some companion-oriented quadrupeds target tech-savvy consumers.
Key Considerations
Terrain adaptability, payload capacity for sensor payloads, runtime per charge, IP rating for outdoor/industrial use, and autonomous navigation in unstructured environments are key factors. For industrial use, consider integration with existing asset management and inspection workflows.
Pricing
X30 does not currently have publicly listed pricing. Contact DEEPRobotics directly for quotes and availability information.
Availability
ActiveThe X30 is in active commercial production and currently sold by DEEPRobotics. Check the manufacturer's website or authorized retailers for the latest stock and ordering information.
X30: Strengths & Trade-offs
Engineering compromises and where this quadruped robot excels
What the X30 does well
Broad capability set
With 6 distinct capabilities, the X30 is designed as a versatile platform rather than a single-task device. This breadth means the robot can handle varied scenarios and workflows, reducing the need for multiple specialized robots and increasing its utility across different situations.
Extended battery life
A battery life of 2.5-4h (≥10km range) provides substantial operational runway. For quadruped applications, this means longer work sessions between charges, fewer interruptions, and the ability to complete larger tasks or cover more area in a single charge cycle.
Strong mobility performance
A top speed of 4 m/s provides the X30 with the agility to cover ground efficiently. This is particularly valuable for applications that require rapid response, large-area coverage, or keeping pace with human movement in shared environments.
What to consider carefully
Significant weight
At 56kg (battery included), the X30 is a substantial piece of equipment. This weight contributes to stability and robustness but also means the robot requires careful consideration of floor load limits, transportation logistics, and the potential impact force in the event of unexpected contact with people or objects.
Undisclosed pricing
DEEPRobotics has not published a public price for the X30. While common for enterprise-class robotics, the absence of transparent pricing can complicate budgeting and comparison shopping. Prospective buyers will need to engage directly with the manufacturer for quotes, which may vary by configuration and volume.
Limited ecosystem integration info
No specific smart home or ecosystem compatibility is listed for the X30. This does not necessarily mean the robot lacks integration options — the information may not yet be published — but buyers who rely on specific platforms (Apple HomeKit, Google Home, Amazon Alexa, etc.) should verify compatibility before purchasing.
Note: This strengths and trade-offs assessment is based on the X30's documented specifications as tracked in the ui44 database. Real-world performance depends on deployment conditions, firmware maturity, and environmental factors. For the most current information, check the DEEPRobotics manufacturer page or visit the official product page. Use the comparison tool to evaluate these trade-offs against competing robots in the same category.
How Quadruped Robot Technology Works
Understanding the engineering behind this category
Four-legged robots represent a biomimetic approach to mobility — taking inspiration from nature's most versatile terrestrial locomotion strategy. Unlike wheeled or tracked robots, quadrupeds can navigate stairs, step over obstacles, traverse rough terrain, and recover from stumbles. The engineering behind these machines combines advanced control theory, real-time computation, and rugged mechanical design into platforms that go where other robots simply cannot.
Navigation & Mobility
Quadruped navigation combines classical SLAM with proprioceptive terrain sensing. The robot builds environment maps using LiDAR and cameras while simultaneously using force sensors in its feet and joint torque measurements to understand ground conditions beneath each footstep. This dual approach — seeing ahead while feeling underfoot — enables navigation through environments that would confuse purely vision-based systems, like muddy terrain or surfaces covered in snow. Path planning for legged robots is more complex than for wheeled platforms because the planner must consider foothold locations, body clearance, and dynamic stability at every step.
The Role of AI
AI in quadruped robots increasingly relies on learned locomotion policies trained in simulation and transferred to real hardware. Rather than hand-coding gait controllers for every terrain type, modern systems use reinforcement learning to develop robust walking behaviors that generalize across surfaces. This sim-to-real approach has dramatically improved quadruped agility and robustness. Higher-level AI handles mission planning, autonomous inspection routines, anomaly detection, and integration with enterprise software systems for industrial applications.
Sensor Fusion & Perception
Quadruped robots carry sophisticated sensor payloads combining environmental perception with proprioceptive awareness. Outward-facing sensors (LiDAR, cameras, depth sensors) map the environment and identify obstacles. Inward-facing sensors (joint encoders, IMUs, force/torque sensors) monitor the robot's own state — its balance, footing, and body orientation. The fusion of external and internal sensing is uniquely important for legged robots because stable locomotion requires constant feedback about both where the robot is going and how its body is responding to each step. Payload-mounted inspection sensors (thermal cameras, gas detectors, acoustic sensors) add application-specific perception on top of the mobility platform.
Power & Battery Management
Legged locomotion is energy-intensive, and battery life is a critical constraint for quadruped robots. Most commercial quadrupeds offer one to two hours of active operation per charge. Power consumption varies significantly with gait speed, terrain difficulty, and payload weight. Battery-swap systems are common in industrial deployments, allowing continuous operation through multiple battery packs. Some facilities install automatic charging stations where the robot can dock and recharge between patrol routes. Efficient gait selection — using the least energy-consuming walking pattern appropriate for current terrain — is an active optimization area.
Safety by Design
Quadruped robots operating in industrial and public environments must handle safety across multiple dimensions. Physical safety features include compliant leg designs that absorb unexpected impacts, emergency stop buttons, and speed-limiting zones around detected humans. Autonomous safety behaviors include automatic sit-down when battery reaches critical levels, return-to-base when communication is lost, and avoidance of detected hazards. For outdoor operation, IP ratings (typically IP54 or higher) ensure resistance to dust and water. Operational geofencing ensures the robot stays within approved areas.
What's Next for Quadruped Robots
Quadruped robotics is moving toward greater autonomy, longer endurance, and expanded manipulation capability. The addition of robotic arms to quadruped platforms is creating mobile manipulation systems that can not only inspect but also interact with the environment — turning valves, pressing buttons, or collecting samples. Improved batteries and more efficient actuators are extending operational windows. Fleet coordination of multiple quadrupeds for large-area coverage is becoming practical. As costs decrease, quadruped robots are expanding from premium industrial inspection tools into more accessible commercial and even consumer applications.
The X30 by DEEPRobotics incorporates many of these technology pillars. For a detailed look at the specific sensors and components used in the X30, see the sensor analysis and connectivity sections above, or browse the complete components glossary for explanations of every technology used across the robotics industry.
X30 in the Quadruped Market
How this robot compares in the quadruped landscape
DEEPRobotics has not publicly disclosed pricing for the X30, which is typical for enterprise-focused robotics platforms that offer customized solutions and direct-sales relationships.
The X30's 3 sensor types provide solid perceptual coverage for its intended use cases. This mid-range sensor suite balances cost with capability, covering the essential modalities needed for quadruped applications.
Being currently available for purchase gives the X30 a practical advantage over competitors still in development or prototype stages. Buyers can evaluate the actual product rather than relying on spec-sheet promises that may change before release.
Head-to-Head Comparisons
Side-by-side specs, capability overlap analysis, and key differentiators.
For the full picture of DEEPRobotics's portfolio and market strategy, visit the DEEPRobotics manufacturer page.
Deployment Readiness and Procurement Signals for X30
What the public profile tells you, and what still needs direct vendor confirmation
From a buying and rollout perspective, the X30 should be read as a quadruped platform aimed at inspection routes and terrain that challenge wheeled platforms. ui44 currently tracks 6 capability signals, 3 sensor inputs, and a last verification date of 2026-03-07. That mix gives buyers a useful first-pass picture, but it is still only the public layer of due diligence, especially when procurement, uptime, and support commitments are decided directly with DEEPRobotics.
Integration posture
1 connectivity option
The profile lists Ethernet, plus Autonomous navigation and inspection in darkness/extreme environments as the AI stack. That is enough to infer the basic network posture, but buyers should still confirm APIs, fleet management, and workflow integration details. ui44 does not yet list formal compatibility targets for this robot.
Spec disclosure
4/7 core specs public
ui44 currently has 4 of 7 core physical and operating specs filled in for this model, leaving 3 gaps that matter for deployment planning. Missing runtime, charge, speed, or payload details can materially change staffing and site-readiness assumptions.
The current profile is useful for scouting, but it still leaves meaningful operational unknowns. If this robot is heading toward a pilot or purchase discussion, the next step should be a structured vendor Q&A that fills the remaining runtime, charging, payload, safety, or integration blanks before anyone builds ROI assumptions around it.
If you want a faster apples-to-apples read, compare the X30 against nearby alternatives in ui44's compare view, then cross-check the underlying AI, sensor, and subsystem terms in the components glossary. For manufacturer-level context, the DEEPRobotics profile helps anchor this robot inside the wider product lineup.
Before you sign off on a pilot, confirm these points
- Confirm how the charging workflow works in practice, including charger count, swap options, and expected downtime.
- Clarify usable payload or tool-load limits before planning material handling or mounted accessories.
- Request concrete API, integration, or workflow examples instead of assuming the robot will drop into an existing stack.
Owning the X30: Setup, Maintenance & Tips
Practical guide from day one through years of ownership
Initial Setup
Quadruped robot setup typically involves professional installation or detailed guided procedures. Initial steps include unpacking and physical inspection, charging the battery fully before first use, installing any payload accessories (sensors, cameras, manipulators), connecting to the control network, running joint calibration and self-test routines, and mapping the initial operating environment. Industrial deployments may require integration with facility networks, security systems, and asset management platforms. Plan for a multi-day setup process for enterprise installations, including operator training and safety protocol establishment.
Ongoing Maintenance
Quadruped robots require more frequent maintenance than wheeled platforms due to the mechanical complexity of their legs. Weekly checks should include joint inspection for unusual sounds or play, foot pad condition assessment, sensor cleaning, and battery health verification. Monthly maintenance includes more thorough mechanical inspection, firmware updates, and locomotion performance benchmarking. Legs and joints are the primary wear points — monitor for vibration changes that might indicate bearing wear or actuator degradation. Keep a detailed maintenance log, as patterns in the data can predict component failures before they cause operational disruption.
Software Updates & Long-Term Support
Quadruped robot software updates can significantly improve locomotion performance, autonomous navigation capability, and mission execution efficiency. Gait improvements based on real-world deployment data can make the robot faster, more stable, and more energy-efficient. Security patches are particularly important for robots operating in sensitive industrial or commercial environments. Coordinate updates with your deployment schedule to avoid disruption, and test updates in a controlled area before returning the robot to active duty.
Maximizing Longevity
Maximizing the service life of a quadruped robot requires attention to both mechanical and environmental factors. Operate within specified payload limits to avoid accelerated joint wear. Use appropriate gaits for the terrain — running on flat floors when a walk would suffice wastes energy and increases mechanical stress. Keep the robot's IP-rated seals in good condition for outdoor operation. Battery care is critical: follow the manufacturer's charging guidelines, avoid deep discharges, and replace batteries when capacity drops below 80% of original. A service contract with the manufacturer ensures access to replacement parts and expert maintenance that can keep the robot operational for many years.
For DEEPRobotics-specific support resources and documentation, visit the DEEPRobotics page on ui44 or check the manufacturer's official website at DEEPRobotics's product page.
Frequently Asked Questions
What is the X30?
The X30 is a Quadruped robot made by DEEPRobotics. DEEPRobotics' flagship industrial quadruped robot designed for inspection, security, surveying, and rescue operations. Features IP67 protection, operates from -20°C to 55°C, and can climb 45° slopes. Quick-swap battery system provides 2.5–4 hours of endurance and over 10 km range. Deployed in power utilities, tunnels, mining, and construction. It features 3 sensor types, 1 connectivity protocols, and 6 distinct capabilities.
How much does the X30 cost?
DEEPRobotics has not disclosed public pricing for the X30. Contact the manufacturer directly for pricing information. Contact manufacturer for pricing
Is the X30 available to buy?
Yes, the X30 is in active commercial production and currently sold by DEEPRobotics. Check DEEPRobotics's official website or authorized retailers for the latest stock and ordering options.
What sensors does the X30 have?
The X30 is equipped with 3 sensor types: Depth Cameras, RGB Cameras, Fusion Perception System. These sensors work together through sensor fusion to provide comprehensive environmental awareness for autonomous operation. See the sensor analysis section for details.
How long does the X30 battery last?
The X30 has a rated battery life of 2.5-4h (≥10km range). Actual battery performance may vary based on usage intensity, ambient temperature, and specific tasks being performed. Heavy workloads like continuous navigation and sensor processing will consume battery faster than idle or standby modes.
What AI does the X30 use?
The X30 is powered by Autonomous navigation and inspection in darkness/extreme environments. This AI platform handles the robot's perception processing, decision-making, and autonomous behavior. The sophistication of the AI directly impacts how well the robot handles unexpected situations, learns from its environment, and improves over time.
How does the X30 compare to the LYNX M20?
The X30 and LYNX M20 are both quadruped robots, but they differ in key specifications, pricing, and manufacturer approach. Use the side-by-side comparison tool to see detailed differences in specs, sensors, and capabilities. You can also browse other similar robots below.
What certifications does the X30 have?
The X30 carries the following certifications: IP67. These certifications verify compliance with safety, electromagnetic compatibility, and quality standards required for the markets where the robot is sold.
How current is the X30 data on ui44?
The X30 specifications on ui44 were last verified on 2026-03-07. All data is sourced from official DEEPRobotics documentation, spec sheets, and press releases. If you notice any outdated information, please let us know.
Data Integrity
All X30 data on ui44 is verified against official DEEPRobotics sources, including spec sheets, product pages, and press releases. Last verified: 2026-03-07. Official source: DEEPRobotics product page. If you find outdated or incorrect information, please let us know — accuracy is our top priority.
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