Global Motor-Drives Cybersecurity Market Size, Share, Trends and Forecasts 2031

Key Findings

• The motor-drives cybersecurity market addresses the protection of electric motors, variable frequency drives, and associated control systems from cyber threats in industrial and critical infrastructure environments.

• Increasing digitalization of motor-drive systems through Industrial IoT, edge computing, and smart drives is expanding the cyber-attack surface.

• Cyberattacks targeting motor drives can disrupt production, damage equipment, and compromise safety, making cybersecurity a critical operational priority.

• Integration of motor drives with cloud platforms and remote monitoring systems is accelerating demand for robust cybersecurity solutions.

• Industries such as manufacturing, energy, oil & gas, and utilities represent major adoption segments.

• North America and Europe lead adoption due to strong industrial cybersecurity regulations and early digital transformation.

• Real-time threat detection and anomaly monitoring are becoming core security requirements for motor-drive systems.

• Compliance with standards such as IEC 62443 is shaping cybersecurity investment decisions.

• Vendors are embedding cybersecurity features directly into drives and motor controllers.

• Strategic collaboration between automation vendors and cybersecurity providers is accelerating solution development.

Motor-Drives Cybersecurity Market Size and Forecast

The global motor-drives cybersecurity market was valued at USD 1.35 billion in 2024 and is projected to reach USD 3.65 billion by 2031, growing at a CAGR of 15.2%. Market growth is driven by the rapid expansion of connected motor-drive systems across industrial operations. Increasing incidents of ransomware, malware, and unauthorized access targeting operational technology are forcing industries to strengthen cybersecurity defenses. Motor drives are critical assets, and their compromise can lead to production shutdowns and safety hazards. Investments are rising in both software-based security and secure-by-design drive architectures. As industrial automation expands globally, cybersecurity for motor-drive systems is expected to become a mandatory component of digital infrastructure.

Market Overview

Motor-drives cybersecurity focuses on safeguarding variable frequency drives, servo drives, and motor control systems from cyber risks. Modern motor drives are increasingly network-connected, enabling remote diagnostics, performance optimization, and predictive maintenance. While connectivity improves efficiency, it also exposes systems to cyber threats. Cybersecurity solutions include network segmentation, secure communication protocols, intrusion detection, and access control. Industries are prioritizing protection of drive-level assets due to their direct impact on physical operations. The market is evolving toward embedded security, continuous monitoring, and compliance-driven adoption.

Future Outlook

The future of the motor-drives cybersecurity market is shaped by industrial digitalization, regulatory enforcement, and rising cyber threat sophistication. Embedded cybersecurity features will become standard in next-generation motor drives. AI-driven anomaly detection will enhance real-time threat identification at the drive level. Integration with centralized industrial security platforms will improve visibility and response. As autonomous and remote operations increase, cybersecurity resilience will be critical. By 2031, motor-drives cybersecurity is expected to be integral to industrial automation and smart infrastructure strategies worldwide.

Motor-Drives Cybersecurity Market Trends

• Embedding Cybersecurity Directly into Smart Motor Drives
  Motor-drive manufacturers are increasingly integrating cybersecurity features directly into drive hardware and firmware. Embedded security reduces reliance on external protective layers and improves response speed. Secure boot, encryption, and authentication mechanisms protect drives from unauthorized access. This approach enhances resilience against firmware tampering and malicious code injection. Built-in security simplifies deployment and compliance for end users. The trend reflects a shift toward secure-by-design industrial components.

• Rising Adoption of IEC 62443 and Industrial Security Standards
  Compliance with industrial cybersecurity standards is becoming a core requirement for motor-drive deployments. IEC 62443 provides a structured framework for securing industrial automation components. Adoption of standardized practices improves interoperability and risk management. Regulators and insurers increasingly mandate compliance for critical infrastructure. Standard-driven adoption accelerates investment in certified solutions. This trend strengthens trust and market maturity.

• Integration with Industrial SOCs and Centralized Monitoring Platforms
  Motor-drive cybersecurity is being integrated into broader industrial security operations centers. Centralized monitoring enables real-time visibility across distributed drive assets. Security analytics correlate drive-level anomalies with network events. Integration improves incident response and threat containment. Unified monitoring reduces blind spots in operational technology environments. This trend supports enterprise-wide cybersecurity strategies.

• Growth of AI-Based Anomaly Detection at the Drive Level
  Artificial intelligence is being applied to detect abnormal motor-drive behavior. AI models analyze operational patterns to identify deviations caused by cyber intrusions. Early detection minimizes equipment damage and downtime. Edge-based analytics enable rapid local response. AI enhances accuracy compared to rule-based systems. This trend improves proactive cybersecurity management.

• Increased Focus on Remote Access and Access Control Security
  Remote monitoring and maintenance of motor drives increase cybersecurity exposure. Strong access control mechanisms are being implemented to mitigate risks. Role-based access and multi-factor authentication protect critical assets. Secure remote connectivity ensures operational continuity. Access governance reduces insider and external threats. This trend aligns with remote industrial operations growth.

• Partnerships Between Automation Vendors and Cybersecurity Firms
  Collaboration between automation OEMs and cybersecurity specialists is accelerating innovation. Joint solutions combine deep domain expertise with advanced security technologies. Partnerships improve solution scalability and deployment efficiency. Field-tested integrations enhance customer confidence. Collaborative ecosystems shorten time-to-market. This trend strengthens competitive differentiation.

Market Growth Drivers

• Rising Cyber Threats Targeting Industrial Control Systems
  Industrial environments are increasingly targeted by sophisticated cyberattacks. Motor drives represent high-impact targets due to their role in operations. Cyber incidents can cause physical damage and safety risks. Growing threat awareness drives proactive cybersecurity investment. Organizations prioritize protection of operational assets. This driver strongly accelerates market growth.

• Expansion of Connected and Smart Motor-Drive Systems
  Digital transformation increases connectivity of motor drives. Networked drives enable data-driven optimization but increase vulnerability. Cybersecurity solutions are required to protect connected assets. Smart drives demand continuous monitoring and protection. Connectivity growth directly increases cybersecurity demand. This driver supports sustained adoption.

• Regulatory and Compliance Requirements
  Governments are strengthening industrial cybersecurity regulations. Compliance mandates require secure motor-drive deployments. Non-compliance risks penalties and operational shutdowns. Regulatory pressure accelerates investment decisions. Standards adoption ensures baseline security. This driver reinforces long-term market expansion.

• Increasing Cost of Downtime and Equipment Damage
  Cyber incidents can halt production and damage machinery. Downtime costs are significant in industrial environments. Preventive cybersecurity reduces financial and operational risk. Organizations prioritize resilience and continuity. Protecting motor drives minimizes cascading failures. Cost avoidance drives cybersecurity adoption.

• Growth of Critical Infrastructure and Energy Projects
  Energy, utilities, and transportation rely heavily on motor-drive systems. Critical infrastructure is a prime target for cyber threats. Governments prioritize cybersecurity for national security. Investment in secure motor drives is increasing. Infrastructure expansion supports market growth. This driver is strategically important.

• Shift Toward Secure-by-Design Industrial Automation
  Industries are moving from reactive to proactive cybersecurity models. Secure-by-design principles integrate protection at the component level. Motor drives are being designed with cybersecurity as a core feature. Early-stage security reduces long-term risk. This shift increases demand for advanced solutions. The driver reflects maturity in cybersecurity strategy.

Challenges in the Market

• Complexity of Securing Legacy Motor-Drive Installations
  Many industrial facilities operate legacy motor drives without built-in security. Retrofitting cybersecurity is technically complex. Compatibility issues increase deployment time and cost. Legacy systems lack standard interfaces. Security upgrades require careful planning. This challenge slows adoption in brownfield facilities.

• Limited Cybersecurity Awareness at the Drive Level
  Some operators underestimate cybersecurity risks associated with motor drives. Focus often remains on IT systems rather than operational assets. Awareness gaps delay investment decisions. Education is required to highlight physical impact risks. Limited understanding hinders proactive adoption. Awareness building remains essential.

• Integration Challenges with Existing Industrial Networks
  Motor-drive cybersecurity solutions must integrate with complex OT networks. Interoperability issues complicate deployment. Custom configurations increase operational burden. Network segmentation requires careful design. Integration challenges affect scalability. Standardization gaps persist.

• Shortage of Skilled Industrial Cybersecurity Professionals
  Implementing and managing cybersecurity solutions requires specialized skills. Talent shortages affect deployment and maintenance. Training programs increase costs and timelines. Lack of expertise increases security risks. Workforce constraints limit adoption speed. Skill development is critical.

• Balancing Security with Real-Time Performance Requirements
  Motor drives require low-latency communication for precise control. Cybersecurity measures can introduce delays. Balancing protection and performance is technically challenging. Poorly designed security impacts system responsiveness. Optimization is required to maintain reliability. This trade-off remains a challenge.

• High Implementation and Lifecycle Costs
  Cybersecurity solutions add to overall system costs. Smaller operators face budget constraints. ROI justification may be complex. Ongoing updates and monitoring increase expenses. Cost sensitivity affects adoption pace. Financial barriers remain significant.

Motor-Drives Cybersecurity Market Segmentation

By Security Type

• Network Security

• Endpoint and Drive-Level Security

• Application Security

By Deployment Mode

• On-Premise

• Cloud-Based

• Hybrid

By Application

• Variable Frequency Drives

• Servo Drives

• Motor Control Centers

By End User

• Manufacturing Industries

• Energy and Utilities

• Oil & Gas

• Mining and Metals

• Transportation and Infrastructure

By Region

• North America

• Europe

• Asia-Pacific

• Latin America

• Middle East & Africa

Leading Key Players

• Siemens AG

• Schneider Electric SE

• ABB Ltd.

• Rockwell Automation Inc.

• Honeywell International Inc.

• Fortinet, Inc.

• Palo Alto Networks

• Cisco Systems, Inc.

• Claroty Ltd.

• Nozomi Networks

Recent Developments

• Siemens enhanced cybersecurity features in its smart drive platforms aligned with IEC 62443.

• Schneider Electric expanded secure motor-drive architectures for critical industrial environments.

• ABB integrated advanced intrusion detection into connected drive systems.

• Rockwell Automation strengthened drive-level cybersecurity through industrial security partnerships.

• Nozomi Networks expanded OT threat detection coverage for motor and drive assets.

This Market Report Will Answer the Following Questions

• What are the primary cyber risks facing motor-drive systems?

• How are smart and connected drives increasing cybersecurity exposure?

• Which standards and regulations influence adoption?

• What technologies are used to secure motor drives?

• Which industries represent the highest demand?

• What challenges limit cybersecurity implementation?

• How are vendors embedding security into drive architectures?

• Which regions lead in industrial cybersecurity adoption?

• How does motor-drives cybersecurity reduce operational risk?

• How will cybersecurity requirements evolve by 2031?