URSA™ TECAR Systems

URSA TECAR systems operate using controlled radiofrequency energy delivered through capacitive and resistive transfer modes. Each configuration is developed around defined output behavior, stable energy control, and predictable operational boundaries.

URSA™ TECAR RC-448K

Dual-Mode Operation
• CET — Capacitive Electric Transfer
• RET — Resistive Electric Transfer
Controlled radiofrequency energy delivery with adjustable power levels
Defined output regulation for stable thermal behavior

Tecar System Architecture

URSA approaches TECAR therapy as a controlled energy transfer platform . Systems are engineered around regulated radiofrequency emission, defined power behavior, and structured operational limits to ensure stable and predictable thermal response across clinical use scenarios.
Capacitive and resistive modes are managed through dedicated control logic, allowing each energy pathway to operate within defined parameters without instability or unintended variation. System architecture prioritizes output consistency, operational safety constraints, and sustained performance under extended clinical workloads.

Clinical Application Scope

TECAR in Rehabilitation Practice

TECAR (Transfer of Energy – Capacitive and Resistive) therapy is applied in rehabilitation environments where controlled radiofrequency energy is used to support structured therapeutic protocols. The modality is integrated into musculoskeletal and soft tissue management workflows under professional supervision.
Its role is typically defined by the type of tissue interaction required and the therapeutic objective of the session.

Soft Tissue Applications

In capacitive mode (CET), energy is primarily concentrated within soft tissues, including muscle and connective structures. This configuration is commonly incorporated into:
• Soft tissue rehabilitation protocols
• Muscle-focused therapeutic sessions
• Post-exertion recovery programs
• Preparatory or complementary manual therapy workflows
Capacitive transfer is often selected where controlled superficial thermal response is desired within structured treatment planning.

Deeper Tissue & Structural Focus

Resistive mode (RET) directs energy interaction toward higher-resistance tissues. This configuration is integrated into protocols involving:
• Tendon-focused rehabilitation
• Ligament-related treatment pathways
• Joint-adjacent tissue management
• Chronic musculoskeletal conditions
Resistive transfer allows clinicians to work within deeper anatomical structures while maintaining regulated energy control.

Musculoskeletal Rehabilitation Context

Within musculoskeletal therapy settings, TECAR systems are utilized as part of broader rehabilitation strategies that may include:
• Manual therapy
• Therapeutic exercise
• Functional retraining
• Load management protocols
The modality does not operate in isolation but as part of a structured, clinically supervised treatment plan

Functional Recovery & Performance Settings

In performance-oriented environments, TECAR systems may be integrated into:
• Return-to-activity rehabilitation
• Controlled recovery sessions
• Pre-activity preparation protocols
Application parameters are defined by practitioner assessment and structured around controlled exposure to radiofrequency energy within safe operational boundaries

Professional Use Environment

URSA TECAR systems are intended for use in:
• Physiotherapy clinics
• Sports rehabilitation centers
• Orthopedic rehabilitation facilities
• Professional therapy practices
Operation is conducted by trained professionals within defined clinical frameworks.