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Product Overview
The C2-9-D is a high-performance curved array transducer designed for high-resolution imaging in abdominal, OB-GYN, and vascular applications. With its advanced imaging technology and broad frequency range, the C2-9-D delivers exceptional clarity and depth for accurate diagnostics. Its lightweight and ergonomic design ensures operator comfort and efficiency, making it an excellent tool for routine and specialized imaging needs.
Technical Specifications
Frequency Range: 2.3 – 8.4 MHz for high-resolution imaging of mid-to-deep anatomical structures.
Scan Modes: B-Mode, Color Doppler, Pulse Wave Doppler.
Field of View: 70° for comprehensive visualization of abdominal and pelvic regions.
Depth of Field: Up to 20 cm for detailed imaging of deeper structures.
Footprint: Compact curved array design for enhanced access to anatomical regions.
Connector Type: Standard GE proprietary connector.
Design: Lightweight and ergonomic for improved operator comfort and patient safety.
Applications
Abdominal Imaging: Provides precise imaging of abdominal organs, including the liver, kidneys, and pancreas.
OB-GYN Imaging: Supports detailed assessment of fetal development and gynecological anatomy.
Vascular Imaging: Enables high-resolution imaging of blood vessels and flow dynamics.
Compatibility
GE Vivid E95
GE Logiq E10
GE Vivid S70
GE Logiq Fortis
Clinical Performance Highlights
Wide frequency range ensures exceptional resolution and detail for mid-to-deep structures.
Advanced Doppler capabilities provide precise vascular flow and velocity assessments.
Reliable imaging performance for both routine and complex diagnostic applications.
Operational Efficiency and Design
Compact and lightweight design minimizes operator fatigue during prolonged use.
Ergonomic handle enhances maneuverability for efficient imaging procedures.
Seamless integration with GE ultrasound systems facilitates optimized workflows.
Advanced Imaging Features
High-resolution imaging supports confident diagnostics for abdominal and vascular structures.
Wideband technology enhances clarity and depth for a variety of clinical applications.
Optimized design improves accessibility to challenging anatomical regions.