MOQ: | 1pc |
Price: | negotiable |
Standard Packaging: | carton |
Delivery Period: | 3-5 days |
Payment Method: | T/T, Western Union |
Supply Capacity: | 10-30pcs/month |
Attribute | Value |
---|---|
Warranty | 60 days |
Lead time | 3-5 days |
Service | Outright |
Shipping method | Express, or as clients required |
The GE VIVIDE9 TEE cardiac array original ultrasound probe (Model 6TC-RS) is designed for cardiac applications with a frequency range of 2.9-8.0 MHz. This TEE probe is compatible with multiple GE ultrasound systems including:
Product Name | Ultrasound Probe/Ultrasound Transducer |
---|---|
Probe Model | GE 6TC-RS |
Probe Type | TEE cardiac |
Central Frequency | 2.9-8.0MHz |
Condition | Original |
Material | Metal and Plastic |
Minimum Order Quantity | 1 Unit |
The GE Vivid E9 is a premium cardiovascular ultrasound machine featuring exceptional image quality with advanced technologies including xMatrix and 4D cardiac imaging. Its Accelerated Volume Architecture provides eight times the processing power of conventional ultrasounds, enabling:
MOQ: | 1pc |
Price: | negotiable |
Standard Packaging: | carton |
Delivery Period: | 3-5 days |
Payment Method: | T/T, Western Union |
Supply Capacity: | 10-30pcs/month |
Attribute | Value |
---|---|
Warranty | 60 days |
Lead time | 3-5 days |
Service | Outright |
Shipping method | Express, or as clients required |
The GE VIVIDE9 TEE cardiac array original ultrasound probe (Model 6TC-RS) is designed for cardiac applications with a frequency range of 2.9-8.0 MHz. This TEE probe is compatible with multiple GE ultrasound systems including:
Product Name | Ultrasound Probe/Ultrasound Transducer |
---|---|
Probe Model | GE 6TC-RS |
Probe Type | TEE cardiac |
Central Frequency | 2.9-8.0MHz |
Condition | Original |
Material | Metal and Plastic |
Minimum Order Quantity | 1 Unit |
The GE Vivid E9 is a premium cardiovascular ultrasound machine featuring exceptional image quality with advanced technologies including xMatrix and 4D cardiac imaging. Its Accelerated Volume Architecture provides eight times the processing power of conventional ultrasounds, enabling: