Mindray BeneView T6 Features
The Mindray BeneView T6 patient monitors are designed to meet your monitoring needs for a wide range of patients from adult to the neonate in most clinical environments, from operating rooms to intensive care; from neonatal intensive care to coronary care units. High-resolution display on the BeneView T6 and user-defined layouts provide the exceptional visibility and usability needed for all monitoring applications.
- Provides audible and visual alarm indications in case of patient or equipment problems.
- Enables displaying, reviewing, storing and transferring real-time data.
- Incorporates multiple input devices such as buttons, knob, touchscreen, keyboard, and mouse.
- Interfaces a clinical information system or central monitoring system.
- Enables program upgrade over the network.
- Integrates the information of other devices, which include but are not restricted to the anesthesia machine and ventilator.
Mindray BeneView T6 Specifications
- Height: 15.7 In (40 cm)
- Width: 14.6 In (37 cm)
- Depth: 7.6 In (19.3 cm)
- Weight: 21.6 lbs (9.8 kg)
- Screen Type: Color TFT LCD
- Screen Size (Diagonal): 15 In
- Resolution: 1280×1024 pixels
- Standards: IEEE 802.11g, Wi-Fi compatible
- Frequency Range: 2.412 to 2.462GHz
- Type: Lithium-Ion
- Voltage: 11.1 VDC
- Capacity: 4500 mAh
- Runtime: 120 minutes when powered by two new fully-charged batteries (25, ECG, SpO ℃ 2, Auto NIBP measurements at intervals of 15 minutes)
- Charge time
- Nearly 5.5 h to 90%
- Nearly 6 h to 100%
- Trends: 120 hours, at 1 min resolution
- Mid-Length Trends: 8 hours, at 5 s resolution
- Minitrends: 1 hour, at 1 s resolution
- Parameter Alarms: 100 alarms and manual events and related parameter waveforms. The waveform recording length can be 8s.
- Arrh. Events: 100 arrhythmia events and relate waveforms and parameters. The waveform recording length can be 8s. NIBP Measurements: 1000 sets
- Interpretation of Resting 12-Lead ECG Results: 20 sets
- Full-disclosure Waveforms: 48 hours at maximum. The specific storage time depends on the waveforms stored and the number of stored waveforms.