MMP3D Multi-Parameters Module
Our multi-parameters module is the gathering of our SpO2, ECG and NIBP modules on one single board. Embedding multiple features on a very compact design, this module has been integrated in many patient monitors which are CE certified and already sold worldwide. It provides the electrical isolation and the performances required to pass all certification tests, ensuring our customers a successful launch of their products.
This module embeds all the benefits from our technologies with SpO2 and NIBP advanced anti-motion algorithm, safety features, SpO2 low perfusion reading capability and ECG analysis in compliance with MIT database and arrhythmia diagnosis.
It is suitable to build patient monitoring systems for OR, ICU, NICU and Emergency.
Features
SpO2, PR monitoring
SBP, MAP, DBP and PR monitoring
Support 3/5 leads ECG (3 independent channel), 1 respiration, 2 temperatures
Compact structure with only 25mm thickness
Real time transmission of pulse wave signal
Real time transmission of module states: hardware state, software state and sensor state
High accuracy and reliability SpO2 even on low perfusion of 0.075%, suitable for OR and ICU applications
SpO2 and NIBP with advanced anti-movement algorithm
Double protection NIBP modes : hardware and software over-pressure protection
3 NIBP sampling modes : manual, auto and continuous
4 NIBP measurement modes : diagnose, monitor, HARDEST and operation measurement
Special function of ECG analysis, verified by MIT database. Arrhythmia diagnosis.
Compatible with ZugMed protocol
Customised design and protocol upon request.
SPECIFICATIONS
Electrical and Mechanical Specifications
Voltage: +12V DC, offset voltage between ±10% of full range
Power consumption: < 5W
Dimension: 140mm×85mm×25mm
Performances, Range and Accuracy
SpO2
Range: 0 ~ 100%
Accuracy: from 70 ~ 100%, ±2%; below 70%, undefined
NIBP
Refer to related NIBP module (Part #MNIBP)
ECG
Refer to related 3 Ch/5 leads ECG module (Part #MECG35)
TEMP
Refer to related 3 Ch/5 leads ECG module (Part #MECG35)
Downloads
Click to download