Medical high-performance monitor SPO2 module with RR respiratory rate
Product Attributes
|
TYPE |
SPO2 board for Medical high-performance monitor |
|
Category |
SPO2 board\ Blood oxygen module\ SPO2 module |
|
Series |
narigmed® NOMZ -GH |
|
Display parameter |
SPO2\PR\PI\RR |
|
SpO2 measurement range |
35%~100% |
|
SpO2 measurement Accuracy |
±2%(70%~100%) |
|
SpO2 resolution ratio |
1% |
|
PR measurement range |
25~250bpm |
|
PR measurement Accuracy |
The greater of ±2bpm and±2% |
|
PR resolution ratio |
1bpm |
|
Anti-motion performance |
SpO2±3% PR ±4bpm |
|
Low perfusion performance |
SPO2 ±2%, PR ±2bpm Can be as low as PI=0.025% with Narigmed’s probe |
|
perfusion Index Range |
0%~20% |
|
PI resolution ratio |
0.01% |
|
Respiratory rate |
4rpm~70rpm |
|
RR resolution ratio |
1rpm |
|
Plethyamo Graphy |
Bar diagram\Pulse wave |
|
Typical power consumption |
<15mA |
|
Probe off detection\Probe failure detection |
YES |
|
Power supply |
5V DC |
|
Value output time |
4S |
|
Communication method |
TTL serial communication |
|
Communication protocol |
customizable |
|
Size |
51mm*35mm*6.3mm |
|
Wiring methods |
Socket type |
|
Application |
Can be used in a monitor |
|
Operating Temperature |
0°C ~ 40°C 15%~95%( humidity) 50kPa~107.4kPa |
|
storage environment |
-20°C ~ 60°C 15%~95%( humidity) 50kPa~107.4kPa |
Following Features
1. Real-time measurement of pulse oxygen saturation (SpO2)
2. Measure pulse rate (PR) in real time
3. Real-time measurement of perfusion index (PI)
4. Measure respiratory rate (RR) in real time
5. Ability to resist motion interference and weak perfusion measurement. under random or regular movement at 0-4Hz, 0-3cm, the accuracy of pulse oximetry (SpO2) is ±3%, and the measurement accuracy of pulse rate is ±4bpm. When the low perfusion index is greater than or equal to 0.025%, the accuracy of pulse oximetry (SpO2) is ±2%, and the measurement accuracy of pulse rate is ±2bpm.
Short Description
No matter when measuring weak perfusion parts, the system can also provide high-precision data analysis and can quickly and accurately produce values. The main advantages of this system include: high-precision physiological parameter measurement, multi-functional physiological parameter monitoring, data visualization, stability and safety and reliability. Specifically, the system uses proprietary software algorithms and proprietary probes to accurately measure physiological parameters such as body temperature and respiratory rate of animals and provide high-precision data analysis. The system uses a non-invasive, painless measurement method that does not cause any harm to the animal and has features to prevent data loss and protect privacy. In summary, Narigmed’s technology has broad application prospects and market value, and can provide reliable data support for the study of animal physiological characteristics and medical diagnosis.
