Understanding the Importance of Blood Flow Sensors in Medical Devices
Blood flow sensors play a crucial role in medical devices by providing valuable information about the circulation of blood within the body. These sensors are designed to measure the rate and volume of blood flow in various parts of the body, helping healthcare professionals monitor and diagnose a wide range of medical conditions. Understanding the importance of blood flow sensors in medical devices is essential for appreciating their impact on patient care and treatment outcomes.
| Model | CIT-8800 Inductive Conductivity/Concentration Oline Controller |
| Concentration | 1.NaOH:(0~15)% or(25~50)%; 2.HNO3:(0~25)% or(36~82)%; 3.User-defined concentration curves |
| Conductivity | (500~2,000,000)uS/cm |
| TDS | (250~1,000,000)ppm |
| Temp. | (0~120)°C |
| Resolution | Conductivity: 0.01uS/cm; Concentration: 0.01%; TDS:0.01ppm, Temp.: 0.1℃ |
| Accuracy | Conductivity: (500~1000)uS/cm +/-10uS/cm; (1~2000)mS/cm+/-1.0% |
| TDS: 1.5 level, Temp.: +/-0.5℃ | |
| Temp. compensation | Range: (0~120)°C; element: Pt1000 |
| Communication port | RS485.Modbus RTU protocol |
| Analog output | Two channels isolated/ transportable (4-20)mA, Instrument / Transmitter for selection |
| Control Output | Triple channels semiconductor photoelectric switch, Programmable Switch, pulse and frequency |
| Working Environment | Temp.(0~50)℃; relative humidity <95%RH (non-condensing) |
| Storage Environment | Temp.(-20~60)℃;Relative Humidity ≤85%RH (none condensation) |
| Power Supply | DC 24V+15% |
| Protection Level | IP65 (with rear cover) |
| Dimension | 96mmx96mmx94mm(HxWxD) |
| Hole Size | 9lmmx91mm(HxW) |
One of the key functions of blood flow sensors is to detect abnormalities in blood circulation, such as blockages or restrictions in blood vessels. By measuring the flow of blood through arteries and veins, these sensors can help identify conditions like atherosclerosis, thrombosis, or peripheral artery disease. Early detection of these issues is critical for preventing serious complications, such as heart attacks or strokes, and guiding appropriate treatment strategies.
In addition to diagnosing vascular conditions, blood flow sensors are also used to monitor the effectiveness of treatments and interventions. For example, patients undergoing surgery or receiving medication to improve blood flow may have their circulation monitored using these sensors to ensure that the treatment is working as intended. By providing real-time data on blood flow, healthcare providers can make informed decisions about patient care and adjust treatment plans as needed.
| Model | CL-810/9500 Residual Chlorine Controller |
| Range | FAC/HOCL:0-10 mg/L, ATC TEMP:0-50℃ |
| Accuracy | FAC/HOCL:0.1 mg/L, ATC TEMP:0.1℃ |
| Oper. Temp. | 0~50℃ |
| Sensor | Constant Pressure Residual Chlorine Sensor |
| Waterproof Rate | IP65 |
| Communication | Optional RS485 |
| Output | 4-20mA output; High/Low limit double relay control |
| Power | CL-810:AC 220V±10% 50/60Hz or AC 110V±10% 50/60Hz or DC24V/0.5A |
| CL-9500:AC 85V-265V±10% 50/60Hz | |
| Working Environment | Ambient temperature:0~50℃; |
| Relative humidity≤85% | |
| Dimensions | CL-810:96×96×100mm(H×W×L) |
| CL-9500:96×96×132mm(H×W×L) | |
| Hole Size | 92×92mm(H×W) |
| Installation Mode | Embedded |
Blood flow sensors are commonly used in a variety of medical devices, including ultrasound machines, catheters, and implantable devices. In ultrasound imaging, Doppler sensors are used to measure the velocity and direction of blood flow in the body, providing valuable information about the function of the cardiovascular system. Catheters equipped with blood flow sensors can be inserted into blood vessels to monitor blood flow during procedures like angioplasty or stent placement. Implantable devices, such as pacemakers or artificial hearts, may also incorporate blood flow sensors to ensure proper circulation and function.
The data collected by blood flow sensors is essential for understanding the dynamics of blood flow in different parts of the body. By analyzing this information, healthcare providers can assess the health of the cardiovascular system, identify potential issues, and track changes over time. This data can also be used to guide treatment decisions, evaluate the effectiveness of interventions, and monitor patient progress during recovery.
In research settings, blood flow sensors are used to study the impact of various factors on blood circulation, such as exercise, diet, or medication. By measuring changes in blood flow in response to different stimuli, researchers can gain insights into the mechanisms underlying cardiovascular health and disease. This information can inform the development of new treatments and interventions aimed at improving blood flow and preventing cardiovascular complications.
Overall, blood flow sensors are essential tools in the field of medicine, providing valuable insights into the circulation of blood within the body. By monitoring blood flow, healthcare providers can diagnose vascular conditions, assess treatment effectiveness, and track patient progress. These sensors play a critical role in improving patient care and outcomes, highlighting their importance in medical devices and healthcare practices.
