An ECG (Electrocardiogram) machine battery is a critical power source that enables the operation of ECG machines, which are used to monitor and record the electrical activity of the heart. These devices are essential in healthcare settings for diagnosing various heart conditions and ensuring continuous patient monitoring. Here’s an overview of the ECG machine battery:
WorldPower ECG Machine Batteries are designed for precision and performance, ensuring your ECG machines operate smoothly, whether in the clinic or on the go.
Specification of 14.8V Medical ECG machine Battery pack | |
Voltage | 14.8V |
Capacity | 2200mAh |
Discharge current | 4A continuous |
Charging Current | <1A |
Working Voltage | 11V-16.8V |
Charging Cut-off Voltage | 16.8V |
Discharge Cut-off Voltage | 11V |
Load power | 5W/15W/20W/30W |
Cycle Life | 800+cycles |
Charge Temperature | 0℃ to 45℃ |
Discharge Temperature | -20℃ to 60℃ |
Humidity | 60±25%R.H |
Model | Voltage | Capacity | Discharge Current | Charging port | Protocol |
WP-DX17 | 14.8V | 2200mAh | 4A Continuous | Same Port | / |
Automatic Battery Protection Module/System
Low Voltage Disconnect
Over Voltage Disconnect
Short Circuit Protection
Reverse Polarity Protection
Cell Balancing
Choosing WorldPower ECG machine batteries comes with several advantages that ensure reliability, performance, and safety in medical settings. Here are some compelling reasons to select WorldPower for your ECG machine battery needs:
1. High Reliability
· Consistent Performance: WorldPower batteries are engineered to provide stable power, ensuring that your ECG machines function optimally without interruptions, crucial for accurate heart monitoring.
2. Longer Battery Life
· Extended Use: Our high-capacity batteries offer longer operational times, reducing the frequency of recharging and replacements, which is vital in clinical environments where continuous monitoring is often necessary.
3. Lightweight and Portable Design
· Ease of Mobility: Designed with portability in mind, WorldPower batteries are lightweight and compact, making them ideal for portable ECG machines used in emergency situations or patient transport.
4. Rapid Recharge Technology
· Quick Turnaround: Our batteries feature rapid recharge capabilities, allowing you to get back to monitoring quickly, minimizing downtime during critical care scenarios.
5. Safety Features
· Enhanced Protection: WorldPower batteries come equipped with advanced safety features, including overcharge protection, thermal management, and short-circuit prevention, ensuring safe operation for both patients and healthcare providers.
6. Versatility
· Compatibility: WorldPower ECG batteries are compatible with a wide range of ECG machines, making them a versatile choice for healthcare facilities with various equipment needs.
7. Environmentally Friendly Options
· Rechargeable Choices: With options for rechargeable batteries, WorldPower helps reduce waste and environmental impact, providing a sustainable solution for medical device power needs.
8. Trusted Quality
· Proven Performance: WorldPower is recognized in the medical industry for high-quality products. Our batteries undergo rigorous testing to meet or exceed industry standards, ensuring they are reliable when it matters most.
9. Excellent Customer Support
· Dedicated Assistance: Our customer service team is available to help with any inquiries or concerns, ensuring that you receive the support you need for your battery and device requirements.
10. Cost-Effective Solutions
· Value for Money: By providing longer-lasting power and minimizing the need for frequent replacements, WorldPower batteries offer a cost-effective solution for healthcare facilities, enhancing operational efficiency.
Summary
Choosing WorldPower ECG machine batteries means investing in reliable, high-performance power solutions that prioritize patient care, safety, and efficiency. Trust WorldPower to keep your ECG machines running smoothly, so you can focus on delivering exceptional healthcare.
Customizing an ECG machine battery pack is crucial for ensuring optimal performance, compatibility, and safety tailored to specific medical needs. Here’s a step-by-step guide on how to customize your ECG machine battery pack:
1. Understand the Device Requirements
· Voltage: Determine the voltage requirements of the ECG machine, which typically ranges from 3.7V to 12V, depending on the model.
· Capacity (mAh): Assess the capacity needed to ensure sufficient runtime for patient monitoring. Consider how long the machine needs to operate on battery power alone.
2. Select the Battery Chemistry
· Nickel-Metal Hydride (Ni-MH):
Good for rechargeable applications, offering moderate energy density.
· Lithium-Ion (Li-ion):
Preferred for high-performance ECG machines due to high energy density and low self-discharge rates.
· Lead-Acid Batteries:
Suitable for stationary ECG machines with longer operation times.
· Alkaline Batteries:
Consider for short-term, portable models, though less common for frequent medical use.
3. Decide on Rechargeable vs. Non-Rechargeable
· Rechargeable Options: Choose rechargeable batteries (like Ni-MH or Li-ion) for devices used frequently or in emergency settings.
· Non-Rechargeable Options: Consider non-rechargeable options (like alkaline) for short-term monitoring or devices not used regularly.
4. Determine Battery Configuration (Series or Parallel)
· Series Configuration: Connect multiple cells in series to increase voltage. For example, two 3.7V cells in series provide 7.4V.
· Parallel Configuration: Connect cells in parallel to increase capacity (mAh) while maintaining voltage. This is useful for devices that require extended operational time.
5. Choose a Battery Management System (BMS)
· Integrate a Battery Management System (BMS) to monitor battery health, manage charging cycles, and ensure safe operation, particularly for Li-ion batteries. Key features include:
Overcharge and over-discharge protection.
Temperature monitoring to prevent overheating.
Short-circuit protection for safety.
6. Size and Form Factor Customization
· Custom Shape and Size: Design the battery pack to fit the ECG machine’s compartment precisely. Custom shapes can optimize space and maintain device portability.
· Weight Considerations: Lightweight designs are essential for portable ECG machines, ensuring ease of transport and patient comfort.
· Custom Enclosures: Use durable materials to create an enclosure that protects the battery pack from physical damage and environmental factors.
7. Thermal Management
· Heat Dissipation: Ensure the battery pack design allows for effective heat dissipation, especially for rechargeable lithium-ion batteries, which may generate heat during use.
· Temperature Sensors: Integrate sensors to monitor heat levels, providing alerts or automatic shutdown if temperatures exceed safe limits.
8. Select Battery Connectors
· Choose Appropriate Connectors: Ensure connectors are compatible with the ECG machine’s circuitry for secure and reliable connections.
· Polarity Protection: Incorporate design features that prevent incorrect polarity connections to avoid damaging the battery or the ECG machine.
9. Safety Certifications
· Ensure the customized battery complies with necessary safety standards for medical devices, such as:
UL 1642 for lithium batteries.
IEC 62133 for safety in portable medical devices.
UN 38.3 for safe transport of batteries.
10. Energy Efficiency
· Optimize the battery pack for energy efficiency to maximize performance and runtime. Low self-discharge rates and efficient energy management contribute to longer-lasting power.
11. Testing and Prototyping
· Prototype Development: Create a prototype battery pack and test it within the ECG machine to verify that it meets operational requirements.
· Performance Testing: Check for voltage stability, capacity, and overall functionality during simulated use conditions.
· Safety Testing: Ensure that all safety systems (BMS, temperature sensors, etc.) function correctly and adhere to medical safety standards.
12. Choose a Reliable Manufacturer
· Work with a trusted manufacturer that specializes in custom medical battery packs. Provide detailed specifications, including voltage, capacity, form factor, and safety requirements, to ensure the battery pack meets your ECG machine’s needs.
1. Understand the ECG machine's power requirements (voltage, capacity).
2. Select appropriate battery chemistry (Ni-MH, Li-ion, etc.).
3. Decide on rechargeable vs. non-rechargeable options.
4. Configure the battery pack (series or parallel).
5. Incorporate a Battery Management System (BMS) for safety.
6. Customize the form factor to fit the device.
7. Implement proper thermal management for overheating prevention.
8. Choose suitable connectors for the battery pack.
9. Ensure compliance with safety certifications.
10. Test the custom battery pack for performance and safety.
11. Work with a reliable manufacturer for quality assurance.
By following these steps, you can create a custom battery pack tailored to your ECG machine, ensuring reliable and safe power for accurate heart monitoring.