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How to Use Battery 38.5v 24ah: Examples, Pinouts, and Specs
Design with Battery 38.5v 24ah in Cirkit DesignerIntroduction
The Battery 38.5V 24Ah by Orange is a high-capacity rechargeable battery designed to provide reliable power for a variety of electronic devices and systems. With a voltage of 38.5 volts and a capacity of 24 ampere-hours, this battery is ideal for applications requiring sustained power over extended periods.
Explore Projects Built with Battery 38.5v 24ah
Battery-Powered DC-DC Converter System for Multi-Voltage Power Distribution
This circuit converts a 38.5V battery output to multiple lower voltage levels using a series of DC-DC converters and a power module. It includes an emergency stop switch for safety and distributes power to various components such as a relay module, USB ports, and a bus servo adaptor.
Open Project in Cirkit DesignerBattery-Powered Adjustable Voltage Regulator with Li-ion 18650 Batteries and BMS
This circuit is a power management system that uses four Li-ion 18650 batteries connected to a 2S 30A BMS for battery management and protection. The system includes step-up and step-down voltage regulators to provide adjustable output voltages, controlled by a rocker switch, and multiple DC jacks for power input and output.
Open Project in Cirkit Designer18650 Li-ion Battery Pack with 4S40A BMS and XL4016 Voltage Regulator for Battery-Powered Applications
This circuit is a battery management and charging system for a 4S Li-ion battery pack. It includes multiple 18650 Li-ion batteries connected to a 4S40A BMS for balancing and protection, a battery indicator for monitoring charge status, and an XL4016 module for voltage regulation. The system is designed to be charged via a 20V input from a charger.
Open Project in Cirkit DesignerBattery-Powered UPS System with Waveshare UPS 3S and Solar Charger
This circuit is a power management system that integrates a 12V power supply, a solar charger power bank, and multiple Li-ion batteries to provide a stable power output. The Waveshare UPS 3S manages the input from the power sources and batteries, ensuring continuous power delivery. The MRB045 module is used to interface the solar charger with the rest of the system.
Open Project in Cirkit DesignerExplore Projects Built with Battery 38.5v 24ah
Battery-Powered DC-DC Converter System for Multi-Voltage Power Distribution
This circuit converts a 38.5V battery output to multiple lower voltage levels using a series of DC-DC converters and a power module. It includes an emergency stop switch for safety and distributes power to various components such as a relay module, USB ports, and a bus servo adaptor.
Open Project in Cirkit DesignerBattery-Powered Adjustable Voltage Regulator with Li-ion 18650 Batteries and BMS
This circuit is a power management system that uses four Li-ion 18650 batteries connected to a 2S 30A BMS for battery management and protection. The system includes step-up and step-down voltage regulators to provide adjustable output voltages, controlled by a rocker switch, and multiple DC jacks for power input and output.
Open Project in Cirkit Designer18650 Li-ion Battery Pack with 4S40A BMS and XL4016 Voltage Regulator for Battery-Powered Applications
This circuit is a battery management and charging system for a 4S Li-ion battery pack. It includes multiple 18650 Li-ion batteries connected to a 4S40A BMS for balancing and protection, a battery indicator for monitoring charge status, and an XL4016 module for voltage regulation. The system is designed to be charged via a 20V input from a charger.
Open Project in Cirkit DesignerBattery-Powered UPS System with Waveshare UPS 3S and Solar Charger
This circuit is a power management system that integrates a 12V power supply, a solar charger power bank, and multiple Li-ion batteries to provide a stable power output. The Waveshare UPS 3S manages the input from the power sources and batteries, ensuring continuous power delivery. The MRB045 module is used to interface the solar charger with the rest of the system.
Open Project in Cirkit DesignerCommon Applications and Use Cases
- Electric Vehicles: Power source for electric bikes, scooters, and small electric cars.
- Renewable Energy Systems: Energy storage for solar and wind power systems.
- Portable Electronics: Power supply for high-demand portable devices and tools.
- Uninterruptible Power Supplies (UPS): Backup power for critical systems and servers.
- Robotics: Powering motors and control systems in robotic applications.
Technical Specifications
Key Technical Details
| Parameter | Value |
|---|---|
| Voltage | 38.5V |
| Capacity | 24Ah |
| Energy | 924Wh |
| Chemistry | Lithium-ion |
| Charge Voltage | 42V |
| Discharge Cut-off | 30V |
| Max Charge Current | 10A |
| Max Discharge Current | 20A |
| Operating Temperature | -20°C to 60°C |
| Storage Temperature | -20°C to 45°C |
| Weight | 5.5 kg |
| Dimensions (LxWxH) | 200mm x 150mm x 100mm |
Pin Configuration and Descriptions
| Pin Number | Pin Name | Description |
|---|---|---|
| 1 | +V | Positive terminal |
| 2 | -V | Negative terminal |
| 3 | BMS | Battery Management System interface |
| 4 | TEMP | Temperature sensor output |
Usage Instructions
How to Use the Component in a Circuit
Connecting the Battery:
- Connect the positive terminal (+V) of the battery to the positive input of your device or power system.
- Connect the negative terminal (-V) of the battery to the negative input of your device or power system.
Charging the Battery:
- Use a compatible charger with a charge voltage of 42V and a maximum charge current of 10A.
- Ensure the charger is connected correctly to the +V and -V terminals.
Monitoring and Safety:
- Utilize the Battery Management System (BMS) interface to monitor battery health and performance.
- Connect the temperature sensor output (TEMP) to a monitoring system to ensure the battery operates within safe temperature ranges.
Important Considerations and Best Practices
- Avoid Overcharging: Ensure the battery is not charged beyond 42V to prevent damage.
- Avoid Deep Discharge: Do not discharge the battery below 30V to maintain battery health.
- Temperature Monitoring: Always monitor the battery temperature during operation and charging.
- Proper Storage: Store the battery in a cool, dry place when not in use. Avoid exposure to extreme temperatures.
- Regular Maintenance: Periodically check the battery terminals and connections for corrosion or damage.
Troubleshooting and FAQs
Common Issues Users Might Face
Battery Not Charging:
- Solution: Check the charger connections and ensure the charger is functioning correctly. Verify that the charge voltage is set to 42V.
Battery Drains Quickly:
- Solution: Ensure the battery is fully charged before use. Check for any high-power-consuming devices connected to the battery.
Overheating:
- Solution: Monitor the temperature sensor output. Ensure the battery is not exposed to high ambient temperatures and that it is not being overcharged or over-discharged.
No Output Voltage:
- Solution: Verify the connections to the +V and -V terminals. Check the BMS interface for any fault indications.
Solutions and Tips for Troubleshooting
- Check Connections: Ensure all connections are secure and free from corrosion.
- Use Proper Equipment: Always use a compatible charger and monitoring systems.
- Monitor Regularly: Regularly check the battery's voltage, temperature, and overall health using the BMS interface.
- Follow Manufacturer Guidelines: Adhere to the manufacturer's recommendations for charging, discharging, and storage.
By following these guidelines and best practices, you can ensure the optimal performance and longevity of your Battery 38.5V 24Ah by Orange.