/

/

Component Documentation

How to Use V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem: Examples, Pinouts, and Specs

Image of V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem

Design with V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem in Cirkit Designer

Introduction

The V380 PRO Mini UPS is a compact and reliable uninterruptible power supply designed to ensure the continuous operation of electronic devices such as WiFi routers, modems, and other 12V appliances. This device is particularly useful in maintaining internet connectivity and preventing data loss during power outages or fluctuations.

Explore Projects Built with V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem

12V UPS System with Dual 18650 Li-ion Battery Backup and Voltage Regulation

Image of Power supply: A project utilizing V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem in a practical application

This circuit is designed to provide an uninterruptible power supply (UPS) system with a 12V DC output. It includes a 12V 5A power supply connected to an AC source through a toggle switch, which charges a pair of 18650 Li-ion batteries via a voltage regulator (XL4016). The UPS module ensures a continuous power supply to the load by switching between the power supply and the battery bank.

Open Project in Cirkit Designer

ESP32-S3 Based Vibration Detection System with TFT Display and Power Backup

Image of IOT Thesis: A project utilizing V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem in a practical application

This circuit features an ESP32-S3 microcontroller connected to various peripherals including an ADXL355 accelerometer, an SW-420 vibration sensor, a buzzer module, and an ILI9341 TFT display. The ESP32-S3 manages sensor inputs and provides output to the display and buzzer. Power management is handled by a 12V to 5V step-down converter, and a UPS ensures uninterrupted power supply, with a rocker switch to control the power flow.

Open Project in Cirkit Designer

Battery-Powered UPS System with Waveshare UPS 3S and Solar Charger

Image of Copy of s: A project utilizing V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem in a practical application

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 Designer

Solar-Powered UPS with Dual Step-Down Converters and ESP32 Control

Image of My Schematic 2: A project utilizing V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem in a practical application

This circuit is designed to provide a stable power supply from various sources. It integrates a solar panel with a solar charge controller to charge a 12V battery, which is then connected to a UPS module for regulated output. The circuit also includes two 12v to 5v step-down power converters to supply 5V power, one of which powers an ESP32 Devkit V1 microcontroller, and a switching power supply to provide an alternative AC to DC conversion input to the UPS module.

Open Project in Cirkit Designer

Explore Projects Built with V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem

Image of Power supply: A project utilizing V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem in a practical application

12V UPS System with Dual 18650 Li-ion Battery Backup and Voltage Regulation

This circuit is designed to provide an uninterruptible power supply (UPS) system with a 12V DC output. It includes a 12V 5A power supply connected to an AC source through a toggle switch, which charges a pair of 18650 Li-ion batteries via a voltage regulator (XL4016). The UPS module ensures a continuous power supply to the load by switching between the power supply and the battery bank.

Open Project in Cirkit Designer

Image of IOT Thesis: A project utilizing V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem in a practical application

ESP32-S3 Based Vibration Detection System with TFT Display and Power Backup

This circuit features an ESP32-S3 microcontroller connected to various peripherals including an ADXL355 accelerometer, an SW-420 vibration sensor, a buzzer module, and an ILI9341 TFT display. The ESP32-S3 manages sensor inputs and provides output to the display and buzzer. Power management is handled by a 12V to 5V step-down converter, and a UPS ensures uninterrupted power supply, with a rocker switch to control the power flow.

Open Project in Cirkit Designer

Image of Copy of s: A project utilizing V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem in a practical application

Battery-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 Designer

Image of My Schematic 2: A project utilizing V380 PRO 12V 1.5A Uninterruptible Power Supply Mini UPS Battery Backup Mini UPS WiFi Router Modem in a practical application

Solar-Powered UPS with Dual Step-Down Converters and ESP32 Control

This circuit is designed to provide a stable power supply from various sources. It integrates a solar panel with a solar charge controller to charge a 12V battery, which is then connected to a UPS module for regulated output. The circuit also includes two 12v to 5v step-down power converters to supply 5V power, one of which powers an ESP32 Devkit V1 microcontroller, and a switching power supply to provide an alternative AC to DC conversion input to the UPS module.

Open Project in Cirkit Designer

Common Applications and Use Cases

Backup power for WiFi routers and modems
Maintaining surveillance systems
Ensuring uninterrupted operation of networking devices
Powering VoIP phone systems during outages

Technical Specifications

Key Technical Details

Input Voltage: 100-240V AC
Output Voltage: 12V DC
Output Current: 1.5A
Battery Type: Lithium-ion
Battery Capacity: 8800mAh
Operating Temperature: 0°C to 40°C
Dimensions: 111 x 60 x 26 mm
Weight: Approximately 480g

Pin Configuration and Descriptions

Pin Number	Description	Notes
1	12V DC Output	Connect to the device's DC input
2	Ground	Common ground for the circuit
3	AC Input	Connect to the AC power source
4	Battery Connector	Internal connection to battery
5	Charge Status LED	Indicates charging status
6	Power Status LED	Indicates power output status

Usage Instructions

How to Use the Component in a Circuit

Connect the AC power cord to the V380 PRO Mini UPS and plug it into an AC outlet.
Connect the output cable from the Mini UPS to the DC input of the device you wish to power.
Turn on the Mini UPS using the power switch.
The device should now be powered by the Mini UPS, and in the event of a power outage, the UPS will automatically switch to battery power.

Important Considerations and Best Practices

Ensure the device's power requirements do not exceed the output rating of the Mini UPS (12V, 1.5A).
Charge the Mini UPS for at least 8 hours before first use to ensure the battery is fully charged.
Do not expose the Mini UPS to moisture or extreme temperatures.
Regularly check the battery status and maintain proper charge levels to ensure optimal performance.

Troubleshooting and FAQs

Common Issues Users Might Face

Device not powering on: Ensure the Mini UPS is charged and the power switch is turned on.
Short backup time: If the backup time is less than expected, the battery may be depleted or the connected device may exceed the power capacity of the UPS.

Solutions and Tips for Troubleshooting

Verify that all connections are secure and the power cords are in good condition.
If the Mini UPS is not charging, check the AC outlet and the condition of the power cord.
For prolonged backup time, consider reducing the load on the Mini UPS or using a UPS with a higher capacity.

FAQs

Q: How long will the Mini UPS power my device? A: The backup time depends on the battery capacity and the power consumption of the connected device. With an 8800mAh battery and a device drawing 1.5A, you can expect around 4-6 hours of backup time under ideal conditions.

Q: Can I replace the battery in the Mini UPS? A: The battery is not designed to be user-replaceable. If you experience issues with the battery, contact the manufacturer for support.

Q: Is it safe to leave the Mini UPS plugged in at all times? A: Yes, the Mini UPS is designed for continuous operation and can be left plugged in to ensure it is always charged and ready for use.

Note: The V380 PRO Mini UPS is not an Analog Devices Inc. product. The manufacturer information provided earlier may be incorrect. Always refer to the product's official documentation for accurate manufacturer details.