30W DC 3V 3.3V 3.7V to 5V 6V 7.5V 9V 10V 12V 14.8V 24V Step-Up Boost Converter Board for 18650 lithium battery

$2.76
Quantity
Contact us

Get in touch

Please email us at sale1@rfid-life.com with a detailed overview of your project requirement. So that we can offer you the fastest and best support. You may expect a reply within 24 business hours. – Welcomes Your Comments And Questions.


Sales Department

Phone: +86 18205991243
Whatsapp: +86 18205991243
Telegram: +86 18205991243
Email: sale1@rfid-life.com
Address: No.987,High-Tech Park,Huli District,Xiamen,China


Support Department

Email: support@rfid-life.com


Business Hours

Monday - Friday 9am to 6pm

Saturday - 9am to 12am

Sunday - Closed

Description
Product Description

30W DC 3V 3.3V 3.7V to 5V 6V 7.5V 9V 10V 12V 14.8V 24V Step-Up Boost Converter Board for 18650 lithium battery

 

 

Description: 
 
30W high-power adjustable boost module

Input DC 2.7-5.5V,Adjustable Output DC 3.5-24V
Maximum output power 30W(See the table for details)
Maximum input current: 8A(See the table for details)
Maximum output current: 6A(See the table for details)
Quiescent current: about 1MA
Efficiency : >=96%

Switching Frequency : 600KHz fixed 
Overtemperature shutdown, input under-voltage protection and short circuit protection.
UVLO Low Threshold 2.6V,UVLO High Threshold 3.2V,suitable for 3.7V lithium battery power supply
Operating Ambient Temperature : -40 to 85 °C
Storage Temperature : -55 to 150°C

Size : 45*20*15mm
Weight : 8.1g
 
 
Attention :

This is a high-power boost module. Please pay attention to the following when using:

1 The power supply must be sufficient. If the module needs to output 30W power, the power supply must be greater than 40W.

2 The power and boost module leads must be thick enough (can pass 10A) and soldered well.

3 Use a multimeter to directly measure the ''VIN GND'' port to determine if the power is sufficient. If the voltage is lower than the power supply 1V, the power supply is insufficient or there is no good connection.
 

4 Input voltage can not be greater than the maximum input range
5 Output power can not be greater than the maximum load for a long time
6 Input power must be greater than the output power, because the power consumption of the module itself