-40%

5x DC 2V-5V 2.5V 3V 3.5V 4.2V 4.7V to 3.3V Mini size 100mA

$ 1.45

Availability: 1021 in stock
  • Brand: Canton-electronics
  • All returns accepted: Returns Accepted
  • MPN: CE021*5
  • Condition: New
  • Item must be returned within: 30 Days
  • Refund will be given as: Money back or replacement (buyer's choice)
  • Input Battery Size: 2V-5V
  • Restocking Fee: No
  • Return shipping will be paid by: Buyer

    Description

    Applications:
    Low Power Wifi Module:ESP8266
    Low-power Bluetooth module : HC-05 HC-06
    Low-power Wireless UART module : HC-11 HC-12
    Low-power wireless module : CC1101 CC2500 Nrf24l01+ SI4432
    Low-power LED Driver
    2 AA Cell to 3.3V
    USB On-The-Go Devices
    White LED Drivers
    Handheld Devices
    Wiring Diagram:
    Product Name:  5x DC 2V-5V to 3.3V Boost & Buck Converter for 315M 433M 2.4G RF Wireless Module
    Module No.:  CE021_5P
    Packing list:
    5 PCS 100MA
    2 in 1 DC-DC Boost & Buck Converter 1.8V-5V to 3.3V module
    This is a micro-power(
    only 100MA
    ) DC-DC Step-Down & Step-Up Converter module.
    If you need
    500MA
    0.8V-3.3V to 3.3V Boost module
    ,
    Click here
    .
    If you need
    2A
    4.75V-23V to 3.3V Buck module
    ,
    Click here
    .
    Description:
    Low Noise, Regulated Charge Pump DC/DC Converter
    2 in 1 DC-DC Step-Down & Step-Up Converter module
    Fixed 3.3V+-4% Output
    Voltage Input Range: 1.8~5V
    Long time maximum output current 100mA
    Short time maximum output current 150mA
    working frequency 1.2MHz.
    Short-Circuit Protection
    No load input current : 0.60mA
    2.54mm pin pitch, Arduino Breadboard MCU Development Board friendly
    Excluding Pin Size 11mm x 7.62mm x 4.5mm(
    small
    )
    Weight : about 0.5g(
    Very very light
    )
    Attention :
    This is a DC-DC voltage converter module,Must be noted when using:
    1 Input voltage can not be greater than the maximum input range
    2 Output power can not be greater than the maximum load for a long time
    3 Input power must be greater than the output power, because the power consumption of the module itself