CommentStreams:D18cb9f437cbb5c8782ba5c1941f5eec

Hi,

It only provides stable 5V output with no additional voltage levels. Its key advantage is maintaining a stable 5V output under varying loads, which prevents low voltage warnings.

Check our test data: Product Testing，and below are extracts from the customer's test results.

I used an ET5411A+ programmable load and a Keithley DMM6500 for voltage measurements.

With the jumper open, the no-load voltage is 5.273V.

Jumper open (Vin = 12V):

@0A = 5.273V (input power = 1.5W)

@1A = 5.23V (7.5W)

@2A = 5.19V (13.7W)

@3A = 5.14V (20.45W)

@4A = 5.09V (27.5W)

@5A = 5.04V (34.9W)

@6A = 4.98V (44W)

@7A = 2.18V (protection kicks in)

With the jumper installed, the no-load voltage is 5.42V.

Jumper closed (Vin = 12V):

@0A = 5.41V (1.6W)

@1A = 5.37V (7.7W)

@2A = 5.32V (14.1W)

@3A = 5.28V (21.1W)

@4A = 5.23V (28.5W)

@5A = 5.19V (26W)

@6A = 5.14V (44.5W)

With the jumper open, the no-load voltage is 5.273V. The recommended operating voltage for the Raspberry Pi 5 is 4.75–5.25V. The absolute maximum voltage is around 5.5V, but this is not a safe continuous operating voltage.

In my setup, two of these modules are used, one powering a Raspberry Pi 5 via a 15 cm 100W USB-C cable. I use the jumper-open setting and have had no power issues.

Hope the information is useful to you.