THE PINOUT:
There are 12 total pins on the BD-LLC — two parallel rows of six headers. One row contains all of the high voltage (e.g. 5V) inputs and outputs, the other row has all things low voltage (e.g. 3.3V).
![Annotated BD-LLC](https://i0.wp.com/cdn.sparkfun.com/r/600-600/assets/f/d/5/8/4/526842ae757b7f5c108b456b.png?ssl=1)
The pins are labeled on both the bottom and top sides of the board, and organized into groups. Let’s look closer at some of the pin groups:
Voltage Inputs:
The pins labeled HV, LV, and two GND‘s provide high and low voltage references to the board. Supplying a steady, regulated voltage to both of these inputs is required.
The voltage supplied to the HV and GND inputs should be higher than that supplied to the LV side. For example, if you’re interfacing from 5V to 3.3V, the voltage on the HV pin should be 5V, and the voltage on LV sould be 3.3V.
Data Channels:
There are four separate data channels on the BD-LLC, each capable of shifting data to and from high and low voltages. These pins are labeled HV1, LV1, HV2, LV2, HV3, LV3, HV4, and LV4. The number at the end of each label designates the channel of the pin, and the HV or LV prefix determines whether it’s on the high or low side of the channel.
A low-voltage signal sent in to LV1, for example, will be shifted up to the higher voltage and sent out HV1. Something sent in HV3 will be shifted down and sent out of LV3. Use as many of these channels as your project requires. You don’t have to use every single one.
Keep in mind that these level shifters are purely digital. They can’t map an analog voltage from one max voltage to another.
Package includes:
1 x Logic Level Converter 5V TO 3.3V / 3.3V to 5V
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