- Directly connected on top of the Raspberry Pi using the board GPIO header pins - No wiring nor soldering is required - Duplicated the 40-pin header of the R-Pi in order to support existing expansion boards

so camera can still be used with the expansion board attached

Camera flex slot so camera can still be used with the expansion board attached - DIP switch to remove connection from RPi’s pin header - Directly connected on top of the Raspberry Pi using the board GPIO header pins - No wiring nor soldering is required - Duplicated the 40-pin header of the R-Pi in order to support existing expansion boards

Warning: do not connect a +5V supply through the Raspberry Pi micro-USB connector when used with this expansion board.

Warning: do not connect a +5V supply through the Raspberry Pi micro-USB connector when used with this expansion board.

Xseries expansion board supplies the RPi with a regulated +5V through the GPIO header using a 2A poly-resettable (PTC) fuse. With the wide voltage input range (6~18vdc), the RPi can be powered from a wide variety of external sources such as batteries, 12V power adapters, solar battery sources, etc.

Xseries expansion board supplies the RPi with a regulated +5V through the GPIO header using a 2A poly-resettable (PTC) fuse. With the wide voltage input range (6~18vdc), the RPi can be powered from a wide variety of external sources such as batteries, 12V power adapters, solar battery sources, etc. Recommended Power Adapter : 110~240VAC input, 12VDC 2A output Dimension of input plug (Unit: mm)

Click "Device Settings..." to allow more detailed control of the X300 audio device s – you can access this either under Device Settings from the volume right-click menu or from the Preferences section of the main menu, where it is listed as Audio Device Settings.

Click "Device Settings..." to allow more detailed control of the X300 audio device s – you can access this either under Device Settings from the volume right-click menu or from the Preferences section of the main menu, where it is listed as Audio Device Settings.

Comment following three lines in config.txt by adding '#' located at start of the line. (check Images below)

To ensure that the necessary kernel modules are loaded at boot, ensure your /boot/config.txt file has the entry below …

To ensure that the necessary kernel modules are loaded at boot, ensure your /boot/config.txt file has the entry below …

Comment it out by replacing it with the line below

The RTC Pi should appear on channel 68 as shown in the screen shot below. If the RTC Pi does not appear check that the battery is installed correctly and is fully charged:

<9> Once you have installed I2C check that the RTC Pi has been detected using:

<7> Ensure that the CR2032 coin battery was inserted into the battery holder. Using the expansion board without a battery installed may damage the RTC chip and will stop it from appearing on the I2C bus.

This page details how to setup the RTC Pi on the Raspbian Jessie image from

Point a remote control at your IR receiver and press some buttons. You should see something like this:

Point a remote control at your IR receiver and press some buttons. You should see something like this:

Run these two commands to stop lircd and start outputting raw data from the IR receiver

The highlighted text are the parts that will need changing, though it’s worth checking the rest of the text incase you have a different initial configuration.

The highlighted text are the parts that will need changing, though it’s worth checking the rest of the text incase you have a different initial configuration.

# Don't start lircmd even if there seems to be a good config file

Edit /etc/lirc/hardware.conf and have it appear exactly as shown below.

Edit /etc/lirc/hardware.conf and have it appear exactly as shown below.

Add the two lines below to /etc/modules . This will start the modules up on boot. Pin 8 bellow will be used to take the output from the IR sensor.

Add the two lines below to /etc/modules . This will start the modules up on boot. Pin 8 bellow will be used to take the output from the IR sensor.

The SATA port allows you to connect SATA devices to your Raspberry Pi, a very useful tool for data transfer, backup and cloning. It supports most SATA devices such as CD ROM, DVD ROM, CD drive, 2.5 inch hard disk and 3.5 inch hard disk. Installation for SATA drives: 1. Connect you SATA drive to the SATA port with a SATA cable. 2. Connect SATA Power Cable to a power adapter which is used to power hard disk OR to the power connector on X300 (Output voltage of power adapter used must be 12Vdc).