This is the latest (main) BeagleBoard documentation. If you are looking for stable releases, use the drop-down menu on the bottom-left and select the desired version.

BeagleBone Black Overview

The BeagleBone Black is the latest addition to the BeagleBoard.org family and like its predecessors, is designed to address the Open Source Community, early adopters, and anyone interested in a low cost ARM Cortex-A8 based processor.

It has been equipped with a minimum set of features to allow the user to experience the power of the processor and is not intended as a full development platform as many of the features and interfaces supplied by the processor are not accessible from the BeagleBone Black via onboard support of some interfaces. It is not a complete product designed to do any particular function. It is a foundation for experimentation and learning how to program the processor and to access the peripherals by the creation of your own software and hardware.

It also offers access to many of the interfaces and allows for the use of add-on boards called capes, to add many different combinations of features. A user may also develop their own board or add their own circuitry.

BeagleBone Black is manufactured and warranted by partners listed at https://beagleboard.org/logo for the benefit of the community and its supporters.

Jason Kridner of Texas Instruments handles the community promotions and is the spokesman for BeagleBoard.org.

The board is designed by Gerald Coley of EmProDesign, a charter member of the BeagleBoard.org community.

The PCB layout up through PCB revision B was done by Circuitco and Circuitco is the sole funder of its development and transition to production. Later PCB revisions have been made by Embest, a subsidiary of Avent.

The Software is written and supported by the thousands of community members, including Jason Kridner, employee of Texas Instruments, and Robert Nelson, employee of DigiKey.

BeagleBone Compatibility

The board is intended to be compatible with the original BeagleBone as much as possible. There are several areas where there are differences between the two designs. These differences are listed below, along with the reasons for the differences.

  • Sitara AM3358BZCZ100, 1GHZ, processor.

    • Sorry, we just had to make it faster.

  • 512MB DDR3L

    • Cost reduction

    • Performance boost

    • Memory size increase

    • Lower power

  • No Serial port by default

    • Cost reduction

    • Can be added by buying a TTL to USB Cable that is widely available

    • Single largest cost reduction action taken

  • No JTAG emulation over USB

    • Cost reduction JTAG header is not populated, but can easily be mounted.

    • EEPROM Reduced from 32KB to 4KB

    • Cost Reduction

  • Onboard Managed NAND (eMMC)

    • 4GB

    • Cost reduction

    • Performance boost x8 vs. x4 bits

    • Performance boost due to deterministic properties vs. microSD card

  • GPMC bus may not be accessible from the expansion headers in some cases

    • Result of eMMC on the main board

    • Signals are still routed to the expansion connector

    • If eMMC is not used, signals can be used via expansion if eMMC is held in reset

  • There may be 10 less GPIO pins available

    • Result of eMMC

    • If eMMC is not used, could still be used

  • The power expansion header, for battery and backlight, has been removed

    • _*Cost reduction* , space reduction

    • Four pins were added to provide access to the battery charger function.

  • HDMI interface onboard

    • Feature addition

    • Audio and video capable

    • Micro HDMI

  • No three function USB cable

    • Cost reduction

  • GPIO3_21 has a 24.576 MHZ clock on it.

    • This is required by the HDMI Framer for Audio purposes. We needed to run a clock into the processor to generate the correct clock frequency. The pin on the processor was already routed to the expansion header. In order not to remove this feature on the expansion header, it was left connected. In order to use the pin as a GPIO pin, you need to disable the clock. While this disables audio to the HDMI, the fact that you want to use this pin for something else, does the same thing.

BeagleBone Black Features and Specification

This section covers the specifications and features of the board and provides a high level description of the major components and interfaces that make up the board. table below provides a list of the features.

Table 41 BeagleBone Black Features

Feature

Processor

Sitara AM3358BZCZ100 1GHz, 2000 MIPS

Graphics Engine

SGX530 3D, 20M Polygons/S

SDRAM Memory

512MB DDR3L 800MHZ

Onboard Flash

4GB, 8bit Embedded MMC

PMIC

TPS65217C PMIC regulator and one additional LDO.

Debug Support

Optional Onboard 20-pin CTI JTAG, Serial Header

Power Source

miniUSB USB or DC Jack

PCB

3.4” x 2.1”

Indicators

1-Power, 2-Ethernet, 4-User Controllable LEDs

HS USB 2.0 Client Port

Access to USB0, Client mode via miniUSB

HS USB 2.0 Host Port

Access to USB1, Type A Socket, 500mA LS/FS/HS

Serial Port

UART0 access via 6 pin 3.3V TTL Header. Header is populated

Ethernet

10/100, RJ45

SD/MMC Connector

microSD , 3.3V

User Input

  1. Reset Button

  2. Boot Button

  3. Power Button

Video Out

  1. 16b HDMI, 1280x1024 (MAX)

  2. 1024x768,1280x720,1440x900 ,1920x1080@24Hz w/EDID Support

Audio

Via HDMI Interface, Stereo

Expansion Connectors

  1. Power 5V, 3.3V , VDD_ADC(1.8V)

  2. 3.3V I/O on all signals

  3. McASP0, SPI1, I2C, GPIO(69 max), LCD, GPMC, MMC1, MMC2, 7

  4. AIN _(1.8V MAX)_, 4 Timers, 4 Serial Ports, CAN0,

  5. EHRPWM(0,2),XDMA Interrupt, Power button, Expansion Board ID (Up to 4 can be stacked)

Weight

1.4 oz (39.68 grams)

Power

Refer to section-6-1-7

Board Component Locations

This section describes the key components on the board. It provides information on their location and function. Familiarize yourself with the various components on the board.

Connectors, LEDs, and Switches

figure below shows the locations of the connectors, LEDs, and switches on the PCB layout of the board.

Connectors, LEDs and Switches

Fig. 113 Connectors, LEDs and Switches

  • DC Power is the main DC input that accepts 5V power.

  • Power Button alerts the processor to initiate the power down sequence and is used to power down the board.

  • 10/100 Ethernet is the connection to the LAN.

  • Serial Debug is the serial debug port.

  • USB Client is a miniUSB connection to a PC that can also power the board.

  • BOOT switch can be used to force a boot from the microSD card if the power is cycled on the board, removing power and reapplying the power to the board..

  • There are four blue LED’s that can be used by the user.

  • Reset Button allows the user to reset the processor.

  • microSD slot is where a microSD card can be installed.

  • microHDMI connector is where the display is connected to.

  • USB Host can be connected different USB interfaces such as Wi-Fi, BT, Keyboard, etc.

Key Components

figure below shows the locations of the key components on the PCB layout of the board.

Key Components

Fig. 114 Key Components

  • Sitara AM3358BZCZ100 is the processor for the board.

  • Micron 512MB DDR3L or**Kingston 512mB DDR3** is the Dual Data Rate RAM memory.

  • TPS65217C PMIC provides the power rails to the various components on the board.

  • SMSC Ethernet PHY is the physical interface to the network.

  • Micron eMMC is an onboard MMC chip that holds up to 4GB of data.

  • HDMI Framer provides control for an HDMI or DVI-D display with an adapter.