Design & specifications#
If you want to know how BeagleV-Fire board is designed and what are it’s high-level specifications then this chapter is for you. We are going to discuss each hardware design element in detail and provide high-level device specifications in a short and crisp form as well.
Tip
For hardware design files and schematic diagram you can checkout BeagleV-Fire GitLab repository: https://git.beagleboard.org/beaglev-fire/beaglev-fire
Block diagram#
Fig. 429 System block diagram#
Fig. 430 Power tree diagram#
Fig. 431 I2C tree diagram#
System on Chip (SoC)#
Fig. 432 SoC bank0#
Fig. 433 SoC bank1#
Fig. 434 SoC bank2#
Fig. 435 SoC bank3#
Fig. 436 SoC bank4#
Fig. 437 SoC power#
Power management#
Fig. 438 DC 5V input#
Fig. 439 Ideal diode#
Fig. 440 VCC 1V0#
Fig. 441 VCC 1V1#
Fig. 442 VCC 1V8#
Fig. 443 VCC 2V5#
Fig. 444 VCC 3V3#
Fig. 445 VCCA 1V0#
Fig. 446 VIO enable#
General Connectivity and Expansion#
USB-C port#
Fig. 447 USB C#
P8 & P9 cape header pins#
Fig. 448 P8 cape header#
Fig. 449 P9 cape header#
Fig. 450 Cape header voltage level translator#
ADC#
Fig. 451 16bit Delta-Sigma ADC#
Fig. 452 ADC LDO power supply#
Buttons and LEDs#
User LEDs and Power LED#
Fig. 453 User LEDs and power LED#
User and reset button#
Fig. 454 User button#
Fig. 455 Reset button#
Connectivity#
Ethernet#
Fig. 456 Gigabit ethernet#
Memory, Media and Data storage#
DDR memory#
Fig. 457 LPDDR memory#
eMMC#
Fig. 458 EMMC flash storage#
microSD#
Fig. 459 SD Card socket#
EEPROM#
Fig. 460 EEPROM#
SPI flash#
Fig. 461 SPI Flash#
Multimedia I/O#
CSI#
Fig. 462 CSI#
Debug#
UART debug port#
Fig. 463 UART debug header#
JTAG debug port#
Fig. 464 JTAG debug header#
Mechanical Specifications#
Parameter |
Values |
|---|---|
Size |
86.38 * 54.61 * 18.8 mm |
Max heigh |
18.8 mm |
PCB Size |
86.38 * 54.6 mm |
PCB Layers |
12 Layers |
PCB Thickness |
1.6 mm |
RoHS compliant |
Yes |
Gross Weight |
106 g |
Net weight |
45.8 g |
