Difference between revisions of "Banana Pi BPI-W3"

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[[File:Banana_Pi_BPI-R2_Pro_1_750.jpg|thumb|[[Banana Pi BPI-R2 Pro]] Rockchip RK3568 design]]
 
[[File:Banana_Pi_BPI-R2_Pro_1_750.jpg|thumb|[[Banana Pi BPI-R2 Pro]] Rockchip RK3568 design]]
  
The Banana Pi BPI-W3 is a router based development board, it design with Rochchip RK3588 quad ARM Cortex-A76 and quad Cortex-A55 consists of an eight-core CPU processor. ,6Tops@INT8 NPU,8G memory,32G eMMC storage on board .which can run on a variety of open source operating systems including OpenWrt, Android, and linux. It has 1 Gigabit LAN ports, 1 Gigabit WAN., it also with 2 HDMI out and 1 HDMI in port.
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The Banana Pi BPI-W3 single board computer is designed and developed by bananapi team for professional and enterprise users, powered by Rockchip RK3588 SoC quad ARM Cortex-A76 and quad Cortex-A55 consists of an eight-core CPU processor with dynamic frequency scaling up to 2.4GHz. Embedded high -performance 3D and 2D image acceleration module, AI accelerator NPU with a built -in 6 TOPS computing power.
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BPI-W3 up to 32GB 64bit LPDDR4X ram, up to 8K@60 HDMI OUT, HDMI IN, MIPI DSI, MIPI CSI, 3.5mm jack with mic, USB Port, 2.5GbE LAN, PCIe 3.0 x4, PCIe 2.0x2, 40-pin expansion header, RTC,POE,SD card, DC power,typec.  
  
 
[[File:Banana_Pi_BPI-W3_Banner.jpg]]
 
[[File:Banana_Pi_BPI-W3_Banner.jpg]]

Revision as of 19:05, 12 March 2023

Introduction

Banana Pi BPI-W3 with Rockchip RK3588 chip design
BPI-RK3588 Core board and development Kit Gold finger interface core board
BPI-RK3588 BPI-RK3588 Core board and development Kit Stamp hole Core board and development Kit
Banana Pi BPI-R2 Pro Rockchip RK3568 design

The Banana Pi BPI-W3 single board computer is designed and developed by bananapi team for professional and enterprise users, powered by Rockchip RK3588 SoC quad ARM Cortex-A76 and quad Cortex-A55 consists of an eight-core CPU processor with dynamic frequency scaling up to 2.4GHz. Embedded high -performance 3D and 2D image acceleration module, AI accelerator NPU with a built -in 6 TOPS computing power.

BPI-W3 up to 32GB 64bit LPDDR4X ram, up to 8K@60 HDMI OUT, HDMI IN, MIPI DSI, MIPI CSI, 3.5mm jack with mic, USB Port, 2.5GbE LAN, PCIe 3.0 x4, PCIe 2.0x2, 40-pin expansion header, RTC,POE,SD card, DC power,typec.

File:Banana Pi BPI-W3 Banner.jpg

Key Features

  • Rockchip RK3588 quad ARM Cortex-A76 and quad Cortex-A55 consists of an eight-core CPU processor
  • ARM Mali-G610 MP4,
  • NPU for AI : 6Tops@INT8
  • 8G RAM and 32G eMMC flash onbord
  • 2x 10/100/1000Mbps Ethernet
  • support HDMI in and HDMI out

Getting Start

Getting Started with BPI-W3

Hardware

Hardware interface

Banana Pi BPI-W3 interface 800.jpg

Hardware spec

SoC RockChip RK3588
CPU quad ARM Cortex-A76 and quad Cortex-A55 consists of an eight-core CPU processor
GPU ARM Mali-G610 MP4,support OpenGL ES 1.1/2.0/3.2,OpenCL 2.2,Vulkan 1.1 Embedded high-performance 2D acceleration hardware
NPU 6Tops@INT8 ,
Video decode Caffe/TensorFlow/TFLite/ONNX PyTorch/Keras/Darknet mainstream architecture model of a key transformation VPU support 8 k 60 FPS h. 265 / AVS2 Profile0 / VP9 video decoding
Video encode Supports 8K 30FPS H.265/H.264 video encoding
RAM 8GB LPDDR4
eMMC flash 32GB
Onboard Network 2x 10/100/1000Mbps Ethernet
HDMI 2 HDMI Out and 1 HDMI in
GPIO 40 Pins Header, 28×GPIO, some of which can be used for specific functions including UART, I2C, SPI, PWM, I2S.
SATA 1 SATA hardisk interface
System Android 12.0 ,Linux support
Power current and voltage 12V/2A
operating temperature 0℃ ~ 80℃(Measurement can reach -20 degrees to 85 degrees)
size 148mm * 101mm

40 PIN GPIO

GPIO number Function8 Function7 Function6 Function5 Function4 Function3 Function2 Function1 Pin#
+3.3V 1
139 I2S1_SDO2_M0 I2C7_SDA_M3 UART8_CTSN_M0 PWM15_IR_M1 CAN1_TX_M1 GPIO4_B3 3
138 I2S1_SDO1_M0 I2C7_SCL_M3 UART8_RTSN_M0 PWM14_M1 CAN1_RX_M1 GPIO4_B2 5
115 SPI1_CS1_M1 I2C8_SDA_M4 UART7_CTSN_M1 PWM15_IR_M0 GPIO3_C3 7
GND 9
113 SPI1_CLK_M1 UART7_RX_M1 GPIO3_C1 11
111 SPI1_MOSI_M1 I2C3_SCL_M1 GPIO3_B7 13
112 SPI1_MISO_M1 I2C3_SDA_M1 UART7_TX_M1 GPIO3_C0 15
+3.3V 17
42 SPI0_MOSI_M2 UART4_RX_M2 GPIO1_B2 19
41 SPI0_MISO_M2 GPIO1_B1 21
43 SPI0_CLK_M2 UART4_TX_M2 GPIO1_B3 23
GND 25
150 SPI3_CLK_M0 I2C0_SDA_M1 PWM7_IR_M3 GPIO4_C6 27
63 UART1_CTSN_M1 PWM15_IR_M3 GPIO1_D7 29
47 SPDIF_TX_M0 UART1_RX_M1 PWM13_M2 GPIO1_B7 31
103 PWM8_M0 GPIO3_A7 33
110 I2S2_LRCK_M1 UART3_RX_M1 PWM13_M0 CAN1_TX_M0 GPIO3_B6 35
37
GND 39
Pin# Function1 Function2 Function3 Function4 Function5 Function6 Function7 Function8    GPIO number
2 +5.0V
4 +5.0V
6 GND
8 GPIO0_B5 UART2_TX_M0 I2C1_SCL_M0 I2S1_MCLK_M1 13
10 GPIO0_B6 UART2_RX_M0 I2C1_SDA_M0 I2S1_SCLK_M1 14
12 GPIO3_B5 CAN1_RX_M0 PWM12_M0 UART3_TX_M1 I2S2_SCLK_M1 109
14 GND
16 GPIO3_A4 100
18 GPIO4_C4 PWM5_M2 SPI3_MISO_M0 148
20 GND
22 SARADC_IN4
24 GPIO1_B4 UART7_RX_M2 SPI0_CS0_M2 44
26 GPIO1_B5 UART7_TX_M2 SPI0_CS1_M2 45
28 GPIO4_C5 PWM6_M2 I2C0_SCL_M1 SPI3_MOSI_M0 149
30 GND
32 GPIO3_C2 PWM14_M0 UART7_RTSN_M1 I2C8_SCL_M4 SPI1_CS0_M1 114
34 GND
36 GPIO3_B1 PWM2_M1 UART2_TX_M2 105
38 GPIO3_B2 PWM3_IR_M1 UART2_RX_M2 I2S2_SDI_M1 106
40 GPIO3_B3 UART2_RTSN I2S2_SDO_M1 107

Resources

Source code

Documents

Image Release

Android

Linux