В данной статье я собрал распиновки (Orange Pi pinout) всех моделей Orange Pi: Orange Pi, Orange Pi 2, Orange Pi Mini, Orange Pi Mini 2, Orange Pi One, Orange Pi Lite, Orange Pi PC, Orange Pi PC 2, Orange Pi Plus, Orange Pi Plus 2, Orange Pi Plus 2E, Orange Pi Zero. В основном распиновка GPIO у всех почти одинакова — по 40 выводов общего назначения, кроме Orange Pi — 26 + 18 выводов и Orange Pi Zero — 26 + 13 выводов.
Распиновка Orange Pi (Orange Pi pinout)
Спецификация GPIO на Orange Pi
Orange Pi — 26-контактный разъем GPIO
26-контактный разъем GPIO на Orange Pi совпадает с GPIO на Raspberry Pi Model A и Model B.
2×13 Выводов (A20) |
1 |
3.3V |
2 |
5V |
3 |
PB21 TWI2-SDA |
4 |
5V |
5 |
PB20 TWI2-SCK |
6 |
GND |
7 |
PI3 PWM1 |
8 |
PH0 UART3_TX |
9 |
GND |
10 |
PH1 UART3_RX |
11 |
PI19 UART2_RX |
12 |
PH2 |
13 |
PI18 UART2_TX |
14 |
GND |
15 |
PI17 UART2_CTS |
16 |
PH20 CAN_TX |
17 |
3.3V |
18 |
PH21 CAN_RX |
19 |
PI12 SPI0_MOSI |
20 |
GND |
21 |
PI13 SPI0_MISO |
22 |
PI16 UART2_RTS |
23 |
PI11 SPI0_CLK |
24 |
PI10 SPI0_CS0 |
25 |
GND |
26 |
PI14 SPI0_CS1 |
Orange Pi — 18-контактный разъем GPIO
Orange Pi дополнительно имеет 18 выводов общего назначения.
2×9 Выводов (A20) |
1 |
5V |
2 |
3.3V |
3 |
PH5 |
4 |
PI21 UART7_RX |
5 |
PH3 |
6 |
PI20 UART7_TX |
7 |
GND |
8 |
GND |
9 |
RESET# |
10 |
LRADC1 |
11 |
ADC_Y2 |
12 |
LRADC0 |
13 |
ADC_Y1 |
14 |
GND |
15 |
ADC_X2 |
16 |
UART0_RX |
17 |
ADC_X1 |
18 |
UART0_TX |
LVDS (LCD display interface) — интерфейс ЖК-дисплея
LVDS — 40-контактный FPC разъем с помощью которого можно подключить внешний ЖК-дисплей (LVDS) и модуль сенсорного экрана (I2C).
2×20 Выводов |
1 |
IPSOUT |
2 |
TWI3-SDA PI1 |
3 |
IPSOUT |
4 |
TWI3-SCK PI0 |
5 |
GND |
6 |
LCD0-IO0 PH7 |
7 |
LCDIO-03 PH12 |
8 |
LCD0-IO1 PH8 |
9 |
LCD0-D00 PD0 |
10 |
PWM0 PB2 |
11 |
LCD0-D01 PD1 |
12 |
LCD0-IO2 PH9 |
13 |
LCD0-D02 PD2 |
14 |
LCD0-DE PD25 |
15 |
LCD0-D03 PD3 |
16 |
LCD0-VSYNC PD27 |
17 |
LCD0-D04 PD4 |
18 |
LCD0-HSYNC PD26 |
19 |
LCD0-D05 PD5 |
20 |
LCD0-CS PH6 |
21 |
LCD0-D06 PD6 |
22 |
LCD0-CLK PD24 |
23 |
LCD0-D07 PD7 |
24 |
GND |
25 |
LCD0-D08 PD8 |
26 |
LCD0-D23 PD23 |
27 |
LCD0-D09 PD9 |
28 |
LCD0-D22 PD22 |
29 |
LCD0-D10 PD10 |
30 |
LCD0-D21 PD21 |
31 |
LCD0-D11 PD11 |
32 |
LCD0-D20 PD20 |
33 |
LCD0-D12 PD12 |
34 |
LCD0-D19 PD19 |
35 |
LCD0-D13 PD13 |
36 |
LCD0-D18 PD18 |
37 |
LCD0-D14 PD14 |
38 |
LCD0-D17 PD17 |
39 |
LCD0-D15 PD15 |
40 |
LCD0-D16 PD16 |
CSI (Camera Serial Interface) — Разъем камеры
CSI это FPC разъем на 24 выводов для подключения камеры
1×24 Выводов |
1 |
IPSOUT |
2 |
GND |
3 |
TWI1-SDA PB19 |
4 |
VCC-CSI |
5 |
TWI1-SCK PB18 |
6 |
CSI0-RESET# PH14 |
7 |
CSI-VSYNC PE3 |
8 |
CSI0-STBY-EN PH19 |
9 |
CSI-HSYNC PE2 |
10 |
VDD1V5-CSI |
11 |
VCC-CSI |
12 |
CSI-D7 PE11 |
13 |
CSI-MCLK PE1 |
14 |
CSI-D6 PE10 |
15 |
GND |
16 |
CSI-D5 PE9 |
17 |
CSI-PCLK PE0 |
18 |
CSI-D4 PE8 |
19 |
CSI-D0 PE4 |
20 |
CSI-D3 PE7 |
21 |
CSI-D1 PE5 |
22 |
CSI-D2 PE6 |
23 |
GND |
24 |
AFVCC-CSI |
Распиновка Orange Pi 2 (Orange Pi 2 pinout)
Спецификация GPIO на Orange Pi 2
GPIO (General Purpose Input/Output) — переводится как Входы/Выходы общего назначения. Orange Pi 2 имеет 40 выводов общего назначения.
2×20 Выводов (H3) |
1 |
3.3V |
2 |
VCC-5V |
3 |
PA12 (TWI0-SDA/DI_RX/EINT12) |
4 |
VCC-5V |
5 |
PA11 (TWI0-SCK/DI_TX/EINT11) |
6 |
GND |
7 |
PA6 (SIM_PWREN/PWM1/PA_EINT6) |
8 |
PA13 (SPI1_CS/UART3_TX/PA_EINT13) |
9 |
GND |
10 |
PA14 (SPI1_CLK/UART3_RX/PA_EINT14) |
11 |
PA1 (UART2_RX/JTAG_CK0/PA_EINT1) |
12 |
PD14(RGMII_NULL/MII_TXERR/RMII_NULL) |
13 |
PA0 (UART2_TX/JTAG_MS0/PA_EINT0) |
14 |
GND |
15 |
PA3 (UART2_CTS/JTAG_DI0/PA_EINT3) |
16 |
PC4 (NAND_CE0) |
17 |
3.3V |
18 |
PC7 (NAND_RB1) |
19 |
PC0 (NAND_WE/SPI0_MOSI) |
20 |
GND |
21 |
PC1 (NAND_ALE/SPI0_MISO) |
22 |
PA2 (UART2_RTS/JTAG_DO0/PA_EINT2) |
23 |
PC2 (NAND_CLE/SPI0_CLK) |
24 |
PC3 (NAND_CE1/SPI0_CS) |
25 |
GND |
26 |
PA21 (PCM0_DIN/SIM_VPPPP/PA_EINT21) |
27 |
PA19 (PCM0_CLK/TWI1_SDA/PA_EINT19) |
28 |
PA18 (PCM0_SYNC/TWI1_SCK/PA_EINT18) |
29 |
PA7 (SIM_CLK/PA_EINT7) |
30 |
GND |
31 |
PA8 (SIM_DATA/PA_EINT8) |
32 |
PG8 (UART1_RTS/PG_EINT8) |
33 |
PA9 (SIM_RST/PA_EINT9) |
34 |
GND |
35 |
PA10 (SIM_DET/PA_EINT10) |
36 |
PG9 (UART1_CTS/PG_EINT9) |
37 |
PA20 (PCM0_DOUT/SIM_VPPEN/PA_EINT20) |
38 |
PG6 (UART1_TX/PG_EINT6) |
39 |
GND |
40 |
PG7 (UART1_RX/PG_EINT7) |
CSI (Camera Serial Interface) — Разъем камеры
На Orange Pi 2 есть FPC разъем на 24 выводов для подключения камеры CSI.
1×24 Выводов |
1 |
NC |
2 |
GND |
3 |
TWI2-SDA PE13 |
4 |
VCC-CSI |
5 |
TWI2-SCK PE12 |
6 |
CSI-RESET# PE15 |
7 |
CSI-VSYNC PE3 |
8 |
CSI-STBY-EN PE15 |
9 |
CSI-HSYNC PE2 |
10 |
VDD1V8-CSI |
11 |
VCC-CSI |
12 |
CSI-D7 PE11 |
13 |
CSI-MCLK PE1 |
14 |
CSI-D6 PE10 |
15 |
GND |
16 |
CSI-D5 PE9 |
17 |
CSI-PCLK PE0 |
18 |
CSI-D4 PE8 |
19 |
CSI-D0 PE4 |
20 |
CSI-D3 PE7 |
21 |
CSI-D1 PE5 |
22 |
CSI-D2 PE6 |
23 |
GND |
24 |
AFVCC-CSI |
UART Интерфейс (Debug TTL UART)
Для разработчиков Orange Pi, это простой способ, чтобы получить выход UART консоли, чтобы проверить состояние системы и сообщения журнала.
1×3 Выводов |
1 |
GND |
2 |
RX |
3 |
TX |
Распиновка Orange Pi Mini
Спецификация GPIO (Входы/Выходы общего назначения) на Orange Pi Mini
2×20 Выводов (A20) |
1 |
3.3V |
2 |
5V |
3 |
PB21 TWI2-SDA |
4 |
5V |
5 |
PB20 TWI2-SCK |
6 |
GND |
7 |
PI3 PWM1 |
8 |
PH0 UART3_TX |
9 |
GND |
10 |
PH1 UART3_RX |
11 |
PI19 UART2_RX |
12 |
PH2 |
13 |
PI18 UART2_TX |
14 |
GND |
15 |
PI17 UART2_CTS |
16 |
PH20 CAN_TX |
17 |
3.3V |
18 |
PH21 CAN_RX |
19 |
PI12 SPI0_MOSI |
20 |
GND |
21 |
PI13 SPI0_MISO |
22 |
PI16 UART2_RTS |
23 |
PI11 SPI0_CLK |
24 |
PI10 SPI0_CS0 |
25 |
GND |
26 |
PI14 SPI0_CS1 |
27 |
PB5 I2S_MCLK |
28 |
PI12 |
29 |
PB6 I2S_BCLK |
30 |
GND |
31 |
PB7 I2S_LRCK |
32 |
PI20 UART7_TX |
33 |
PB8 I2S_DO0 |
34 |
GND |
35 |
PB12 I2S_DI |
36 |
PI21 UART7_RX |
37 |
PB13 SDPIF_D0 |
38 |
PH3 |
39 |
GND |
40 |
PH5 |
LVDS (LCD display interface) — интерфейс ЖК-дисплея
LVDS — 40-контактный FPC разъем для подключения ЖК-дисплея (LVDS) и модуля сенсорного экрана (I2C).
2×20 Выводов |
1 |
IPSOUT |
2 |
TWI3-SDA PI1 |
3 |
IPSOUT |
4 |
TWI3-SCK PI0 |
5 |
GND |
6 |
LCD0-IO0 PH7 |
7 |
LCDIO-03 PH12 |
8 |
LCD0-IO1 PH8 |
9 |
LCD0-D00 PD0 |
10 |
PWM0 PB2 |
11 |
LCD0-D01 PD1 |
12 |
LCD0-IO2 PH9 |
13 |
LCD0-D02 PD2 |
14 |
LCD0-DE PD25 |
15 |
LCD0-D03 PD3 |
16 |
LCD0-VSYNC PD27 |
17 |
LCD0-D04 PD4 |
18 |
LCD0-HSYNC PD26 |
19 |
LCD0-D05 PD5 |
20 |
LCD0-CS PH6 |
21 |
LCD0-D06 PD6 |
22 |
LCD0-CLK PD24 |
23 |
LCD0-D07 PD7 |
24 |
GND |
25 |
LCD0-D08 PD8 |
26 |
LCD0-D23 PD23 |
27 |
LCD0-D09 PD9 |
28 |
LCD0-D22 PD22 |
29 |
LCD0-D10 PD10 |
30 |
LCD0-D21 PD21 |
31 |
LCD0-D11 PD11 |
32 |
LCD0-D20 PD20 |
33 |
LCD0-D12 PD12 |
34 |
LCD0-D19 PD19 |
35 |
LCD0-D13 PD13 |
36 |
LCD0-D18 PD18 |
37 |
LCD0-D14 PD14 |
38 |
LCD0-D17 PD17 |
39 |
LCD0-D15 PD15 |
40 |
LCD0-D16 PD16 |
CSI (Camera Serial Interface) — Разъем камеры
На Orange Pi 2 есть FPC разъем на 24 выводов для подключения камеры CSI.
1×24 Выводов |
1 |
IPSOUT |
2 |
GND |
3 |
TWI1-SDA PB19 |
4 |
VCC-CSI |
5 |
TWI1-SCK PB18 |
6 |
CSI0-RESET# PH14 |
7 |
CSI-VSYNC PE3 |
8 |
CSI0-STBY-EN PH19 |
9 |
CSI-HSYNC PE2 |
10 |
VDD1V5-CSI |
11 |
VCC-CSI |
12 |
CSI-D7 PE11 |
13 |
CSI-MCLK PE1 |
14 |
CSI-D6 PE10 |
15 |
GND |
16 |
CSI-D5 PE9 |
17 |
CSI-PCLK PE0 |
18 |
CSI-D4 PE8 |
19 |
CSI-D0 PE4 |
20 |
CSI-D3 PE7 |
21 |
CSI-D1 PE5 |
22 |
CSI-D2 PE6 |
23 |
GND |
24 |
AFVCC-CSI |
UART отладочный вывод (Debug TTL UART)
1×3 Выводов |
1 |
GND |
2 |
RX |
3 |
TX |
Распиновка Orange Pi Mini 2
GPIO — Входы/Выходы общего назначения
2×20 Выводов (H3) |
1 |
3.3V |
2 |
VCC-5V |
3 |
PA12 (TWI0-SDA/DI_RX/EINT12) |
4 |
VCC-5V |
5 |
PA11 (TWI0-SCK/DI_TX/EINT11) |
6 |
GND |
7 |
PA6 (SIM_PWREN/PWM1/PA_EINT6) |
8 |
PA13 (SPI1_CS/UART3_TX/PA_EINT13) |
9 |
GND |
10 |
PA14 (SPI1_CLK/UART3_RX/PA_EINT14) |
11 |
PA1 (UART2_RX/JTAG_CK0/PA_EINT1) |
12 |
PD14(RGMII_NULL/MII_TXERR/RMII_NULL) |
13 |
PA0 (UART2_TX/JTAG_MS0/PA_EINT0) |
14 |
GND |
15 |
PA3 (UART2_CTS/JTAG_DI0/PA_EINT3) |
16 |
PC4 (NAND_CE0) |
17 |
3.3V |
18 |
PC7 (NAND_RB1) |
19 |
PC0 (NAND_WE/SPI0_MOSI) |
20 |
GND |
21 |
PC1 (NAND_ALE/SPI0_MISO) |
22 |
PA2 (UART2_RTS/JTAG_DO0/PA_EINT2) |
23 |
PC2 (NAND_CLE/SPI0_CLK) |
24 |
PC3 (NAND_CE1/SPI0_CS) |
25 |
GND |
26 |
PA21 (PCM0_DIN/SIM_VPPPP/PA_EINT21) |
27 |
PA19 (PCM0_CLK/TWI1_SDA/PA_EINT19) |
28 |
PA18 (PCM0_SYNC/TWI1_SCK/PA_EINT18) |
29 |
PA7 (SIM_CLK/PA_EINT7) |
30 |
GND |
31 |
PA8 (SIM_DATA/PA_EINT8) |
32 |
PG8 (UART1_RTS/PG_EINT8) |
33 |
PA9 (SIM_RST/PA_EINT9) |
34 |
GND |
35 |
PA10 (SIM_DET/PA_EINT10) |
36 |
PG9 (UART1_CTS/PG_EINT9) |
37 |
PA20 (PCM0_DOUT/SIM_VPPEN/PA_EINT20) |
38 |
PG6 (UART1_TX/PG_EINT6) |
39 |
GND |
40 |
PG7 (UART1_RX/PG_EINT7) |
CSI — Разъем камеры
1×24 Выводов |
1 |
NC |
2 |
GND |
3 |
TWI2-SDA PE13 |
4 |
VCC-CSI |
5 |
TWI2-SCK PE12 |
6 |
CSI-RESET# PE15 |
7 |
CSI-VSYNC PE3 |
8 |
CSI-STBY-EN PE15 |
9 |
CSI-HSYNC PE2 |
10 |
VDD1V8-CSI |
11 |
VCC-CSI |
12 |
CSI-D7 PE11 |
13 |
CSI-MCLK PE1 |
14 |
CSI-D6 PE10 |
15 |
GND |
16 |
CSI-D5 PE9 |
17 |
CSI-PCLK PE0 |
18 |
CSI-D4 PE8 |
19 |
CSI-D0 PE4 |
20 |
CSI-D3 PE7 |
21 |
CSI-D1 PE5 |
22 |
CSI-D2 PE6 |
23 |
GND |
24 |
AFVCC-CSI |
UART отладочный вывод
1×3 Выводов |
1 |
GND |
2 |
RX |
3 |
TX |
GPIO — 40 Выводов общего назначения
2×20 Выводов (H3) |
1 |
3.3V |
2 |
VCC-5V |
3 |
PA12 (TWI0-SDA/DI_RX/EINT12) |
4 |
VCC-5V |
5 |
PA11 (TWI0-SCK/DI_TX/EINT11) |
6 |
GND |
7 |
PA6 (SIM_PWREN/PWM1/PA_EINT6) |
8 |
PA13 (SPI1_CS/UART3_TX/PA_EINT13) |
9 |
GND |
10 |
PA14 (SPI1_CLK/UART3_RX/PA_EINT14) |
11 |
PA1 (UART2_RX/JTAG_CK0/PA_EINT1) |
12 |
PD14(RGMII_NULL/MII_TXERR/RMII_NULL) |
13 |
PA0 (UART2_TX/JTAG_MS0/PA_EINT0) |
14 |
GND |
15 |
PA3 (UART2_CTS/JTAG_DI0/PA_EINT3) |
16 |
PC4 (NAND_CE0) |
17 |
3.3V |
18 |
PC7 (NAND_RB1) |
19 |
PC0 (NAND_WE/SPI0_MOSI) |
20 |
GND |
21 |
PC1 (NAND_ALE/SPI0_MISO) |
22 |
PA2 (UART2_RTS/JTAG_DO0/PA_EINT2) |
23 |
PC2 (NAND_CLE/SPI0_CLK) |
24 |
PC3 (NAND_CE1/SPI0_CS) |
25 |
GND |
26 |
PA21 (PCM0_DIN/SIM_VPPPP/PA_EINT21) |
27 |
PA19 (PCM0_CLK/TWI1_SDA/PA_EINT19) |
28 |
PA18 (PCM0_SYNC/TWI1_SCK/PA_EINT18) |
29 |
PA7 (SIM_CLK/PA_EINT7) |
30 |
GND |
31 |
PA8 (SIM_DATA/PA_EINT8) |
32 |
PG8 (UART1_RTS/PG_EINT8) |
33 |
PA9 (SIM_RST/PA_EINT9) |
34 |
GND |
35 |
PA10 (SIM_DET/PA_EINT10) |
36 |
PG9 (UART1_CTS/PG_EINT9) |
37 |
PA20 (PCM0_DOUT/SIM_VPPEN/PA_EINT20) |
38 |
PG6 (UART1_TX/PG_EINT6) |
39 |
GND |
40 |
PG7 (UART1_RX/PG_EINT7) |
CSI — Разъем камеры
1×24 Выводов |
1 |
NC |
2 |
GND |
3 |
TWI2-SDA PE13 |
4 |
VCC-CSI |
5 |
TWI2-SCK PE12 |
6 |
CSI-RESET# PE15 |
7 |
CSI-VSYNC PE3 |
8 |
CSI-STBY-EN PE15 |
9 |
CSI-HSYNC PE2 |
10 |
VDD1V8-CSI |
11 |
VCC-CSI |
12 |
CSI-D7 PE11 |
13 |
CSI-MCLK PE1 |
14 |
CSI-D6 PE10 |
15 |
GND |
16 |
CSI-D5 PE9 |
17 |
CSI-PCLK PE0 |
18 |
CSI-D4 PE8 |
19 |
CSI-D0 PE4 |
20 |
CSI-D3 PE7 |
21 |
CSI-D1 PE5 |
22 |
CSI-D2 PE6 |
23 |
GND |
24 |
AFVCC-CSI |
UART отладочный вывод
1×3 Выводов |
1 |
GND |
2 |
RX |
3 |
TX |
Orange Pi PC, Orange Pi PC 2 и Orange Pi PC Plus имеют одинаковые выводы общего назначения GPIO, разъемы камер CSI и UART интерфейсы для отладки.
Спецификация GPIO на Orange Pi PC & PC 2 & PC Plus
Orange Pi PC, Orange Pi PC 2 и Orange Pi PC Plus имеют 40 выводов общего назначения GPIO, совместим с GPIO Raspberry Pi B+.
2×20 Выводов (H3/H5) |
1 |
3.3V |
2 |
VCC-5V |
3 |
PA12 (TWI0-SDA/DI_RX/EINT12) |
4 |
VCC-5V |
5 |
PA11 (TWI0-SCK/DI_TX/EINT11) |
6 |
GND |
7 |
PA6 (SIM_PWREN/PWM1/PA_EINT6) |
8 |
PA13 (SPI1_CS/UART3_TX/PA_EINT13) |
9 |
GND |
10 |
PA14 (SPI1_CLK/UART3_RX/PA_EINT14) |
11 |
PA1 (UART2_RX/JTAG_CK0/PA_EINT1) |
12 |
PD14(RGMII_NULL/MII_TXERR/RMII_NULL) |
13 |
PA0 (UART2_TX/JTAG_MS0/PA_EINT0) |
14 |
GND |
15 |
PA3 (UART2_CTS/JTAG_DI0/PA_EINT3) |
16 |
PC4 (NAND_CE0) |
17 |
3.3V |
18 |
PC7 (NAND_RB1) |
19 |
PC0 (NAND_WE/SPI0_MOSI) |
20 |
GND |
21 |
PC1 (NAND_ALE/SPI0_MISO) |
22 |
PA2 (UART2_RTS/JTAG_DO0/PA_EINT2) |
23 |
PC2 (NAND_CLE/SPI0_CLK) |
24 |
PC3 (NAND_CE1/SPI0_CS) |
25 |
GND |
26 |
PA21 (PCM0_DIN/SIM_VPPPP/PA_EINT21) |
27 |
PA19 (PCM0_CLK/TWI1_SDA/PA_EINT19) |
28 |
PA18 (PCM0_SYNC/TWI1_SCK/PA_EINT18) |
29 |
PA7 (SIM_CLK/PA_EINT7) |
30 |
GND |
31 |
PA8 (SIM_DATA/PA_EINT8) |
32 |
PG8 (UART1_RTS/PG_EINT8) |
33 |
PA9 (SIM_RST/PA_EINT9) |
34 |
GND |
35 |
PA10 (SIM_DET/PA_EINT10) |
36 |
PG9 (UART1_CTS/PG_EINT9) |
37 |
PA20 (PCM0_DOUT/SIM_VPPEN/PA_EINT20) |
38 |
PG6 (UART1_TX/PG_EINT6) |
39 |
GND |
40 |
PG7 (UART1_RX/PG_EINT7) |
CSI (Camera Serial Interface) — Разъем камеры
На Orange Pi PC, Orange Pi PC 2 и Orange Pi PC Plus есть FPC разъем CSI на 24 выводов для подключения камеры.
1×24 Выводов |
1 |
NC |
2 |
GND |
3 |
TWI2-SDA PE13 |
4 |
VCC-CSI |
5 |
TWI2-SCK PE12 |
6 |
CSI-RESET# PE15 |
7 |
CSI-VSYNC PE3 |
8 |
CSI-STBY-EN PE15 |
9 |
CSI-HSYNC PE2 |
10 |
VDD1V8-CSI |
11 |
VCC-CSI |
12 |
CSI-D7 PE11 |
13 |
CSI-MCLK PE1 |
14 |
CSI-D6 PE10 |
15 |
GND |
16 |
CSI-D5 PE9 |
17 |
CSI-PCLK PE0 |
18 |
CSI-D4 PE8 |
19 |
CSI-D0 PE4 |
20 |
CSI-D3 PE7 |
21 |
CSI-D1 PE5 |
22 |
CSI-D2 PE6 |
23 |
GND |
24 |
AFVCC-CSI |
UART Интерфейс (Debug TTL UART)
Используется, чтобы получить выход UART консоли, для проверки состояния системы и сообщении журнала.
1×3 Выводов |
1 |
GND |
2 |
RX |
3 |
TX |
Orange Pi Plus, Orange Pi Plus 2 и Orange Pi Plus 2E имеют одинаковые выводы общего назначения GPIO, разъемы камер CSI и UART интерфейсы для отладки.
Спецификация GPIO на Orange Pi Plus & Plus 2 & Plus 2E
Orange Pi Plus, Orange Pi Plus 2 и Orange Pi Plus 2E имеют 40 выводов общего назначения GPIO, совместим с GPIO Raspberry Pi B+.
2×20 Выводов (H3) |
1 |
3.3V |
2 |
VCC-5V |
3 |
PA12 (TWI0-SDA/DI_RX/EINT12) |
4 |
VCC-5V |
5 |
PA11 (TWI0-SCK/DI_TX/EINT11) |
6 |
GND |
7 |
PA6 (SIM_PWREN/PWM1/PA_EINT6) |
8 |
PA13 (SPI1_CS/UART3_TX/PA_EINT13) |
9 |
GND |
10 |
PA14 (SPI1_CLK/UART3_RX/PA_EINT14) |
11 |
PA1 (UART2_RX/JTAG_CK0/PA_EINT1) |
12 |
PD14(RGMII_NULL/MII_TXERR/RMII_NULL) |
13 |
PA0 (UART2_TX/JTAG_MS0/PA_EINT0) |
14 |
GND |
15 |
PA3 (UART2_CTS/JTAG_DI0/PA_EINT3) |
16 |
PC4 (NAND_CE0) |
17 |
3.3V |
18 |
PC7 (NAND_RB1) |
19 |
PC0 (NAND_WE/SPI0_MOSI) |
20 |
GND |
21 |
PC1 (NAND_ALE/SPI0_MISO) |
22 |
PA2 (UART2_RTS/JTAG_DO0/PA_EINT2) |
23 |
PC2 (NAND_CLE/SPI0_CLK) |
24 |
PC3 (NAND_CE1/SPI0_CS) |
25 |
GND |
26 |
PA21 (PCM0_DIN/SIM_VPPPP/PA_EINT21) |
27 |
PA19 (PCM0_CLK/TWI1_SDA/PA_EINT19) |
28 |
PA18 (PCM0_SYNC/TWI1_SCK/PA_EINT18) |
29 |
PA7 (SIM_CLK/PA_EINT7) |
30 |
GND |
31 |
PA8 (SIM_DATA/PA_EINT8) |
32 |
PG8 (UART1_RTS/PG_EINT8) |
33 |
PA9 (SIM_RST/PA_EINT9) |
34 |
GND |
35 |
PA10 (SIM_DET/PA_EINT10) |
36 |
PG9 (UART1_CTS/PG_EINT9) |
37 |
PA20 (PCM0_DOUT/SIM_VPPEN/PA_EINT20) |
38 |
PG6 (UART1_TX/PG_EINT6) |
39 |
GND |
40 |
PG7 (UART1_RX/PG_EINT7) |
CSI (Camera Serial Interface) — Разъем камеры
На Orange Pi Plus, Orange Pi Plus 2 и Orange Pi Plus 2E есть FPC разъем CSI на 24 выводов для подключения камеры.
1×24 Выводов |
1 |
NC |
2 |
GND |
3 |
TWI2-SDA PE13 |
4 |
VCC-CSI |
5 |
TWI2-SCK PE12 |
6 |
CSI-RESET# PE15 |
7 |
CSI-VSYNC PE3 |
8 |
CSI-STBY-EN PE15 |
9 |
CSI-HSYNC PE2 |
10 |
VDD1V8-CSI |
11 |
VCC-CSI |
12 |
CSI-D7 PE11 |
13 |
CSI-MCLK PE1 |
14 |
CSI-D6 PE10 |
15 |
GND |
16 |
CSI-D5 PE9 |
17 |
CSI-PCLK PE0 |
18 |
CSI-D4 PE8 |
19 |
CSI-D0 PE4 |
20 |
CSI-D3 PE7 |
21 |
CSI-D1 PE5 |
22 |
CSI-D2 PE6 |
23 |
GND |
24 |
AFVCC-CSI |
UART Интерфейс для отладки (Debug TTL UART)
1×3 Выводов |
1 |
GND |
2 |
RX |
3 |
TX |
GPIO на 26 выводов
26-контактный разъем GPIO на Orange Pi Zero совпадает с GPIO на Orange Pi.
2×13 Выводов (H2) |
1 |
3.3V |
2 |
5V |
3 |
PB21 TWI2-SDA |
4 |
5V |
5 |
PB20 TWI2-SCK |
6 |
GND |
7 |
PI3 PWM1 |
8 |
PH0 UART3_TX |
9 |
GND |
10 |
PH1 UART3_RX |
11 |
PI19 UART2_RX |
12 |
PH2 |
13 |
PI18 UART2_TX |
14 |
GND |
15 |
PI17 UART2_CTS |
16 |
PH20 CAN_TX |
17 |
3.3V |
18 |
PH21 CAN_RX |
19 |
PI12 SPI0_MOSI |
20 |
GND |
21 |
PI13 SPI0_MISO |
22 |
PI16 UART2_RTS |
23 |
PI11 SPI0_CLK |
24 |
PI10 SPI0_CS0 |
25 |
GND |
26 |
PI14 SPI0_CS1 |
GPIO на 13 выводов
Orange Pi Zero дополнительно имеет 13 выводов включающие: два USB порта, IR (ИК) вход, микрофон, аудио и TV (ТВ) выход.
1×13 Выводов (H2) |
1 |
5V |
2 |
GND |
3 |
USB-DM2 |
4 |
USB-DP2 |
5 |
USB-DM3 |
6 |
USB-DP2 |
7 |
LINEOUTR |
8 |
LINEOUTL |
9 |
TV-OUT |
10 |
MIC-BIAS |
11 |
MIC1P |
12 |
MIC1N |
13 |
IR-RX |
UART Интерфейс для отладки (Debug TTL UART)
1×3 Выводов |
1 |
GND |
2 |
RX |
3 |
TX |
Orange Pi Win и Orange Pi Win Plus имеют одинаковые выводы общего назначения GPIO, разъемы камер CSI, LCD и UART интерфейсы для отладки.
Orange Pi Win и Orange Pi Win Plus имеют 40 выводов общего назначения GPIO, совместим с GPIO Raspberry Pi B+.
GPIO Orange Pi Win/Win Plus (A64) |
Имя контакта
GPIO |
Функция
по умолчанию |
Функция 2:
GPIO |
CON1-P01 |
VCC3V3-EXT |
|
CON1-P02 |
VCC5V-EXT |
|
CON1-P03 |
TWI1-SDA |
PH3 |
CON1-P04 |
VCC-5V |
|
CON1-P05 |
TWI1-SCK |
PH2 |
CON1-P06 |
GND |
|
CON1-P07 |
S_PWM |
PL10 |
CON1-P08 |
S_UART_TX |
PL2 |
CON1-P09 |
GND |
|
CON1-P10 |
S_UART_RX |
PL3 |
CON1-P11 |
UART3_RX |
PH5 |
CON1-P12 |
PD4 |
PD4 |
CON1-P13 |
UART3_TX |
PH4 |
CON1-P14 |
GND |
|
CON1-P15 |
UART3_CTS |
PH7 |
CON1-P16 |
PL9 |
PL9 |
CON1-P17 |
VCC3V3-EXT |
|
CON1-P18 |
PC4 |
PC4 |
CON1-P19 |
SPI1_MOSI |
PD2 |
CON1-P20 |
GND |
|
CON1-P21 |
SPI1_MISO |
PD3 |
CON1-P22 |
UART3_RTS |
PH6 |
CON1-P23 |
SPI1_CLK |
PD1 |
CON1-P24 |
SPI1_CS0 |
PD0 |
CON1-P25 |
GND |
|
CON1-P26 |
PD6 |
PD6 |
CON1-P27 |
TWI2-SDA |
PE15 |
CON1-P28 |
TWI2-SCK |
PE14 |
CON1-P29 |
PB4 |
PB4 |
CON1-P30 |
GND |
|
CON1-P31 |
PB5 |
PB5 |
CON1-P32 |
UART2_RTS |
PB2 |
CON1-P33 |
PB6 |
PB6 |
CON1-P34 |
GND |
|
CON1-P35 |
PB7 |
PB7 |
CON1-P36 |
UART2_CTS |
PB3 |
CON1-P37 |
PD5 |
PD5 |
CON1-P38 |
UART2_TX |
PB0 |
CON1-P39 |
GND |
|
CON1-P40 |
UART2_RX |
PB1 |
CSI (Camera Serial Interface) — Разъем камеры
CSI Orange Pi Win/Win Plus (A64) |
Имя контакта
GPIO |
Функция
по умолчанию |
Функция 2:
GPIO |
CON1-P01 |
NC |
|
CON1-P02 |
GND |
|
CON1-P03 |
TWI2-SDA |
PE13 |
CON1-P04 |
VCC-CSI |
|
CON1-P05 |
TWI2-SCK |
PE12 |
CON1-P06 |
CSI-RESET# |
PE15 |
CON1-P07 |
CSI-VSYNC |
PE3 |
CON1-P08 |
CSI-STBY-EN |
PE15 |
CON1-P09 |
CSI-HSYNC |
PE2 |
CON1-P10 |
VDD1V8-CSI |
|
CON1-P11 |
VCC-CSI |
|
CON1-P12 |
CSI-D7 |
PE11 |
CON1-P13 |
CSI-MCLK |
PE1 |
CON1-P14 |
CSI-D6 |
PE10 |
CON1-P15 |
GND |
|
CON1-P16 |
CSI-D5 |
PE9 |
CON1-P17 |
CSI-PCLK |
PE0 |
CON1-P18 |
CSI-D4 |
PE8 |
CON1-P19 |
CSI-D0 |
PE4 |
CON1-P20 |
CSI-D3 |
PE7 |
CON1-P21 |
CSI-D1 |
PE5 |
CON1-P22 |
CSI-D2 |
PE6 |
CON1-P23 |
GND |
|
CON1-P24 |
AFVCC-CSI |
|
LCD — Разъем ЖК
LCD Orange Pi Win/Win Plus (A64) |
Имя контакта
GPIO |
Функция
по умолчанию |
CON1-P01 |
GND |
CON1-P02 |
DSI-D3N |
CON1-P03 |
DSI-D3P |
CON1-P04 |
DSI-D2N |
CON1-P05 |
DSI-D2P |
CON1-P06 |
DSI-D1N |
CON1-P07 |
DSI-D1P |
CON1-P08 |
DSI-D0N |
CON1-P09 |
DSI-D0P |
CON1-P10 |
DSI-CKN |
CON1-P11 |
DSI-CKP |
CON1-P12 |
GND |
CON1-P13 |
LCD-RST |
CON1-P14 |
LCD-BL-EN |
CON1-P15 |
LCD-PWM |
CON1-P16 |
CTP-RST |
CON1-P17 |
CTP-INT |
CON1-P18 |
TWI0-SCK |
CON1-P19 |
TWI0-SDA |
CON1-P20 |
GND |
CON1-P21 |
GND |
CON1-P22 |
VCC5V-LCD |
CON1-P23 |
VCC5V-LCD |
CON1-P24 |
VCC5V-LCD |
UART Интерфейс для отладки (Debug TTL UART)
1×3 Выводов |
1 |
GND |
2 |
RX |
3 |
TX |
GPIO на 26 выводов
26-контактный разъем GPIO на Orange Pi R1 совпадает с GPIO на Orange Pi Zero.
2×13 Выводов (H2) |
1 |
3.3V |
2 |
5V |
3 |
PB21 TWI2-SDA |
4 |
5V |
5 |
PB20 TWI2-SCK |
6 |
GND |
7 |
PI3 PWM1 |
8 |
PH0 UART3_TX |
9 |
GND |
10 |
PH1 UART3_RX |
11 |
PI19 UART2_RX |
12 |
PH2 |
13 |
PI18 UART2_TX |
14 |
GND |
15 |
PI17 UART2_CTS |
16 |
PH20 CAN_TX |
17 |
3.3V |
18 |
PH21 CAN_RX |
19 |
PI12 SPI0_MOSI |
20 |
GND |
21 |
PI13 SPI0_MISO |
22 |
PI16 UART2_RTS |
23 |
PI11 SPI0_CLK |
24 |
PI10 SPI0_CS0 |
25 |
GND |
26 |
PI14 SPI0_CS1 |
GPIO на 13 выводов
Orange Pi R1 дополнительно имеет 13 выводов включающие: два USB порта, IR (ИК) вход, микрофон, аудио и TV (ТВ) выход.
1×13 Выводов (H2) |
1 |
5V |
2 |
GND |
3 |
USB-DM2 |
4 |
USB-DP2 |
5 |
USB-DM3 |
6 |
USB-DP2 |
7 |
LINEOUTR |
8 |
LINEOUTL |
9 |
TV-OUT |
10 |
MIC-BIAS |
11 |
MIC1P |
12 |
MIC1N |
13 |
IR-RX |
UART Интерфейс для отладки (Debug TTL UART)
Материалы
http://www.orangepi.org/
http://linux-sunxi.org/Main_Page
ORANGEPI-Winplus-V1_3.pdf
Добавьте пожалуйста распиновки для Orange Pi Win/Win plus, в частности разъёма дисплея MIPI-DSI.
Исправьте таблицу Zero и R1, там таблица от Orange Pi на A20 с пинами PI, Zero Plus2 такая же таблица только вместо пинов PI пины PD, схема есть и usermanual на сайте orangepi.org
http://linux-sunxi.org/Xunlong_Orange_Pi_Zero
線上賭場
Understanding the complex world of chronometers
Understanding COSC Certification and Its Importance in Watchmaking
COSC Certification and its Stringent Criteria
COSC, or the Controle Officiel Suisse des Chronometres, is the authorized Switzerland testing agency that verifies the precision and accuracy of timepieces. COSC validation is a mark of superior craftsmanship and trustworthiness in chronometry. Not all timepiece brands pursue COSC accreditation, such as Hublot, which instead follows to its proprietary stringent criteria with mechanisms like the UNICO, reaching comparable accuracy.
The Art of Precision Chronometry
The core system of a mechanical watch involves the spring, which delivers power as it loosens. This system, however, can be vulnerable to external elements that may impact its accuracy. COSC-accredited movements undergo demanding testing—over 15 days in various circumstances (5 positions, three temperatures)—to ensure their durability and reliability. The tests measure:
Average daily rate precision between -4 and +6 secs.
Mean variation, highest variation rates, and impacts of temperature variations.
Why COSC Certification Is Important
For timepiece fans and connoisseurs, a COSC-certified watch isn’t just a piece of tech but a testament to enduring quality and precision. It signifies a timepiece that:
Offers excellent reliability and precision.
Provides confidence of quality across the complete construction of the watch.
Is likely to retain its value better, making it a wise investment.
Popular Chronometer Brands
Several well-known manufacturers prioritize COSC accreditation for their watches, including Rolex, Omega, Breitling, and Longines, among others. Longines, for instance, provides collections like the Archive and Spirit, which feature COSC-certified movements equipped with advanced substances like silicone equilibrium springs to boost durability and efficiency.
Historic Context and the Development of Timepieces
The idea of the chronometer dates back to the need for accurate chronometry for navigational at sea, highlighted by John Harrison’s work in the 18th century. Since the official foundation of Controle Officiel Suisse des Chronometres in 1973, the certification has become a standard for evaluating the accuracy of high-end watches, maintaining a legacy of superiority in horology.
Conclusion
Owning a COSC-accredited watch is more than an visual choice; it’s a dedication to quality and accuracy. For those appreciating accuracy above all, the COSC certification provides peace of thoughts, guaranteeing that each certified timepiece will function reliably under various circumstances. Whether for personal satisfaction or as an investment, COSC-certified timepieces distinguish themselves in the world of watchmaking, carrying on a tradition of careful timekeeping.
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주식신용
로드스탁과 레버리지 스탁: 투자의 참신한 영역
로드스탁에서 제공되는 레버리지 방식의 스탁은 증권 투자의 한 방법으로, 상당한 이익율을 목표로 하는 투자자들을 위해 유혹적인 선택입니다. 레버리지 사용을 사용하는 이 방법은 투자자가 자신의 투자금을 넘어서는 금액을 투입할 수 있도록 하여, 주식 시장에서 더욱 큰 영향력을 행사할 수 있는 기회를 줍니다.
레버리지 방식의 스탁의 기본 원칙
레버리지 방식의 스탁은 기본적으로 자금을 차입하여 사용하는 방식입니다. 예를 들어, 100만 원의 자금으로 1,000만 원 상당의 증권을 사들일 수 있는데, 이는 투자자가 기본적인 투자 금액보다 훨씬 더욱 많은 주식을 취득하여, 증권 가격이 상승할 경우 관련된 더 큰 수익을 얻을 수 있게 해줍니다. 하지만, 주식 값이 내려갈 경우에는 그 피해 또한 증가할 수 있으므로, 레버리지 사용을 이용할 때는 조심해야 합니다.
투자 전략과 레버리지 사용
레버리지 사용은 특히 성장 가능성이 높은 사업체에 적용할 때 효과적입니다. 이러한 사업체에 큰 비율로 투자하면, 잘 될 경우 상당한 수입을 얻을 수 있지만, 반대 경우의 경우 많은 위험성도 감수하게 됩니다. 그러므로, 투자하는 사람은 자신의 위험 관리 능력을 가진 상장 분석을 통해, 일정한 회사에 얼마만큼의 자본을 적용할지 결정하게 됩니다 합니다.
레버리지의 이점과 위험 요소
레버리지 스탁은 큰 수익을 보장하지만, 그만큼 큰 위험도 수반합니다. 주식 장의 변화는 예상이 힘들기 때문에, 레버리지 사용을 이용할 때는 언제나 시장 동향을 면밀히 살펴보고, 피해를 최소로 줄일 수 있는 계획을 구성해야 합니다.
맺음말: 세심한 결정이 필요
로드스탁을 통해 제공된 레버리지 방식의 스탁은 강력한 투자 도구이며, 잘 이용하면 큰 수입을 제공할 수 있습니다. 하지만 높은 리스크도 신경 써야 하며, 투자 선택은 충분한 정보와 조심스러운 생각 후에 진행되어야 합니다. 투자자 자신의 금융 상황, 위험을 감수하는 능력, 그리고 시장의 상황을 생각한 균형 잡힌 투자 전략이 중요합니다.