BOARDCON MINI3288 Single Board Computer rint Android
Faak stelde fragen
F: Wat is de maksimale aktuele stipe troch de VCC_IO?
A: De VCC_IO stipet in maksimale stroom fan 600-800mA.
F: Wat binne de voltage ynfier spesifikaasjes foar it systeem?
A: It systeem fereasket in systeem oanbod voltage ynput fan 3.6V oant 5V.
Ynlieding
Oer dizze hânlieding
Dizze hantlieding is bedoeld om de brûker in oer te jaanview fan it bestjoer en foardielen, folsleine funksjes spesifikaasjes, en opsetten prosedueres. It befettet ek wichtige feiligensynformaasje.
Feedback en fernijing nei dizze hânlieding
Om ús klanten te helpen it measte út ús produkten te heljen, meitsje wy kontinu ekstra en bywurke boarnen beskikber op de Boardcon webside (www.boardcon.com , www.armdesigner.com).
Dizze omfetsje hânboeken, applikaasjenotysjes, programmearring bglamples, en bywurke software en hardware. Kontrolearje periodyk om te sjen wat nij is!
As wy prioritearje wurkje oan dizze bywurke boarnen, is feedback fan klanten de nûmer ien ynfloed, as jo fragen, opmerkings of soargen hawwe oer jo produkt of projekt, aarzel dan net om kontakt mei ús op te nimmen op support@armdesigner.com.
Beheinde garânsje
Boardcon garandearret dat dit produkt frij is fan defekten yn materiaal en fakmanskip foar in perioade fan ien jier fan 'e datum fan oankeap. Yn dizze garânsjeperioade sil Boardcon de defekte ienheid reparearje of ferfange yn oerienstimming mei it folgjende proses:
In kopy fan 'e orizjinele faktuer moat opnommen wurde by it werombringen fan de defekte ienheid oan Boardcon. Dizze beheinde garânsje dekt gjin skea dy't ûntstien is út ferljochting of oare stroomstoarmen, misbrûk, misbrûk, abnormale operaasjes, of besykjen om de funksje fan it produkt te feroarjen of te feroarjen. Dizze garânsje is beheind ta de reparaasje of ferfanging fan 'e defekte ienheid. Yn gjin gefal sil Boardcon oanspraaklik of ferantwurdlik wêze foar ferlies of skea, ynklusyf, mar net beheind ta ferlies fan winst, ynsidintele of gefolchskea, ferlies fan bedriuw, of ferwachte winst dy't fuortkomme út it gebrûk of ûnfermogen om dizze produkten te brûken. Reparaasjes meitsje nei it ferstriken fan 'e garânsjeperioade binne ûnderwurpen oan in reparaasjekosten en de kosten fan weromferstjoering. Nim dan kontakt op mei Boardcon om in reparaasjetsjinst te regeljen en ynformaasje oer reparaasjekosten te krijen.
MINI3288 Yntroduksje
Gearfetting
- MINI3288 is in System on Module (SOM) basearre op de RK3288. De module hat alle pins funksje fan RK3288, lege kosten en hege-optreden. Kompatibel mei MINI3288.
- RK3288 Yntegrearje quad-core Cortex-A17 mei apart Neon en FPU coprocessor, ek dield 1MB L2 Cache. Mear dan 32-bit adres sil maksimaal 8GB tagongsromte stypje.
- Op it stuit is de lêste generaasje en machtichste GPU ynbêde om soepel display mei hege resolúsje (3840 × 2160) en mainstream-spiel te stypjen. Support OpenVG1.1, OpenGL ES1.1/2.0/3.0, OpenCL1.1, RenderScript en DirectX11 ensfh Folsleine opmaak video decoder, ynklusyf 4Kx2K multi-format decoder.
- In protte interface mei hege prestaasjes om heul fleksibele oplossing te krijen, lykas multi-pipe-display mei dual-channel LVDS, MIPI-DSI of MIPI-CSI-opsje, HDMI2.0, dual-channel ISP ynbêde.
- Dual-Channel 64bits DDR3 / LPDDR2 / LPDDR3 soarget foar easken ûnthâld bânbreedtes foar hege-optreden en hege-resolúsje applikaasje.
- De single board komputer hat folsleine elektroanyske dokumintaasje, skema's, demo-applikaasjes, en yndustrystandert C-kompilers fan tredden en ynbêde ûntwikkelingsomjouwings foar evaluaasje. Wy binne der wis fan dat wy de juste single board komputer hawwe foar jo applikaasjes.
RK3288 Features
- CPU
- Quad-Core Cortex-A17 Apart yntegreare neon en FPU per CPU 32KB/32KB L1 ICache/DCache per CPU Unified 1MB L2 Cache
- LPAE (Large Physical Address Extensions), Stipe oant 8GB adresromte Virtualisaasje-útwreidings Stipe
- GPU
- Quad-Core Mali-T7-searje, lêste krêftige grafyske prosessor Architected foar GPU Computing
- Stypje OpenGL ES1.1/2.0/3.0, OpenVG1.1, OpenCL1.1 en Renderscript, Directx11
- VPU
- Stypje MPEG-2, MPEG-4, AVS, VC-1, VP8, MVC mei maksimaal 1080p@60fps
- Stypje multi-formaat fideodekoder mei maksimaal 4Kx2K
- Stypje muti-formaat fideo-encoder mei maksimaal 1080p @ 30fps
- Fideo ynterface
- Fideo-ynfier: MIPI CSI, DVP
- Fideo-werjefte: RGB / 8/10bits LVDS, HDMI2.0 om maksimaal 4Kx2K-werjefte te stypjen
- Unthâld ynterface
- Nand Flash Interface
- eMMC ynterface
- DR ynterface
- Rich Konnektivität
- SD/MMC/SDIO-ynterface, kompatibel mei SD3.0, SDIO3.0 en MMC4.5
- Ien 8-kanalen I2S/PCM-ynterface, Ien 8-kanalen SPDIF-ynterface
- Ien USB2.0 OTG, Twa USB2.0 Host
- 100M / 1000M RMII / RGMII Ethernet ynterface
- Dual-kanaal TS-streamynterface, descramble en demux-stipe
- Smart Card ynterface
- 4-CH UART, 2-CH SPI (opsje), 6-CH I2C (oant 4Mbps), 2-CH PWM (opsje)
- PS / 2 master ynterface
- HSIC ynterface
- 3-CH ADC ynfier
MINI3288 Features
| Eigenskip | Spesifikaasjes |
| CPU | RK3288 Quad-core ARM Cortex-A17 MPCore prosessor |
| Oantinken | Standert 512MB DDR3L |
| NAND Flash | 8GB eMMC Flash |
| Krêft | DC 3.6V-5V Netzteil |
| PMU | ACT8846 |
| UART | 4-CH (oant 5-CH, opsje troch SPI0) |
| RGB | 24-bit |
| LVDS | 1-CH 10bit Dul-LVDS |
| Ethernet | 1 Gigabit (RTL8211 oan board) |
| USB | 2-CH USB2.0 Host, 1-CH USB2.0 OTG |
| SPDF | 1-CH |
| CIF | 1-CH DVP 8-bit en MIPI CSI |
| HDMI | 1-CH |
| PS2 | 1-CH |
| ADC | 3-CH |
| PWM | 2-CH (oant 4-CH, opsje troch UART2) |
| IIC | 5-CH |
| AUDIO IF | 1-CH |
| SPI | 2-CH |
| HSMMC/SD | 2-CH |
| Diminsje | 70 x 58 mm |
PCB Dimension
Blokdiagram
CPU Module Yntroduksje
Elektryske eigendom
Dissipaasje
| Symboal | Parameter | Min | Typ | Max | Ienheid |
| SYS_POWER | System Supply Voltage Ynfier | 3.6 | 5 | 5 | V |
| VCC_IO | IO Supply Voltage Utfier | 3.3 | V | ||
| VCCA_18 | RK1000-S | 1.8 | V | ||
| VCCA_33 | LCDC / I2S Controller | 3.3 | V | ||
| VCC_18 | RK3288 SAR-ADC/ RK3288 USB PHY | 1.8 | V | ||
| VCC_LAN | LAN PHY | 3.3 | V | ||
| VCC_RTC | RTC Battery Voltage | 2.5 | 3 | 3.6 | V |
| Isys_power | Systeem Supply Max Strom | 1.1 | 1.5 | A | |
| Imax(VCC_IO) | VCC_IO Max Strom | 600 | 800 | mA | |
| Ivcca_18 | VCCA_18 Max Strom | 250 | mA | ||
| Ivcca_33 | VCCA_33 Max Strom | 350 | mA | ||
| Ivcc_18 | VCC_18 Max Strom | 350 | mA |
| Irtc | RTC-ynfierstrom | 10 | uA |
CPU temperatuer
|
Toets Betingsten |
Miljeu
Temperatuer |
Min |
Typ |
Max |
Ienheid |
| Standby | 20 | 43 | 45 | ℃ | |
| Spielje de fideo | 20 | 45 | 48 | ℃ | |
| Folsleine krêft | 20 | 80 | 85 | ℃ |
Pin Definysje
| Pin (J1) | Sinjaal namme | Funksje 1 | Funksje 2 | IO Type |
| 1 | TX_C- | HDMI TMDS klok- | O | |
| 2 | TX_0- | HDMI TMDS Data0- | O | |
| 3 | TX_C+ | HDMI TMDS Clock + | O | |
| 4 | TX_0+ | HDMI TMDS Data0+ | O | |
| 5 | GND | Power Ground | P | |
| 6 | GND | Power Ground | P | |
| 7 | TX_1- | HDMI TMDS Data1- | O | |
| 8 | TX_2- | HDMI TMDS Data2- | O | |
| 9 | TX_1+ | HDMI TMDS Data1+ | O | |
| 10 | TX_2+ | HDMI TMDS Data2+ | O | |
| 11 | HDMI_HPD | HDMI Hot Plug Detection | I | |
| 12 | HDMI_CEC | HDMI Consumer Electronics Control | GPIO7_C0_u | I/O |
| 13 | I2C5_SDA_HDMI | I2C5 Bus Data | GPIO7_C3_u | I/O |
| 14 | I2C5_SCL_HDMI | I2C5 Bus Klok | GPIO7_C4_u | I/O |
| 15 | GND | Power Ground | P | |
| 16 | LCD_VSYNC | LCD Fertikale Syngronisaasje | GPIO1_D1_d | I/O |
| 17 | LCD_HSYNC | LCD Horizontale Syngronisaasje | GPIO1_D0_d | I/O |
| 18 | LCD_CLK | LCD klok | GPIO1_D3_d | I/O |
| 19 | LCD_DEN | LCD ynskeakelje | GPIO1_D2_d | I/O |
| 20 | LCD_D0_LD0P | LCD Data0 of LVDS Differential Data0+ | I/O | |
| 21 | LCD_D1_LD0N | LCD Data1 of LVDS Differential Data0- | I/O | |
| 22 | LCD_D2_LD1P | LCD Data2 of LVDS Differential Data1+ | I/O | |
| 23 | LCD_D3_LD1N | LCD Data3 of LVDS Differential Data1- | I/O | |
| 24 | LCD_D4_LD2P | LCD Data4 of LVDS Differential Data2+ | I/O | |
| 25 | LCD_D5_LD2N | LCD Data5 of LVDS Differential Data2- | I/O | |
| 26 | LCD_D6_LD3P | LCD Data6 of LVDS Differential Data3+ | I/O | |
| 27 | LCD_D7_LD3N | LCD Data7 of LVDS Differential Data3- | I/O | |
| 28 | LCD_D8_LD4P | LCD Data8 of LVDS Differential Data4+ | I/O |
| Pin (J1) | Sinjaal namme | Funksje 1 | Funksje 2 | IO Type |
| 29 | LCD_D9_LD4N | LCD Data9 of LVDS Differential Data4- | I/O | |
| 30 | LCD_D10_LCK0P | LCD Data10 of LVDS Differential Clock0+ | I/O | |
| 31 | LCD_D11_LCK0N | LCD Data11 of LVDS Differential Clock0- | I/O | |
| 32 | LCD_D12_LD5P | LCD Data12 of LVDS Differential Data5+ | I/O | |
| 33 | LCD_D13_LD5N | LCD Data13 of LVDS Differential Data5- | I/O | |
| 34 | LCD_D14_LD6P | LCD Data14 of LVDS Differential Data6+ | I/O | |
| 35 | LCD_D15_LD6N | LCD Data15 of LVDS Differential Data6- | I/O | |
| 36 | LCD_D16_LD7P | LCD Data16 of LVDS Differential Data7+ | I/O | |
| 37 | LCD_D17_LD7N | LCD Data17 of LVDS Differential Data7- | I/O | |
| 38 | LCD_D18_LD8P | LCD Data18 of LVDS Differential Data8+ | I/O | |
| 39 | LCD_D19_LD8N | LCD Data19 of LVDS Differential Data8- | I/O | |
| 40 | LCD_D20_LD9P | LCD Data20 of LVDS Differential Data9- | I/O | |
| 41 | LCD_D21_LD9N | LCD Data21 of LVDS Differential Data9+ | I/O | |
| 42 | LCD_D22_LCK1P | LCD Data22 of LVDS Differential Clock1+ | I/O | |
| 43 | LCD_D23_LCK1N | LCD Data23 of LVDS Differential Clock1- | I/O | |
| 44 | GND | Power Ground | P | |
| 45 | MIPI_TX/RX_CLKN | MIPI Klok negative sinjaal ynfier | I/O | |
| 46 | MIPI_TX/RX_D0P | MIPI gegevens pear 0 positive sinjaal input | I/O | |
| 47 | MIPI_TX/RX_CLKP | MIPI Klok positive sinjaal ynfier | I/O | |
| 48 | MIPI_TX/RX_D0N | MIPI gegevens pear 0 negative sinjaal input | I/O | |
| 49 | MIPI_TX/RX_D2N | MIPI gegevens pear 2 negative sinjaal input | I/O | |
| 50 | MIPI_TX/RX_D1N | MIPI gegevens pear 1 negative sinjaal input | I/O | |
| 51 | MIPI_TX/RX_D2P | MIPI gegevens pear 2 positive sinjaal input | I/O | |
| 52 | MIPI_TX/RX_D1P | MIPI gegevens pear 1 positive sinjaal input | I/O | |
| 53 | MIPI_TX/RX_D3P | MIPI gegevens pear 3 positive sinjaal input | I/O | |
| 54 | GND | Power Ground | P | |
| 55 | MIPI_TX/RX_D3N | MIPI gegevens pear 3 negative sinjaal input | I/O | |
| 56 | DVP_PWR | GPIO0_C1_d | I/O | |
| 57 | HSIC_STROBE | HSIC_STROBE | ||
| 58 | HSIC_DATA | HSIC_DATA | ||
| 59 | GND | Power Ground | P | |
| 60 | CIF_D1 | GPIO2_B5_d | I/O | |
| 61 | CIF_D0 | GPIO2_B4_d | I/O | |
| 62 | CIF_D3 | HOST_D1 of TS_D1 | GPIO2_A1_d | I/O |
| 63 | CIF_D2 | HOST_D0 of TS_D0 | GPIO2_A0_d | I/O |
| 64 | CIF_D5 | HOST_D3 of TS_D3 | GPIO2_A3_d | I/O |
| 65 | CIF_D4 | HOST_D2 of TS_D2 | GPIO2_A2_d | I/O |
| 66 | CIF_D7 | HOST_CKINN of TS_D5 | GPIO2_A5_d | I/O |
| 67 | CIF_D6 | HOST_CKINP of TS_D4 | GPIO2_A4_d | I/O |
| Pin (J1) | Sinjaal namme | Funksje 1 | Funksje 2 | IO Type |
| 68 | CIF_D9 | HOST_D5 of TS_D7 | GPIO2_A7_d | I/O |
| 69 | CIF_D8 | HOST_D4 of TS_D6 | GPIO2_A6_d | I/O |
| 70 | CIF_PDN0 | GPIO2_B7_d | I/O | |
| 71 | CIF_D10 | GPIO2_B6_d | I/O | |
| 72 | CIF_HREF | HOST_D7 of TS_VALID | GPIO2_B1_d | I/O |
| 73 | CIF_VSYNC | HOST_D6 of TS_SYNC | GPIO2_B0_d | I/O |
| 74 | CIF_CLKOUT | HOST_WKREQ of TS_FAIL | GPIO2_B3_d | I/O |
| 75 | CIF_CLKIN | HOST_WKACK of GPS_CLK of TS_CLKOUT | GPIO2_B2_d | I/O |
| 76 | I2C3_SCL | GPIO2_C0_u | I/O | |
| 77 | I2C3_SDA | GPIO2_C1_u | I/O | |
| 78 | GND | Power Ground | P | |
| 79 | GPIO0_B2_D | OTP_OUT | GPIO0_B2_d | I/O |
| 80 | GPIO7_A3_D | GPIO7_A3_d | I/O | |
| 81 | GPIO7_A6_U | GPIO7_A6_u | I/O | |
| 82 | GPIO0_A6_U | GPIO0_A6_u | I/O | |
| 83 | LED0_AD0 | PHYAD0 | ||
| 84 | LED1_AD1 | PHYAD1 | ||
| 85 | VCC_LAN | Ethernet Netzteil 3.3V | ||
| 86 | PS2_DATA | PS2 Data | GPIO8_A1_u | I/O |
| 87 | PS2_CLK | PS2 klok | GPIO8_A0_u | I/O |
| 88 | ADC0_IN | I | ||
| 89 | GPIO0_A7_U | PMUGPIO0_A7_u | I/O | |
| 90 | ADC1_IN | GENÊZE | I | |
| 91 | VCCIO_SD | SD Card macht Supply 3.3V | ||
| 92 | ADC2_IN | I | ||
| 93 | VCC_CAM | Power 1.8V | ||
| 94 | VCCA_33 | Power 3.3V | ||
| 95 | VCC_18 | Power 1.8V | ||
| 96 | VCC_RTC | Real-Time Clock Power Supply | ||
| 97 | VCC_IO | 3.3V | ||
| 98 | GND | Power Ground | P | |
| 99 | VCC_IO | 3.3V | ||
| 100 | GND | Power Ground | P |
| Pin (J2) | Sinjaal namme | Funksje 1 | Funksje 2 | IO Type |
| 1 | VCC_SYS | Systeem Power Supply 3.6 ~ 5V | ||
| 2 | GND | Power Ground | ||
| 3 | VCC_SYS | Systeem Power Supply 3.6 ~ 5V | ||
| 4 | GND | Power Ground |
| Pin (J2) | Sinjaal namme | Funksje 1 | Funksje 2 | IO Type |
| 5 | nRESET | Systeem weromsette | I | |
| 6 | MDI0 + | 100M/1G Ethernet MDI0+ | ||
| 7 | MDI1 + | 100M/1G Ethernet MDI1+ | ||
| 8 | MDI0- | 100M/1G Ethernet MDI0- | ||
| 9 | MDI1- | 100M/1G Ethernet MDI1- | ||
| 10 | IR_INT | PWM CH0 | GPIO7_A0_d | I/O |
| 11 | MDI2 + | 100M/1G Ethernet MDI2+ | ||
| 12 | MDI3 + | 100M/1G Ethernet MDI3+ | ||
| 13 | MDI2- | 100M/1G Ethernet MDI2- | ||
| 14 | MDI3- | 100M/1G Ethernet MDI3- | ||
| 15 | GND | Power Ground | P | |
| 16 | RST_KEY | Systeem weromsette | I | |
| 17 | SDIO0_CMD | GPIO4_D0_u | I/O | |
| 18 | SDIO0_D0 | GPIO4_C4_u | I/O | |
| 19 | SDIO0_D1 | GPIO4_C5_u | I/O | |
| 20 | SDIO0_D2 | GPIO4_C6_u | I/O | |
| 21 | SDIO0_D3 | GPIO4_C7_u | I/O | |
| 22 | SDIO0_CLK | GPIO4_D1_d | I/O | |
| 23 | BT_WAKE | SDIO0_DET | GPIO4_D2_u | I/O |
| 24 | SDIO0_WP | GPIO4_D3_d | I/O | |
| 25 | WIFI_REG_ON | SDIO0_PWR | GPIO4_D4_d | I/O |
| 26 | BT_HOST_WAKE | GPIO4_D7_u | I/O | |
| 27 | WIFI_HOST_WAKE | SDIO0_INTn | GPIO4_D6_u | I/O |
| 28 | BT_RST | SDIO0_BKPWR | GPIO4_D5_d | I/O |
| 29 | SPI2_CLK | SC_IO_T1 | GPIO8_A6_d | I/O |
| 30 | SPI2_CSn0 | SC_DET_T1 | GPIO8_A7_u | I/O |
| 31 | SPI2_RXD | SC_RST_T1 | GPIO8_B0_d | I/O |
| 32 | SPI2_TXD | SC_CLK_T1 | GPIO8_B1_d | I/O |
| 33 | OTG_VBUS_DRV | GPIO0_B4_d | I/O | |
| 34 | HOST_VBUS_DRV | GPIO0_B6_d | I/O | |
| 35 | UART0_RX | GPIO4_C0_u | I/O | |
| 36 | UART0_TX | GPIO4_C1_d | I/O | |
| 37 | GND | Power Ground | P | |
| 38 | UART0_CTS | GPIO4_C2_u | I/O | |
| 39 | OTG_DM | |||
| 40 | UART0_RTS | GPIO4_C3_u | I/O | |
| 41 | OTG_DP | |||
| 42 | OTG_ID | |||
| 43 | HOST1_DM | USB host haven 1 negative gegevens |
| Pin (J2) | Sinjaal namme | Funksje 1 | Funksje 2 | IO Type |
| 44 | OTG_DET | |||
| 45 | HOST1_DP | USB host haven 1 positive gegevens | ||
| 46 | HOST2_DM | USB host haven 2 negative gegevens | ||
| 47 | SPI0_CSn0 | UART4_RTSn of TS0_D5 | GPIO5_B5_u | I/O |
| 48 | HOST2_DP | USB host haven 2 positive gegevens | ||
| 49 | SPI0_CLK | UART4_CTSn of TS0_D4 | GPIO5_B4_u | I/O |
| 50 | GND | Power Ground | P | |
| 51 | SPI0_UART4_RXD | UART4_RX of TS0_D7 | GPIO5_B7_u | I/O |
| 52 | SPI0_UART4_TXD | UART4_TX of TS0_D6 | GPIO5_B6_d | I/O |
| 53 | GND | Power Ground | P | |
| 54 | TS0_SYNC | SPI0_CSn1 | GPIO5_C0_u | I/O |
| 55 | UART1_CTSn | TS0_D2 | GPIO5_B2_u | I/O |
| 56 | UART1_RTSn | TS0_D3 | GPIO5_B3_u | I/O |
| 57 | UART1_RX_TS0_D0 | TS0_D0 | GPIO5_B0_u | I/O |
| 58 | UART1_TX | TS0_D1 | GPIO5_B1_d | I/O |
| 59 | TS0_CLK | GPIO5_C2_d | I/O | |
| 60 | TS0_VALID | GPIO5_C1_d | I/O | |
| 61 | TS0_ERR | GPIO5_C3_d | I/O | |
| 62 | GPIO7_B4_U | ISP_SHUTTEREN of SPI1_CLK | GPIO7_B4_u | I/O |
| 63 | SDMMC_CLK | JTAG_TDO | GPIO6_C4_d | I/O |
| 64 | GND | Power Ground | P | |
| 65 | SDMMC_D0 | JTAG_TMS | GPIO6_C0_u | I/O |
| 66 | SDMMC_CMD | GPIO6_C5_u | I/O | |
| 67 | SDMMC_D2 | JTAG_TDI | GPIO6_C2_u | I/O |
| 68 | SDMMC_D1 | JTAG_TRSTN | GPIO6_C1_u | I/O |
| 69 | SDMMC_DET | GPIO6_C6_u | I/O | |
| 70 | SDMMC_D3 | JTAG_TCK | GPIO6_C3_u | I/O |
| 71 | SDMMC_PWR | eDP_HOTPLUG | GPIO7_B3_d | I/O |
| 72 | GPIO0_B5_D | Algemien IO | I/O | |
| 73 | GND | Power Ground | P | |
| 74 | GPIO7_B7_U | ISP_SHUTTERTRIG | GPIO7_B7_u | I/O |
| 75 | I2S_SDI | GPIO6_A3_d | I/O | |
| 76 | I2S_MCLK | GPIO6_B0_d | I/O | |
| 77 | I2S_SCLK | GPIO6_A0_d | I/O | |
| 78 | I2S_LRCK_RX | GPIO6_A1_d | I/O | |
| 79 | I2S_LRCK_TX | GPIO6_A2_d | I/O | |
| 80 | I2S_SDO0 | GPIO6_A4_d | I/O | |
| 81 | I2S_SDO1 | GPIO6_A5_d | I/O | |
| 82 | I2S_SDO2 | GPIO6_A6_d | I/O |
| Pin (J2) | Sinjaal namme | Funksje 1 | Funksje 2 | IO Type |
| 83 | I2S_SDO3 | GPIO6_A7_d | I/O | |
| 84 | SPDIF_TX | GPIO6_B3_d | I/O | |
| 85 | I2C2_SDA | GPIO6_B1_u | I/O | |
| 86 | GND | Power Ground | P | |
| 87 | I2C1_SDA | SC_RST | GPIO8_A4_u | I/O |
| 88 | I2C2_SCL | GPIO6_B2_u | I/O | |
| 89 | I2C4_SDA | GPIO7_C1_u | I/O | |
| 90 | I2C1_SCL | SC_CLK | GPIO8_A5_u | I/O |
| 91 | UART2_RX | IR_RX of PWM2 | GPIO7_C6_u | I/O |
| 92 | I2C4_SCL | GPIO7_C2_u | I/O | |
| 93 | UART3_RX | GPS_MAG of HSADC_D0_T1 | GPIO7_A7_u | I/O |
| 94 | UART2_TX | IR_TX of PWM3 of EDPHDMI_CEC | GPIO7_C7_u | I/O |
| 95 | UART3_RTSn | GPIO7_B2_u | I/O | |
| 96 | UART3_TX | GPS_SIG of HSADC_D1_T1 | GPIO7_B0_d | I/O |
| 97 | PWM1 | GPIO7_A1_d | I/O | |
| 98 | UART3_CTSn | GPS_RFCLK of GPS_CLK_T1 | GPIO7_B1_u | I/O |
| 99 | PWR_KEY | I | ||
| 100 | GPIO7_C5_D | GPIO7_C5_d | I/O |
Hoe te brûken de MINI3288 module
Connectors
PCB diminsje fan de Anschlüsse
De foto fan de Anschlüsse
RTC Batterij Circuit
SATA Circuit
Power Circuit
SD Interface Circuit
SD (Security Digital) kaart is in soarte fan in soad tapast card. In oantsjutte ynterface circuit op platfoarm stipet lêzen en skriuwen funksje fan SD card.
Ethernet Interface Circuit
Audio Codec Circuit
Display Circuit
USB Interface Circuit
WiFi / BT Circuit
GPS Circuit
4G Circuit
HDMI Circuit
Dokuminten / Resources
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BOARDCON MINI3288 Single Board Computer rint Android [pdf] Brûkershânlieding MINI3288 Single Board Computer Runs Android, MINI3288, Single Board Computer Runs Android, Board Computer Runs Android, Computer Runs Android, Runs Android, Android |