Mini1126 Referensi User Manual
V4.20241025
Boardcon Embedded Design
Ngatur sistem ditempelake adhedhasar Ide Panjenengan
1. Pambuka
1.1. Babagan Manual iki
Manual iki dimaksudaké kanggo nyedhiyani pangguna liwatview saka Papan lan keuntungan, specifications fitur lengkap, lan nyetel tata cara. Isine informasi safety penting uga.
1.2. Umpan Balik lan Nganyari Manual iki
Kanggo mbantu para pelanggan ngoptimalake produk, kita terus nggawe sumber daya tambahan lan dianyari kasedhiya ing Boardcon websitus ((www.boardcon.com , www.armdesigner.com)).
Iki kalebu manual, cathetan aplikasi, program examples, lan nganyari piranti lunak lan hardware. Priksa kanthi periodik kanggo ndeleng apa sing anyar!
Nalika kita ngutamakake karya ing sumber daya sing dianyari iki, umpan balik saka pelanggan minangka pengaruh nomer siji, Yen sampeyan duwe pitakon, komentar, utawa keprihatinan babagan produk utawa proyek sampeyan, aja ragu-ragu hubungi kita ing support@armdesigner.com.
1.3. Warranty winates
Boardcon njamin produk iki bebas saka cacat ing materi lan workmanship kanggo periode setahun saka tanggal tuku. Sajrone periode garansi iki, Boardcon bakal ndandani utawa ngganti unit sing rusak miturut proses ing ngisor iki:
Salinan invoice asli kudu kalebu nalika bali unit risak kanggo Boardcon. Garansi winates iki ora nutupi kerusakan amarga cahya utawa lonjakan daya liyane, nyalahi panggunaan, penyalahgunaan, kahanan operasi sing ora normal, utawa nyoba ngowahi utawa ngowahi fungsi produk.
Garansi iki diwatesi kanggo ndandani utawa ngganti unit sing rusak. Ing acara ora Boardcon bakal tanggung jawab utawa tanggung jawab kanggo mundhut utawa kerusakan, kalebu nanging ora winates kanggo sembarang bathi ilang, kerusakan insidental utawa consequential, mundhut saka bisnis, utawa bathi anticipatory njedhul saka nggunakake utawa kasekengan kanggo nggunakake produk iki.
Repairs digawe sawise kadaluwarsa periode babar pisan tundhuk biaya ndandani lan biaya kapal bali. Hubungi Boardcon kanggo ngatur layanan ndandani lan entuk informasi biaya ndandani.
1 Mini1126 Pambuka
1.1 Ringkesan
Sistem-on-modul Mini1126 dilengkapi Rockchip's RV1126 build in quad-core Cortex-A7, 2.0 TOPs NPU lan RISC-V MCU.
Iki dirancang khusus kanggo piranti IPC/CVR, piranti AI Camera, piranti interaktif cerdas, lan robot mini. Solusi kinerja dhuwur lan daya kurang bisa mbantu para pelanggan ngenalake teknologi anyar kanthi luwih cepet lan ningkatake efisiensi solusi sakabèhé.
1.2 Fitur
- Mikroprosesor
- Quad-core Cortex-A7 nganti 1.5G
– 32KB I-cache lan 32KB D-cache kanggo saben inti, 512KB L3 cache
– 2.0 TOPS Unit Proses Saraf
- RISC-V MCU kanggo ndhukung boot cepet 250mS
- ISP maksimal 14M
Organisasi memori
- LPDDR4 RAM nganti 4GB
- EMMC nganti 32GB
- SPI Flash nganti 8MB - Video Decoder/Encoder
- Ndhukung decode / encode video nganti 4K@30fps
- Ndhukung dekoding wektu nyata H.264/265
- Ndhukung enkoding video UHD H.264/265 wektu nyata
- Ukuran gambar nganti 8192 × 8192 - Tampilan Subsistem
– Video Output
Ndhukung 4 jalur MIPI DSI nganti 2560 × 1440@60fps
Ndhukung output paralel RGB 24bit
– Gambar ing
Ndhukung nganti antarmuka DVP 16bit
Ndhukung antarmuka 2ch MIPI CSI 4 jalur - I2S/PCM/AC97
- Loro antarmuka I2S / PCM
- Dhukungan array Mic Nganti antarmuka PDM / TDM 8ch
- Dhukungan output audio PWM - USB lan PCIE
- Loro antarmuka USB 2.0
- Siji USB 2.0 OTG, lan siji 2.0 USB host - Ethernet
- RTL8211F onboard
- Dhukungan 10/100/1000M - I2C
- Nganti limang I2C
- Ndhukung mode standar lan mode cepet (nganti 400kbit / s) - SDIO
- Dhukungan protokol 2CH SDIO 3.0 - SPI
- Nganti rong pengontrol SPI,
- Antarmuka serial sinkron full-duplex - UART
- Ndhukung nganti 6 UART
– UART2 karo 2 kabel kanggo alat debug
– Embedded loro 64byte FIFO
- Ndhukung mode kontrol aliran otomatis kanggo UART1-5 - ADC
- Nganti telung saluran ADC
- Resolusi 12-bit
– Voltage kisaran input antarane 0V kanggo 1.8V
- Dhukungan nganti 1MS / ssamptingkat ling - PWM
- 11 PWM on-chip kanthi operasi adhedhasar interupsi
- Ndhukung fasilitas wektu / counter 32bit
- Pilihan IR ing PWM3/7 - Unit daya
- RK809 ing papan
- Input 5V lan input daya RTC
- Codec Audio sing dibangun
1.3 Diagram Blok Mini1126
1.3.1 Diagram Blok RV1126
1.3.2 Papan Pangembangan (EM1126) Diagram Blok
1.4 Mini1126 specifications
| Fitur | Spesifikasi |
| CPU | Quad-core Cortex-A7 |
| DDR | 2GB LPDDR4 (nganti 4GB) |
| eMMC FLASH | 8GB (nganti 32GB) |
| daya | DC 5V |
| MIPI DSI | 4-Jalur |
| I2S | 2-CH |
| MIPI CSI | 2-CH 4-Lane |
| LCD RGB | 24 dicokot |
| kamera | 1-CH(DVP) lan 2-CH(CSI) |
| USB | 2-CH (USB HOST2.0 lan OTG 2.0) |
| Ethernet | 1000M GMAC |
| SDMMC | 2-CH |
| I2C | 5-CH |
| SPI | 2-CH |
| UART | 5-CH, 1-CH(DEBUG) |
| PWM | 11-CH |
| ADC ing | 4-CH |
| Ukuran Papan | 30 x 38 mm |
1.5 Mini1126 PCB Dimension
1.6 Mini1126 Pin Definition
| J1 | Sinyal | Katrangan utawa fungsi | Serial GPIO | IO Voltage |
| 1 | VCC5V0_SYS | Input Daya Utama 5V | 5V | |
| 2 | VCC5V0_SYS | Input Daya Utama 5V | 5V | |
| 3 | VCC5V0_SYS | Input Daya Utama 5V | 5V | |
| 4 | VCC5V0_SYS | Input Daya Utama 5V | 5V | |
| 5 | GND | lemah | 0V | |
| 6 | SNSP | Ngisi daya sinyal saiki ing | 0V | |
| 7 | GND | lemah | 0V | |
| 8 | SNSN | Ngisi daya sinyal saiki ing | 0V | |
| 9 | CLKO_32K | output jam RTC | 1.8V | |
| 10 | GND | lemah | 0V | |
| 11 | PWRON | Input tombol daya | 5V | |
| 12 | BATDIV | Dibagi voltage saka BATT positif | 3.3V | |
| 13 | MIC_L | Mikropon L-CH utawa positif ing | 0V | |
| 14 | VCC_RTC | Input daya RTC | 3.3V | |
| 15 | MIC_R | Mikropon R-CH utawa negatif ing | 0V | |
| 16 | SDMMC0_CLK | UART3_RTSn_M1 | GPIO1_B0_u | 3.3V |
| 17 | GND | lemah | 0V | |
| 18 | SDMMC0_CMD | UART3_CTSn_M1 | GPIO1_B1_u | 3.3V |
| 19 | HPR_OUT | Output R-CH saka headphone | 0V | |
| 20 | SDMMC0_D0 | UART2_RX_M0 | GPIO1_A4_u | 3.3V |
| 21 | HP_SNS | Papan referensi headphone | 0V | |
| 22 | SDMMC0_D1 | UART2_TX_M0 | GPIO1_A5_u | 3.3V |
| 23 | HPL_OUT | L-CH output headphone | 0V | |
| 24 | SDMMC0_D2 | UART3_RX_M1 | GPIO1_A6_u | 3.3V |
| 25 | I2C1_SDA | UART4_RTSn_M2 | GPIO1_D2_u | 1.8V |
| 26 | SDMMC0_D3 | UART3_TX_M1 | GPIO1_A7_u | 3.3V |
| 27 | I2C1_SCL | UART4_CTSn_M2 | GPIO1_D3_u | 1.8V |
| 28 | I2C2_SDA_3V3 | PWM5_M0 | GPIO0_C3_d | 3.3V |
| 29 | MIPI_CSI_CLK0 | UART5_CTSn_M2 | GPIO2_A3_d | 1.8V |
| 30 | I2C2_SCL_3V3 | PWM4_M0 | GPIO0_C2_d | 3.3V |
| 31 | GND | lemah | 0V | |
| 32 | MIPI_CSI_PWDN0 | UART4_RX_M2 | GPIO1_D4_d | 1.8V |
| 33 | MIPI_CSI_CLK1 | UART5_RTSn_M2 | GPIO2_A2_d | 1.8V |
| 34 | MIPI_CSI_RX1_D0N | MIPI CSI1 utawa LVDS1 RXD0N | 1.8V | |
| 35 | MIPI_CSI_RX1_D1N | MIPI CSI1 utawa LVDS1 RXD1N | 1.8V | |
| 36 | MIPI_CSI_RX1_D0P | MIPI CSI1 utawa LVDS1 RXD0P | 1.8V | |
| 37 | MIPI_CSI_RX1_D1P | MIPI CSI1 utawa LVDS1 RXD1P | 1.8V | |
| 38 | GND | lemah | 0V | |
| 39 | MIPI_CSI_RX1_D2N | MIPI CSI1 utawa LVDS1 RXD2N | 1.8V | |
| 40 | MIPI_CSI_RX1_CLKN | MIPI CSI1 utawa LVDS1 CLKN | 1.8V | |
| 41 | MIPI_CSI_RX1_D2P | MIPI CSI1 utawa LVDS1 RXD2P | 1.8V | |
| 42 | MIPI_CSI_RX1_CLKP | MIPI CSI1 utawa LVDS1 CLKP | 1.8V | |
| 43 | MIPI_CSI_RX1_D3N | MIPI CSI1 utawa LVDS1 RXD3N | 1.8V | |
| 44 | UART1_RX_3V3 | PWM1_M0 | GPIO0_B7_d | 3.3V |
| 45 | MIPI_CSI_RX1_D3P | MIPI CSI1 utawa LVDS1 RXD3P | 1.8V | |
| 46 | UART1_TX_3V3 | PWM0_M0 | GPIO0_B6_d | 3.3V |
| 47 | WIFI_REG_ON | SPI0_MOSI_M0 | GPIO0_A6_d | 1.8V |
| 48 | SDMMC0_DET | Kudu digunakake kanggo kertu SD | GPIO0_A3_u | 1.8V |
| 49 | BT_RST | SPI0_MISO_M0 | GPIO0_A7_d | 1.8V |
| 50 | BT_WAKE | SPI0_CS1n_M0 | GPIO0_A4_u | 1.8V |
| 51 | WIFI_WAKE_HOST | SPI0_CLK_M0 | GPIO0_B0_d | 1.8V |
| 52 | BT_WAKE_HOST | SPI0_CS0n_M0 | GPIO0_A5_u | 1.8V |
| 53 | MIPI_CSI_RX0_D0N | MIPI CSI0 utawa LVDS0 RXD0N | 1.8V | |
| 54 | MIPI_CSI_RX0_D2N | MIPI CSI0 utawa LVDS0 RXD2N | 1.8V | |
| 55 | MIPI_CSI_RX0_D0P | MIPI CSI0 utawa LVDS0 RXD0P | 1.8V | |
| 56 | MIPI_CSI_RX0_D2P | MIPI CSI0 utawa LVDS0 RXD2P | 1.8V | |
| 57 | MIPI_CSI_RX0_D1N | MIPI CSI0 utawa LVDS0 RXD1N | 1.8V | |
| 58 | MIPI_CSI_RX0_D3N | MIPI CSI0 utawa LVDS0 RXD3N | 1.8V | |
| 59 | MIPI_CSI_RX0_D1P | MIPI CSI0 utawa LVDS0 RXD1P | 1.8V | |
| 60 | MIPI_CSI_RX0_D3P | MIPI CSI0 utawa LVDS0 RXD3P | 1.8V | |
| 61 | GND | lemah | 0V | |
| 62 | MIPI_CSI_RX0_CLKN | MIPI CSI0 utawa LVDS0 CLKN | 1.8V | |
| 63 | PDM_CLK | I2S0_LRCK_RX_M0 | GPIO3_D4_d | 1.8V |
| 64 | MIPI_CSI_RX0_CLKP | MIPI CSI0 utawa LVDS0 CLKP | 1.8V | |
| 65 | SPI0_CLK_M1 | I2S1_SDO_M1/UART5_RX_M2 | GPIO2_A1_d | 1.8V |
| 66 | SPI0_CS0n_M1 | I2S1_SDI_M1/UART5_TX_M2 | GPIO2_A0_d | 1.8V |
| 67 | SPI0_MISO_M1 | I2S1_LRCK_M1/I2C3_SDA_M2 | GPIO1_D7_d | 1.8V |
| 68 | SPI0_CS1n_M1 | I2S1_MCK_M1/UART4_TX_M2 | GPIO1_D5_d | 1.8V |
| 69 | SPI0_MOSI_M1 | I2S1_SCK_M1/I2C3_SCL_M2 | GPIO1_D6_d | 1.8V |
| 70 | PDM_SDI0 | I2S0_SDI0_M0 | GPIO3_D6_d | 1.8V |
| 71 | PDM_SDI1 | I2S0_SDO3_SDI1_M0/I2C4SDA | GPIO4_A1_d | 1.8V |
| 72 | PDM_SDI2 | I2S0_SDO2_SDI2_M0/I2C4SCL | GPIO4_A0_d | 1.8V |
| 73 | PDM_CLK1 | I2S0_SCK_RX_M0 | GPIO3_D1_d | 1.8V |
| 74 | OTG_ID | 1.8V | ||
| 75 | OTG_DET_1V8 | 1.8V | ||
| 76 | USB_CTRL | Kudu digunakake kanggo OTG kompatibel | GPIO0_C1_d | 3.3V |
| 77 | OTG_DM | 1.8V | ||
| 78 | USB_HOST_DM | 1.8V | ||
| 79 | OTG_DP | 1.8V | ||
| 80 | USB_HOST_DP | 1.8V |
| J2 | Sinyal | Katrangan utawa fungsi | Serial GPIO | IO Voltage |
| 1 | GND | lemah | 0V | |
| 2 | LCDC_D0_3V3 | UART4_RTSn_M1/CIF_D0_M1 | GPIO2_A4_d | 3.3V |
| 3 | LCDC_D16_3V3 | CIF_D12_M1 | GPIO2_C4_d | 3.3V |
| 4 | LCDC_D1_3V3 | UART4_CTSn_M1/CIF_D1_M1 | GPIO2_A5_d | 3.3V |
| 5 | LCDC_D17_3V3 | CIF_D13_M1 | GPIO2_C5_d | 3.3V |
| 6 | LCDC_D2_3V3 | UART4_TX_M1/CIF_D2_M1 | GPIO2_A6_d | 3.3V |
| 7 | LCDC_D18_3V3 | CIF_D14_M1 | GPIO2_C6_d | 3.3V |
| 8 | LCDC_D3_3V3 | UART4_RX_M1/I2S2_SDO_M1 | GPIO2_A7_d | 3.3V |
| 9 | LCDC_D19_3V3 | I2S1_MCLK_M2/CIF_D15_M1 | GPIO2_C7_d | 3.3V |
| 10 | LCDC_D4_3V3 | UART5_TX_M1/I2S2_SDI_M1 | GPIO2_B0_d | 3.3V |
| 11 | LCDC_D20_3V3 | I2S1_SDO_M2/CIF_VS_M1 | GPIO2_D0_d | 3.3V |
| 12 | LCDC_D5_3V3 | UART5_RX_M1/I2S2_SCK_M1 | GPIO2_B1_d | 3.3V |
| 13 | LCDC_D21_3V3 | I2S1_SCLK_M2/CIF_CLKO_M1 | GPIO2_D1_d | 3.3V |
| 14 | LCDC_D6_3V3 | UART5_RTSn_M1/I2S2_LRCK_M1 | GPIO2_B2_d | 3.3V |
| 15 | LCDC_D22_3V3 | I2S1_LRCK_M2/CIF_CKIN_M1 | GPIO2_D2_d | 3.3V |
| 16 | LCDC_D7_3V3 | UART5_CTSn_M1/I2S2_MCLK_M1/CIF_D3_M1 | GPIO2_B3_d | 3.3V |
| 17 | LCDC_D23_3V3 | I2S1_SDI_M2/CIF_HS_M1 | GPIO2_D3_d | 3.3V |
| 18 | LCDC_D8_3V3 | CIF_D4_M1 | GPIO2_B4_d | 3.3V |
| 19 | UART0_TX | GPIO1_C3_u | 1.8V | |
| 20 | LCDC_D9_3V3 | CIF_D5_M1 | GPIO2_B5_d | 3.3V |
| 21 | UART0_RX | GPIO1_C2_u | 1.8V | |
| 22 | LCDC_D10_3V3 | CIF_D6_M1 | GPIO2_B6_d | 3.3V |
| 23 | UART0_RTSN | GPIO1_C0_u | 1.8V | |
| 24 | LCDC_D11_3V3 | CIF_D7_M1 | GPIO2_B7_d | 3.3V |
| 25 | UART0_CTSN | GPIO1_C1_u | 1.8V | |
| 26 | LCDC_D12_3V3 | CIF_D8_M1 | GPIO2_C0_d | 3.3V |
| 27 | BISA_RX_3V3 | UART3_TX_M2/I2C4_SCL_M0 | GPIO3_A0_u | 3.3V |
| 28 | LCDC_D13_3V3 | CIF_D9_M1 | GPIO2_C1_d | 3.3V |
| 29 | BISA_TX_3V3 | UART3_RX_M2/I2C4_SDA_M0 | GPIO3_A1_u | 3.3V |
| 30 | LCDC_D14_3V3 | CIF_D10_M1 | GPIO2_C2_d | 3.3V |
| 31 | ADKEY_IN0 | Mode Recovery disetel (10K PU) | 1.8V | |
| 32 | LCDC_D15_3V3 | CIF_D11_M1 | GPIO2_C3_d | 3.3V |
| 33 | ADCIN1 | 1.8V | ||
| 34 | GPIO1_D1 | UART1_RX_M1/I2C5_SDA_M2 | GPIO1_D1_d | 1.8V |
| 35 | ADCIN2 | 1.8V | ||
| 36 | LCDC_DEN_3V3 | I2C3_SCL_M1/SPI1_CS0n_M2 | GPIO2_D4_d | 3.3V |
| 37 | ADCIN3 | 1.8V | ||
| 38 | LCDC_VSYNC_3V3 | UART3_RTSn_M2/SPI1_MOSI | GPIO2_D6_d | 3.3V |
| 39 | GND | lemah | 0V | |
| 40 | LCDC_HSYNC_3V3 | I2C3_SDA_M1/SPI1_CLK_M2 | GPIO2_D5_d | 3.3V |
| 41 | MIPI_DSI_D0N | MIPI DSI TXD0N | 1.8V | |
| 42 | UART2_RX_3V3 | Kanggo debug | GPIO3_A3_u | 3.3V |
| 43 | MIPI_DSI_D0P | MIPI DSI TXD0P | 1.8V | |
| 44 | UART2_TX_3V3 | Kanggo debug | GPIO3_A2_u | 3.3V |
| 45 | MIPI_DSI_D1N | MIPI DSI TXD1N | 1.8V | |
| 46 | LCDC_CLK_3V3 | UART3_CTSn_M2/SPI1_MISO_M2/PWM8_M1 | GPIO2_D7_d | 3.3V |
| 47 | MIPI_DSI_D1P | MIPI DSI TXD1P | 1.8V | |
| 48 | GND | lemah | 0V | |
| 49 | MIPI_DSI_CLKN | MIPI DSI CLKN | 1.8V | |
| 50 | PCM_RX | I2S2_SDI_M0/SPI1_MISO_M1 | GPIO1_C5_d | 1.8V |
| 51 | MIPI_DSI_CLKP | MIPI DSI CLKP | 1.8V | |
| 52 | PCM_CLK | I2S2_SCLK_M0/SPI1_CLK_M1/UART1_RTSn_M1 | GPIO1_C6_d | 1.8V |
| 53 | MIPI_DSI_D3N | MIPI DSI TXD3N | 1.8V | |
| 54 | PCM_SYNC | I2S2_LRCK_M0/SPI1_CSn0_M1/UART1_CTSn_M1 | GPIO1_C7_d | 1.8V |
| 55 | MIPI_DSI_D3P | MIPI DSI TXD3P | 1.8V | |
| 56 | PCM_TX | I2S2_SDO_M0/SPI1_MOSI_M1 | GPIO1_C4_d | 1.8V |
| 57 | MIPI_DSI_D2N | MIPI DSI TXD2N | 1.8V | |
| 58 | GPIO1_D0 | I2S2_MCLK_M0/SPI1_CSn1_M1/UART1_TX_M1/I2C5_SCLK | GPIO1_D0_d | 1.8V |
| 59 | MIPI_DSI_D2P | MIPI DSI TXD2P | 1.8V | |
| 60 | SDIO_D2 | GPIO1_B6_u | 1.8V | |
| 61 | GND | lemah | 0V | |
| 62 | SDIO_D3 | GPIO1_B7_u | 1.8V | |
| 63 | MDI3- | Ethernet MDI3 negatif metu | 0V | |
| 64 | SDIO_CMD | GPIO1_B3_u | 1.8V | |
| 65 | MDI3 + | Ethernet MDI3 positif metu | 0V | |
| 66 | GND | lemah | 0V | |
| 67 | MDI2- | Ethernet MDI2 negatif metu | 0V | |
| 68 | SDIO_CLK | GPIO1_B2_d | 1.8V | |
| 69 | MDI2 + | Ethernet MDI2 positif metu | 0V | |
| 70 | SDIO_D0 | GPIO1_B4_u | 1.8V | |
| 71 | MDI1- | Ethernet MDI1 negatif metu | 0V | |
| 72 | SDIO_D1 | GPIO1_B5_u | 1.8V | |
| 73 | MDI1 + | Ethernet MDI1 positif metu | 0V | |
| 74 | LED2/CFG_LDO1 | 3.3V | ||
| 75 | MDI0- | Ethernet MDI0 negatif metu | 0V | |
| 76 | LED1/CFG_LDO0 | 3.3V | ||
| 77 | MDI0 + | Ethernet MDI3 positif metu | 0V | |
| 78 | VCC1V2_DVDD | Kamera 1.2V Power out (400mA) | 1V2 | |
| 79 | VCC2V8_AVDD | Kamera 2.8V Power out (400mA) | 2V8 | |
| 80 | VCC3V3_SD | Output Daya kertu SD (400mA) | 3V3 | |
| Cathetan: 1. Paling GPIO voltage punika 1.8V, nanging sawetara pin ditandhani 3.3V. 2. J1_Pin76 OTG sirkuit kompatibel deleng 2.1.3. |
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1.7 Kit Pangembangan (EM1126)
- Daya ing DC 12V
- Ethernet
- 2x USB Host
- USB OTG
- Audio metu
- Digi MIC
- Speaker
- MIC
- Kamera MIPI_CSI1
- Kamera MIPI_CSI0
- WiFi & Bluetooth
- GPIO
- SPI
- UART4
- MIPI_DSI LCD
- IR
- BISA
- RS485
- daya
- Recovery
- Micro SD
- Debug
- I2S
- ADC
- Baterei
2 Panduan Desain Hardware
2.1 Referensi Circuit Peripheral
2.1.1 Sirkuit Pangisian Daya Baterei
Cedhak karo RK809
8.4V Lion baterei digunakake
a) Cedhak karo BAT
2.1.2 Sirkuit Debug
2.1.3 USB OTG Interface Circuit
Sirkuit iki digunakake kanggo nambah kompatibilitas usb.
Cathetan:
Komponen kasebut cedhak karo R20 kanggo ngindhari cabang sing dawa.
2.2 PCB Jejak
2.3 konektor B2B
Header kanggo papan operator: DF12NC(3.0)-80DP-0.5V(51)
■ Header [Tanpa Tab Solder]
● Numpuk Dhuwur: 3mm Product
Unit: mm
| Bagian No. | DF12NC(3.0)-80DP-0.5V(51) |
| Nomer HRS | 537-0492-0 51 |
| Nomer Pos. | 80 |
| A | 22.2 |
| B | 19.5 |
| C | 20.7 |
| E | 2.3 |
| Remaks | Tanpa Tab Solder |
| RoHS | YA |
Wadah kanggo papan CPU: DF12NC(3.0)-80DS-0.5V(51)
■ Wadah [Tanpa Tab Solder]
● Numpuk Dhuwur: 3mm Product
Unit: mm
| Bagian No. | DF12NC(3.0)-80DS-0.5V(51) |
| Nomer HRS | 537-0285-0 51 |
| Nomer Pos. | 80 |
| A | 22.1 |
| B | 19.5 |
| C | 20.6 |
| E | 2.2 |
| Remaks | Tanpa Tab Solder |
| RoHS | YA |
3 Karakteristik Listrik Produk
3.1 Dissipation lan Suhu
| Simbol | Paramèter | Min | Tipe | Maks | Unit |
| VCC5V_SYS | Sistem IO Voltage | 3.6 | 5 | 5.5 | V |
| Isys_in | VCC5V_SYS input Saiki | 850 | mA | ||
| VCC_RTC | RTC Voltage | 3 | 3.7 | 5 | V |
| Iirtc | input RTC Saiki | 50 | 60 | uA | |
| VCC1V2_DVDD | Kamera Inti Voltage output | 1.2 | V | ||
| I1v2_dv | VCC1V2_DVDD output Saiki | 400 | mA | ||
| VCC2V8_AVDD | Kamera Analog Voltage output | 2.8 | V | ||
| I2v8_av | VCC2V8_AVDD output Saiki | 400 | mA | ||
| Ta | Suhu operasi | -20 | 70 | °C | |
| Tstg | Suhu panyimpenan | -40 | 85 | °C |
3.2 Reliabilitas Tes
Tes Operasi Suhu Dhuwur
| Isine | Operasi 8h ing suhu dhuwur | 55 ° C ± 2 ° C |
| asil | ||
Tes Urip Operasi
| Isine | Operasi ing kamar | 120h |
| asil | ||
Dokumen / Sumber Daya
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Sistem BOARDCON Mini1126 ing Modul [pdf] Manual pangguna MINI1126, Mini1126, Mini1126 Sistem ing Modul, Sistem ing Modul, Modul |
