Jan 22, 2019 The single connector on the eMMC SSD is a ZIF FFC (Zero Insertion Force, Flat Flexible Connector), with no publicly available pinout or any other information. Perhaps this was why I got them for so cheap – apart from holding only 32 GB, nobody could even use them in their own computer even if they wanted to! Apr 17, 2013 It is logically that 1gb is insufficient (1Gb card formatted is about 870mb real space). I will buy an microSD. Ultra 32GB and use it. I connect practically data lines, D0 to D4, CLK and CMD lines (these are connected to pullup resistors used originally with eMMC), and power lines (power is connected to original eMMC pads). Supply power via the VCC 3.3V and 1.8V pins, and solder the CLK, CMD, and DAT0 pins to an SD Card reader in order to extract the data off the eMMC chip.
From SomLabs Wiki
- Jun 10, 2018 In that situation an SD card is employed. How to use an SD card. The terms SD card stands for “Secure Digital” Card, there are many types of SD cards starting from the RS-MMC big sized ones used in cameras to the micro and mini SD cards that are commonly used in mobile phones, MP3 players etc. Although there are few important differences.
- Nov 24, 2019 The eMMC solution consists of at least three components – the MMC (multimedia card) interface, the flash memory, and the flash memory controller – and is offered in an industry-standard BGA package. Usage of Realme C1 ISP Pinout: Read/Write EMMC via ISP. Read/Write EMMC via direct connect (EMMC installed in socket).
VisionSOM-STM32MP1 Datasheet and Pinout
- 1General description
General description
The VisionSOM-STM32MP1 family is a SODIMM-sized SoM based on the STMicroelectronics STM32MP1 application processor which features an advanced implementation of a single or dual ARM Cortex-A7 cores (at speed up to 650MHz) and ARM Cortex-M4 core (at speed up to 209MHz) as well as a 3D Graphics Processing Unit (GPU) Open GL 2.0 ES compatible.
The VisionSOM-STM32MP1 is a general-purpose highly integrated SoM (System on Module) featuring high computation power and 802.11b/g/n Wi-Fi and Bluetooth v5.1 connectivity. The option of integrated, fully certified Wi-Fi and Bluetooth module simplifies the carrier board design and is ideally suited for wireless application. The VisionSOM-STM32MP1 provides a variety memory configuration including flexible range of DDR3L, eMMC and SD memory card that meets our customers requirements.
G532f Emmc Pinout
The SoM supports connections to a variety of interfaces: two high-speed USB on-the-go with PHY, dual Ethernet, audio, display with touch panel and serial interfaces. In addition, the system supports industrial grade embedded applications.
SoMLabs also provides a complete hardware and software development board for the SoM in the form of a carrier board and optional TFT display and touch panel.
Applications
- Industrial embedded Linux computer
- Home Appliances
- Home Automation – Smart Home
- Human-machine Interfaces (HMI)
- Point-of-sales (POS) terminals
- Cash Register
- 2D barcode scanners and printers
- Smart grid infrastructure
- IoT gateways
- Residential gateways
- Machine vision equipment
- Robotics
- Fitness/outdoor equipment
Features
- Powered by STMicroelectronics STM32MP1 application processor
- Single or dual ARM Cortex-A7 cores at speed up to 800MHz
- ARM Cortex-M4 core at speed up to 209MHz
- Up to 512MB SDRAM DDR3L
- Up to 32GB eMMC memory or uSD memory card
- Optional Murata 802.11b/g/n Wi-Fi and Bluetooth v5.1+EDR module
- Power-efficient and cost-optimized solution
- Ideal for industrial IoT and embedded applications
- Integrated security features
Pictures of SOM versions
| Version | Photo |
|---|---|
| eMMC | |
| micro-SD |
| WiFi/BT module is available for all memory variants configurations. |
Ordering info
Emmc Card
| SLS | Product type SLS - System on Module |
| 1 | SOM Name 1 - VisionSOM SODIMM200 |
| 8 | CPU Family 8 - STM32MP1 |
| CpuType | CPU Type MP151A - STM32MP151A MP157A - STM32MP157A |
| Clock | CPU Clock Speed 650C - 650MHz |
| RamSize | DDR3 RAM Size 256R - 256MB 512R - 512MB |
| FlashSize | Flash Size Type and Density uSD - MicroSD connector 04GE - 4GB eMMC 08GE - 8GB eMMC 16GE - 16GB eMMC 32GE - 32GB eMMC |
| SF | Special Features 0SF - No Special Features 1WB - Built-in 802.11b/g/n Wi-Fi and Bluetooth v5.1 Module (Murata 1DX) |
| TEMP | Operating Temperature C - Consumer: 0 to +70 C SI - Extended: -30 to +70 C I - Industrial: -40 to +85 C |
| V | SOM Version A - Version 2.1 |
Block Diagram
Operating ranges
| Parameter | Value | Unit | Comment |
|---|---|---|---|
| Power Supply | Connected to +5VIN SODIMM pin | ||
| Input GPIO voltage | - | ||
| Environment temperature1 | oC | Industrial range w/o WiFi module | |
| Industrial range with WiFi module | |||
| Consumer range |
Note:
1. Maximum MPU junction temperature is +125oC.
Electrical parameters
| SOM signal name | Parameter | Value | Units | ||
|---|---|---|---|---|---|
| Min. | Typ. | Max. | |||
| +5VIN | Supply Voltage | 4.0 | 5.0 | 5.5 | V |
| - | Total Supply Current1 | TBD | TBD | TBD | A |
| VGPIO | GPIO Input Voltage | 0 | 3.3 | 3.92 | V |
| +3.3VOUT | SOM Internal LDO Output Current | - | - | 0.5 | A |
| USB-OTGx-VBUS | USB Supply | 4.40 | - | 5.25 | V |
| VDD-COIN-3V | SNVS Backup Battery Supply | 1.4 | - | 3.6 | V |
| - | ADC Inputs Voltage | 0 | - | 3.3 | V |
Notes:
1. Excluding external load connected to +3.3VOUT lines.
2. Applying the maximum voltage 3.6V results in shorten lifetime. Recommended value is smaller than 3.45V.
Emmc Vs Sd
SoM pinout
Important notes
1. Detail pin configurations description you can find, edit and arrange in dedicated IOC files (with free 'STM32CubeMX' configurational tool):VisionSOM-STM32MP157.
2. 'LCD-DATAx (GND)' pins have been retained for compatibility with the modules VisionSOM-6ULL and VisionSOM-RT and are internally connected to GND.
| SODIMM PIN | GPIO name | Default function | Notes |
| 1 | GND | ||
| 2 | GND | ||
| 3 | PWR-LP | ||
| 4 | STM32-NRST | MPU reset in + on-board SD card power rail off | |
| 5 | PWR-ON | ||
| 6 | VDD-3V3 | MPU VDD power rail (for BOOT lines voltage reference only) | |
| 7 | BOOT1 | ||
| 8 | VDD-COIN-3V | External 3V battery input (optionally) | |
| 9 | BOOT0 | ||
| 10 | BOOT2 | ||
| 11 | USB-OTG1-VBUS | Analog USB interface line | |
| 15 | GND | ||
| 17 | GND | ||
| 19 | USB-OTG1-DP | Analog USB interface line | |
| 20 | GND | ||
| 21 | USB-OTG1-DN | Analog USB interface line | |
| 22 | GND | ||
| 23 | GND | ||
| 25 | USB-OTG2-DP | Analog USB interface line | |
| 26 | GND | ||
| 27 | USB-OTG2-DN | Analog USB interface line | |
| 28 | GND | ||
| 29 | GND | ||
| 35 | GND | ||
| 38 | GND | ||
| 40 | GND | ||
| 41 | GND | ||
| 43 | JTAG-TDI | JTAG interface | |
| 45 | PG10 | GPIO-PG10 | |
| 46 | JTAG-TMS | JTAG interface | |
| 47 | PC3 | GPIO-PC3-ADC1-13 | |
| 48 | JTAG-nRST | JTAG interface | |
| 49 | PD13 | GPIO-PD13 | |
| 50 | GND | ||
| 51 | GND | ||
| 52 | JTAG-TDO | JTAG interface | |
| 53 | PC1 | ENET1-MDC | |
| 54 | JTAG-TCK | JTAG interface | |
| 55 | PC0 | GPIO-PC0-ADC1-10 | |
| 56 | PB7 | GPIO-PB7 | By default I2C4_SDA |
| 57 | PE1 | UART8-TXD | |
| 58 | PB1 | GPIO-PB1-ADC1-5 | |
| 59 | GND | ||
| 60 | GND | ||
| 61 | PA2 | ENET1-MDIO | |
| 62 | PA0 | GPIO-PA0-ADC1-16 | |
| 63 | PE0 | UART8-RXD | |
| 64 | PF10 | GPIO-PF10 | |
| 65 | PD8 | USART3-TXD | |
| 66 | PD14 | UART8-CTS | |
| 67 | PD9 | USART3-RXD | |
| 68 | PG9 | USART6-RXD | |
| 69 | PA10 | USART1-RXD | |
| 70 | GND | ||
| 71 | GND | ||
| 72 | PD11 | USART3-CTS | |
| 73 | PB6 | USART1-TXD | |
| 74 | PG7 | UART8-RTS | |
| 75 | PG11 | UART4-TXD | |
| 76 | PA11 | USART1-CTS | |
| 77 | PB2 | UART4-RXD | |
| 78 | PD12 | USART3-RTS | |
| 79 | PG14 | USART6-TXD | |
| 80 | PA12 | USART1-RTS | |
| 81 | GND | ||
| 82 | GND | ||
| 84 | GND | ||
| 85 | VOUT-3V3 | 3,3V out | |
| 87 | VOUT-3V3 | 3,3V out | |
| 88 | VOUT-3V3 | 3,3V out | |
| 89 | VOUT-3V3 | 3,3V out | |
| 90 | VOUT-3V3 | 3,3V out | |
| 91 | VOUT-3V3 | 3,3V out | |
| 92 | VOUT-3V3 | 3,3V out | |
| 93 | VOUT-3V3 | 3,3V out | |
| 96 | VDD-5V | 5V input | |
| 97 | PC4 | ENET1-RXD0 | |
| 98 | VDD-5V | 5V input | |
| 99 | PC5 | ENET1-RXD1 | |
| 100 | VDD-5V | 5V input | |
| 101 | PA7 | ENET1-CRS-DV | |
| 102 | VDD-5V | 5V input | |
| 103 | GND | ||
| 104 | VDD-5V | 5V input | |
| 106 | VDD-5V | 5V input | |
| 107 | GND | ||
| 108 | VDD-5V | 5V input | |
| 109 | PG12 | GPIO-PG12 | |
| 110 | VDD-5V | 5V input | |
| 111 | PD15 | GPIO-PD15 | |
| 112 | VDD-5V | 5V input | |
| 113 | PA13 | GPIO-PA13 | |
| 114 | PB11 | ENET1-TXD-EN | |
| 115 | GND | ||
| 116 | GND | ||
| 117 | PA14 | GPIO-PA14 | |
| 118 | PB5 | ENET1-CLK | RC LPF built-in series (10R) |
| 119 | PC2 | GPIO-PC2 | |
| 120 | GND | ||
| 121 | PE2 | GPIO-PE2 | By default I2C4_SCL |
| 122 | PG13 | ENET1-TXD0 | |
| 124 | PB13 | ENET1-TXD1 | |
| 125 | GND | ||
| 127 | GND | ||
| 128 | GND | ||
| 129 | PA9 | LCD-R5 | |
| 130 | GND | ||
| 131 | PA8 | LCD-R6 | |
| 132 | GND | ||
| 133 | LCD-DATA17 (GND) | Internally connected to GND | |
| 134 | PE15 | LCD-R7 | |
| 135 | GND | ||
| 136 | GND | ||
| 137 | PC10 | LCD-R2 | |
| 138 | PB0 | LCD-R3 | |
| 139 | PF11 | LCD-G5 | |
| 140 | PA5 | LCD-R4 | |
| 141 | PC7 | LCD-G6 | |
| 142 | PG8 | LCD-G7 | |
| 143 | LCD-DATA8 (GND) | Internally connected to GND | |
| 144 | LCD-DATA16 (GND) | Internally connected to GND | |
| 145 | LCD-DATA9 (GND) | Internally connected to GND | |
| 146 | GND | ||
| 147 | GND | ||
| 148 | PE11 | LCD-G3 | |
| 149 | PA3 | LCD-B5 | |
| 150 | PB10 | LCD-G4 | |
| 151 | PB8 | LCD-B6 | |
| 152 | PA6 | LCD-G2 | |
| 153 | LCD-DATA0 (GND) | Internally connected to GND | |
| 154 | PD10 | LCD-B3 | |
| 155 | LCD-DATA1 (GND) | Internally connected to GND | |
| 156 | GND | ||
| 157 | PA1 | GPIO-PA1 | |
| 158 | PE12 | LCD-B4 | |
| 159 | GND | ||
| 160 | PC6 | LCD-HSYNC | |
| 161 | PE14 | LCD-CLK | |
| 162 | PA4 | LCD-VSYNC | |
| 163 | PE13 | LCD-DE | |
| 164 | PD6 | LCD-B2 | |
| 165 | GND | ||
| 166 | PB9 | LCD-B7 | |
| 167 | PB14 | SD2-DATA0 | |
| 168 | GND | ||
| 169 | PB4 | SD2-DATA3 | |
| 170 | GND | ||
| 171 | PB15 | SD2-DATA1 | |
| 172 | GND | ||
| 173 | PG6 | SD2-CMD | |
| 174 | GND | ||
| 175 | PB3 | SD2-DATA2 | |
| 176 | GND | ||
| 177 | GND | ||
| 178 | GND | ||
| 179 | PE3 | SD2-CLK | |
| 180 | GND | ||
| 181 | GND | ||
| 182 | GND | ||
| 184 | GND | ||
| 185 | GND | ||
| 186 | DSI-D0N | Dedicated MIPI-DSI line | |
| 188 | DSI-D0P | Dedicated MIPI-DSI line | |
| 189 | GND | ||
| 192 | DSI-D1N | Dedicated MIPI-DSI line | |
| 193 | DSI-CK-N | Dedicated MIPI-DSI line | |
| 194 | DSI-D1P | Dedicated MIPI-DSI line | |
| 195 | DSI-CK-P | Dedicated MIPI-DSI line | |
| 199 | GND | ||
| 200 | GND | ||
| - | PA15 | SD1-DATA5 | Internal Flash/SD |
| - | PB12 | WLAN-HWAKE | |
| - | PC8 | SD1-DATA0 | Internal Flash/SD |
| - | PC9 | SD1-DATA1 | Internal Flash/SD |
| - | PC11 | SD1-DATA3 | Internal Flash/SD |
| - | PC12 | SD1-CLK | Internal Flash/SD |
| - | PC13 | 32kHz-OUT | 1DX WiFi module line |
| - | PC14 | OSCI | |
| - | PC15 | OSCO | |
| - | PD0 | SD3-CMD | 1DX WiFi module line |
| - | PD1 | SD3-DATA0 | 1DX WiFi module line |
| - | PD4 | SD3-DATA1 | 1DX WiFi module line |
| - | PD5 | SD3-DATA2 | 1DX WiFi module line |
| - | PD7 | SD3-DATA3 | 1DX WiFi module line |
| - | PE4 | SD1-DATA4 | Internal Flash/SD |
| - | PE5 | SD1-DATA6 | Internal Flash/SD |
| - | PE6 | SD1-DATA2 | Internal Flash/SD |
| - | PE9 | BT-ENABLE | 1DX Bluetooth module line |
| - | PE10 | UART7-CTS | 1DX Bluetooth module line |
| - | PF6 | BT-HWAKE | 1DX Bluetooth module line |
| - | PF7 | BT-WAKE | 1DX Bluetooth module line |
| - | PF8 | UART7-RTS | 1DX Bluetooth module line |
| - | PF9 | WLAN-ENABLE | 1DX WiFi module line |
| - | PG15 | SD3-CLK | 1DX WiFi module line |
| PD2 | SD1-CMD | Internal Flash/SD | |
| PD3 | SD1-DATA7 | Internal Flash/SD | |
| PE7 | UART7-RXD | 1DX Bluetooth module line | |
| PE8 | UART7-TXD | 1DX Bluetooth module line |