STMicroelectronics Discovery MCU Development Kit STM32F769I-DISCO
- RS庫存編號:
- 123-1055
- 製造零件編號:
- STM32F769I-DISCO
- 製造商:
- STMicroelectronics
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HK$813.30
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單位 | 每單位 |
|---|---|
| 1 - 4 | HK$813.30 |
| 5 - 24 | HK$797.00 |
| 25 + | HK$781.10 |
- RS庫存編號:
- 123-1055
- 製造零件編號:
- STM32F769I-DISCO
- 製造商:
- STMicroelectronics
Discovery Kit for STM32F769NI Microcontroller
From STMicroelectronics, STM32F769I-DISCX Discovery kits feature a STM32F769NIH6 microcontroller based on the ARM Cortex-M7 32-bit core. STM32F769 Discovery kits provide you with the quickest way to evaluate the STM32F7 series. These discovery kits feature Arduino connectivity that enables you to use an extensive range of specialised add-on boards whilst offering an unlimited range of expansion capabilities.
STM32F769I-DISCX Discovery kits feature a number of integrated accessories (such as a B-LCDAD-RPI1 printed circuit DSI adapter board). These accessories give you greater flexibility and allow the kit to be used for a wider range of applications. An integrated B-LCDAD-HDMI1 DSI to HMDI adapter allows you to easily connect and display outputs via HDMI onto enabled displays.
STM32F769I-DISCX Discovery kits are supplied with comprehensive free firmware that is part of the STM32CubeF7 package. The kits are well suited to embedded applications and are supported by integrated development environments. Open source software can also be used.
STM32F769I-DISCX Discovery kits feature a number of integrated accessories (such as a B-LCDAD-RPI1 printed circuit DSI adapter board). These accessories give you greater flexibility and allow the kit to be used for a wider range of applications. An integrated B-LCDAD-HDMI1 DSI to HMDI adapter allows you to easily connect and display outputs via HDMI onto enabled displays.
STM32F769I-DISCX Discovery kits are supplied with comprehensive free firmware that is part of the STM32CubeF7 package. The kits are well suited to embedded applications and are supported by integrated development environments. Open source software can also be used.
What’s on board?
• 216MHz STM32F769NIH6 Cortex-M7 core microcontroller with 2MB Flash memory, 532KB RAM
• RAM consists of: 368KB Data, 128KB Data TCM, 16KB Instruction TCM, 16KB L1 Cache and 4KB backup
• On-board 512Mbit quad-SPI NOR Flash memory
• On-board 128Mbit (4M x 32-bit) SDRAM
• On-board WM8994 stereo audio Codec
• 3.5mm stereo audio Line In jack socket
• 3.5mm stereo audio Line Out jack socket
• 2 x speaker outputs
• 4 x MP34DT01TR MEMS microphones on DFSDM inputs
• S/PDIF input and output on RCA jack sockets
• Reset and User pushbuttons
• MicroSD card slot
• MIPI DSI display connector
• WiFi or Ext-EEP daughterboard connector
• USB OTG HS via Micro-AB connector
• ST LINK/V2-1 via Micro-B connector
• Ethernet compliant with IEEE-802.3-2002 via RJ45 connector
• On-board ST-LINK/V2-1 supporting USB re-enumeration capability
• USB ST-LINK functions: virtual COM port, mass storage, debug port
• Power supply options: ST LINK/V2-1, USB connector, PoE, Arduino or external connector, USB charger
• Power over Ethernet (PoE) based on IEEE 802.3af standard
• +3.3V or +5Vdc power supply output for external circuits
• Arduino Uno V3 format Shield connectors
• Comprehensive free software including various examples, part of STM32Cube package
• Supported by a wide choice of integrated development environments
• RAM consists of: 368KB Data, 128KB Data TCM, 16KB Instruction TCM, 16KB L1 Cache and 4KB backup
• On-board 512Mbit quad-SPI NOR Flash memory
• On-board 128Mbit (4M x 32-bit) SDRAM
• On-board WM8994 stereo audio Codec
• 3.5mm stereo audio Line In jack socket
• 3.5mm stereo audio Line Out jack socket
• 2 x speaker outputs
• 4 x MP34DT01TR MEMS microphones on DFSDM inputs
• S/PDIF input and output on RCA jack sockets
• Reset and User pushbuttons
• MicroSD card slot
• MIPI DSI display connector
• WiFi or Ext-EEP daughterboard connector
• USB OTG HS via Micro-AB connector
• ST LINK/V2-1 via Micro-B connector
• Ethernet compliant with IEEE-802.3-2002 via RJ45 connector
• On-board ST-LINK/V2-1 supporting USB re-enumeration capability
• USB ST-LINK functions: virtual COM port, mass storage, debug port
• Power supply options: ST LINK/V2-1, USB connector, PoE, Arduino or external connector, USB charger
• Power over Ethernet (PoE) based on IEEE 802.3af standard
• +3.3V or +5Vdc power supply output for external circuits
• Arduino Uno V3 format Shield connectors
• Comprehensive free software including various examples, part of STM32Cube package
• Supported by a wide choice of integrated development environments
Applications:
These discovery kits can be used in a wide range of projects as they feature multi-sensor support, audio, video, graphics and high-speed connectivity with a large set of communication peripherals. They are highly responsive which makes them ideal to support IoT applications such as smart thermostats, fitness devices, smart device interfaces (such as washing machines), waveform generators and paper cutters. STM32F769I-DISCX kits can also be controlled remotely using a VNC client.
STM32F769I-DISCX Discovery kits have 2 audio PLLs, 3 half-duplex I2S interfaces, a serial audio interface that supports time-division multiplex mode and a digital filter for a sigma-delta modulator (DFSDM). This gives you video player functionality. STM32F769I-DISCX kits can be used as part of an alarm system, controlling cameras within a building and monitoring different zones autonomously. Micro SD cards and USB keys can be used to expand the memory.
Other applications include home automation, industrial and medical applications.
STM32F769I-DISCX Discovery kits have 2 audio PLLs, 3 half-duplex I2S interfaces, a serial audio interface that supports time-division multiplex mode and a digital filter for a sigma-delta modulator (DFSDM). This gives you video player functionality. STM32F769I-DISCX kits can be used as part of an alarm system, controlling cameras within a building and monitoring different zones autonomously. Micro SD cards and USB keys can be used to expand the memory.
Other applications include home automation, industrial and medical applications.
Different models:
The STM32F7 microcontrollers feature ST’s ART Accelerator™ as well as an L1 cache and deliver the maximum theoretical performance of the ARM Cortex-M7 core, regardless if code is executed from embedded Flash or external memory. Typical performance figures: 1082 CoreMark / 462 DMIPS at 216MHz clock frequency.
AXI and multi-AHB bus matrixes for interconnecting core, peripherals and memories
Double-Precision Floating-Point maths unit on some variants
Up to 16KB +16KB of I-cache and D-cache
Up to 2MB of embedded Flash memory, with Read-While-Write capability on certain devices
Up to 512KB of data memory, including up to 128KB of Tightly-Coupled Memory for Data (DTCM) for Stacks, Heaps
16KB of Tightly-Coupled Memory for Instructions (ITCM) for time-critical routines
4KB of backup SRAM to keep data in the lowest power modes
Peripheral speed is independent from CPU speed (dual clock support)
Protected code execution feature (PC-ROP) on some variants
Power Efficiency: 7 CoreMark/mW at +1.8Vdc
Double-Precision Floating-Point maths unit on some variants
Up to 16KB +16KB of I-cache and D-cache
Up to 2MB of embedded Flash memory, with Read-While-Write capability on certain devices
Up to 512KB of data memory, including up to 128KB of Tightly-Coupled Memory for Data (DTCM) for Stacks, Heaps
16KB of Tightly-Coupled Memory for Instructions (ITCM) for time-critical routines
4KB of backup SRAM to keep data in the lowest power modes
Peripheral speed is independent from CPU speed (dual clock support)
Protected code execution feature (PC-ROP) on some variants
Power Efficiency: 7 CoreMark/mW at +1.8Vdc
Attribute | Value |
|---|---|
| Classification | Development Kit |
| Kit Name | Discovery |
| Technology | MCU |
| Device Core | ARM Cortex M7 |
| Processor Family Name | STM |
| Processor Part Number | STM32F769NIH6 |
| Processor Type | MCU |