Allicdata Part #: | BGA616BOARDIN-ND |
Manufacturer Part#: |
BGA616 BOARD |
Price: | $ 15.48 |
Product Category: | RF/IF and RFID |
Manufacturer: | Infineon Technologies |
Short Description: | BOARD APPL POPULATED BGA616 |
More Detail: | N/A |
DataSheet: | BGA616 BOARD Datasheet/PDF |
Quantity: | 1000 |
5 +: | $ 14.07670 |
Series: | -- |
Part Status: | Active |
Type: | Amplifier |
Frequency: | 0Hz ~ 2.7GHz |
For Use With/Related Products: | BGA616 |
Supplied Contents: | Board(s) |
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RF Evaluation and Development Kits, Boards
The BGA616 board is designed as an evaluation and development aid for testing or exploring a wide variety of embedded applications making use of extrinsic and intrinsic RF signals. It provides the user with a low-cost, high performance platform for testing the latest RF standards, including those based on ZigBee, Wi-Fi, LTE and more. This board is suitable for research and development, and can be used to evaluate the performance of wireless radios. As a prototyping and testing platform, the BGA616 board can be used to rapidly iterate through different protocols and tests to ensure rapid and effective product development.
The BGA616 board contains a 32-bit ARM Cortex-M3 processor with a clock speed of up to 72MHz, as well as a wide range of peripheral interfaces such as USB, I2C, SPI, UART, and CAN. It also has an on-board 128MB NAND Flash memory, as well as an external SRAM/Flash memory option. The board also supports both 2.4GHz and 5GHz wireless standards, as well as Bluetooth 4.2 Low Power.The BGA616 board includes an integrated signal processor, supports various on-board RF devices, and is compliant with the most recent IEEE standards. This means that the BGA616 board can be used to quickly evaluate and develop products for use in RF applications. The board is suitable for use in applications such as wireless sensor networks (WSNs) and building automation solutions.
The board is designed to operate in two modes: the energy harvesting mode and the autonomous mode. In the energy harvesting mode, the board collects electromagnetic energy from various sources such as solar radiation, wind energy, and vibration. This collected energy is then used to charge the on-board energy storage device. In the autonomous mode, the board operates entirely on its own, connecting to the internet through a wireless interface. It can be programmed to perform tasks such as data collection and transmission.
The BGA616 board includes an array of various on-board RF transceivers and receivers. These transceivers convert the analog audio/visual signals collected by the multitude of sensors on board into with digital data. This digital data is then used for various applications such as audio/visual streaming, wireless communication, and system control. The onboard MCU (ARM Cortex-M3) is then used to implement further functions, providing powerful signal processing capabilities.
The BGA616 board can be connected to a PC, tablet, or smartphone via USB, Wi-Fi, or Bluetooth. This allows the user to program the board with their own customized applications. The board can also be used to interface with other devices and systems, allowing for a seamless connection with the cloud or a wide variety of devices. As a result, the BGA616 board provides users with a versatile platform for developing a wide range of RF applications.
The BGA616 board is an ideal prototyping platform for embedded applications making use of RF signals. It provides users with a low-cost, high-performance platform for developing products and exploring the latest wireless standards. By making use of the integrated energy harvesting, wireless, and signal processor capabilities of the board, users are provided with a platform for rapid prototyping and testing. This in turn leads to increased product development efficiency and reduced costs. The BGA616 board is a versatile platform that can be used for a wide range of applications, from wireless sensor networks to building automation solutions.
The specific data is subject to PDF, and the above content is for reference
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