Allicdata Part #: | XS1-A10A-128-FB217-I10-ND |
Manufacturer Part#: |
XS1-A10A-128-FB217-I10 |
Price: | $ 14.83 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | XMOS |
Short Description: | IC MCU 32BIT 128KB SRAM 217FBGA |
More Detail: | XCore XS1 Microcontroller IC 32-Bit 10-Core 1000MI... |
DataSheet: | XS1-A10A-128-FB217-I10 Datasheet/PDF |
Quantity: | 1000 |
84 +: | $ 13.47320 |
Series: | XS1 |
Packaging: | Tray |
Part Status: | Active |
Core Processor: | XCore |
Core Size: | 32-Bit 10-Core |
Speed: | 1000MIPS |
Connectivity: | Configurable |
Peripherals: | -- |
Number of I/O: | 90 |
Program Memory Size: | 128KB (32K x 32) |
Program Memory Type: | SRAM |
EEPROM Size: | -- |
RAM Size: | -- |
Voltage - Supply (Vcc/Vdd): | 0.90 V ~ 5.5 V |
Data Converters: | A/D 8x12b |
Oscillator Type: | Internal |
Operating Temperature: | -40°C ~ 85°C (TA) |
Package / Case: | 217-LFBGA |
Supplier Device Package: | 217-FBGA (16x16) |
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Embedded systems are becoming increasingly common in many industries and have revolutionised a variety of sectors. Embedded microcontrollers are responsible for much of this work and XS1-A10A-128-FB217-I10 is a microcontroller often used in these systems. In this article, we will explore its application fields and working principle.
The XS1-A10A-128-FB217-I10 microcontroller is designed and manufactured by XMOS Semiconductor, a British startup focused on the manufacture of embedded microcontrollers. This specific model is a single-core, 32-bit ARM-based microcontroller, aimed at control and low-level peripherals. Its primary applications are, therefore, embedded systems which require control tasks and are, as such, commonly found in industrial, consumer, and automotive applications.
The XS1-A10A-128-FB217-I10 features 128KB of on-board memory and integrated specialised crypto capabilities. This allows it to be used for secure projects, such as those that involve consumer financial data and those satisfying industrial protocol design standards. It is also capable of handling the latest USB protocol, ensuring its compatibility with newer, faster devices.
The microcontroller also comes with a range of interfaces and pins, allowing it to interface with other peripherals. It has 14 digital inputs (3.3V logic levels) and 10 PWM outputs rated up to 40mA, with a maximum supply voltage of 5V. These pins can also be attached to additional peripherals, opening up the microcontroller to be used for a large range of applications, from military to civilian.
The design of the XS1-A10A-128-FB217-I10 microcontroller also includes an on-board debugging system, allowing developers to debug their code directly on the board itself. This feature is especially useful for reduced time-to-market, as developers can quickly identify and solve issues in their code before having to transfer hardware to external debugging tools.
In terms of power consumption, the XS1-A10A-128-FB217-I10 microcontroller is designed to keep power consumption in check. The low-power mode of operation uses as low as 0.25mA, while the peak power consumption is only 10mA. This makes the chip energy-efficient and able to be used in long-term projects without having to worry about excessive power costs.
The working principle of the XS1-A10A-128-FB217-I10 is based on the Von Neumann model, where the processor and memory are linked. This model works well for real-time systems, as the processor and memory are in close contact and can respond rapidly to changes in input. The processor also contains its own operating system, allowing the microcontroller to perform a range of tasks, such as communication between hardware components, functions within the system, and more.
In conclusion, the XS1-A10A-128-FB217-I10 microcontroller is an excellent choice for embedded systems that require control of a variety of inputs. Its low power consumption, wide range of interfaces and pins, and integrated debugger make it a great method for quickly and reliably designing embedded systems. Its Von Neumann based working principle also makes it well-suited for real-time systems, with its processor and memory in close contact to respond quickly to changes in input.
The specific data is subject to PDF, and the above content is for reference
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