|Part Life Cycle Code||Transferred|
|Supply Voltage-Nom||900 mV|
|Number of Inputs||342|
|Number of Outputs||342|
|Number of Logic Cells||1150000|
|Programmable Logic Type||FIELD PROGRAMMABLE GATE ARRAY|
|Power Supplies||900 mV|
|Supply Voltage-Max||930 mV|
|Supply Voltage-Min||870 mV|
|Qualification Status||Not Qualified|
|Operating Temperature-Max||100 °C|
|Operating Temperature-Min||-40 °C|
|Peak Reflow Temperature (Cel)||NOT SPECIFIED|
|Time@Peak Reflow Temperature-Max (s)||NOT SPECIFIED|
|Number of Terminals||1517|
|Package Body Material||PLASTIC/EPOXY|
|Package Equivalence Code||BGA1517,39X39,40|
|Package Style||GRID ARRAY|
|Terminal Pitch||1 mm|
|Seated Height-Max||3.5 mm|
|Ihs Manufacturer||ALTERA CORP|
|Package Description||BGA, BGA1517,39X39,40|
|Reach Compliance Code||compliant|
10AX115R4F40I3LG Datasheet Download
The chip model 10AX115R4F40I3LG is a high-performance digital signal processor (DSP) that can be used for embedded processing, image processing, and other applications. It is designed to be used with HDL (Hardware Description Language) for efficient development and implementation. The chip model 10AX115R4F40I3LG is capable of providing high-performance digital signal processing, with a wide range of features and capabilities.
The product description of the chip model 10AX115R4F40I3LG includes a wide range of features and capabilities, such as high-performance digital signal processing, image processing, and embedded processing. It is designed to be used with HDL, which is a powerful language for designing and developing complex digital systems. The product description also includes detailed design requirements, such as clock frequency, memory size, and power consumption.
In order to effectively use the chip model 10AX115R4F40I3LG, it is important to understand the design requirements and the capabilities of the chip. In addition, actual case studies and precautions should be taken into account when implementing the chip model. For example, the clock frequency, memory size, and power consumption should be considered in order to ensure the optimum performance of the chip.
The chip model 10AX115R4F40I3LG can be applied to the development and popularization of future intelligent robots. In order to do this, technical talents such as engineers, computer scientists, and robotics experts are needed in order to effectively use the chip model. These experts must have a deep understanding of the design requirements and capabilities of the chip model, as well as a thorough understanding of HDL and robotics programming.
In conclusion, the chip model 10AX115R4F40I3LG is a powerful digital signal processor that is capable of providing high-performance digital signal processing. It is designed to be used with HDL, and it is important to understand the design requirements and capabilities of the chip model in order to effectively use it. The chip model 10AX115R4F40I3LG can be applied to the development and popularization of future intelligent robots, and technical talents such as engineers, computer scientists, and robotics experts are needed to use the model effectively.