AD535_getMcbspHandle

AD535_getMcbsp

Returns McBSP Handle

Handle

Function

 

Mcbsp_Handle AD535_getMcbspHandle(

 

 

AD535_Handle hAD535,

 

);

 

Arguments

 

hAD535

Handle to codec channel, see AD535_open()

Return Value

 

Mcbsp_handle Handle to the opened McBSP associated to the

 

 

 

number of McBSP.

Description

 

Returns the McBSP Handle associated with the McBSP used for AD535

 

 

communication.

 

 

 

Note: The Mcbsp_Handle type is defined in the Chip Suppport Library

 

 

(CSL) and created by the internal call of the MCBSP_open() function.

Example

 

Mcbsp_Handle hMcbsp;

 

 

hMcbsp = AD535_getHandleMcbsp(hAD535);

AD535_Id

Allocates codec channel

 

Structure

 

AD535_Id

 

 

Members

 

Typedef Struct {

The typedef structure AD535_Id includes 2

 

 

Struct

{

substructures such as Id and Obj

 

 

int mcbsp_no;

structures

 

 

} Id;

 

The internal structure Id contains the field

 

 

Struct

{

mcbsp_no. The member mcbsp_no

 

 

Boolean allocated;

contains the number of the serial port you

 

 

MCBSP_Handle

wish to use.

 

 

hMcbsp;

 

The internal structure Obj contains the

 

 

} Obj;

 

boolean field to allocate the codec and the

 

 

} AD535_Id

McBSP handle associated with the number

 

 

 

 

of the McBSP which will be open

 

 

 

 

“mcbsp_no”.

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Texas Instruments TMS320C6000 manual Returns McBSP Handle, AD535Id, Allocates codec channel

TMS320C6000 specifications

The Texas Instruments TMS320C6000 series is a family of digital signal processors (DSPs) that has gained significant traction in the field of digital signal processing since its introduction. Leveraging advanced processing technologies, the TMS320C6000 DSPs are particularly recognized for their high-performance capabilities, efficiency, and versatility, making them suitable for a wide variety of applications, including telecommunications, audio and video processing, medical instrumentation, and more.

One of the main features of the TMS320C6000 series is its advanced architecture, which incorporates a superscalar pipeline. This allows for the simultaneous execution of multiple instructions, leading to enhanced processing speeds. The architecture is designed to support both fixed-point and floating-point operations, offering flexibility for different computational requirements. The use of VLIW (Very Long Instruction Word) technology allows the execution of multiple operations in a single instruction cycle, further maximizing performance.

The TMS320C6000 family utilizes high-speed memory architectures, including a sophisticated cache system that minimizes memory access delays. Built-in hardware accelerators for specific functions, such as fast Fourier transforms (FFTs) and filter algorithms, streamline processing tasks that are critical in real-time applications. The DSPs also support a range of data formats, enabling them to handle diverse data types efficiently.

An important aspect of the TMS320C6000 series is its scalability. The family includes a wide range of devices, from low-power processors suitable for portable equipment to high-performance models designed for demanding computation tasks. This scalability ensures that developers can select the appropriate DSP for their specific application requirements.

In terms of power efficiency, the TMS320C6000 processors are designed to deliver high performance with optimized power consumption. This makes them ideal for battery-operated devices where power management is a critical concern. Additionally, TI's software tools, such as Code Composer Studio, provide developers with an integrated development environment that simplifies the design process and enhances productivity.

Lastly, the extensive support for various communication interfaces, including PCI, USB, and Ethernet, allows for seamless integration into existing systems. With a rich ecosystem of hardware and software support, the TMS320C6000 series remains a popular choice for engineers seeking powerful and versatile DSP solutions in modern electronic design.