dcs infomation

A digital signal controller (DSC) can be thought of as a hybrid of microcontrollers and digital signal processors (DSPs). Like microcontrollers, DSCs have fast interrupt responses, offer control-oriented peripherals like PWMs and watchdog timers, and are usually programmed using the C programming language, although they can be programmed using the device's native assembly language. On the DSP side, they incorporate features found on most DSPs such as single-cycle multiply-accumulate (MAC) units, barrel shifters, and large accumulators. Not all vendors have adopted the term DSCThe term was first introduced by Microchip Technology in 2002 with the launch of their 6000 series DSCs and subsequently adopted by most, but not all DSC vendors. For example, Infineon and Renesas refer to their DSCs as microcontrollers.)
DSCs are used in a wide range of applications, but the majority go into motor control, power conversion, and sensor processing applications. Currently DSCs are being marketed as green technologies for their potential to reduce power consumption in electric motors and power supplies.
In order of market share, the top three DSC vendors are Texas Instruments, Freescale, and Microchip Technology, according to market research firm Forward Concepts (2007). These three companies dominate the DSC market, with other vendors such as Infineon and Renesas taking a smaller slice of the pie.

DSC Chips

NOTE: Data is from 07/2007 and table currently only includes offering from the top 3 DSC vendors.
Vendor Device Clock Speed (MHz) Flash (kB) PWM channels, resolution, duty cycle
Microchip dsPIC30F 30 6-144 4-8 (16 bits, 1 or 16.5 ns depending on part)

dsPIC33F 40 12-256 8 (16 bits, 12.5 ns)
Texas Instruments TMS320F280x 60-100 32-256 16 PWM (13 bits, 150 ps)

TMS320LF240x 40 16-64 7-16 PWM (11 bits, 150 ps)
Freescale MC56F83x 60 48-280 12 PWM (15 bits, 10 ns)

MC56F80x 32 12-64 5-6 PWM (15 bits, 10 ns)

MC56F81x 40 40-572 12 PWM (15 bits, 10 ns)

DSC Software Offerings

DSCs, like microcontrollers and DSPs, require software support. There are a growing number of software packages that offer the features required by both DSP applications and microcontroller applications. With a broader set of requirements, software solutions are more rare. They require: development tools, DSP libraries, optimization for DSP processing, fast interrupt handling, multi-threading and a tiny footprint.

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