900 Digital Signal Processors (DSPs) 16

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Part	Manufacturer	Peripheral IC Type	Terminal Form	No. of Terminals	Package Code	Package Shape	Package Body Material	Surface Mount	Maximum Supply Voltage	Address Bus Width	Package Style (Meter)	Minimum Supply Voltage	Terminal Position	Maximum Seated Height	Width	Boundary Scan	External Data Bus Width	Maximum Clock Frequency	Internal Bus Architecture	Length	Technology	Nominal Supply Voltage	Terminal Pitch	Format	JESD-30 Code	Low Power Mode	Barrel Shifter
TMS320TCI6612CMSA2	Texas Instruments	DIGITAL SIGNAL PROCESSOR, OTHER	BALL	900	BGA	SQUARE	PLASTIC/EPOXY	YES	1.05 V	0	GRID ARRAY	.95 V	BOTTOM			YES	0		MULTIPLE		CMOS	1 V		FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6612CMS2	Texas Instruments	DIGITAL SIGNAL PROCESSOR, OTHER	BALL	900	BGA	SQUARE	PLASTIC/EPOXY	YES	1.05 V	0	GRID ARRAY	.95 V	BOTTOM			YES	0		MULTIPLE		CMOS	1 V		FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6612XCMS	Texas Instruments	DIGITAL SIGNAL PROCESSOR, OTHER	BALL	900	BGA	SQUARE	PLASTIC/EPOXY	YES	1.05 V	0	GRID ARRAY	.95 V	BOTTOM			YES	0		MULTIPLE		CMOS	1 V		FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6614CMS	Texas Instruments	DIGITAL SIGNAL PROCESSOR, MIXED	BALL	900	FBGA	SQUARE	PLASTIC/EPOXY	YES		24	GRID ARRAY, FINE PITCH		BOTTOM	3.39 mm	25 mm	YES	16	312.5 MHz	MULTIPLE	25 mm	CMOS		.8 mm	FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6614XCMS	Texas Instruments	DIGITAL SIGNAL PROCESSOR, MIXED	BALL	900	FBGA	SQUARE	PLASTIC/EPOXY	YES		24	GRID ARRAY, FINE PITCH		BOTTOM	3.39 mm	25 mm	YES	16	312.5 MHz	MULTIPLE	25 mm	CMOS		.8 mm	FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6614XCMS2	Texas Instruments	DIGITAL SIGNAL PROCESSOR, MIXED	BALL	900	FBGA	SQUARE	PLASTIC/EPOXY	YES		24	GRID ARRAY, FINE PITCH		BOTTOM	3.39 mm	25 mm	YES	16	312.5 MHz	MULTIPLE	25 mm	CMOS		.8 mm	FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6614CMS2	Texas Instruments	DIGITAL SIGNAL PROCESSOR, MIXED	BALL	900	FBGA	SQUARE	PLASTIC/EPOXY	YES		24	GRID ARRAY, FINE PITCH		BOTTOM	3.39 mm	25 mm	YES	16	312.5 MHz	MULTIPLE	25 mm	CMOS		.8 mm	FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6614XCMSA2	Texas Instruments	DIGITAL SIGNAL PROCESSOR, MIXED	BALL	900	FBGA	SQUARE	PLASTIC/EPOXY	YES		24	GRID ARRAY, FINE PITCH		BOTTOM	3.39 mm	25 mm	YES	16	312.5 MHz	MULTIPLE	25 mm	CMOS		.8 mm	FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6614CMSA2	Texas Instruments	DIGITAL SIGNAL PROCESSOR, MIXED	BALL	900	FBGA	SQUARE	PLASTIC/EPOXY	YES		24	GRID ARRAY, FINE PITCH		BOTTOM	3.39 mm	25 mm	YES	16	312.5 MHz	MULTIPLE	25 mm	CMOS		.8 mm	FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6612CMSA	Texas Instruments	DIGITAL SIGNAL PROCESSOR, OTHER	BALL	900	BGA	SQUARE	PLASTIC/EPOXY	YES	1.05 V	0	GRID ARRAY	.95 V	BOTTOM			YES	0		MULTIPLE		CMOS	1 V		FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6614XCMSA	Texas Instruments	DIGITAL SIGNAL PROCESSOR, MIXED	BALL	900	FBGA	SQUARE	PLASTIC/EPOXY	YES		24	GRID ARRAY, FINE PITCH		BOTTOM	3.39 mm	25 mm	YES	16	312.5 MHz	MULTIPLE	25 mm	CMOS		.8 mm	FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6612XCMSA	Texas Instruments	DIGITAL SIGNAL PROCESSOR, OTHER	BALL	900	BGA	SQUARE	PLASTIC/EPOXY	YES	1.05 V	0	GRID ARRAY	.95 V	BOTTOM			YES	0		MULTIPLE		CMOS	1 V		FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6612XCMS2	Texas Instruments	DIGITAL SIGNAL PROCESSOR, OTHER	BALL	900	BGA	SQUARE	PLASTIC/EPOXY	YES	1.05 V	0	GRID ARRAY	.95 V	BOTTOM			YES	0		MULTIPLE		CMOS	1 V		FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6614CMSA	Texas Instruments	DIGITAL SIGNAL PROCESSOR, MIXED	BALL	900	FBGA	SQUARE	PLASTIC/EPOXY	YES		24	GRID ARRAY, FINE PITCH		BOTTOM	3.39 mm	25 mm	YES	16	312.5 MHz	MULTIPLE	25 mm	CMOS		.8 mm	FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6612CMS	Texas Instruments	DIGITAL SIGNAL PROCESSOR, OTHER	BALL	900	BGA	SQUARE	PLASTIC/EPOXY	YES	1.05 V	0	GRID ARRAY	.95 V	BOTTOM			YES	0		MULTIPLE		CMOS	1 V		FLOATING POINT	S-PBGA-B900	YES	NO
TMS320TCI6612XCMSA2	Texas Instruments	DIGITAL SIGNAL PROCESSOR, OTHER	BALL	900	BGA	SQUARE	PLASTIC/EPOXY	YES	1.05 V	0	GRID ARRAY	.95 V	BOTTOM			YES	0		MULTIPLE		CMOS	1 V		FLOATING POINT	S-PBGA-B900	YES	NO

Digital Signal Processors (DSPs)

Digital Signal Processors (DSPs) are specialized microprocessors that are designed to perform mathematical operations on digital signals. They are used in a variety of applications that require real-time signal processing, such as audio and video processing, telecommunications, and image processing. DSPs are capable of performing complex mathematical operations, such as filtering, convolution, and correlation, on digital signals at high speeds, making them an essential component of modern signal processing systems.

DSPs are optimized for digital signal processing tasks and are designed to handle large amounts of data at high speeds. They typically have a specialized architecture that includes dedicated hardware for performing mathematical operations on digital signals, as well as specialized memory and I/O interfaces that are optimized for signal processing applications.

DSPs are used in a wide range of applications, including audio and video compression, speech recognition, image and video processing, and radar and sonar systems. They are also used in telecommunications systems, such as cell phones and modems, to process signals in real time. DSPs are also used in scientific and engineering applications, such as biomedical research and industrial automation.