DSP1629T10K10IT datasheet, PDF

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DSP1629T10K10IT: DescriptionDigital Signal Processor, 16-Bit Size, CMOS, PQFP100; CategoryThe embedded processor and controller Microcontrollers and processors; File Size2MB，126 Pages; ManufacturerLSC/CSI; Websitehttps://lsicsi.com

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DSP1629T10K10IT Overview

Digital Signal Processor, 16-Bit Size, CMOS, PQFP100

DSP1629T10K10IT Parametric

Parameter Name	Attribute value
package instruction	QFP, QFP100,.63SQ,20
Reach Compliance Code	unknown
bit size	16
Format	FIXED POINT
JESD-30 code	S-PQFP-G100
Number of terminals	100
Maximum operating temperature	85 °C
Minimum operating temperature	-40 °C
Package body material	PLASTIC/EPOXY
encapsulated code	QFP
Encapsulate equivalent code	QFP100,.63SQ,20
Package shape	SQUARE
Package form	FLATPACK
power supply	3.3 V
Certification status	Not Qualified
RAM (number of words)	10240
Nominal supply voltage	3.3 V
surface mount	YES
technology	CMOS
Temperature level	INDUSTRIAL
Terminal form	GULL WING
Terminal pitch	0.5 mm
Terminal location	QUAD
Base Number Matches	1

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Data Sheet

January 2002

DSP1629 Digital Signal Processor

1 Features

Optimized for mobile communications applications

with a bit manipulation unit for higher coding effi-

ciency.

On-chip, programmable, PLL clock synthesizer.

10 ns and 16.7 ns instruction cycle times at 3.0 V,

and 19.2 ns and 12.5 ns instruction cycle times at

2.7 V.

Mask-programmable memory map option: the

DSP1629x16 features 16 Kwords on-chip dual-port

RAM. The DSP1629x10 features 10 Kwords on-

chip dual-port RAM. Both feature 48 Kwords on-

chip ROM with a secure option.

Low power consumption:

— <1.9 mW/MIPS typical at 2.7 V.

Flexible power management modes:

— Standard sleep: 0.2 mW/MIPS at 2.7 V.

— Sleep with slow internal clock: 0.7 mW at 2.7 V.

— Hardware STOP (pin halts DSP): <20

µA.

Mask-programmable clock options: small signal

and CMOS.

100-TQFP package, providing excellent second-

level reliability.

Sequenced accesses to X and Y external memory.

Object code and pin compatible with the DSP1627.

Single-cycle squaring.

16 x 16-bit multiplication and 36-bit accumulation in

one instruction cycle.

Instruction cache for high-speed, program-efficient,

zero-overhead looping.

Dual 25 Mbits/s serial I/O ports with multiprocessor

capability:

— 16-bit data channel, 8-bit protocol channel.

8-bit parallel host interface:

— Supports 8-bit or 16-bit transfers.

—

Motorola

Intel

compatible.

8-bit control I/O interface.

256 memory-mapped I/O ports.

Supported by DSP1629 software and hardware

development tools.

2 Description

The DSP1629 is Agere Systems Inc.’s first digital signal

processor offering 100 MIPS operation at 3.0 V and

80 MIPS operation at 2.7 V with a reduction in power

consumption. Designed specifically for applications re-

quiring low power dissipation in

mobile communica-

tions

systems, the DSP1629 is a signal-coding device

that can be programmed to perform a wide variety of

fixed-point signal processing functions. The device is

based on the DSP1600 core with a bit manipulation unit

for enhanced signal coding efficiency. The DSP1629 in-

cludes a mix of peripherals specifically intended to sup-

port processing-intensive but cost-sensitive

applications in the area of digital wireless communica-

tions.

The DSP1629x16 contains 16 Kwords of internal dual-

port RAM (DPRAM), which allows simultaneous access

to two RAM locations in a single instruction cycle. The

DSP1629x10 supports the use of 10 Kwords of

DPRAM. Both devices contain 48 Kwords of internal

ROM (IROM).

The DSP1629 is object code compatible with the

DSP1627 while providing more memory. The DSP1629

is pin compatible with the DSP1627. Note that TRST

(JTAG test reset) replaces a V

pin.

The DSP1629 supports 2.7 V and 3.0 V operation and

features flexible power management modes. Several

control mechanisms achieve low-power operation, in-

cluding a STOP pin for placing the DSP into a fully stat-

ic, halted state, and a programmable power control

These power management modes allow for trade-offs

between power reduction and wake-up latency require-

ments. During system standby, power consumption is

reduced to less than 20

µA.

The on-chip clock synthesizer can be driven by an ex-

ternal clock whose frequency is a fraction of the instruc-

tion rate.

The device is packaged in a 144-pin PBGA, a 100-pin

BQFP, or a 100-pin TQFP, and is available with 10 ns

and 16.7 ns instruction cycle times at 3.0 V, and 19.2 ns

and 12.5 ns instruction cycle times at 2.7 V.

IEEE

P1149.1 test port (JTAG boundary scan).

Full-speed in-circuit emulation hardware develop-

ment system on-chip.

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