• Title/Summary/Keyword: Digital Signal Processor(DSP)

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DSP Control of Three-Phase UPS Inverter with Output Voltage Harmonic Compensator (3상 UPS 인버터의 출력전압 왜형률 개선을 위한 고조파 보상기법의 DSP 제어)

  • 변영복;조기연;박성준;김철우
    • Proceedings of the KIPE Conference
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    • 1997.07a
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    • pp.269-275
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    • 1997
  • This paper presents real time digital signal processor(DSP) control of UPS system feeding processor(DSP) control of UPS system feeding nonlinear loads to provide sinusoidal inverter output voltage. The control scheme is composed of an rms voltage compensator, the load current harmonics feed-forward loop for the cancellation of output voltage harmonics, and the output voltage harmonics feedback loop for system stability. The controller employs a Texas Instruments TMS320C40GFL50 DSP.

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Design of DSP Instructions and their Hardware Architecture for Reed-Solomon Codecs (Reed-Solomon 부호화/복호화를 위한 DSP 명령어 및 하드웨어 설계)

  • 이재성;선우명훈
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.28 no.6A
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    • pp.405-413
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    • 2003
  • This paper presents new DSP (Digital Signal Processor) instructions and their hardware architecture to efficiently implement RS (Reed-Solomon) codecs, which is one of the most widely used FEC (Forward Error Control) algorithms. The proposed DSP architecture can implement various primitive polynomials by program, and thus, hardwired codecs can be replaced. The new instructions and their hardware architecture perform GF (Galois Field) operations using the proposed GF multiplier and adder. Therefore, the proposed DSP architecture can significantly reduce the number of clock cycles compared with existing DSP chips. It can perform RS decoding rate of up to 228.1 Mbps on 130MHz DSP chips.

Digital Audio Effect System-on-a-Chip Based on Embedded DSP Core

  • Byun, Kyung-Jin;Kwon, Young-Su;Park, Seong-Mo;Eum, Nak-Woong
    • ETRI Journal
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    • v.31 no.6
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    • pp.732-740
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    • 2009
  • This paper describes the implementation of a digital audio effect system-on-a-chip (SoC), which integrates an embedded digital signal processor (DSP) core, audio codec intellectual property, a number of peripheral blocks, and various audio effect algorithms. The audio effect SoC is developed using a software and hardware co-design method. In the design of the SoC, the embedded DSP and some dedicated hardware blocks are developed as a hardware design, while the audio effect algorithms are realized using a software centric method. Most of the audio effect algorithms are implemented using a C code with primitive functions that run on the embedded DSP, while the equalization effect, which requires a large amount of computation, is implemented using a dedicated hardware block with high flexibility. For the optimized implementation of audio effects, we exploit the primitive functions of the embedded DSP compiler, which is a very efficient way to reduce the code size and computation. The audio effect SoC was fabricated using a 0.18 ${\mu}m$ CMOS process and evaluated successfully on a real-time test board.

Design and Performance Analysis of DSP Prototype for High Data Rate Transmission of Lunar Orbiter (달 탐사선의 데이터 고속 전송을 위한 DSP 프로토타입 설계 및 성능 분석)

  • Jang, Yeon-Soo;Kim, Sang-Goo;Cho, Kyong-Kuk;Yoon, Dong-Weon
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.39 no.1
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    • pp.63-68
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    • 2011
  • Many countries all over the world have been doing lunar exploration projects. Korea has also been doing basic research on lunar exploration. The development of communication systems for lunar exploration projects is one of the most important aspects of performing a successful lunar mission. In this paper, we design a DSP (Digital Signal Processor) prototype based on the requirement analysis of a communication link for lunar exploration and implement its core module considering the international standards for deep space communications to perform a basic research on baseband processor development. It is verified by comparing the bit error rate of the DSP prototype with that of a computer simulation.

Gradient Waveform Synthesizer in Magnetic Resonance Imaging System using Digital Signal Processors (DSP를 이용한 자기공명영상시스템의 경사자계 파형 발생기)

  • Go, Gwang-Hyeok;Gwon, Ui-Seok;Kim, Chi-Yeong;Kim, Hyu-Jeong;Kim, Sang-Muk;An, Chang-Beom
    • The Transactions of the Korean Institute of Electrical Engineers D
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    • v.49 no.1
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    • pp.48-53
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    • 2000
  • In this paper, we develop a TMS320C31 (60MHz) digital signal processor (DSP) board to synthesize gradient waveforms for Spiral Scan Imaging (SSI), which is one of the ultra fast magnetic resonance imaging (MRI) methods widely used. In SSI, accurate gradient waveforms are very essential to high quality magnetic resonance images. For this purpose, sampling rate for synthesizing the gradient waveforms is set twice as high as the data sampling rate. With the developed DSP boards accurate gradient waveforms are obtained. Ultra fast spiral scan imaging with the developed with the developed DSP board is currently under development.

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A study on DSP based power analyzing and control system by analysis of 3-dimensional space current co-ordinates (3차원 전류좌표계 해석법에 의한 DSP 전력분석 제어장치에 관한 연구)

  • 임영철;정영국;나석환;최찬학;장영학;양승학
    • The Transactions of the Korean Institute of Electrical Engineers
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    • v.45 no.4
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    • pp.543-552
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    • 1996
  • The goal of this paper is to developed a DSP based power analyzing and control system by 3-Dimensional (3-D) space current co-ordinates. A developed system is made up of 486-PC and DSP (Digital Signal Processor) board, Active Power Filter, Non-linear thyristor load, and Power analyzing and control program for Windows. Power is analyzed using signal processing techniques based on the correlation between voltage and current waveforms. Since power analysis algorithm is performed by DSP, power analysis is achieved in real-time even under highly dynamic nonlinear loading conditions. Combining control algorithm with power analysis algorithm is performed by DSP, power analysis is achieved in real-time even under highly dynamic nonlinear loading conditions. Combining control algorithm with power analysis algorithm, flexibility of the proposed system which has both power analysis mode and control mode, is greatly enhanced. Non-active power generated while speed of induction motor is controlled by modulating firing angle of thyristor converter, is compensated by Active Power Filter for verifying a developed system. Power analysis results, before/after compensation, are numerically obtained and evaluated. From these results, various graphic screens for time/frequency/3-D current co-ordinate system are displayed on PC. By real-time analysis of power using a developed system, power quality is evaluated, and compared with that of conventional current co-ordinate system. (author). refs., figs. tabs.

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Parallel Control of Synchronous Buck Converter Using DSP (DSP를 이용한 Synchronous Buck Converter의 병렬 제어)

  • Kim Jeong-Hoon;Lim Jeong-Gyu;Shin Hwi-Beom;Chung Se-Kyo;Lee Hyun-Woo
    • Proceedings of the KIPE Conference
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    • 2006.06a
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    • pp.140-142
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    • 2006
  • This paper represents a digital parallel control of a synchronous buck converter using a digital signal processor (DSP). The digital PWM and load sharing controller is implemented in the DSP TMS320F2812 and the experimental results are provided to show the feasibility of the digital synchronous buck regulator.

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Implementation of Brushless Linear Motor Drive using DSP (DSP를 이용한 브러쉬 없는 선형 모터 드라이브 구현)

  • Kim, Sang-U;Park, Jeong-Il;Lee, Gi-Dong;Lee, Seok-Gyu;Jeong, Jae-Han
    • Journal of the Korean Society for Precision Engineering
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    • v.19 no.8
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    • pp.155-160
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    • 2002
  • In this paper, a controller design for brushless linear motor is implemented. The designed controller is mainly composed of current, speed and position controller, which are carried out by the high-speed digital signal processor (DSP). In addition the PWM inverter is controlled by space voltage PWM method. This system is implemented by using 32-bit DSP (TMS320C31), a high-integrated logic device (EPM7192), and IPM (Intelligent Power Module) for compact and powerful system design. The experimental results show the effective performance of controller for the brushless linear motor.

A Real-Time DSP-Based Imbalance Analysis System for Rotating Machine with Vibration Signal

  • Su Hua;Huang Linglong;Chong Kil To
    • Journal of Mechanical Science and Technology
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    • v.19 no.6
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    • pp.1243-1252
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    • 2005
  • This paper describes a new digital signal processor (DSP) imbalance measurement system dedicated to real-time vibration analysis on rotating machine. To accomplish real-time analysis, the vibration signals are on-line acquired and processed to analyze the mass imbalance and phase position. This is achieved through the use of FFT and Lissajous diagram. The method followed to analyze the mass imbalance with the chosen hardware and software solutions are described in detail in this paper. Several experimental tests demonstrate the efficiency and accuracy in imbalance analysis performance of the DSP system.

Implementation of LTE Transport Channel on Multicore DSP Software Defined Radio Platform (멀티코어 DSP 기반 소프트웨어 정의 라디오 플랫폼을 활용한 LTE 전송 채널의 구현)

  • Lee, Jin
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.24 no.4
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    • pp.508-514
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    • 2020
  • To implement the continuously evolving mobile communication standards such as Long Term Evolution (LTE) and 5G, the Software Defined Radio (SDR) concept provides great flexibility and efficiency. For many years, a high-end Digital Signal Processor (DSP) System on Chip (SoC) has been developed to support multicore and various hardware coprocessors. This paper introduces the implementation of the SDR platform hardware using TI's TCI663x chip. Using the platform, LTE transport channel is implemented by interworking multicore DSP with Bit rate Coprocessor (BCP) and Turbo Decoder Coprocessor (TCP) and the performance is evaluated according to various implementation options. In order to evaluate the performance of the implemented LTE transport channel, LTE base station system was constructed by combining FPGA main board for physical channels, SDR platform board, and RF & Antenna board.