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  • DVB-S2 Technology

    DVB-S2 Technology The DVB-S2 standard (EN 302 307) defines the second-generation modulation and channel coding system for satellite TV to make use of the improvements that have emerged since the publication of the DVB-S standard. DVB-S2 is a single, very flexible standard covering a variety of applications by satellite. DVB-S2 is the next logical step in the continuous development of DVB-S. Innovative

  • DVB-T2 Technology

    DVB-T2 Technology DVB-T2 is a digital terrestrial transmission system developed by the DVB project. It introduces the latest modulation and coding techniques to enable the highly efficient use of the valuable terrestrial spectrum for the delivery of audio, video and data services to fixed, portable and mobile devices. DVB-T2 uses OFDM modulation, with a large number of subcarriers delivering a robust

  • ATV L/L´ Technology

    ATV L/L´ Technology The color composite video synchronous signal carries the luminance and chrominance information. Besides luminance and chrominance information, sync pulses are also part of the signal. These pulses ensure that specific lines for specific pictures in the TV signal are displayed properly: Horizontal syncs can be thought of as line breaks while vertical syncs indicate the beginning

  • ATSC3.0 Technology

    ATSC3.0 Technology ATSC 3.0 (Advanced Television Systems Committee) is a digital terrestrial broadcasting standard that has been substantially enhanced compared with the ATSC A/53 predecessor standard. ATSC 3.0 is designed to allow network operators more flexibility, greater robustness and more efficient operation. It employs state-of-the-art encoding and modulation technologies, enabling a significantly

  • DRM+ technology

    DRM+ technology DRM+ is an expansion of the existing DRM standards with regard to the useful frequency range. DRM+ therefore must likewise be able to digitize VHF sound broadcasting. Digital radio mondiale (DRM) was developed as a digital sound broadcasting standard for worldwide use in long wave (LW), medium wave (MW) and short wave (SW). DRM is used for sound broadcasting as well as to transmit additional

  • ISDB-S Technology

    ISDB-S Technology The main reason that the Japanese Association of Radio Industries and Business (ARIB) developed the ISDB-S single-carrier standard was to offer HDTV capability, interactivity and spectrum efficiency. In 2000, ISDB-S (ARIB STD-B20) was implemented by the network operator NHK. In comparison to DVB-S, the capabilities that were introduced included primarily higher-order modulation, error

  • CDMA2000® 1xEV-DO Technology

    CDMA2000® 1xEV-DO Technology CDMA2000®, also known as CDMA2000®1xRTT, 1X or IS-2000, is a 3G mobile telecommunications standard for wireless transmission with significant deployments worldwide. It is used primarily to deliver circuit switched services such as voice, SMS and MMS, though CDMA2000® Release 0 is also capable of peak data rates of 153.6 kbit/s in both forward and reverse links. CDMA2000

  • T-DMB Technology

    T-DMB Technology T-DMB and T-DMBVR are extensions of the DAB standard for the transmission of video to mobile receivers. This requires a special T-DMB A/V encoder. The RF coding and frequencies used are identical to those for DAB. Existing DAB and DAB+ transmitters can be used for T-DMB as well. Baseband coding differs from DAB and DAB+ in two aspects: 1) the multiprotocol encapsulation of MPEG-4 H

  • ATSC Mobile DTV Technology

    ATSC Mobile DTV Technology The Advanced Television Systems Committee has officially adopted A/153 as the ATSC Mobile DTV Standard, which has been developed as an in-band solution that both enables new services for mobile receivers, and preserves backward compatibility for existing ATSC DTV receivers. This technology will allow broadcasters to offer multiple program services without the need for additional

  • WiGig / WiHD Technology

    WiGig / WiHD Technology Millimeter wave communication standards 60 GHz transmission technology is a fairly new wireless communications concept that aims to exploit the 7 GHz of bandwidth available in the 60 GHz unlicensed band. Particular characteristics of this technology have generated special interest within the industry. The main advantages of this high-frequency-range technology are that it enables

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