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Amateur Digital Television & The Holy Grail. New Mexico DTV User Group October 16, 2014. Presented by: Ray Bahm & Jim Gale. The Holy Grail How much do you want it? What will it cost?. RF Out 100 MHz- 2.45 GHz +12 dBm max. Status LEDs. DC Power +9VDC-+15 VDC. SMA Connector (Fe).
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Amateur Digital Television & The Holy Grail New Mexico DTV User Group October 16, 2014 Presented by: Ray Bahm & Jim Gale
The Holy Grail How much do you want it? What will it cost?
RF Out 100 MHz- 2.45 GHz +12 dBm max. Status LEDs DC Power +9VDC-+15 VDC SMA Connector (Fe) USB-2 Data In from PC DATV EXPRESS BOARD
Electrical Details: Required Computer components Host computer with at least (2) USB2 I/O ports available for DATV-Express USB interface cable – USB type “A” connector at computer end, USB type “B” connector at DATV-Express end. Software support requirements – for DVB-S, Pentium 4 running 2.4 GHz or better, 2GB available hard drive – for DVB-T narrow bandwidths (2 & 3 MHz), dual-core CPU running 2.0 GHz should be adequate – for DVB-T 2K mode to use all of the bandwidths, the CPU needs to be a quad-core i7 Operating system - 32 bit or 64 bit Ubuntu (Linux) – Version 14.04 LTS (or 12.04 LTS). Download at www.ubuntu.com/download Hardware video capture card – Hauppauge external USB models HVR-1950, HVR-1900, PVR-USB2 – Hauppauge internal PCI-card models PVR-150, PVR-250, PVR-350, PCR-500
Symbol Rate(MSymbols/sec) Select SR from 1.00 to 9.99 in 0.01steps. (Design is optimized for 2-6 MS/sec). There are 12 preset configurable combinations. Note: Symbol rates >8.00MS/sec show increased 12MHz sidebands on each side and 35 dB down from center carrier because I/Q low pass anti-aliasing filters are optimized for 2-6 MS/sec. Below 1.5 MS/sec there could be some undesired aliases spurs (also +/- 12 MHz which is the Nyquist sampling frequency), if an interdigital bandpass filter is not used . Video displays will appear to be normal in either case.
Signal quality data EVM (Error Vector Magnitude) - 2.4%. (Measured with Agilent EXA N9010A Signal analyzer – software VSA 89600B). (≤3% is acceptable for commercial broadcast). EVM is the percentage away from the ideal symbol landing spot in the signal constellation. This data is normally measured at the receiver and takes into account the combined effects of transmitter and receiver Carrier or Signal to Noise ratios (CNR or SNR).
MER (Modulation Error Ratio) - 32dB. Minimum recommended downstream MER = 12-13dB for QPSK and 27dB for 64QAM including 3-4dB headroom for reliability. It’s calculated as: 10LOG (average symbol power / average error power). Video Determined by capture card specs. Hauppauge model HVR1950 will accept 1V P-P 75 ohm NTSC or PAL Audio – Determined by capture card selection. Compression: MPEG1
SR Systems Mini-Mod 2 The MidiMod2 is a small and compact modulator for DVB-S, -S2, -C, -T (2k and 8k mode) or 8VSB. Duo-DVB-C and Duo-DVB-T are also possible. Owing to the I/Q modulator, the signal output is modulated directly on transmission frequency. To build up a complete digital video transmitter with one or two video channels, you only have to connect one (or 2) MPEG2 encoder(s) to the transport stream inputs and, if necessary, a power amplifier to the SMA output.
SR Systems MPEG-2 Encoder The module encodes an analogue video and audio signal and outputs an MPEG2 transport stream. The encoder is based on the Fujitsu MPEG2 system chip MB86391, a DSP especially developed for real time video compression. The encoder board includes all necessary peripheral components like SDRAMs, audio and video codecs as well as all required power supplies (3,3 and 1,8 V). The encoder supports the formats SIF (352×288 Pixel), HD1 (352×576 Pixel) and D1 (720×576 Pixel) with netto data rates from 0,5 Mbit/s to 15 Mbit/s. A 20 bit stereo audio channel is already included in this data rate.
SR Systems MPEG-2 Encoder The encoder board outputs a transport stream (SPI)according to ISO/IEC 13818 to a 8 bit wide TS interface with clock and frame sync signal. The video input can be chosen from CVBS and Y/C (S-video). Available optionally: a parallel input according to ITU-656. Please note: Booting the encoder needs an additional circuit board; all our modulators and multiplexers are able to do so. The encoder cannot be operated autonomously.
SR Systems H264-Encoder (MPEG-4) The new H.264 Encoder is designed for the transmission of high-resolution picture data, especially for HD-TV applications. The encoder is extremely economical with 3 W power consumption at the maximum. Supported formats are HD (1920×1080px) and SD (PAL, NTSC) with netto data rates from 1,5 Mbit/s to 31 Mbit/s. Included in this data rate is a stereo audio channel between 32kbit and 384kbit. The encoder board outputs a transport stream to a 8 bit wide TS interface with clock and frame sync signal. The video input can be chosen between YPbPr, CVBS and HDMI; the picture resolution is up to 1080p@60Hz. The H.264 encoder can be operated autonomously. Power supply is 5V.
$245 Down East Microwave (Live Oak, FL) Model PATV-2330 30 Watt Linear Amplifier
Planning a DIGITAL ATV STATION • Ken W6HH6 Robbie KB6CJZ • Orange County Amateur Radio Club - June 2009
What Band Should I plan for D-ATV? • Robbie explained that the view of ham radio bands for ATV and D-ATV in Southern California looks like this: • 440 MHz - very crowded - looks like a difficult band for D-ATV, but RF amps are cheaper • 920 MHz - presents a tight fit for D-ATV, plus lots of noise from “part 15” devices. • 1,200 MHz - more room for simplex D-ATV, probably no room for a D-ATV repeater-pair. RF amplifiers get more expensive. • 2,400 MHz - RF amplifiers get even more expensive. But, probably has room for a D-ATV repeater.
The decision we made is to plan for ham home/portable transmitters on the 1.2 GHz band as a good compromise. Later if we can put up a D-ATV repeater...the repeater will output on 2.4 GHz.
The MiniMod board and will produce about 1 mWatt RF output. I will need a small RF amplifier to get that power up to about 25 mWatts to drive the 10 Watt RF. All Digital RF modulations require very linear Class A power amplifiers. We plan to run a 30W 1.2 GHz linear amp at about 10 watts or so. Note that the SR-Systems datasheets caution that the RF output of the MiniMod board is UNFILTERED. Stefan-DG8FAC of SR-Sys explained this note means that we need to suppress the 2nd harmonic and the third Harmonic a little. Following the Modulator Board with two 1.2 GHz Amps provided the required harmonic suppression. The DVB-S D-ATV signal will be about 2 MHz wide.
Alternative 5 - Using a Satellite DVB-S STB Our first approach to receiving DVB-S transmissions uses a DVB-S satellite box (commonly called Free-To-Air or FTA). A “composite RF” output from the STB can go straight into an old analog TV set. The frequency range of the DVB-S STB tuner range for satellites will include the 1.2 GHz ham band, so no down-converter is needed. The Viewsat VS2000 Xtreme is an example of a DVB-S FTA STB that can be purchased new for about $100.
The Digital ATV Receive System • Yagi Antenna • LNB (Low Noise Amplifier/ Block Down-Converter • Low Loss Coaxial Cable • Power Inserter (to power the LNB) • DVB-S Satellite Receiver (with Composite & SVideo Outputs) • CRT Analog Television with Composite & Svideo Inputs
Amateur Digital Television & The Holy Grail New Mexico DTV User Group October 16, 2014 THANK YOU ! Presented by: Ray Bahm & Jim Gale