BS EN 61319-1:1996:2005 Edition
$167.15
Interconnections of satellite receiving equipment – Europe
| Published By | Publication Date | Number of Pages |
| BSI | 2005 | 38 |
Defines the interconnections and matching values for satellite receivers for individual T.V. and sound broadcast reception in the 10,70 GHz to 12,75 GHz band.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | BRITISH STANDARD |
| 2 | Committees responsible for this British�Standard |
| 3 | Contents |
| 6 | Foreword Foreword to amendment A11 Contents |
| 8 | Introduction 1 Scope |
| 9 | Diagram of a typical system |
| 10 | 2 Normative references 3 Explanation of terms and abbreviations DSR vertical (V) polarization horizontal (H) polarization left-hand (L) polarization |
| 11 | right-hand (R) polarization TTL levels TTL load HCMOS load program position LNB polarizer polarswitcher actuator |
| 12 | 4 Interface requirements for polarizers and polarswitchers 4.1 Mechanical polarizers (optional) 4.2 Magnetic polarizers (using the Faraday effect) |
| 13 | 4.3 Polarswitchers 5 Interface requirements for low-noise block converters (LNB) 5.1 Characteristic impedance of the first intermediate frequency (IF) output 5.2 Interface between the LNB (outdoor part) and the satellite receiver (indoor part), case�1:�on… |
| 14 | Control signal for polarswitcher, combined with dual-band block converter,�superimposed on supply… 5.3 Interface between the LNB (outdoor part) and the satellite receiver (indoor part), case�2:�tw… Interface of the LNB first IF output with the receiver input |
| 15 | 5.4 Connectors 6 Interface requirements for switching between different antenna sources or antenna positions |
| 16 | 6.1 Electrical matching values for the actuator motor supply 6.2 Electrical matching values for the antenna position sensor |
| 17 | Antenna position sensor interfaces 6.3 Interface between the antenna position control unit and the satellite receiver |
| 18 | Contact numbering of control interface connector, using a circular connector Logic control signals |
| 19 | Example of configuration using D2B interface 7 Interface requirements for satellite receivers and external decoders, descramblers and conditio… 8 Interface requirements for Digital Satellite Radio (DSR) receivers 8.1 Configuration of receiving equipment |
| 20 | Typical DSR receiver system configurations Typical receiver system for reception of radio and television |
| 21 | Example of a receiver system for cable connection 8.2 Audio-frequency outputs of DSR receivers |
| 22 | (informative) (informative) Interconnections between a satellite receiver and a data decoder |
| 23 | (normative) Normative references to international publications with their corresponding European … (normative) Normative references to international publications with their corresponding European … |
| 24 | (normative) Communication between the satellite receiver and the peripheral equipment using the D… (normative) Communication between the satellite receiver and the peripheral equipment using the D… Scope Normative references Basic principle of the extended signalling method |
| 25 | Diagram of a typical system using DiSEqC |
| 26 | Typical applications Two state switch controlled via DiSEqC level 1.0 Dual Feed with Loop Through and an universal LNB using DiSEqC level 1.0 |
| 27 | Multi-Feed with several universal LNBs and external switch using DiSEqC level 1.0 Communal reception with 8 IF inputs using 2 × 4 input conventional multi�switches using DiSEqC le… |
| 28 | Communal reception with 8 If inputs using DiSEqC level 1.0 Combination of conventional and new signalling messages |
| 29 | Conventional signalling method DiSEqC Level 1.0 Signalling |
| 30 | Simple Tone Burst control signal Modulation scheme for Tone Burst signal Method of data bit signalling Modulation scheme for DiSEqC bits |
| 31 | Structure of a DiSEqC message Data byte Cascaded DiSEqC devices |
| 32 | Power management Reset at power set-up Reset when using loop-through tuners DiSEqC receiver with loop-through is controlling DiSEqC devices using�DiSEqC commands |
| 33 | Configuration of reset signal connections Slave IC in DiSEqC devices can now operate in backwards compatible mode |
| 34 | D.C. voltage rise and setting time Time sequence for DiSEqC messages Timing sequence on channel/menu change (no power interruption) |
| 35 | Frequency allocation of the local oscillators Allocation of LNB Local Oscillator frequencies in SMATV case Characteristics of the signalling d.c. voltage Characteristics of the 22 kHz signalling tone |
| 36 | Transport of the 22 kHz tone IPR, trademark and logo |
