Automatic RF equalization in passenger aircraft video distribution system

US 5,214,505 A
Filed: 04/08/1991
Issued: 05/25/1993
Est. Priority Date: 04/08/1991
Status: Expired due to Fees

First Claim

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1. A multiple frequency signal transmission system comprising:

a plurality of stations connected by a transmission medium for transmitting information signals having a predetermined band of frequencies and test signals of first and second different frequencies from one station to the next, said stations being spaced apart from one another,means at each of a group of said stations for processing the information signals transmitted thereto,means at a first relatively downstream one of said stations of said group for monitoring said test signals transmitted thereto to monitor frequency dependent signal loss of signals received at said downstream station, andmeans at a second station of said group upstream from said relatively downstream station and responsive to said monitored signals for equalizing the information signals transmitted there through over said predetermined frequency band so as to compensate for frequency dependent signal losses at said downstream station.

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Abstract

A passenger aircraft video distribution system distributes modulated RF signals (lines 16,26) provided from a central signal source to be used at each passenger seat (208-1 through 208-15). The RF signals are distributed by means of various RF components, including amplifiers (14, 24, 34), taps and splitters (22, 30), positioned at different mutually distant stations (12, 18, 28), with at least some stations being interconnected by relatively long lengths of coaxial cable (16,26). In order to ensure proper RF levels for best tuner (36) operation and to compensate for different cable losses at different frequencies, one or more of the stations (18) in the distribution system is provided with a variable equalizer (23) controllable by a microprocessor (52). A separate service line (64,66) enables a central microprocessor (50) to monitor RF levels at different frequencies at at least one station (28) to automatically provide, via the same service line, appropriate equalization control signals to obtain proper compensation for the different cable losses at different frequencies. The monitored RF signals are also employed for diagnostic purposes.

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20 Claims

1. A multiple frequency signal transmission system comprising:
- a plurality of stations connected by a transmission medium for transmitting information signals having a predetermined band of frequencies and test signals of first and second different frequencies from one station to the next, said stations being spaced apart from one another,means at each of a group of said stations for processing the information signals transmitted thereto,means at a first relatively downstream one of said stations of said group for monitoring said test signals transmitted thereto to monitor frequency dependent signal loss of signals received at said downstream station, andmeans at a second station of said group upstream from said relatively downstream station and responsive to said monitored signals for equalizing the information signals transmitted there through over said predetermined frequency band so as to compensate for frequency dependent signal losses at said downstream station.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The system of claim 1 wherein said means for equalizing comprises a variable equalizer at said relatively upstream station.
  - 3. The system of claim 1 wherein said means for equalizing comprises a variable equalizer at said relatively upstream station having an output, and a variable gain amplifier connected to amplify the output of said equalizer.
  - 4. The system of claim 1 wherein said means for equalizing includes a service line independent of said signal transmission medium through said stations of said group.
  - 5. The system of claim 1 wherein said transmission medium comprises a signal transmission line from one station to the next and wherein said means for monitoring and said means for equalizing comprise a service line independent of said signal transmission line.

6. A method of compensating for frequency dependent transmission losses of signal level in a downstream station of a group of stations that are connected in a chain of stations by a signal transmission line, and wherein each of a group of said stations is located at a distance from an adjacent station, said method of compensating comprising the steps of:
- monitoring frequency dependent variations in received signal level of first and second test signals of different frequencies received at a relatively downstream one of said stations of said group of stations, and employing said monitored signal levels to adjust the signal level at a station of said group that is upstream with respect to said downstream station in response to monitored signal levels at said downstream station so as to decrease said frequency dependent variation at said downstream station.
- View Dependent Claims (7, 8, 9)
- - 7. The method of claim 6 wherein step of monitoring variation in signal level comprises sensing said received signal level at each of a first frequency and a second frequency at said downstream station.
  - 8. The method of claim 6 wherein said step of monitoring variations in signal level comprises sensing a signal level at a given frequency at a downstream one of said stations, which signal level is outside of a predetermined range of levels, and wherein said step of employing said signal levels to adjust comprises adjusting equalization of the signal at a station that is upstream from said downstream station to bring the sensed signal at said downstream station within said predetermined range of levels.
  - 9. The method of claim 6 Wherein at least said monitoring step comprises employing a service line that is separate from and independent of said signal transmission line.

10. A signal transmission system comprising:
- first and second mutually displaced signal stations,a signal transmission line for transmitting a signal from said first station to said second station,said transmission line introducing frequency related transmission losses that are greater at higher frequencies than at lower frequencies,means at said first station for receiving an input signal to be transmitted to said second station,means at said second station for utilizing the signal transmitted from said first station,said second station including monitoring means for providing an indication of frequency related losses of said signal received at said second station, andmeans at said first station responsive to said monitoring means at said second station for adjusting the signal transmitted from said first station so as to compensate for the frequency related losses of signal received at said second station.
- View Dependent Claims (11, 20)
- - 11. The system of claim 10 wherein said signal comprises a broad band signal and said monitoring means comprise means for monitoring levels of signals of first and second frequencies received at said second station.
  - 20. The signal transmission system of claim 10 including test means for transmitting through said transmission line to said second station first and second test signals having respectively different frequencies, said monitoring means including means for detecting levels of said first and second test signals at said second station, and means for comparing said detected levels to predetermined ranges of signals levels.

12. A signal transmission system comprising:
- first and second mutually displaced signal stations,a signal transmission line for transmitting a signal from said first station to said second station,said transmission line introducing frequency related transmission losses that are greater at higher frequencies than at lower frequencies,means at said first station for receiving an input signal to be transmitted to said second station,means at said second station for utilizing the signal transmitted from said first station,said second station including monitoring means for providing an indication of frequency related losses of said signal received at said second station,means at said first station responsive to said monitoring means at said second station for adjusting the signal transmitted from said first station so as to compensate for the frequency related losses of said signal received at said second station,test means for generating first and second test signals, each having a different frequency,said monitoring means including means for transmitting said test signals from said first station through said transmission line to said second station, andsaid monitoring means including means for monitoring levels of said first and second test signal at said second station.
- View Dependent Claims (13, 14)
- - 13. The system of claim 12 wherein said means at said second station for utilizing said signal comprises a tuner responsive to said signal for selecting a predetermined frequency component of said signal.
  - 14. The system of claim 13 including a microprocessor connected to said tuner for controlling said tuner to select said first and second test signals, and means at said first station for controlling the microprocessor.

15. A passenger aircraft video distribution system comprising:
- a passenger entertainment service controller (PESC) station having video inputs and including means for providing an output comprising a plurality of different frequency RF carriers having video signals modulated thereon,an area distribution box (ADB) station having a variable equalizer connected to receive the output of said PESC station and providing an ADB output,a string of interconnected video seat electronic box (VSEB) stations, each having at least one tuner for manual operation by a passenger at said VSEB stations, said tuner having an output,coaxial cable means interconnecting said PESC station, said ADB station and said VSEB stations, said cable means introducing tilt in levels of the output of said tuner,means at said VSEB stations for monitoring levels of the output of said tuner at two different frequencies, andcontrol means responsive to said monitored outputs of said tuners for adjusting said variable equalizer to decrease said tilt.

16. A passenger aircraft video distribution system comprising:
- a passenger entertainment service controller (PESC) having video inputs and providing an output comprising a plurality of RF carriers having video signals modulated thereon,an area distribution box (ADB) having a first ADB variable gain amplifier connected to receive the output of said PESC station, said ADB station comprising;
  
  a coupler responsive to said first ADB amplifier and providing a first output,a variable equalizer connected to receive a signal from said coupler and to provide an equalized output,a second ADB variable gain amplifier connected to receive said equalized output and to provide an ADB output signal comprising said carrier having video signals modulated thereon, and wherein said carrier are provided with a reverse equalization,a line of interconnected video seat electronic box (VSEB) stations, each having at least one tuner for manual operation by a passenger at said VSEB stations, each of a group of said VSEB stations including a tap responsive to said ADB output and providing a modulated RF carrier output to the next VSEB station in said line of VSEB stations, each said VSEB station of said group including a tuner connected to its tap, at least one of the tuners of some of said VSEB stations including a monitoring terminal for providing a monitoring signal indicative of RF signal levels at two different frequencies at such one tuner, andmeans responsive to the monitoring terminal at said one tuner for controlling said variable equalizer at said ADB station to thereby compensate for the frequency dependent loss of signal level at the output of said one tuner,said PESC, ADB and VSEB stations each being mutually displaced from one another and interconnected by radio frequency transmission cable.
- View Dependent Claims (17, 18, 19)
- - 17. The system of claim 16 wherein said means responsive to the monitoring terminal for controlling said equalizer includes a service line separate from and independent of said transmission cable.
  - 18. The system of claim 16 wherein said means for controlling said equalizer comprises means for transmitting first and second test signals having different frequencies to said PESC station for transmission to said one VSEB station.
  - 19. The system of claim 16 wherein said step of monitoring comprises transmitting said first and second test signals of different frequencies to said downstream station, detecting levels of said test signals at said downstream station, and comparing said detected levels to predetermined ranges of signal levels.

Specification

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Current Assignee
Rockwell International Corporation
Original Assignee
Hughes Aircraft Company (Rtx Corporation)
Inventors
Rabowsky, Irving, Sklar, Richard E.
Primary Examiner(s)
Eisenzopf, Reinhard J.
Assistant Examiner(s)
VO, NGUYEN THANH

Application Number

US07/681,838
Time in Patent Office

778 Days
Field of Search

455/6.3, 455/8-10, 455/6.1, 455/6.2, 455/14, 455/3.1, 455/67.4, 358/86
US Class Current

725/77
CPC Class Codes

H04H 20/12   Arrangements for observatio...

H04H 20/62   for transportation systems,...

H04N 7/102   Circuits therefor, e.g. noi...

H04N 7/16   Analogue secrecy systems; A...

Automatic RF equalization in passenger aircraft video distribution system

First Claim

14 Assignments

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Abstract

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Automatic RF equalization in passenger aircraft video distribution system

First Claim

14 Assignments

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Abstract

Citations

20 Claims

Specification

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