Communication system apparatus and method
First Claim
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1. A test device, comprising:
- a microprocessor;
a switching network comprising a plurality of switches;
said microprocessor controls said switching network;
a signal booster;
an uplink antenna and a downlink antenna;
a diagnostic device;
a first 50 ohm load;
a second 50 ohm load;
a power source for said signal booster and said diagnostic device;
said microprocessor controls said switching network which, in turn, controls the interconnection of said power source, said signal booster, said uplink and downlink antennas, said diagnostic device, said first 50 ohm load, and said second 50 ohm load;
said diagnostic device includes an analyzer port, and said signal booster includes an uplink port and a downlink port, and wherein;
said uplink port of said signal booster is in electrical communication with said first 50 ohm load, said downlink port of said signal booster is in electrical communication with said second 50 ohm load, said analyzer port is in electrical communication with said uplink antenna, and, said diagnostic device is measuring the efficiency of said uplink antenna.
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Abstract
A test device includes a microprocessor and a switching network comprising a plurality of coaxial switches. The test device includes a signal booster, an uplink antenna and a downlink antenna, and a diagnostic device. A power source supplies power to the signal booster and the diagnostic device. The microprocessor controls the switching network which, in turn, controls the interconnection of the power source, the signal booster, the uplink and downlink antennas, and the diagnostic device.
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Citations
20 Claims
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1. A test device, comprising:
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a microprocessor; a switching network comprising a plurality of switches; said microprocessor controls said switching network; a signal booster; an uplink antenna and a downlink antenna; a diagnostic device; a first 50 ohm load; a second 50 ohm load; a power source for said signal booster and said diagnostic device; said microprocessor controls said switching network which, in turn, controls the interconnection of said power source, said signal booster, said uplink and downlink antennas, said diagnostic device, said first 50 ohm load, and said second 50 ohm load; said diagnostic device includes an analyzer port, and said signal booster includes an uplink port and a downlink port, and wherein;
said uplink port of said signal booster is in electrical communication with said first 50 ohm load, said downlink port of said signal booster is in electrical communication with said second 50 ohm load, said analyzer port is in electrical communication with said uplink antenna, and, said diagnostic device is measuring the efficiency of said uplink antenna. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A test device, comprising:
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a microprocessor; a switching network comprising a plurality of switches; said microprocessor controls said switching network; a signal booster; an uplink antenna and a downlink antenna; a diagnostic device; a first 50 ohm load; a second 50 ohm load; a power source for said signal booster and said diagnostic device; said microprocessor controls said switching network which, in turn, controls the interconnection of said power source, said signal booster, said uplink and downlink antennas, said diagnostic device, said first 50 ohm load, and said second 50 ohm load; said diagnostic device includes an analyzer port, and said signal booster includes an uplink port and a downlink port, and wherein;
said uplink port of said signal booster is in electrical communication with said first 50 ohm load, said downlink port of said signal booster is in electrical communication with said second 50 ohm load, said analyzer port is in electrical communication with said downlink antenna, and, said diagnostic device is measuring the efficiency of said downlink antenna. - View Dependent Claims (11, 16)
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12. A test device, comprising:
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a microprocessor; a switching network comprising a plurality of switches; said microprocessor controls said switching network; a signal booster; an uplink antenna and a downlink antenna; a diagnostic device; a first 50 ohm load; a second 50 ohm load; a power source for said signal booster and said diagnostic device; said microprocessor controls said switching network which, in turn, controls the interconnection of said power source, said signal booster, said uplink and downlink antennas, said diagnostic device, said first 50 ohm load, and said second 50 ohm load; said diagnostic device includes an analyzer port and a generator port, and said signal booster includes an uplink port and a downlink port, and, wherein;
said uplink port of said signal booster is in electrical communication with said first 50 ohm load, said downlink port of said signal booster is in electrical communication with said second 50 ohm load, said analyzer port is in electrical communication with said downlink antenna, said generator port is in electrical communication with said uplink antenna, and said diagnostic device is measuring the efficiency of said uplink antenna to said downlink antenna. - View Dependent Claims (17)
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13. A test device, comprising:
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a microprocessor; a switching network comprising a plurality of switches; said microprocessor controls said switching network; a signal booster; an uplink antenna and a downlink antenna; a diagnostic device; a first 50 ohm load; a second 50 ohm load; a power source for said signal booster and said diagnostic device; said microprocessor controls said switching network which, in turn, controls the interconnection of said power source, said signal booster, said uplink and downlink antennas, said diagnostic device, said first 50 ohm load, and said second 50 ohm load; said diagnostic device includes an analyzer port and a generator port, and said signal booster includes an uplink port and a downlink port, and, wherein;
said uplink port of said signal booster is in electrical communication with said first 50 ohm load, said downlink port of said signal booster is in electrical communication with said second 50 ohm load, said analyzer port is in electrical communication with said uplink antenna, and said generator port is in electrical communication with said downlink antenna; and
said diagnostic device is measuring the efficiency of said downlink antenna to said uplink antenna. - View Dependent Claims (18)
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14. A test device, comprising:
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a microprocessor; a switching network comprising a plurality of switches; said microprocessor controls said switching network; a signal booster; an uplink antenna and a downlink antenna; a diagnostic device; a power source for said signal booster and said diagnostic device; said microprocessor controls said switching network which, in turn, controls the interconnection of said power source, said signal booster, said uplink and downlink antennas, ans said diagnostic device; said diagnostic device includes an analyzer port and a generator port, and said signal booster includes an uplink port and a downlink port, and said analyzer port is in electrical communication with said uplink port of said signal booster, said generator port is in electrical communication with said downlink port of said signal booster, and said diagnostic device is measuring the efficiency of said downlink port to said uplink port of said signal booster. - View Dependent Claims (19)
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15. A test device, comprising:
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a microprocessor; a switching network comprising a plurality of switches; said microprocessor controls said switching network; a signal booster; an uplink antenna and a downlink antenna; a diagnostic device; a power source for said signal booster and said diagnostic device; said microprocessor controls said switching network which, in turn, controls the interconnection of said power source, said signal booster, said uplink and downlink antennas, ans said diagnostic device; said diagnostic device includes an analyzer port and a generator port, and said signal booster includes an uplink port and a downlink port, and, said analyzer port is in electrical communication with said downlink port of said signal booster, said generator port is in electrical communication with said uplink port of said signal booster, and said diagnostic device is measuring the efficiency of said uplink port to said downlink port of said signal booster. - View Dependent Claims (20)
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Specification