Wireless transceiver system

Abstract

A wireless transceiver system for compensating a transport loss includes a transceiver (100), a tower mounted amplifier (TMA) (200), and a transport loss detector (400). The transceiver transmits a first signal at a transmit power. The first signal is changed into a second signal after cable attenuation from the transceiver. The TMA is connected to the transceiver via a cable, receives a second signal, and amplifies the second signal. The transport loss detector is connected to the TMA, and calculates a transport loss between the transceiver and the TMA. The TMA further compensates the transport loss between the transceiver and the TMA according to the calculated result of the controller.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of a conventional wireless transceiver system;

FIG. 2 is a schematic diagram of functional modules of a wireless transceiver system of an exemplary embodiment of the invention; and

FIG. 3 is a schematic diagram of functional modules of a wireless transceiver system of another exemplary embodiment of the invention.

Claims

1. A wireless transceiver system, for compensating a transport loss, comprising: a transceiver, for transmitting a first signal at a transmit power; wherein the first signal is changed into a second signal after cable attenuation from the transceiver;a tower mounted amplifier (TMA) connected to the transceiver via a cable, for receiving the second signal from the transceiver and amplifying the second signal; anda transport loss detector connected to the TMA, for calculating a transport loss between the transceiver and the TMA, the transport loss detector comprising: a first radio frequency (RF) power detector, for detecting the second signal power; anda controller, for calculating the transport loss between the transceiver and the TMA according to the second signal power and the transmit power of the transceiver;wherein the TMA further compensates the transport loss between the transceiver and the TMA according to the calculated result of the controller.

2. The wireless transceiver system as claimed in claim 1, wherein the first RF power detector converts the second signal power to a first analog signal; the transport loss detector further comprises an analog/digital (A/D) converter, for converting the first analog signal to a first digital signal; the controller calculates the transport loss between the transceiver and the TMA according to the first digital signal and the transmit power of the transceiver.

3. The wireless transceiver system as claimed in claim 1, further comprising a coupler coupled to the TMA and connected to the first RF power detector, for coupling the second signal to the first RF power detector.

4. The wireless transceiver system as claimed in claim 1, further comprising an antenna, for transmitting and receiving signals.

5. The wireless transceiver system as claimed in claim 4, wherein the TMA comprises a transmitting amplifying module, for amplifying the second signal and transmitting the amplified signal via the antenna.

6. The wireless transceiver system as claimed in claim 5, wherein the transmitting amplifying module comprises a first variable gain amplifier (VGA); the controller stores a relation between control signals and gains of the first VGA; the controller generates a first digital control signal according to the relation and the transport loss between the transceiver and the TMA.

7. The wireless transceiver system as claimed in claim 6, wherein the transport loss detector further comprises a digital/analog (D/A) converter for converting the first digital control signal to a first analog control signal; the first VGA compensates the transport loss from the transceiver to the TMA according to the first analog control signal.

8. The wireless transceiver system as claimed in claim 5, wherein the TMA further comprises a receiving amplifying module, for amplifying signals from the antenna and transmitting the amplified signals to the transceiver via the cable.

9. The wireless transceiver system as claimed in claim 8, wherein the receiving amplifying module comprises a second variable gain amplifier (VGA); the controller stores a relation between control signals and gains of the second VGA; the controller generates a second digital control signal according to the relation and the transport loss between the transceiver and the TMA.

10. The wireless transceiver system as claimed in claim 9, wherein the transport loss detector further comprises a digital/analog (D/A) converter for converting the second digital control signal to a second analog control signal; the second VGA pre-compensates the transport loss from the TMA to the transceiver according to the second analog control signal.

11. The wireless transceiver system as claimed in claim 8, wherein the TMA comprises a first duplexer connected to the transceiver, the transmitting amplifying module, and the receiving amplifying module, for transmitting signals from the transceiver to the transmitting amplifying module and transmitting signals from receiving amplifying module to the transceiver.

12. The wireless transceiver system as claimed in claim 11, further comprising a coupler coupled between the first duplexer and the transmitting amplifying module, and connected to the first RF power detector, for coupling the second signal to the first RF power detector.

13. The wireless transceiver system as claimed in claim 11, wherein the TMA further comprises a second duplexer connected to the transmitting amplifying module, the antenna, and the receiving amplifying module, for transmitting signals from the transmitting amplifying module to the antenna and transmitting signals from the antenna to the receiving amplifying module.

14. The wireless transceiver system as claimed in claim 1, wherein the second signal is amplified to a third signal by the TMA, and the TMA further comprises a second RF power detector, for detecting the third signal power and converting the third signal power to a second analog signal.

15. The wireless transceiver system as claimed in claim 14, wherein the transport loss detector further comprises an analog/digital (A/D) converter and a switch controlled by the controller to connect the first RF power detector and the A/D converter, or connect the second RF power detector and the A/D converter.

16. The wireless transceiver system as claimed in claim 15, wherein the A/D converter converts the second analog signal to a second digital signal; the controller monitors an output power of the TMA according to a legal power limit and the second digital signal.

17. The wireless transceiver system as claimed in claim 16, wherein the TMA further comprises a first variable gain amplifier (VGA); the controller stores a relation between control signals and gains of the first VGA; the controller generates a third digital control signal according to the legal power limit, the second digital signal, and the relation.

18. The wireless transceiver system as claimed in claim 17, wherein the transport loss detector further comprises a digital/analog (D/A) converter, for converting the third digital control signal to a third analog control signal; the first VGA adjusts the gain of the first VGA according to the third analog control signal.

19. The wireless transceiver system as claimed in claim 1, the wireless transceiver system is in a frequency division duplex (FDD) mode.

20. A wireless transceiver system comprising: an antenna installable on an outdoor tower;a tower mounted amplifier (TMA) installable on said outdoor tower beside said antenna and electrically communicable with said antenna for signal amplification;a transceiver installable indoors and electrically communicable with said TMA via a cable for signal transmission therebetween; anda transport loss detector installable on said outdoor tower beside said TMA and electrically communicable with said TMA to retrieve signals from said TMA so as to detect said signal transmission between said TMA and said transceiver based on said retrieved signals and control said TMA for precisely compensating a transport loss generated during said signal transmission.