Spatial diversity receiving device and input channel switching method

Abstract

The invention relates to a spatial diversity receiving device and an input channel switching method. The device comprises a main control circuit and at least one receiving channel including a RF selective switch, wherein the circuit controls the switch, so as to select one of the plurality of input signals from the plurality of antennae and send that signal to a receiving module. The module comprises a RSSI unit for outputting a RSSI value and sends the value to the circuit. On basis of a real time analysis to the receiving signal, the circuit selects a predetermined occasion to perform a compulsive switching and dynamically selects the antenna with a stronger signal so that the generation of error code due to transient interference may be reduced. The system exhibits an excellent resistance to wireless signal fading, and has a simple structure as well as a low cost and power consumption.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a drawing illustrating the signal fading or the wireless receiving signal in prior art;

FIG. 2 is a block diagram illustrating the receiving system of the receiving device according to the present invention;

FIG. 3 is a flow chart of the method according to the present invention.

Claims

1. An antenna input channel switching method for spatial diversity reception, on the basis of a receiving device for use in a telemetry monitoring or testing system including at least two antennae, the method comprising steps: A. a main control circuit of the receiving device randomly selects an input signal coming from one of the at least two antennae and sends that signal to a receiving channel;B. the main control circuit waits and selects a predetermined occasion to perform the following steps;C. the main control circuit records the RSSI value of the current signal output by a received signal strength indication unit provided within the channel as an original RSSI value;D. the main control circuit selects an input signal from another antenna, and sends that signal to the receiving channel; andE. the main control circuit reads the current RSSI value output by the received signal strength indication unit, and then determines whether the signal to be input into the channel is to come right along from the currently selected antenna, or is to be switched back to the previously selected antenna,wherein the steps B-E are performed repeatedly.

2. The antenna input channel switching method according to claim 1, wherein the predetermined occasion is a time at which the transfer of one data frame completes.

3. The antenna input channel switching method according to claim 2, wherein a time period necessary for completing transfer of one data frame is 100 ms or less.

4. The antenna input channel switching method according to claim 1, wherein the predetermined occasion is an interframe space.

5. The antenna input channel switching method according to claim 1, wherein the predetermined occasion is an initial stage of response.

6. The antenna input channel switching method according to claim 1, wherein the determination of the predetermined occasion comprises the following steps: a. the main control circuit receives and analyzes the data transferred from the receiving channel, searching for bit synchronization and frame synchronization signals; andb. if the synchronization signal is detected, the main control circuit continues to make a judgement on a structure of the data frame, and determines the interframe space or initial stage of response, if detected, as the predetermined occasion, or otherwise the time, at which the transfer of one data frame completes, as the predetermined occasion.

7. The antenna input channel switching method according to claim 1, wherein in step E, the main control circuit does not read the current RSSI value until it waits for a preset time period, the value indicative of the RSSI trend of the current input signal.

8. The antenna input channel switching method according to claim 1, wherein the determination process of the main control circuit in step E comprises the following steps of: comparing the original RSSI value with the current RSSI value, and, if the former is greater than the latter, controlling in a manner to switch the input signal back to come from the previously selected antenna; otherwise, maintaining the input signal coming from the currently selected antenna.

9. The antenna input channel switching method according to claim 1, wherein: where there are two or more receiving channels, the configurations of the receiving channels are such that they respectively operate at different receiving frequencies, and that the input signals thereof are controlled and selected by the main control circuit.

10. A spatial diversity receiving device for use in a telemetry monitoring or testing system including a plurality of antennae, the receiving device comprising: a main control circuit and at least one receiving channel including a RF selective switch,wherein the main control circuit controls the RF selective switch, so as to select one of the plurality of input signals coming from the plurality of antennae and send that signal to a receiving module of the receiving channel, which receiving module comprises a received signal strength indication unit for outputting a RSSI value corresponding to an input signal and sending that value to the main control circuit; andwherein the main control circuit further receives the data transferred to the receiving module.

11. The spatial diversity receiving device according to claim 10, wherein the RSSI value is sent to the main control circuit via an A/D convertor.

12. The spatial diversity receiving device according to claim 10, wherein: if there are two or more receiving channels, output signals of each of the antennae, having passed by an amplifying circuit and a branch circuit, is correspondingly divided into a plurality of branches, which are then output to each of the RF selective switches respectively.