KR100451200B1 - Mobile switch for multiple band - Google Patents

Abstract

The present invention relates to a mobile switch, and more particularly, to a multi-band mobile switch that can be commonly applied to each path when a communication path is separately configured in a multi-band terminal. Conventionally, since each band path of a multi-mode terminal is individually configured, the mobile switches are placed in each path to test the performance of each path. Therefore, the bulky mobile switches are required as many as the number of paths. There was a problem that is not easy to deploy. In view of the above problems, the present invention provides a plurality of antenna connection parts connected to a plurality of antennas having a dedicated band; A plurality of path connectors connected to a plurality of communication paths corresponding to the plurality of antennas; An external connection part connected to the external device for measurement; When an external device is connected, the multi-path mobile switch for each of the individually configured multi-path terminal by providing a switch for connecting the external device with the selected path by the external control signal according to the communication band mode, the performance of each single path By enabling measurements at the mobile switch, the mobile switch takes up less space and facilitates deployment.

Description

Mobile Switch for Multi-Band {MOBILE SWITCH FOR MULTIPLE BAND}

The present invention relates to a mobile switch, and more particularly, to a multi-band mobile switch that can be commonly applied to each path when a communication path is separately configured in a multi-band terminal.

As the functions of the portable terminal are gradually advanced, various communication functions have been integrated to use one portable terminal for various purposes. As a result, current terminals are being developed to support multi-mode. Among the attempts to integrate various communication modes, one of the most feasible ones is the integration of universal geolocation system (hereinafter referred to as GPS) communication functions and these dual mode terminals are already commercially available.

Currently, commercially available dual-mode terminals support a radio frequency (RF) communication mode and a GPS mode of code division multiple access (hereinafter referred to as CDMA). The communication mode is configured as a separate path. Of course, terminals supporting not only CDMA and GPS modes but also other communication methods are commercially available.

In order to add a GPS function to a general CDMA terminal, there is a method using a multi-band antenna and a method of separating paths according to each band. Since a method using a multi-band antenna has poor performance, most terminals have a spatial aspect. Although somewhat disadvantageous in, the paths are separated for each band.

As described above, in order to measure the performance of a terminal having a separate antenna and a path (low noise amplifier (hereinafter referred to as LNA)) for each band, the performance of a corresponding mode should be measured by connecting a measuring instrument instead of an antenna. Is the mobile switch. This is a kind of connection connector, which is used as a connection point for connecting to an external instrument. When an external instrument is connected, the antenna is disconnected and a path is directly connected to the instrument.

In order to more easily understand this configuration, reference is made to FIG. 1.

FIG. 1 illustrates locations on a path of mobile switches in a terminal using a CDMA GPS path separately.

As shown, the CDMA antenna 10 is connected to the CDMA LNA 30 via the first mobile switch 20. In addition, the GPS antenna 40 is connected to the GPS LNA 50 via the second mobile switch 50. Since the dual mode terminal configured as a separate path as described above has to measure performance for each mode, the mobile switches 20 and 50 are connected to each path, and the mobile switches 20 and 50 are substantially a kind of connector. This does not affect each route during normal use.

In order to measure the performance of each path of the terminal configured as described above, the measuring instrument 70 must be connected to each path. The instrument 70 may be connected to the mobile switches 20 and 50 through a connection cable indicated by a dotted line, and the antennas 10 and 40 are separated from the corresponding path.

As described above, in order to measure the performance of the paths configured for each band in the terminal, a mobile switch must be connected to each path, and the volume occupies a large amount when considering the size of the terminal because it is for physical cable connection to the measuring instrument.

As described above, since the mobile switches are placed in each path to test the performance of each path while individually configuring each band path of the multi-mode terminal, the bulky mobile switches are required as many as the number of paths. Of course, there was a problem that is not easy to deploy.

In view of the above problems, the present invention connects a switchable mobile switch to all of the multiple paths, and controls it through a mobile station modem to connect one of them to an external instrument for multi-band for reducing the number of mobile switches. The purpose is to provide a mobile switch.

1 illustrates a portion of a conventional mobile switch used for dual bands.

Figure 2 shows a part applying one embodiment of the present invention multi-band mobile switch.

*** Explanation of symbols for main parts of drawing ***

100: CDMA antenna 200: GPS antenna

300: switching mobile switch 400: CDMA low noise amplifier

500: GPS low noise amplifier 600: mobile station modem

700: instrument

In order to achieve the above object, the present invention provides a mobile switch for a multi-band mobile communication terminal operating only during performance measurement, comprising: a plurality of antenna connection parts connected to a plurality of antennas having a dedicated band; A plurality of path connectors connected to a plurality of communication paths corresponding to the plurality of antennas; An external connection unit providing an interface with an external device for measurement, and when the external device is connected, the connection between the antennas and the communication path is blocked by the device connection; When the external device is connected, it comprises a switching unit for connecting the external device to the selected path by the external control signal according to the communication band mode and the antenna connection corresponding to the path is cut off.

The multiple bands are CDMA bands and GPS bands, and the external control signal is received from a mobile station modem that outputs a control signal in accordance with a communication band mode.

The present invention intends to integrate a mobile switch installed in each path to measure the performance of a multi-band terminal using a multipath, thereby reducing the number of mobile switches to reduce the physical volume and the difficulty of deployment. To illustrate this, a terminal using a dual band is taken as an example, but it should be noted that the same can be applied to a terminal using a plurality of bands.

Reference will be made to FIG. 2 to describe the present invention as described above in detail.

2 illustrates a mobile switch portion of a multi-mode terminal to which an embodiment of the present invention is applied. In this embodiment, a switching mobile switch 300 applied to a dual band path of a CDMA mode and a GPS mode is shown.

The switching mobile switch 300 is connected to both the CDMA path and the GPS path configured as individual paths, and includes antenna connections connected to the CDMA antenna 100 and the GPS antenna 200. In addition, low noise amplifier connections are also provided, which are connected to the CDMA LNA 400 and the GPS LNA 500 corresponding to the antennas 100 and 200, respectively. In the present embodiment, it has been described simply as a connection with low noise amplifiers, but this means a path configured individually according to each band.

Since the switching mobile switch 300 does not operate unless it is connected to the meter 700 for performance measurement, the paths of the switching mobile switch 300 are not connected to the switching mobile switch 300. Ignore 300) and operate normally. That is, the CDMA antenna 100 is connected to the CDMA LNA 400 and the GPS antenna 200 is connected to the GPS LNA 500 to perform dual mode communication.

In order to measure the performance of each path of CDMA and GPS using the switching mobile switch 300, when the measuring device 700 and the switching mobile switch 300 are connected (dotted line), the antennas 100 and 200 are connected. Are separated from these corresponding paths (CDMA LNA 400, GPS LNA 500). Although not shown in detail, a connection with the meter 700 provides an interface for connecting with the meter 700, and when the meter 700 is connected, the antennas 100 and 200 are connected by the device connection. ) And the communication path (400, 500) is blocked. That is, the interface can be cut off the communication path with the antennas by the physical contact point contact conversion by the physical connection of the measuring instrument 700, and since it is already used configuration, the description of the specific configuration is omitted so that it is regarded as a known content. do.

The switching mobile switch 300 selectively connects the path to be measured by an external control signal with the connected instrument 700. That is, in the general communication state, the selected one of the paths 400 and 500 connected to the antennas 100 and 200 is connected to the measuring instrument 700 instead of the corresponding antennas 100 and 200. The external control signal is provided from a mobile station modem (MSM) 600. The mobile station modem 600 provides a predetermined control signal to the switching mobile switch 300 according to whether the CDMA mode or the GPS mode. Accordingly, the switching mobile switch 300 may use various electronic switches (switching transistors, relays, etc.) capable of connecting and disconnecting physical paths by a control signal.

Of course, the switching mobile switch 300 can be configured to perform the same operation for multiple bands as well as dual band paths, which is apparent from the foregoing description.

Therefore, in order to measure the performance of a multi-band terminal composed of a plurality of paths, if only one switching mobile switch 300 supporting the number of configuration paths is provided, the path connected to the switching mobile switch 300 is provided. An external control signal allows you to select one of these to connect the desired path with an external instrument to measure the performance of that path.

As described above, the present invention connects a mobile switch capable of path switching by an external control signal to all of the multiple paths, and when an external meter is connected, connects one path of an external meter and a selected path through the external control signal. By allowing connectivity, each path performance of individually configured multipath terminals can be measured on a single mobile switch, reducing the footprint of the mobile switch and facilitating deployment.

Claims (3)

In the mobile switch for a multi-band mobile communication terminal that operates only when measuring performance, A plurality of antenna connection units connected to a plurality of antennas having a dedicated band; A plurality of path connectors connected to a plurality of communication paths corresponding to the plurality of antennas; An external connection unit providing an interface with an external device for measurement, and when the external device is connected, the connection between the antennas and the communication path is blocked by the device connection; When the external device is connected, the multi-band mobile switch comprising a switching unit for connecting the external device with the selected path by the external control signal according to the communication band mode and the antenna connection corresponding to the path is cut off. The multi-band mobile switch of claim 1, wherein the multi-band is a CDMA band and a GPS band. The multi-band mobile switch according to claim 1, wherein the external control signal is received from a mobile station modem that outputs a predetermined control signal in accordance with a communication band mode.