KR100681563B1 - Mobile terminal having selectable rf switch architecture - Google Patents

Abstract

A mobile communication terminal having an optional RF switch structure is provided to only control the on/off operation of power, thereby simply and selectively evaluating the performance of a RF transceiver and an antenna without additional disassembly and connection of parts. A mobile communication terminal having an optional RF(Radio Frequency) switch structure comprises the followings: an antenna switch(210) which is selectively connected to one of an antenna(101) or a measuring instrument(108) according to mechanical switching operation; a selection switch(220) which selectively connects the antenna switch(210) to one of the antenna(101) or a RF transceiver(105) by being switched according to whether an operation voltage is applied or not; and a power supply unit(230) which supplies the operation voltage.

Description

MOBILE TERMINAL HAVING SELECTABLE RF SWITCH ARCHITECTURE}

1 is a block diagram showing a switching operation of a conventional RF switching device when the normal RF communication in the mobile communication terminal.

2 is a block diagram showing the switching operation of the conventional RF switching device when evaluating the performance of the mobile communication terminal.

3 is a block diagram showing the configuration of a mobile communication terminal having a selective RF switch structure according to the present invention.

4 is a view showing a switching state of the RF switching device when evaluating the performance of the RF transceiver.

5 is a view showing a switching state of the RF switching device in the performance evaluation for the antenna.

* Explanation of symbols for the main parts of the drawings

210: antenna switch 220: selection switch

230: power supply

The present invention relates to a mobile communication terminal having an RF switch, and more particularly, a selective RF switch that can easily determine the performance of not only the RF transceiver but also the RF antenna by a simple switching operation during development and troubleshooting of the mobile communication terminal. The present invention relates to a mobile communication terminal having a structure.

Performance evaluation methods of mobile communication terminals are slightly different for each standard, but basic evaluation methods should be evaluated after establishing a call, that is, maintaining communication status. However, in order to evaluate while maintaining the communication status, it is not easy to apply the actual method because it is necessary to sufficiently shield the factors caused by the surrounding environment in the construction of the communication path for the RF communication.

Therefore, the current performance evaluation method for the mobile communication terminal measures the performance under the same conditions as actually used by using a separate measurement device, not performance evaluation by call setup between communication devices in a wireless state.

After the mobile communication terminal is manufactured and assembled, it is released after verifying its performance through a predetermined evaluation method. One of the evaluation methods may be referred to as a characteristic evaluation of a circuit. It measures various characteristics until the signal propagates through the antenna to the space by a predetermined measuring device, and it is difficult to properly detect the radio signal outputted from the antenna part, so that the switch is put just before the signal is transmitted to the antenna part. This will detect the signal.

1 is a block diagram showing the switching operation of the conventional RF switching device when the normal RF communication is performed in the mobile communication terminal, Figure 2 is a block diagram showing the switching operation of the conventional RF switching device when evaluating the performance of the mobile communication terminal. .

When the RF communication is normally performed by the mobile communication terminal, the RF signal received through the antenna 100 is applied to the antenna switch 103 after the impedance matching is made in the matching circuit 102. At this time, the antenna switch 103 is a switch that is switched by a mechanical operation, by connecting the two matching circuits (102, 104) in the normal operation as shown in Figure 1, by matching the RF first matched in the matching circuit 102 The received signal is secondly matched in the matching circuit 104 and then applied to the RF transceiver 105.

The RF transmission signal output from the RF transceiver 105 is also first matched by the matching circuit 104 and then applied to the matching circuit 102 through the antenna switch 103 to be second matched to the antenna 101. It is sent out through). The power supply unit 106 supplies operating power to the RF transceiver 105.

However, when performing a performance test when initially manufacturing a mobile communication terminal or when a failure occurs in a finished product to evaluate the performance of the terminal, as shown in FIG. 2, the other end of the antenna switch 103 uses the RF cable 106. After connecting to the measuring instrument 107 through the antenna switch 103 by mechanically switching the RF cable 107 side between the RF transceiver 105 and the antenna 101 is disconnected and the RF transceiver 105 and the instrument Connect 108. As a result, the RF transceiver 105 transmits and receives a signal with the measuring instrument 108 instead of the antenna 101, and thus the measuring instrument 107 measures the performance of the RF transceiver 105.

By the way, the conventional performance evaluation method is a method that can only evaluate the performance of the RF transceiver 105, when there is no abnormality in the RF transceiver 105 to measure the performance of the antenna 10, the mobile communication terminal After disconnecting the main body of the antenna again, an additional RF cable was directly connected to the antenna 101, and the mobile communication terminal was reassembled, and there was a hassle of measuring performance using the measuring instrument 107.

Accordingly, an object of the present invention for solving the above problems is to improve the structure of the RF switch of the mobile communication terminal to be able to easily measure and evaluate the performance of the antenna as well as the transceiver.

Mobile communication terminal having an optional RF switch structure of the present invention for achieving the above object is an antenna switch selectively connected to any one of an antenna or a measuring instrument according to the mechanical switching operation; A selection switch which is switched according to the supply of operating power and selectively connects the antenna switch with any one of the antenna and the RF transceiver; And a power supply unit supplying the operation power.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

3 is a block diagram showing the configuration of a mobile communication terminal having a selective RF switch structure according to the present invention.

In the following description, for the convenience of description, the same reference numerals are given to the same elements as in FIGS. 1 and 2, and detailed description thereof will be omitted.

The mobile communication terminal having the selective RF switch structure of the present invention includes an antenna switch 210, a selection switch 220, and a power supply 230.

The antenna switch 210 is a mechanically switched switch as shown in FIG. 1, and allows the selection switch 220 to be selectively connected to the antenna 101 and the measuring instrument 108 according to a mechanical switching operation. The antenna switch 210 has a contact terminal a commonly connected to the input / output terminal of the matching circuit 102 and the contact terminal d of the selection switch 220, and a contact connected to the measuring instrument 108 when performing performance evaluation. A terminal b and a switching terminal c connected to the switching terminal f of the selection switch 220 and switching between the contact terminals a and b are provided. The switching terminal (c) of the antenna switch 210 is connected to the antenna side contact terminal (a) while the mobile communication terminal is normally operated, and the performance of the antenna 101 or the RF transceiver 105 when the terminal is manufactured or a failure occurs. If you want to evaluate the contact is connected to the meter-side contact terminal (b).

The selection switch 220 is a switch that is electrically switched according to the operating power, and is switched according to whether the operating power is supplied to allow the antenna switch 10 to be selectively connected to the antenna 101 or the RF transceiver 105. The selection switch 220 includes a contact terminal (d) connected to the contact terminal (a) of the antenna switch 210, a contact terminal (e) connected to the input and output terminal of the matching circuit 104, and the antenna switch 210 It is connected to the switching terminal (c) and has a switching terminal (f) for switching between the contact terminals (d, e). The switching terminal f of the selector switch 220 is connected to the RF transceiver side contact terminal e when the operating power is supplied to form a path such that the measuring instrument 108 is connected to the RF transceiver 105. If not supplied, the antenna side contact terminal (d) is connected to form a path so that the measuring instrument 108 is connected to the antenna (101).

The power supply unit 230 supplies operating power to the RF transceiver 105 and the selection switch 220.

4 and 5 are diagrams showing the switching state of each switch (210, 220) in the performance evaluation of the RF transceiver 105 and the antenna 101, respectively.

When the mobile communication terminal is first manufactured or when an abnormality occurs to perform performance evaluation on the antenna 101 and the RF transceiver 105, first, the switching terminal c of the antenna switch 210 is conventionally measured. It is mechanically switched to be connected to the side contact terminal (b).

Next, the switching of the selection switch 220 is controlled according to whether the performance evaluation target is the antenna 101 or the RF transceiver 105. The switching operation of the selection switch 220 is determined according to whether the operating power is supplied to the selection switch 220. That is, the switching operation of the selection switch 220 is controlled by turning on / off the power of the mobile communication terminal.

First, when evaluating the performance of the RF transceiver 105, the mobile communication terminal is turned on so that power is supplied from the power supply unit 230 to the selection switch 220 and the RF transceiver 105. When power is supplied to the selection switch 220, the switching terminal f of the selection switch 220 connected to the measuring instrument 108 through the antenna switch 210 is connected to the contact terminal e. Thus, as shown in FIG. 4, a path through which the measuring instrument 108, the RF cable 107, the antenna switch 210, the selection switch 220, the matching circuit 104, and the RF transceiver 105 are sequentially formed. As a result, the measuring instrument 108 exchanges an RF signal with the RF transceiver 105 and evaluates the performance of the RF transceiver 105.

After the performance evaluation of the RF transceiver 105 is completed, when the performance of the antenna 101 is to be evaluated, the power of the mobile communication terminal is turned off to cut off the power supply from the power supply unit 230 to the selection switch 220. Let's do it. When the power supply to the selection switch 220 is cut off, the switching terminal f of the selection switch 220 connected to the measuring instrument 108 through the antenna switch 210 is connected to the contact terminal d. In this case, as shown in FIG. 5, the measuring instrument 108, the RF cable 107, the antenna switch 210, the selection switch 220, the antenna switch 210, the matching circuit 102 and the antenna 101 are sequentially formed. The path that follows is formed. That is, it is fed back from the selection switch 220 to the antenna switch 210 to be connected to the antenna 101 through the antenna switch 210. Of course, the path fed back from the selection switch 220 may be directly connected to the matching circuit 102 without passing through the antenna switch 210. As a result, the measuring instrument 108 evaluates the performance of the antenna 101 using the RF signal transmitted and received through the antenna 101.

As described above, the mobile communication terminal having the selective RF switch structure according to the present invention can selectively perform the performance evaluation for the antenna as well as the RF transceiver without additional disassembly and connection work by controlling ON / OFF of the power supply. Can be.

Claims (5)

An antenna switch selectively connected to any one of an antenna or a meter according to a mechanical switching operation; A selection switch which is switched according to the supply of operating power and selectively connects the antenna switch with any one of the antenna and the RF transceiver; And A mobile communication terminal having a selective RF switch structure having a power supply for supplying the operating power. The method of claim 1, wherein the antenna switch A first contact terminal connected to the antenna side; A second contact terminal connected to the meter side; And A switching terminal connected to the switching terminal of the selection switch and mechanically switched to connect to the first contact terminal or the second contact terminal, The first contact terminal is a mobile communication terminal having an optional RF switch structure, characterized in that connected to the third contact terminal of the selection switch. The method of claim 2, wherein the selection switch The third contact terminal connected to the first contact terminal of the antenna switch; A fourth contact terminal connected to the RF transceiver; And A mobile communication terminal having a selective RF switch structure connected to a switching terminal of the antenna switch and having a switching terminal connected to the third contact terminal or the fourth contact terminal according to whether the operating power is supplied. . The method of claim 3, wherein the selection switch And the switching terminal is connected to the third contact terminal when the operating power is turned off. The method of claim 3, wherein the selection switch And the switching terminal is connected to the fourth contact terminal when the operating power is turned on.

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