KR101054684B1 - Antenna for mobile communication terminal - Google Patents

Abstract

The present invention relates to an antenna for a mobile communication terminal having a varactor diode to adjust matching conditions to improve reception efficiency.

An antenna for a mobile communication terminal according to the present invention includes an antenna pole 10 electrically connected to a main board 12 of a mobile communication terminal through a transmission line 14 and spaced apart from the transmission line 14. A plurality of matching circuits 16 provided between the antenna poles 10 and the main board 12 to match the impedances of the antenna poles 10 and the matching circuits 16 and having a variable capacitance in inverse proportion to an applied voltage. A VCC controller 20 connected to the transmission line 14 at both ends of the varactor diode 18 and the varactor diode 18, and supplying power for controlling the varactor diode 18, and the matching circuit. DC block 24 provided to the outside of 16 is included.

Mobile Communications, Antennas, Varactors, Matching, DC Blocks, RF Chokes

Description

ANTENNA FOR A MOBILE COMMUNICATION DEVICE}

The present invention relates to an antenna applied to a mobile communication terminal, and more particularly, to an antenna for a mobile communication terminal having a varactor diode to adjust matching conditions to improve reception efficiency.

Mobile communication terminals such as mobile phones, PMPs, PDAs, laptops, etc., are one of the functions for providing various contents to service subscribers in addition to voice calls, video calls, and data communication through the multifunctionality of mobile communication terminals. An antenna for receiving information of multimedia broadcasting is also provided.

However, the conventional DMB antenna applied to the mobile communication terminal has a fixed characteristic and is designed to be matched to an optimum condition only in a specific frequency band, so that reception efficiency may be degraded in some areas.

For example, the domestic terrestrial DMB frequency band is 170-210 MHz and 470-860 MHz in China Mobile Multimedia Broadcasting (CMMB). There is a limit.

That is, in order to match the entire frequency band of each service, the efficiency of the antenna is lowered. If the efficiency is increased, the reception rate is lowered in the frequency band adjacent to the upper limit and the lower limit in the frequency band of each service. In order to increase the efficiency of an antenna having the characteristics shown in FIG. 1 to have the characteristics shown in FIG. In order to have the characteristics as shown in FIG. 3, there is a problem that the efficiency is lowered.

The present invention has been invented to solve the above problems, and an object of the present invention is to provide an antenna for a mobile communication terminal capable of securing a reception rate of a predetermined level or more in the entire frequency band of a service.

The mobile communication terminal according to the present invention for achieving the above object is provided with a plurality of antenna poles electrically connected to the main board of the mobile communication terminal through a transmission line, and a plurality of antennas spaced apart on the transmission line. A matching circuit for matching an impedance of a pole and a main board, a varactor diode provided between the matching circuit and variable in inverse proportion to an applied voltage, and connected to a transmission line at both ends of the varactor diode, VCC controller for supplying power for controlling the varactor diode and a DC block provided to the outside of the matching circuit.

An RF choke is provided between the VCC controller and the transmission line and between the transmission line and the ground side, respectively.

In addition, it is preferable that the VCC controller applies a power of 0 to 4V to control the varactor diode to have a capacity of 10 to 2 pF.

According to the antenna for a mobile communication terminal according to the present invention as described above, since the antenna is matched using the varactor diode, the radio wave can be received more than a certain efficiency even in a frequency band adjacent to the upper and lower limits of the service.

In addition, since the antenna is matched to have an optimal reception condition for each channel, the overall efficiency of the antenna for the mobile communication terminal can be increased.

Hereinafter, an antenna for a mobile communication terminal according to the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 5, an antenna for a mobile communication terminal according to the present invention includes an antenna pole 10 electrically connected to a main board 12 of a mobile communication terminal through a transmission line 14, and the transmission line. (14) provided between the matching circuit 16 and the matching circuit 16 to match the impedance of the antenna pole 10 and the main board 12, provided at intervals, inversely proportional to the applied voltage And a VCC controller 20 connected to the transmission line 14 at both ends of the varactor diode 18 and supplying power to control the varactor diode 18. ) And a DC block 24 provided outside the matching circuit 16.

The antenna pole 10 is provided outside the mobile communication terminal. The antenna pole 10 is connected to the outside of the mobile communication terminal. The antenna pole 10 is formed in a telescopic manner, embedded in a mobile communication terminal, or provided to be connectable / removable to one side. The antenna pole 10 is electrically connected through the main board 12 and the transmission line 14 of the mobile communication terminal, and each component is connected between the antenna pole 10 and the main board 12.

The matching circuit 16 is connected on the transmission line 14 connecting the antenna pole 10 and the main board 12 of the mobile communication terminal. The matching circuit 16 matches impedance values with each other while a signal received from the antenna pole 10 is input to the main board 12. The matching circuit 16 is provided in plural such that the first matching circuit 16a and the second matching circuit 16b are provided, and the first matching circuit 16a and the second matching circuit 16b are spaced apart from each other. Placed and placed.

The varactor diode 18 is provided between the matching circuit 16, that is, between the first matching circuit 16a and the second matching circuit 16b. The varactor diode 18 is a device that changes in inverse proportion to a voltage to which a capacitance is applied as power is applied from the outside, and controls the varactor diode 18 to allow mobile communication according to the present invention. The antenna characteristic for allowing the terminal antenna to receive information in an optimal state is determined.

The matching circuit 16 and the varactor diode 18 interlock with each other so that the antenna for a mobile communication terminal according to the present invention operates under optimum conditions. In other words, by controlling the variable capacitance varactor diode 18, the variable capacitance interlocks with the first matching circuit 16a and the second matching circuit 16b electrically connected to the varactor diode 18, thereby moving. Ensure that the communication antenna receives the signal under optimal conditions.

For example, by using the varactor diode 18 disposed between the matching circuit 16 and the matching circuit 16, the antenna for the mobile communication terminal according to the present invention has a plurality of characteristics, thereby providing a plurality of characteristics. The reception performance is improved for each frequency band.

Meanwhile, the varactor diode 18 is controlled by the VCC controller 20.

The VCC controller 20 controls the characteristics of the antenna by applying a positive power to the varactor diode 18 to control the junction capacitance of the varactor diode 18. The VCC controller 20 is connected to one end of the varactor diode 18 and the ground side is connected to the other end of the varactor diode 18 so that the VCC controller 20 is the varactor diode 18. To control.

Therefore, in the varactor diode 18, the capacitance changes according to the power applied from the VCC controller 20, and the optimum frequency of the antenna is matched. That is, as an example of the varactor diode 18, when the SMV1247 of SKYWORKS Co., Ltd. is applied, as shown in Figure 6, since the capacity is reduced as the voltage increases, the varactor When a voltage of 0 to 4 V is applied to the diode 18, the capacity of the barrier diode 18 is reduced from approximately 10 pF to 2 pF, so that the VCC controller 20 controls the varactor diode 18 to control the overall antenna. By determining the characteristics of, it is tuned to improve the reception efficiency even in the channel adjacent to the upper and lower limits of each service.

Here, the RF choke 22 is provided between the VCC controller 20 and the transmission line 14 and between the transmission line 14 and the ground side to prevent electromagnetic waves generated by the application of power. . The RF choke 22 allows a current to pass through, but blocks an electromagnetic wave introduced with energization.

Since the RF choke 22 is formed by winding the coil, the power applied from the VCC control box is applied to control the varactor diode 18, but the electromagnetic wave generated when the power is applied is the varactor diode 18. ) Or to the main board 12 is blocked.

In addition, the DC block 24 is provided to block DC power applied from the VCC controller 20 to the antenna pole 10 and the main board 12. The DC block 24 is provided at both ends of the varactor diode 18 so that the power applied to control the varactor diode 18 from the VCC controller 20 does not leak to the outside. To this end, the DC block 24 made of a capacitor prevents the DC power applied from the VCC controller 20 from leaking to the antenna pole 10 and the main board 12.

The DC block 24 is provided with the RF choke 22 to control the varactor diode 18 without the power applied from the VCC controller 20 to the outside and without the influence of electromagnetic waves.

Hereinafter, the operation of the antenna for a mobile communication terminal according to the present invention as described above will be described.

7 and 8 illustrate a performance curve of an antenna for a mobile communication terminal designed for a frequency band of Chinese mobile broadcasting.

According to the antenna for a mobile communication terminal according to the present invention, by controlling the varactor diode 18 using the VCC controller 20, the reception rate is improved for the entire band of the service.

As shown in FIG. 6, the varactor diode 18 has a variable capacitance according to a voltage applied from the VCC controller 20, and by matching the antennas according to the state of the varactor diode 18, The reception rate of the antenna is improved.

That is, the varactor diode 18 is controlled by the VCC controller 20 to optimize the antenna of the present invention to three conditions, thereby improving reception efficiency for each channel.

Referring to the relationship between the frequency and the voltage standing wave ratio (VSWR), as shown in FIG. 7, the characteristics are changed for each channel than when used alone in a state having a fixed characteristic (shown as dotted lines as states 1, 2, and 3). It can be seen that being used to be tuned (stat1, 2, 3 are shown with overlapping solid lines) improves VSWR, particularly in the region adjacent to the upper and lower bounds of the service. That is, if the characteristics of the antenna is fixed, the reception efficiency decreases in a specific region according to state 1, 2 or 3, but according to the present invention can take only the part which takes the highest efficiency in each of the stat1, 2, 3, Overall efficiency is improved.

In addition, looking at the relationship between the antenna and the frequency-efficiency of the prior art through Figure 8, it can be seen that a slight decrease in efficiency occurs in some areas, but the overall efficiency is improved. In the band of about 530-620MHz, about 5% of efficiency decreases, but in the region of about 620MHz or more, the efficiency is improved by 10-25%.

At this time, although the efficiency decreases at 530 to 620 MHz, the efficiency is maintained at least 50% or more, so that the lower limit of the service, for example, Chinese mobile mobile broadcasting, is sufficiently maintained at 20% or more. The overall efficiency of the antenna for the terminal can be increased.

1 is a characteristic curve of a typical mobile communication terminal.

2 and 3 are changed characteristic curves of the antenna for the mobile communication terminal of FIG.

Figure 4 is a frequency versus efficiency curve of the antenna for a mobile terminal according to the prior art.

5 is a block diagram of an antenna for a mobile communication terminal according to the present invention;

6 is a capacitance curve of a varactor diode.

7 is a frequency vs. efficiency curve of the antenna for a mobile communication terminal according to the present invention.

8 is an efficiency of the antenna for a mobile communication terminal according to the present invention compared to the antenna for a mobile communication terminal according to the prior art.

Description of the Related Art [0002]

10: antenna pole 12: main board

14 transmission line 16 matching circuit

18: varactor diode 20: VCC controller

22: RF choke 24: DC block

Claims (3)

An antenna pole 10 electrically connected to the main board 12 of the mobile communication terminal through the transmission line 14; A first matching circuit 16a and a second matching circuit 16b provided on the transmission line 14 at intervals to match the impedance of the antenna pole 10 and the main board 12. Matching circuit 16, A varactor diode 18 provided between the first matching circuit 16a and the second matching circuit 16b, the capacitance varying in inverse proportion to an applied voltage; The varactor diode 18 is connected to the transmission line 14 at both ends of the varactor diode 18 and supplies power to the varactor diode 18 according to the power supplied to the varactor diode 18. VCC controller 20 for controlling the capacity of the), A DC block 24 provided outside the matching circuit 16; An RF choke 22 provided between the VCC controller 20 and the transmission line 14 and between the transmission line and the ground side, respectively. The VCC controller 20 applies a power of 0 to 4V, and controls the varactor diode 18 to have a capacity of 10 to 2 pF. delete delete

Images