KR200208749Y1 - Satellite receiver high frequency divider - Google Patents

Abstract

The present invention relates to a device for distributing a reception frequency for satellite (BS), and in particular, for satellite reception manufactured by fabricating a pattern on a printed circuit board instead of attaching a circuit component to a substrate. A high frequency distribution apparatus, comprising: first and second inductance means coupled in parallel to an input source, respectively, and third and fourth inductance means respectively coupled in series to the first and second inductance means to remove high frequency noise. And high frequency smoothing resistance means connected between the connection points of the first and third inductance means, the connection points of the second and fourth inductance means, and the connection point between the third inductance means and the first output, and And a high frequency impedance matching means connected between an inductance means and a connection point between the second output. Writing, it is possible to improve the reliability and prevent the occurrence of high frequency noise.

Description

Satellite receiver high frequency divider

1 is a circuit diagram of a conventional high frequency divider.

2 and 3 are circuit diagrams and patterning diagrams of a high frequency distributor for satellite reception according to the present invention.

Figure 4 is a graph showing the distribution loss improved by the present invention.

* Explanation of symbols for main parts of the drawings

L1-L4: Coils C1-C2: Capacitors

E1-R2: resistors

The present invention relates to a device for distributing a reception frequency for satellite (BS), and in particular, for surface-mounted satellite reception, which is manufactured by patterning a circuit component on a printed circuit board instead of attaching it to a substrate. It relates to a high frequency distribution device.

In general, a circuit for distributing a reception frequency for a BS is known to generate a distribution loss in the high frequency band 900MHz to 1.8GHz. Conventional high frequency (RF) distributor circuits have been commercialized in Japan (Shibasoku) and Korea (Micro Electronics). In general, the impedance matching circuit using the best power transfer from the source to the load is used in the divider when the load resistance and the source resistance are the same at DC. 1 is a circuit diagram showing an example of such a distributor. In FIG. 1, the input INPUT is smoothed to the high frequency resistance R1 through two coils L1 and L2 and two capacitors C1 and C2 and distributed to two outputs DIST1 and DIST2. In this case, conventionally, a mounting component is used as a circuit component of L, C, and R, but the mounting component generates noise in the satellite reception frequency band, and thus is not suitable for use in an apparatus for satellite reception.

The present invention was created to solve the above problems, and in order to improve the problems of the conventional high frequency divider, a coil and a resistor are embedded in a printed circuit board in a PCB pattern, so that the reliability and noise generated from the mounted parts are increased. The purpose of the present invention is to provide a high frequency divider for satellite reception that eliminates oscillation lamps.

Another object of the present invention is to provide a high frequency divider for satellite reception, which reduces the number of parts by designing a capacitor occupied as a capacitance between the earth and the line as a capacitance between the lines by patterning and embedding circuit components in a printed circuit board. will be.

The present invention to achieve the above object is first and second inductance means respectively coupled in parallel to the input source; Third and fourth inductance means connected in series with the first and second inductance means, respectively, to remove high frequency noise; High frequency smoothing resistance means connected between the connection points of the first and third inductance means and the connection points of the second and fourth inductance means; And a high frequency impedance matching means connected between a connection point between the third inductance means and the first output and a connection point between the fourth inductance means and the second output.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

The present invention, as shown in Figure 2, in order to improve the problem of the conventional high-frequency divider, a circuit diagram for embedding the coil and the capacitor in a printed circuit board in a PCB pattern, the conventional circuit diagram of FIG. In the present invention, instead of using a mounting capacitor, the capacitor has a capacitance between the coils.

In FIGS. 2 and 3, the impedance matching of the printed circuit to the input signal is very important. In the present invention, impedance matching is achieved using the patterned coils L1 and L2, and through the coils L3 and L4. RF noise was removed. In addition, high frequency impedance matching was achieved using resistor R2. Here, the resistor R1 is a circuit that performs high frequency smoothing of the input signal passing through the coils L1 and L2. As a result, the input circuit is bi-divided at a predetermined rate through the two output terminals DIST1 and DIST2. In this case, when the circuits shown in FIG. 2 are continuously connected to the respective output terminals, a multi-distribution circuit can be configured.

4 shows the distribution loss (S21, S31) between one input and two outputs of the present invention. As a result of measuring the distribution loss of a typical commercial distributor, the loss is about 3.5-4.0dB and the frequency band is about 100MHz. Therefore, two dividers are required for simultaneous use in the 900 MHz and 1800 MHz bands. As shown in FIG. 4, the splitter of the present invention exhibits a broadband characteristic with a distribution loss of approximately 3.5 dB from 900 MHz to 1800 MHz. Therefore, the broadband characteristics can be used simultaneously as the satellite receiving distributor used in the 900 MHz band and the 1800 MHz band.

As described above, the satellite receiver distributor of the present invention has high reliability and can eliminate noise and oscillation generated in the mounted component by embedding coils and resistors on the printed circuit board.

Claims (3)

First and second inductance means respectively coupled in parallel to the input source; Third and fourth inductance means connected in series with the first and second inductance means, respectively, to remove high frequency noise; High frequency smoothing resistance means connected between the connection points of the first and third inductance means and the connection points of the second and fourth inductance means; and the connection point between the third inductance means and the first output, and the fourth inductance means. And a high frequency impedance matching means connected between a connection point between the second output and the second output. 2. The satellite receiver of claim 1, wherein the first and second outputs are connected to the satellite receiver high frequency divider according to claim 1 to form a multi-distribution. The high frequency divider according to claim 1 or 2, wherein each of the components is patterned on a printed circuit board.