KR100744850B1 - Rf switch with improved seesaw balancing - Google Patents

Abstract

An RF(Radio Frequency) switch to improve seesaw balancing is provided to maintain the balancing of seesaw operations by installing an elastic supporter instead of a conventional fixing protrusion unit. An RF switch to improve seesaw balancing includes a main plate(300), a magnet(310), a pair of solenoids(320a,320b), a seesaw, and an elastic supporter(335). The main plate(300) is positioned on an upper surface of the RF switch and a lower part of the main plate(300) is coupled with the solenoids(320a,320b) and the magnet(310). The solenoids(320a,320b) coupled with the lower part of the main plate(300) generate magnetic force according to a power application state from a control circuit. The seesaw is inclined to one of a push rod(340) and the elastic supporter(335) according to the magnetic force generated from the solenoids(320a,320b). The elastic supporter(335) has a head unit and a supporting unit. The head unit of the elastic supporter(335) is made of a PTFE(PolyTetra FluoroEthylene) material. The supporting unit of the elastic supporter(335) composed of an elastic body has a predetermined length.

Description

RF Switch with Improved Seesaw Balancing}

1 is a diagram showing a general configuration of a conventional RF switch.

2 is a view showing a state when a conventional seesaw does not press the push rod.

3 is a view showing the structure of the RF switch for improving the balancing of the seesaw according to an embodiment of the present invention.

Figure 4 is a view showing a state when the seesaw is tilted toward the elastic support according to an embodiment of the present invention.

5 is a view showing a state diagram when the state changed to press the push rod in the state as shown in Figure 4 in accordance with a preferred embodiment of the present invention.

TECHNICAL FIELD The present invention relates to an RF switch, and more particularly, to an improved structure of an RF switch capable of more stable operation by improving balancing of the seesaw movement.

RF (Radio Frequency) switch has low insertion loss and high attenuation characteristics compared to the conventional semiconductor switch, and is widely used in various fields because of its high efficiency at high power. It not only functions as a simple switch, but also functions as a synthesizer for synthesizing the incoming RF signals into the required lines.

Typically, the RF switch controls the transmission of a signal depending on whether the seesaw connects the contact lead to the connector by the magnetic force of the solenoid controlling the seesaw movement.

1 is a view showing a general configuration of a conventional RF switch.

Referring to FIG. 1, a typical RF switch includes a main plate 100, a magnet 110, a plurality of solenoids 120a and 120b, a seesaw 130, a fixing protrusion 135, a push rod 140, and a contact lead. 160 and connector terminals 180a and 180b and connectors 190a and 190b.

FIG. 1 illustrates an RF switch having a fixed protrusion 135 at a lower left side of the seesaw 130 and a push rod 140 at a lower right side of the seesaw 130.

Typically, the RF switch is divided into an RF switch having a push rod at both lower sides of the seesaw and an RF switch having a push rod at only one side of the side of the seesaw. The latter RF switch is illustrated in FIG. 1.

In Fig. 1, the RF signal to be processed by the RF switch is input to the connector 190a. The RF signal input to the connector 190a is output to the connector 190b according to the position of the contact lead 150. When the contact lead is in contact with the connector terminals 180a and 180b of the connectors 180a and 180b, the RF signal input to the connector 190a is output to the connector 190b through the contact lead 150. However, when the contact lead 150 is not connected to the connector terminals 180a and 180b of the connectors 190a and 190b, the RF signal input to the connector 190a is not output to the connector 190b. In this case, the input RF signal may not be output through the RF switch or may be output through another connector (not shown).

The contact lead 150, which is in contact or non-contact with the connector terminal for the distribution and routing of the RF signal, is controlled according to the state of the push rod 140, and the state of the push rod 140 changes according to the movement of the seesaw. .

The push rod 140 is supported by an elastic body and its state is divided into a pressed state and a non-pressed state. When the push rod 140 is in the depressed state, the contact lead 150 descends to contact the connector terminals 180a and 180b.

When the push rod 140 is in the unpressed state, the contact lead 150 is not lowered by the push rod and thus does not contact the connector terminals 180a and 180b.

The push rod 140 is changed to a pressed state or a non-pressed state according to the movement of the seesaw 130. The seesaw 130 may be inclined to either side when a force is transmitted as shown in FIG. To be installed.

The seesaw movement is controlled by the magnetic force generated by the solenoids 120a and 120b. For example, when the seesaw tries to press the right push rod 140, the push rod 140 may be pressed by generating an attraction force to the seesaw in the first solela 120a so that the seesaw is inclined to the right. . Alternatively, the push rod 140 may be pressed by generating repulsive force from the right solenoid 120b.

The magnetic force generated in the solenoids 120a and 120b is controlled by a separate control circuit (not shown). The magnet 110 coupled between the main plate 100 and the solenoids 120a and 120b functions to stabilize the state of the seesaw and to magnetize the seesaw.

When the magnetic force of the solenoid disappears while the push rod 140 is pressed, it returns to the non-contact state again by the elastic force of the elastic body (generally a spring) supporting the push rod 140.

As shown in FIG. 1, a push rod 140 is provided only at a lower side of one side of the seesaw 130, and a fixing protrusion 135 is installed at the other side of the seesaw in the RF switch provided with a contact lead thereunder. The fixed protrusion 135 is a component for stabilizing the state of the seesaw when the seesaw 130 does not press the push rod 140.

2 is a view showing a state when the conventional seesaw does not press the push rod.

When the seesaw 130 does not press the push rod, the seesaw may be in a neutral state or inclined toward the fixed protrusion 135 as shown in FIG. 2.

As shown in FIG. 2, when the fixing protrusion 135 is installed at a side where the contact lead is not provided, when the plate spring of the seesaw 130 collides with the fixing protrusion, the fixing protrusion 135 may damage the plate spring of the seesaw. There was a problem that could be added.

In addition, when the state of the seesaw is changed to a state in which the push rod is pressed again in the state as shown in FIG. 2, the seesaw is changed to a state for pressing the push rod only by the magnetic force of the solenoid, and the seesaw joins the push rod. When the state is changed to 2, a force different from the force applied is given. This is because the push rod and the elastic force act together with the magnetic force when the seesaw pressurizes the push rod, but the elastic force does not act together when pressing the push rod in contact with the fixed protrusion.

The unbalance of the force acting on the seesaw causes an error in relation to the seesaw operation and eventually causes a smooth switching operation. In more serious cases, the seesaw often failed to pressurize the push rod properly by magnetic force alone.

In order to solve the problems of the prior art as described above, the present invention proposes an improved RF switch that can maintain the balancing of the seesaw operation.

Another object of the present invention is to propose an RF switch which can further stabilize the seesaw operation by maintaining the balancing of the seesaw.

In order to achieve the above object, according to a preferred embodiment of the present invention, in the RF switch for controlling at least one contact lead by the operation of at least one seesaw, provided on one side of the seesaw At least one push rod coupled with at least one contact lead, the at least one push rod lowering or raising the contact lead in response to a pressing operation of the seesaw; At least one elastic support is provided on the other side lower portion of the seesaw, and includes a head portion and a support made of an elastic body, wherein the elastic support is provided with an RF switch that is contracted or restored in response to the operation of the seesaw.

On the other hand, the present invention may further include at least one solenoid for generating an electromagnetic force during power supply to control the movement of the seesaw.

The head portion of the elastic support may be made of polytetrafluoroethylene (PTFE), and the elastic body of the elastic support may be a spring.

When the seesaw transitions from the pressing state of the elastic support to the pressing state of the push rod, the magnetic force of the solenoid and the elastic force according to the restoration of the elastic support are applied to the seesaw.

The height of the elastic support is the same as the push rod, the elastic force of the elastic support is preferably the same as the elastic force of the push rod.

According to another aspect of the invention, the seesaw for performing an operation inclined up and down left and right according to the action of the external force; A first solenoid installed on one side of the seesaw and providing a magnetic force to the seesaw according to a power supply from a control circuit; A second solenoid disposed on an upper portion of the other side of the seesaw and providing a magnetic force to the seesaw according to power supply from a control circuit; A push rod provided below one side of the seesaw and contracted or restored according to the operation of the seesaw; An elastic support provided below the other side of the seesaw and provided with a support formed of a head part and an elastic body and contracted or restored in accordance with the operation of the seesaw; An RF switch coupled to a lower portion of the push rod and including a contact lead that rises or descends according to a contraction or restoration operation of the push rod is provided.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the RF switch according to the present invention. In the following description of the present invention, the same reference numerals will be used for the same means regardless of the reference numerals in order to facilitate the overall understanding.

3 is a view showing the structure of the RF switch for improving the balancing of the seesaw according to an embodiment of the present invention.

3, the RF switch for improving the seesaw balancing according to an embodiment of the present invention is the main plate 300, the magnet 310, a plurality of solenoids (320a, 320b), seesaw 330, elastic support ( 335, push rod 340, contact lead 360, connector terminals 380a and 380b, and connectors 390a and 390b.

As shown in FIG. 3, the main plate 300 is positioned at the top of the RF switch, and the solenoids 320a and 320b and the magnet 310 are coupled to the lower part of the plate 300.

Solenoids 320a and 320b coupled to the lower portion of the plate 300 generate magnetic force depending on whether power is supplied from a control circuit (not shown). When the magnetic force is generated in the solenoid, the seesaw 330 is inclined to either side according to the magnetic force.

Although only two solenoids and one seesaw are shown in FIG. 3, it will be apparent to those skilled in the art that the number of solenoids and the number of seesaws may be increased as the path distributed by the switch increases.

The seesaw 330 is inclined to either the push rod 340 or the elastic support 335 according to the magnetic force generated from the solenoid.

When the seesaw 330 is inclined to the push rod 340 by the magnetic force of the solenoid, the push rod 340 is pressed, and the push rod 340 lowers the contact lead 360.

When the contact lead 360 is lowered, the contact lead is in contact with the connector terminals 380a and 380b, and the first connector 390a and the second connector 390b are connected to each other by the contact lead, and the RF signal can be transmitted. Become.

Although two connectors and one contact lead are shown in FIG. 3, as in the case of the solenoid described above, as the paths distributed by the switches increase, the number of contact leads and connectors may vary.

In order not to connect the path between the first connector 390a and the second connector 390b, the control circuit (not shown) adjusts the magnetic force of the solenoid so that the seesaw is inclined toward the left side, that is, the elastic support 335. do.

In the related art, in the case where the contact lead is not provided, the fixed protrusion is provided at the bottom of the seesaw. As described above, the fixing protrusion may not only damage the leaf spring of the seesaw, but also break the balancing of the seesaw motion.

According to a preferred embodiment of the present invention, in order to solve this problem, the elastic support 335 is provided instead of the fixed protrusion.

The elastic support 335 is composed of a head portion and a support portion. The head portion is preferably made of a dielectric material as a portion in contact with the leaf spring. The RF switch is more preferably a heat resistant material that is a bar dielectric material which is a device easily exposed to heat. According to an embodiment of the present invention, the head portion of the elastic support may be made of polytetrafluoroethylene (PTFE) material, and various other dielectric materials may be used.

The support of the elastic support 335 is made of an elastic body and has a preset length. Herein, the elastic body may be a spring, such as the push rod 340, and an elastic body of various other materials may be used.

The elastic support 335 is contracted corresponding to the pressing force of the seesaw when the seesaw contacts, and is restored to its original state when the pressing force of the seesaw disappears.

4 is a view showing a state when the seesaw is tilted toward the elastic support according to an embodiment of the present invention.

Referring to FIG. 4, when the seesaw 400 is inclined toward the elastic support by the magnetic force of the solenoid, the elastic support 404 is contracted by the pressure of the leaf spring 402 of the seesaw 400.

Since the elastic support 404 is not fixed in response to the pressing action of the seesaw, it is contracted, and thus does not give a strong repulsive force to the seesaw as in the case where the conventional fixed protrusion is installed, and thus the plate spring of the seesaw, in particular, the seesaw may be damaged. The possibility is greatly reduced.

When the seesaw is inclined toward the elastic support 404, the force for pushing the push rod 406 on the right side is removed, and as the push rod 406 is returned to its original state, the contact lead is not in contact with the connector pin.

The height of the elastic support 404 and the elastic force to return to the original state in the contracted state is preferably set equal to the push rod. This is because the most stable balancing can be maintained when the push rod and the elastic force and height are set to be the same. However, the height and elastic force of the elastic support 404 may be set differently from the push rod as necessary.

FIG. 5 is a view illustrating a state diagram when a state in which a push rod is changed to a pressing state in the same state as in FIG. 4 according to an exemplary embodiment of the present invention.

Referring to FIG. 5, when the magnetic force of the solenoid causing the seesaw 400 to press the elastic support 404 is removed, and the magnetic force of the solenoid acts to press the push rod 406 on the right side, the seesaw presses the push rod. Transition to state

When a conventional fixed protrusion is used, only the magnetic force of the solenoid acts when the fixed protrusion is shifted to pressurize the push rod while pressing the fixed protrusion. Therefore, when the magnetic force acts weakly due to various external factors, there is a problem in that the transition time to the pressing state of the push rod is delayed, and in some cases, the transition to the pressing state of the push rod does not occur.

However, when the elastic support 404 according to the present invention is used, if the magnetic force of the solenoid pressurizing the elastic support is removed, the elastic support generates an elastic force to return to its original state according to the inherent properties of the elastic body and thus the seesaw ( 400 is subjected to an elastic force directed above the elastic support 404.

When the seesaw 400 acts on the push rod to press the push rod together with such elastic force, a larger force is applied to the state transition than when the conventional magnetic force only acts, and the magnetic force is weak as in the prior art. The problem that the transition time is delayed or the state transition is not made can be solved.

In addition, the force acting in the case of transition to the state of pressing the elastic support in the state of pressing the push rod and in the state of pushing the push rod in the state of pressing the elastic support becomes the same, thereby balancing the seesaw movement. It can greatly improve.

In the related art, unbalancing of the seesaw operation has been one of the main factors of the malfunction of the RF switch. As described above, by setting the height and elastic force of the elastic support 404 to be the same as the push rod, the balancing of the seesaw is improved by operating under the same conditions during the state transition. Preferably, the elastic support 404 may be implemented in the same shape as the push rod 406.

Preferred embodiments of the present invention described above are disclosed for purposes of illustration, and those skilled in the art will be able to make various modifications, changes, and additions within the spirit and scope of the present invention. Additions should be considered to be within the scope of the following claims.

As described above, according to the RF switch according to the preferred embodiment of the present invention, there is an advantage that can maintain the balancing of the seesaw operation by providing an elastic support instead of the conventional fixed projection.

In addition, according to a preferred embodiment of the present invention, there is an advantage that can further stabilize the seesaw operation by maintaining the balancing of the seesaw.

Claims (7)

An RF switch for controlling at least one contact lead by operation of at least one seesaw, At least one push rod disposed below one side of the seesaw and coupled with the at least one contact lead and configured to lower or raise a contact lead according to a pressing operation of the seesaw; At least one elastic support is provided on the lower side of the seesaw, and having a support made of a head portion and an elastic body, The elastic support is contracted or restored in response to the operation of the seesaw, The head portion of the elastic support is an RF switch, characterized in that the polytetrafluoroethylene (PTFE). The method of claim 1, And an at least one solenoid for generating electromagnetic force to control the movement of the seesaw. delete The method of claim 1, RF switch, characterized in that the elastic body of the elastic support is a spring. The method of claim 2, And the magnetic force of the solenoid and the elastic force according to the restoration of the elastic support are acted upon the seesaw when the seesaw transitions from the pressing of the elastic support to the pressing of the push rod. The method of claim 1, The height of the elastic support is the same as the push rod, the elastic force of the elastic support is an RF switch, characterized in that the same as the elastic force of the push rod. A seesaw which performs tilting in up, down, left and right according to the action of an external force; A first solenoid installed on one side of the seesaw and providing a magnetic force to the seesaw according to power supply from a control circuit; A second solenoid disposed on an upper portion of the other side of the seesaw and providing a magnetic force to the seesaw according to power supply from a control circuit; A push rod provided below one side of the seesaw and contracted or restored according to the operation of the seesaw; An elastic support provided below the other side of the seesaw and provided with a support formed of a head part and an elastic body and contracted or restored in accordance with the operation of the seesaw; A contact lead coupled to a lower portion of the push rod, the contact lead rising or lowering according to a contraction or restoration operation of the push rod, The head portion of the RF switch, characterized in that the polytetrafluoroethylene (PTFE).

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