KR20130095587A - Card type smart key using vehicle - Google Patents

Abstract

PURPOSE: A card type vehicle wireless transceiver is provided to prevent damage to an oscillator within a circuit board in a process of forming a resin case through a high-temperature and high pressure press process during a manufacturing process of a card type vehicle wireless transceiver by preparing a crystal oscillator generating a clock with a defined specific frequency. CONSTITUTION: A communication related MICOM including a ceramic type crystal oscillator (71) and an authentication related MICOM are mounted on a predetermined location of a circuit board. An epoxy group resin is filled into a cavity through a high-temperature and high-pressure press process and a resin case for sealing left-right and upper-lower faces of a wireless transceiver is formed. After removing of inserting blocks (17,19) from the resin case by thermal contraction and the resin case is completely hardened.

Description

Card-type Vehicle Wireless Transceiver {CARD TYPE SMART KEY USING VEHICLE}

The present invention relates to a card-type vehicle wireless transceiver, and more particularly, to a device that can prevent the damage of the oscillator generated in the high pressure and high pressure press process when the thickness of the card type wireless transceiver is less than a predetermined thickness. .

A general wireless transceiver is a portable terminal, which performs authentication of a driver and a vehicle through near field communication with an immobilizer installed inside the vehicle, and locks the vehicle door when the authorized driver exists within a predetermined distance based on the authentication result. The driving of a plurality of electric appliances including is interrupted.

However, when the driver moves away from the vehicle by an appropriate distance, the immobilizer controls the driving of a plurality of electrical components such as automatic unlocking to prevent theft or damage of the vehicle.

In addition, the wireless transceiver starts the engine when the authenticated driver selects a separate engine start button installed in the vehicle after being located in the vehicle.

Such a wireless transceiver typically includes a circuit board and a battery supplying power, a circuit board in which emergency keys and electronic components are embedded for starting an engine and opening or closing a door in an emergency situation.

That is, the conventional wireless transmitter for a vehicle is placed in the molding die, the circuit board on which the electronic component is mounted, and molded by epoxy-based thermosetting resin material to seal the mounted circuit board.

At this time, the thinner the thickness of the wireless transceiver for a vehicle, the easier it is to be damaged by high temperature and high pressure, and in particular, a part having a predetermined thickness or more in the process of curing the resin case is easily damaged.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to provide both a front and rear surface of a circuit board with the circuit board, the battery accommodating member, and the emergency key accommodating member floating in the cavity. In a card-type vehicle wireless transceiver for forming a resin case for sealing with a circuit, the circuit board provides a card-type vehicle wireless transceiver including a crystal oscillator for generating a clock of a predetermined predetermined frequency, so that In the process of forming the resin case through the press process, damage of the oscillator in the circuit board can be fundamentally removed, thereby improving the durability and reliability of the product.

According to an aspect of the present invention for achieving the above object, there is provided a card-type vehicle wireless transceiver, such an apparatus,

In the card-type vehicle radio transceiver for forming a resin case for sealing both front and rear surfaces of the circuit board with a resin material with the circuit board, the battery housing member, and the emergency key storage member floating in the air in the cavity,

The circuit board may include a crystal oscillator generating a clock of a predetermined frequency.

Here, the crystal oscillator

It would be desirable to be provided with a ceramic type.

As described above, the method for manufacturing a card type wireless transceiver according to the present invention is for sealing both front and rear surfaces of a circuit board with a resin material while leaving the circuit board, the battery housing member, and the emergency key storage member floating in the cavity. Since the crystal oscillator generates a clock of a predetermined frequency in a card-type vehicle wireless transmission / reception forming a resin case, a high-temperature and high-pressure press process during the manufacturing process of a card-type vehicle wireless transceiver of a predetermined thickness is defined. Through this, the damage to the oscillator in the circuit board in the process of forming the resin case can be essentially eliminated, thereby fundamentally improving the durability and reliability of the product.

The following drawings attached in this specification are illustrative of the preferred embodiments of the present invention, and together with the detailed description of the invention to serve to further understand the technical spirit of the present invention, the present invention is a matter described in such drawings It should not be construed as limited to.
1 is a flowchart illustrating a manufacturing process of a card type wireless transceiver to which an embodiment of the present invention is applied.
2 is a cross-sectional view showing the configuration of a card-type vehicle wireless transceiver manufactured according to the manufacturing process of the card-type vehicle wireless transceiver shown in FIG.
3 is a cross-sectional view illustrating a circuit board of the card-type vehicle wireless transceiver illustrated in FIG. 1.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

1 is a flowchart illustrating a manufacturing process of a card type wireless transceiver to which an embodiment of the present invention is applied, and FIG. 2 illustrates a vehicle configuration manufactured according to the manufacturing process of a card type vehicle wireless transceiver shown in FIG. 1. 3 is a cross-sectional view showing a circuit board having an anchor hole of the card-type vehicle wireless transceiver shown in FIG.

Referring to Figures 1 to 3 manufacturing process of the card-type wireless transceiver according to the present invention, as shown in the drawing, first, in step 101, after the component 11 is buried on one surface of the circuit board Proceed to 103.

The component 11 includes a communication related micom for performing data communication with the vehicle and an authentication related micom for managing authentication data in response to the data received from the vehicle, and provided from such communication related micom and authentication related micom. It further includes an oscillator 71 for generating a clock for synchronizing and transmitting data.

Here, the oscillator 71 is provided with a ceramic type crystal oscillator so as not to be damaged even when applied to a card-type vehicle radio transceiver having a predetermined thickness or less of a predetermined pressure.

Subsequently, in step 103, a battery accommodating member including battery terminals 13a and 13b installed on one surface of the circuit board 11 and connected to the circuit board 11 and the other surface of the circuit board 11. An emergency key accommodating member having a reinforcement portion 15a connected to the circuit board 11 and an emergency key accommodating groove 15b for accommodating an emergency key is formed in the soldering process.

Here, the battery accommodating member is provided such that a current flows between the battery terminals 13a and 13b when the battery is accommodated in the battery accommodating groove 13c, and the current flows to the circuit board 11. do.

The emergency key accommodating member is provided to fix the reinforcement part 15a having the emergency key accommodating groove 15c to a predetermined position of the circuit board 11 through a soldering process.

When the circuit board 11, the battery accommodating member, and the emergency key accommodating member are formed through the steps 101 and 103, the process proceeds to step 105.

In the step 105, an inserting block 17, 19 is inserted into each of the battery accommodating groove 13c and the battery accommodating groove 15b into the emergency key accommodating member 15c and the battery accommodating member. Subsequently, molding dies 21 and 23 that are pre-patterned on the top and bottom surfaces of the battery accommodating member, the emergency key accommodating member, and the circuit board 11 are respectively provided to form the molding die 17 on the top and rear surfaces of the circuit board 11, respectively. The cavity 25 which is a space layer with the (19) is formed.

In step 105, the surface of the forming dies 21 and 23 is interfaced with nitrogen, argon, and hydrogen gas before installing the forming dies on the inserting block and the circuit board 11. It may further comprise the step of activating to remove the organic material.

Subsequently, in step 107, an epoxy resin is filled into the cavity 25 by a press process of high temperature and high pressure to form a resin case 41 for sealing the upper and lower sides of the wireless handset.

That is, in step 107, the inside of the cavity is maintained in a vacuum state, and then the thermosetting resin is filled into the cavity by performing a high pressure and a high temperature press method through a flanger. At this time, the resin is also filled in the anchor hole (11b).

Here, the step 107 may be performed by a transfer mold (transfer molding) method with a thermosetting resin to form the resin case, and the detailed description thereof will be omitted since such a process is well known in the art.

Here, the thermosetting resin may include an epoxy resin and a wax component.

After the execution of the step 107, the inserting block 17 and 19 are removed from the forming dies 21 and 23, and then the process proceeds to step 109 of completely curing the resin case.

In the step 109, after forming the temperature difference between the temperature of the inserting blocks 17 and 19 and the resin case 41 to remove the inserting blocks 17 and 19 from the resin case 41 by heat shrinkage. The resin case 41 is maintained at a predetermined high temperature (oven) for a predetermined time to completely cure the resin case 41.

Subsequently, the log sheet and the decoration sheet are attached using the double-sided tape in the step 111.

According to this configuration, step 101 proceeds to step 103 after mounting the communication-related microcomputer and the authentication-related microcomputer including the crystal oscillator 71 of the ceramic type at a predetermined position of the circuit board 11.

In the step 103, a battery accommodating member and a circuit board 11 including battery terminals 13a and 13b and a battery accommodating groove 13c installed on one surface of the circuit board 11 and connected to the circuit board. The emergency key receiving member is formed on the other side of the reinforcing portion 15b and the emergency key receiving groove 15b respectively connected to the circuit board 11 by a soldering process.

After inserting the inserting blocks 17 and 19 into each of the battery accommodating groove 13c and the emergency key accommodating groove 15b, the battery accommodating member and the emergency key accommodating member and the upper and lower surfaces of the circuit board are respectively patterned. The formed molding dies 21 and 23 are provided to form a cavity 25 which is a space layer with the molding dies 21 and 23 on each of the upper and rear surfaces of the circuit board 11 (step 105).

Subsequently, in step 107, an epoxy resin is filled into the cavity 25 by a press process of high temperature and high pressure to form a resin case 41 for sealing the upper and lower sides of the wireless handset, and then the process proceeds to step 109. do.

That is, in step 109, a temperature difference between the temperature of the inserting blocks 17 and 19 and the resin case 41 is formed to remove the inserting block from the resin case by thermal contraction, and then the resin case 41 is rewritten. The resin case is completely cured by maintaining at a predetermined high temperature for a predetermined time.

After the resin case is completely cured, the log sheet and the decoration sheet are attached using double-sided tape.

According to an embodiment of the present invention, a card-type vehicle radio transceiver for forming a resin case for sealing both front and rear surfaces of a circuit board with a resin material while leaving the circuit board, the battery housing member, and the emergency key storage member in the air in the cavity. In the circuit board is provided with a crystal oscillator for generating a clock of a predetermined predetermined frequency, by removing the damage to the oscillator in the circuit board in the process of forming a resin case through a high temperature and high pressure pressing process product It is possible to fundamentally improve durability and reliability.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

In a card-type vehicle radio transceiver which forms a resin case for sealing both front and back of the circuit board with a resin material while leaving the circuit board, the battery housing member, and the emergency key storage member in the air in the cavity, the circuit board is defined. As it is equipped with a crystal oscillator that generates a clock of a predetermined frequency, the durability and reliability of the product are fundamentally removed by fundamentally eliminating the damage of the oscillator in the circuit board in the process of forming the resin case through the press process of high temperature and high pressure. It can bring significant advances in terms of operational accuracy and reliability, as well as performance efficiency, to improve card-type vehicle radio transceiver manufacturing methods that can be improved. But practically obvious It is an invention with industrial applicability as it is a degree.

Claims (2)

In the card-type vehicle radio transceiver for forming a resin case for sealing both front and rear surfaces of the circuit board with a resin material with the circuit board, the battery housing member, and the emergency key storage member floating in the air in the cavity,
The circuit board is
Card-type vehicle radio transceiver comprising a crystal oscillator for generating a clock of a predetermined predetermined frequency. The crystal oscillator of claim 1, wherein the crystal oscillator
Card-type vehicle wireless transceiver, characterized in that provided in a ceramic type.

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