KR100663803B1 - Constant current darlington transistors - Google Patents

Abstract

 Mount a constant current Darlington transistor module including a first transistor Q1, a second transistor Q2, a first resistor R1, and a first constant voltage source CV1 on a substrate or film with excellent insulation, and insulate the module. It is made of parts so that it can be sewn into the empty space inside the glass tube with excellent characteristics and connected to the pins assembled on the base so that it can be attached to or detached from an external socket, etc. It is excellent and has good insulation because of the empty space between electrodes. In addition, it completely blocks moisture, dust and the like from the outside, and maintains insulation even during long operation.

Description

Constant Current Darlington Transistor

1A: Embodiment of a constant current Darlington transistor encapsulated in a glass tube according to the present invention

Figure 1b: an embodiment of a constant current darlington transistor encapsulated in a case according to the present invention

FIG. 1C: Circuit diagram of a constant current Darlington transistor applied to FIGS. 1A and 1B.

Figure 2a: An embodiment of a constant current Darlington transistor mounted on a PCB substrate of the prior art

FIG. 2B: Circuit diagram of a constant current Darlington transistor applied to FIG. 2A

3A: Embodiment of a constant current Darlington transistor encapsulated in a metal tube

FIG. 3B: One Embodiment of Constant Current Darlington Transistor Enclosed in a Metal Case

FIG. 3C: Circuit diagram of a constant current Darlington transistor applied to FIGS. 3A and 3B.

4 is an embodiment of an amplifying circuit using a gas-packed constant current Darlington transistor

5: Constant Current Darlington Transistors Installed with a Radiator

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a packaging method for preventing dielectric deterioration of circuit electrodes of a constant current darlington transistor, which is a high input impedance element, and a constant current darlington transistor having improved amplification characteristics using high input impedance characteristics. will be.

The constant current Darlington transistor is a high input impedance amplifying device having a voltage amplification characteristic by composing a transistor, which is a current amplifying device, into a Darlington circuit and adding a resistor and a constant voltage source.

In the past, as shown in FIG. 2A, a pattern drawn by an electrical conductor is formed on a circuit board, and the 21st transistor Q21, the 22nd transistor Q22, the 21st resistor Q21, and the 21st resistor R21 which are the constituent elements of the constant current Darlington circuit are formed. The constant voltage source CV21 is connected as in the circuit of FIG. 2B.

In FIG. 2A, the impedance of the base electrode B of the second base terminal B2 and the 22nd transistor Q22 is high. The base electrode B of the second base terminal B2 or the twenty-second transistor Q22 has good insulation with other electrodes around it to operate normally. If the insulation between the collector electrode C of the second base terminal B2 and the twenty-first transistor Q21 becomes poor, the insulation of the base electrode B of the twenty-second transistor Q22 and the collector electrode C of the twenty-second transistor Q22 In this amplification operation, the output signal of the collector electrode C is leaked in the amplification operation, and a reverse polarity signal flows irregularly into the base electrode B of the second base terminal B2 or the 22nd transistor Q22, which is a high input impedance, and thereby amplifies the signal. This affects the signal that is amplified and amplified.

Therefore, in FIG. 2A, a clean state must be maintained between the electrode C and the electrode B or between the electrode C and the second base terminal B2 for good insulation.

If the product is used for a long time in daily life, the insulation between the electrodes will be deteriorated due to moisture, dust, etc. around it, and it will not be able to maintain high input impedance characteristics. If the high input impedance is not maintained in this manner, the amplification characteristics are deformed and faithful amplification cannot be achieved.

If a product with a constant current Darlington transistor is used for a long time, dust or dirt may accumulate inside the product, resulting in poor insulation between electrodes and deterioration of product performance, resulting in shortening of product life.

Insulating the internal electrode of the constant current Darlington transistor to be sealed to the outside air to maintain insulation, and propose a constant current Darlington transistor that improves the amplification characteristics by making the sealed interior in a vacuum state or by encapsulating other gas types together. .

The configuration of the first embodiment is

As shown in FIG. 1A, a constant current Darlington transistor module including a first transistor Q1, a second transistor Q2, a first resistor R1, and a first constant voltage source CV1 is placed in an empty space inside a glass tube having excellent insulation characteristics. It is a structure that is made of parts so that it can be attached and detached to an external socket by sealing and connecting each lead wire to a pin assembled to the base.

The configuration of the second embodiment is

As shown in FIG. 1B, a constant current Darlington transistor module including a first transistor Q1, a second transistor Q2, a first resistor R1, and a first constant voltage source CV1 is placed in an empty space inside a case having excellent insulation characteristics. It is a structure that is made of parts so that it can be assembled and assembled to the outside circuit board by pinning each lead terminal out of the case.

The configuration of the third embodiment is

As shown in FIG. 3A, a constant current Darlington transistor module including a 31 transistor Q31, a 32 transistor Q32, a 31 resistor R31, and a 31 constant voltage source CV31 may be used to block noise from the outside. It is made of parts to be sealed in an empty space and connected to the pins assembled in the base so that they can be detached from an external socket or the like.

The configuration of the fourth embodiment is

As shown in FIG. 3B, the metal case may block a constant current Darlington transistor module including a 31 transistor Q31, a 32 transistor Q32, a 31 resistor R31, and a 31 constant voltage source CV31. It is sealed by putting it in the inner empty space and forming each outgoing terminal into a pin out of the case so that it can be assembled into an external circuit board.

The configuration of the fifth embodiment is

From the first embodiment to the fourth embodiment, the internal empty space is vacuumed to increase the insulation.

The configuration of the sixth embodiment is

In the first to fourth embodiments, the interior empty space is sealed with neon or other gas to improve amplification characteristics.

The configuration of the seventh embodiment is

It is a structure which installs the radiator for radiating the heat | fever of the element which has a heat | fever out of the component parts of a constant current darlington transistor from 1st Embodiment to 4th Embodiment so that it may be adjacent to the exterior.

As a first embodiment

As shown in FIG. 1A, a constant current Darlington transistor module including a first transistor Q1, a second transistor Q2, a first resistor R1, and a first constant voltage source CV1 is mounted on a substrate or a film having excellent insulation, The module is sealed in the empty space inside the glass tube with excellent insulation properties and connected to the pins assembled on the base to make the parts detachable to external sockets.

By using glass with excellent insulation characteristics, the insulation between terminals of the constant current Darlington transistor is excellent, and the space between the electrodes is good, so the insulation is good. In addition, it completely blocks moisture, dust and the like from the outside, and maintains insulation even during long operation.

As a second embodiment

As shown in FIG. 1B, a constant current Darlington transistor module including a first transistor Q1, a second transistor Q2, a first resistor R1, and a first constant voltage source CV1 is mounted on a substrate or a film having excellent insulation, The module is sealed in the empty space inside the resin case with excellent insulation properties, and each outgoing terminal is pinned out of the resin case to make an external circuit board.

By using resins having excellent insulation characteristics, the insulation between terminals of the constant current darlington transistor is excellent, and the space between the electrodes is good, so the insulation is good. In addition, it completely blocks moisture, dust and the like from the outside, and maintains insulation even during long operation.

As a third embodiment

In FIG. 3A, a constant current Darlington transistor module including a 31 transistor Q31, a 32 transistor Q32, a 31 resistor R31, and a 31 constant voltage source CV31 is mounted on a substrate or film having excellent insulation. The module is sealed in an empty space inside the metal tube to shield external or electrical noise from the outside, and the ground lead G connected to the metal tube and each lead of the constant current Darlington transistor are assembled on a base having excellent insulation. It is a structure made of parts so that it can be attached and detached to an external socket by connecting to a pin.

By using the base having excellent insulation characteristics, the insulation between terminals is excellent and the constant current Darlington transistor module is installed in the empty space inside the metal tube, so the space between the electrodes is good, the insulation is good. In addition, it completely blocks moisture, dust, etc. from the outside, and maintains insulation even after a long operation, and is a structure that can shield electric noise or magnetic noise from the outside.

As a fourth embodiment

In FIG. 3B, a constant current Darlington transistor module including a 31 transistor Q31, a 32 transistor Q32, a 31 resistor R31, and a 31 constant voltage source 31 (CV31) is mounted on a substrate or a film having excellent insulation, The module is sealed in an empty space inside the metal case to shield external or electrical noise from the outside, and each lead wire of the constant current Darlington transistor connected to the ground lead wire G connected to the metal case is pinned out of the case. It is a structure made of parts so that it can be assembled to an external circuit board.

By using the base having excellent insulation characteristics, the insulation between terminals is excellent and the constant current Darlington transistor module is installed in the internal empty space of the metal case. In addition, it completely blocks moisture, dust, etc. from the outside, and maintains insulation even for a long time, and it is a structure that can shield electric noise or magnetic noise from the outside.

As a fifth embodiment

From the first embodiment to the fourth embodiment

By making the internal empty space into a vacuum, the interelectrode insulation becomes higher.

As a sixth embodiment

From the first embodiment to the fourth embodiment

The interior empty space is filled with gas such as neon to improve amplification characteristics.

In a vacuum tube, no other gas is enclosed for free electron emission, but in a constant current Darlington transistor, the signal current flows through the wire, and thus does not interfere with the current flow due to the gas encapsulation.

When a DC voltage is gradually applied to both ends of a neon lamp enclosed with neon gas having two electrodes, current flows between the two electrodes at the voltage of both terminals of the neon lamp and starts to glow.

As such, when the voltage is greater than or equal to a predetermined voltage, the current flows between two electrodes.

In FIG. 1A, an amplification circuit of FIG. 4 constructed using a constant current Darlington transistor in which neon gas is sealed in an empty space inside a glass tube will be described.

 When the input signal is input to IN4, the output voltage amplified by the constant current darlington transistor CCD41 is output from the collector electrode C of the transistor. The amplification characteristics of the output signal are changed by a part of the current of the output signal flowing to the base electrode B of the transistor 42 in transistor Q42 by the enclosed gas. This changing characteristic varies depending on the output signal voltage, the type of gas, and the pressure of the gas. That is, a new amplification characteristic is obtained.

The amplification characteristic can be changed depending on the type of gas enclosed therein.

As a seventh embodiment

Among the components of the constant current Darlington transistor, a radiator for dissipating the heat of a device having heat generation to the outside is installed adjacent to the outside.

Among the components of the constant current Darlington transistor, as shown in FIG. 5, power-consuming parts such as transistors need to discharge heat generated. In this case, replace one side of the case with a metal with high thermal conductivity such as aluminum to seal it with the case, and bond the heat generated from the transistor to the heat sink by using an adhesive sheet, etc. To be released.

The constant current Darlington transistor module is mounted on a substrate or a film having excellent insulation, and the lead frame is processed to process each of the first transistor Q1, the second transistor Q2, the first resistor R1, and the first constant voltage source. CV1) and a method of wire bonding a semiconductor bare chip directly to a lead frame.

In the present invention, a constant current darlington transistor is taken as an example, but it is also possible to enclose a circuit element including related components such as a constant current darlington transistor and a filter.

1. Productivity is high because there is less cleaning process to improve insulation characteristics during product production.

2. It maintains high input impedance characteristics of constant current Darlington transistor even if it is used for a long time or in a humid place, and it has a long product life.

3. Clean signal amplification is possible by blocking external noise to high input impedance characteristic of constant current Darlington transistor.

4. The constant current Darlington transistor is made of independent components, simplifying the amplifier circuit configuration.

5. Increase the inter-electrode insulation by vacuuming the internal empty space of the constant current Darlington transistor.

6. New amplification characteristics can be obtained by filling gas into the empty space of constant current Darlington transistor.

Claims (5)

A constant current darlington transistor characterized in that a constant current darlington transistor and related components are embedded and sealed in a hollow glass tube. delete delete A constant current darlington transistor, characterized in that a constant current darlington transistor and related components are embedded in a case which is empty and the gas is sealed. delete

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