KR870000636Y1 - D.c.rectified current apparatus - Google Patents

Abstract

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Description

DC constant current device

1 is a conventional circuit diagram.

2 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

BD: Bridge Diode Cl: Capacitor

Rl, R2, R3: Resistance VR: Variable resistor

Q1, Q2, Q3, Q4,: Transistor SW: 2 Way Switch

The present invention relates to a direct current constant current device for the purpose of a simple test of an electronic overcurrent relay.

Electronic overcurrent relays are the core devices of breakers, such as mold circuit breakers and air circuit breakers, that are built into the breaker to achieve the characteristic curve of the breaker's protection coordination. It is detected and lowered to a signal level that can be handled by the dry overcurrent relay, which is rectified by a diode inside the electronic overcurrent relay and converted into a DC signal. This rectified DC signal is processed inside the electronic circuit to generate a signal for operating the breaker.

As described above, since the electronic overcurrent relay is a core device of the breaker, it is necessary to perform a test from time to time to check whether the breaker is operated when a fault current flows in the main line. However, it is practically impossible to deliberately flow a fault current on the main line so that a test terminal can be installed in the electromagnet overcurrent relay to allow direct current flow in the electronic overcurrent relay to test the normal operation of the electronic overcurrent relay.

Here, it had the circuit configuration of a conventional direct current constant current device is a diagram a first equal help In operation the circuit, the AC signal coming in from the input transformer is full-wave rectification into a direct current signal for instantaneous current source by a bridge diode (D ₁ '), The bridge diode D ₂ ′ is converted into a DC signal for a long time current source. That is, the signal current by the bridge diode D ₁ ′ is divided by the distribution of the resistors R ₁ ′ and R ₂ ′ and smoothed by the capacitor C ₁ ′. Q ₁ 'is caused to drive a) and the transistor (Q _1') of the base and a resistor (R ₄ 'the voltage applied) is a Zener diode (ZD _1' when are limited by) the transistor (Q ₁ ') the saturated Saturation occurs between the collector and emitter of the transistor (Q ₁ '), and the current flowing through the resistor (R ₄ ') is called I _R4 .

The resistor R ₂ ′ here limits the current applied to the base of the transistor Q ₁ ′.

The electric current flowing through the resistor R ₄ 'is applied to the external load through the test terminal by switching the switch SW', and the switch SW 'is turned on with 6, 5, 3 and 2.

In long time mode, the DC signal rectified by the bridge diode (D ₂ ′) is smoothed by the capacitor (C ₂ ′) and the smoothed signal is applied to the transistors (Q ₂ ′) (Q ₃ ′) (Q ₄ ′). It is a driving factor, which adjusts the base current of the transistor Q ₂ ′ by adjusting the variable resistor VR ', thereby adjusting the collector current of the transistor Q ₂ ′ and adjusting the transistor Q ₃ ′ (Q). Current amplified via ₄ ') and connected to terminal 4 and terminal 1 of switch SW' via a diode (L ₉ ') and a resistor (R ₈ ') and also to a switch (SW ') terminal (5). ) And terminal (2) was to supply the whole load to the external load by switching of the switch (SW ') through the test terminal for external load connection. In the conventional art, by connecting three terminals to the input transformer in the constant current device as described above bridge diode _{(D 1 ') (D 2} ') field and a circuit configuration of the device using modal eseona instantaneous surface by using a block of two When it is in the circuit configuration distinct from the non-economical efficiency, etc. The mode could imply that the elements of the double yohage in the circuit complexity and device used.

This manuscript is designed to solve the above drawbacks, and will be described in detail based on the accompanying drawings. Transistor (Q ₄ ) by connecting one end of the resistor (R ₂ ) (R ₃ ) and the variable resistor (VR) directly connected to the capacitor (C ₁ ) and the resistor (C ₁ ) on the + side of the bridge diode (BD). And the tartan of the capacitor (C ₁ ) and the resistor (R ₁ ) on the side thereof, and then the transistor (Q ₁ ) and the transistor (Q ₂ ) (Q ₂ ) with the variable resistor (VR) connected to the base. ₃ ) is connected to the transistor (Q ₄ ) by placing a two-way switch (SW), the reference numerals Z1, Z2 are zener diodes.

As shown in FIG. 2, the present invention configured as described above has an alternating current input by the input transformer to be rectified by the bridge diode BD and the signal is smoothed by the condenser Cl. The driving factors of the transistors Q1, Q2, Q3, and Q4 become the driving factors, and the base voltage of the transistor Q1 is adjusted to a desired level by the variable resistor VR, and at the same time, the variable resistor VR and the resistor Rl. This restricts the current flowing to the base of the transistor Q1. Also, since the emitter voltage of transistor Q1 is always constant, the emitter current of transistor Q1 is approximately equal to the collector current of transistor Q1, and this current is applied to the base of transistor Q2, Amplify the DC current and this amplified current is applied to the base of transistor Q3. At this time, the current flowing through the emitter of transistor Q1 and the collector of transistor Q2 is limited by resistor R2.

The current applied to the transistor Q3 is amplified by the DC current amplification factor of the transistor Q3 and applied to the first and second terminals of the two-way switch SW, where R3 is a current flowing through the collector of the transistor Q3. Is the resistance that limits In the long time mode, the current from the emitter of transistor Q3 is connected to the external load RL via the test terminal. In this case, 2, 3, 5, and 6 of the two-way switch SW are connected. And 5, 1 and 2 are cut off.

Therefore, the emitter current of transistor Q3 is applied to the base of transistor Q4, amplified by the emitter of transistor Q4, and supplied to the load via the test terminal. As described above, the present invention is a novel design that allows the instantaneous mode and the long-term mode to be selected only once, and enables the construction of an economical constant current device by sharing a circuit.

Claims (1)

One end of a variable resistor VR and a resistor R2 and R3 having a capacitor Cl and a resistor Rl directly connected to the + side of the bridge diode BD is connected to the collector of the transistor Q4. Connect the tar of the capacitor Cl and the resistor Rl to the negative side, and connect the transistor Q1 and Q2 connected to the base connected to the variable resistor VR. DC constant current device, characterized in that connected to the transistor (Q4).