KR930000912Y1 - Delay timer circuit to make signal on - Google Patents

Abstract

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Description

Signal on delay timer circuit

1 is a conventional power on delay timer circuit diagram.

2 is a timing diagram according to a conventional circuit.

3 is a timing diagram of a timer IC.

4 is a signal on delay timer circuit diagram according to the present invention.

5 is a timing diagram according to the present invention circuit.

* Explanation of symbols for main parts of the drawings

TC1: Timer IC Q1, Q2: Transistor

VR1, VR2: Variable resistor R1 ~ R9: Resistance

L1, L2: Light emitting diodes C1 ~ C3: Capacitor

SCR: Thyristor RY: Relay

D1: diode

The present invention relates to a timer circuit, and more particularly, to a signal on delay timer circuit suitable for sequence and measurement control.

In the related art, the timer circuit is shown in FIG. In avant-garde Connect a resistor (R1) and a light emitting diode in series between the potentials, and connect a variable resistor (VR2) and a resistor (R2) in series with them in parallel, and terminals 15 and 16 of the timer IC (IC1) To the potential and terminal 1 The terminal 2 of the timer IC IC1 is connected to the connection point of the variable resistor VR2 and the resistor R2, and the terminal 3 is connected through the capacitor C1. Terminal 3 is connected to terminal 4 of timer IC (IC1) via variable resistor (VR1) and resistor (R3), and terminal 5 of terminal 5 of timer IC (IC1) Is connected to the potential and terminal 6 is connected through the parallel connection between the capacitor (C2) and the external input terminal ③①. Connected to the potential and according to the time setting , Terminals ⑨, ⑪, and 되는 connected to the potential are connected to the time switching mode (S0, S1, S2) terminals, and terminal 12 of the timer IC (LC1) passes through the resistor (R4) and the light emitting diode (L2) in turn. Is connected to the base of transistor Q1 and the emitter of transistor Q1 Connected to the potential and the colleg of transistor Q1 is connected through the parallel connection of diode D1 and relay RY. It is a configuration connected to the potential.

The configuration circuit is a power-on delay timer. When the operation state is described, first, the operation delay time is set in the variable resistor VR1 and the time variable modes S0, S1, and S2. Is applied.

As soon as power is applied, current flows through the resistor R1 to the light emitting diode L1, so that the light emitting diode L1 emits light, indicating that power is applied.

In addition, the power is divided by the variable resistor VR2 and the resistor R2 to apply the reference power to the second terminal of the timer IC IC1, and adjust the divided voltage with the variable resistor VR2. The oscillation is based on the capacitor C1, the variable resistor VR1, and the resistor R3, and the reference voltage for oscillation becomes the voltage divided by the variable resistor VR2 and the resistor R2 as described above, and the variable resistor. When the time set by (VR1) (time constant by variable resistor VR1 and capacitor C1) is reached, the output signal at output terminal 12 is changed from 'low' to 'high' as shown in 'E' of FIG. Is applied to the base of the transistor Q1 through the resistor R4, and the transistor Q1 is turned on to be a relay suction.

In this case, the resistor R4 limits the current and the light emitting diode L2 indicates that the relay is driven. The diode D1 connected to both ends of the relay is used to feed back the counter electromotive force when the relay is released.

Capacitor (C2) at terminal 6 of timer IC (IC1) is for preventing chattering or noise when external input terminals (①, ③) are shorted. Is reset.

2 is a timing diagram according to a conventional circuit, where (A) is a power supply, (B) is a relay (RY) output, (C) is a reset signal when the external input terminals ① and ③ are shorted, and FIG. T in B) represents an arbitrary delay setting time.

3 is a timing diagram of a timer IC, where (A) is a reset signal, (B) is an oscillator input, (C) is an oscillator output, (D) is an internal clock, and (E) is a timer IC. 12th output of (IC1), (F) is 13th output of timer IC (IC1).

However, in the conventional circuit, the power is changed in a sequence circuit or a system in which the power is changed in a manner in which the power is changed to the original state only when the power is cut off and the power is applied again. Since there is an on delay, a time error occurs (a long rise time for the internal circuit to reach a steady state by applying power is generated).

The present invention has been devised to solve these disadvantages and will be described in detail with reference to the accompanying drawings.

First, look at the configuration in Figure 4, Avant-garde and Connect the resistor R1 and the light emitting diode L1 in series between the potentials, and connect the variable resistor VR2 and the resistor R2 in series with each other in parallel, and use terminals 5, 15 and 16 of the timer IC IC1. Is To the potential and terminal 1 Connect to the potential.

And the terminal 3 of timer IC (IC1) is connected through the capacitor (C1). At the same time, it is connected to terminal 4 of timer IC (IC1) through series connection of variable resistor (VR1) and resistor (R3), and terminal 6 of timer IC (IC1) is connected in parallel with capacitor (C2). Via external terminals ③, ① Connect to the potential.

Terminal 7 of timer IC IC1 is connected to the cathode of thyristor SCR and is connected via resistor R5. Terminals 9, 10 and 11, which are connected to the potential and to which the time switching modes (S0, S1, S2) of the timer IC (IC1) are connected, depend on the time setting. , Connect to the potential.

Terminal 12 of the timer IC IC1 is connected to the base of the transistor Q1 through the series connection of the resistor R4 light emitting diode L2, and the emitter of the transistor Q1 is Connected to the potential, and the collector of transistor Q1 is connected through a parallel connection of diode D1 and relay RY. Connected to the potential, terminal 13 of the timer IC IC1 is connected to the anode of the thyristor SCR, and the gate of the thyristor SCR is connected through the resistor R6. At the same time as the collector of transistor Q2 and the emitter of transistor Q2 through resistor R9 to resistor R7 Connected to the potential and the base of the transistor Q2 is connected to the other side of the resistor R7, and simultaneously connected to the external terminal ④ and the '+' terminal of the capacitor C3 through the resistor R8, and the capacitor C3. ) '-' Terminal is for external terminal 1 and It is a configuration connected to the potential simultaneously.

Referring to the operation state of the configuration circuit, first, the delay time is set by the variable resistor VR1 and the time variable modes S0 and S1. S2, and then a power supply (Fig. 2A) is applied.

Immediately after the power is applied, current flows to the resistor R1 and the light emitting diode L1, and the light emitting diode L1 operates to display a power supply indication.

The 15th and 16th terminals of the timer IC (IC1) are the power (high) and the 7th terminals are 'low', so the timer IC (IC1) stops the counting operation in the internal circuit and does not perform the time delay operation.

When the external input terminal ①④ is shorted, the transistor Q2, which is a self-biasing circuit, is turned on and current is applied to the gate of the thyristor SCR to turn on the thyristor SCR, and terminal 7 of the timer IC IC1 is turned on. Becomes 'high' and starts to operate inside the timer IC IC1.

At this time, the power is divided by the variable resistor VR2 and the resistor R2 to supply the oscillation reference voltage of the timer IC IC1, and the timer IC IC1 is applied to the capacitor C1 and the variable resistor VR1 resistor R3. The oscillation is continued. (Here, the timer IC (IC1) starts oscillation at the same time as the power is supplied but does not count internally.) When the set delay time (t) is reached, the 12th terminal of the timer IC (IC1) is reached. In the 'high' state (waveform (E) in FIG. 3), it is applied to the base of the transistor Q1, so that the transistor Q1 is turned on to drive the relay RY.

The 12th terminal of the timer IC (IC1) becomes 'high' and the 13th terminal is 'low' and is connected to the anode terminal of the thyristor (SCR), so the thyristor (SCR) is turned off. Terminal 7 of timer IC IC1 goes back to the low state.

To reset the output again, short the external input terminals ① and ③. If the external input terminals ① and ③ are shorted, the 12th terminal of the timer IC (IC1) goes low, and the transistor Q1 is turned off. Relay RY is released and terminal 13 of timer IC IC1 is 'high'.

Resistor R5 and R6 are for bypass and capacitors C2 and C3 are for noise prevention and chattering prevention.

Time switching mode (S0, S1, S2) is time is switched by connecting to the high (+), low (-).

For example, if all the time switching modes (S0, S1, S2) are connected to 'low' state, if it is 1 second, if S0 = 'high', S1, S2 = 'low' state, it is 3 seconds and all of them are 'high' state. If it is set to 600 seconds.

In this way, the time magnification can be changed.

Fig. 5 (A) is the power supply, (B) is the start signal when the external terminal ①④ is shorted, (C) is the relay (RY) output signal, and D is when the external input terminals ① and ③ are shorted. Reset signal.

Therefore, the present invention is operated by the start signal in the power 'on' state compared to the conventional circuit, which is a power-on delay timer circuit, so that a more accurate time error can be obtained. The safety of the power supply can be guaranteed, and the time start can be performed not only at the contact point but also at the contact point.

Claims (1)

The oscillation reference voltage is applied to the light emitting diode L1 indicating the power input, the variable resistor VR2 resistor R2 for dividing the power input and applying the oscillation reference voltage of the timer IC IC1, and the timer IC IC1. A capacitor (C1) variable resistor (VR1) resistor (R3) for oscillation when applied, a transistor (Q1) for driving the relay (RY) by operating in accordance with the output (terminal 12) of the timer IC (IC1), In a known timer circuit composed of external terminals (3) and (1) for resetting the timer IC (IC1), when the external terminals (4) and (1) are shorted, a magnetic bias circuit is formed to the gate of the thyristor (SCR). Transistor (Q2) resistors R7 to R9 for applying a stable power supply, thyristor (SCR) for driving the timer IC (IC1) by operating the power from the self-biasing circuit as a gate, and the thyristor (SCR) ) Gate and cathode A signal on delay timer circuit comprising a bypass resistor (R6, R5) connected between potentials, respectively.