JPH0334257B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to an improvement in a touch switch that detects contact with a human body and outputs a detection signal.

For example, as shown in FIG. 1, a conventional touch switch circuit includes a touch plate 10 and an input capacitor 1.
1, a bias resistor 12, input overvoltage protection diodes 13 and 14, a sensitivity adjustment volume 15, an operational amplifier 16, a bias transformer 17, and a power supply 18 for energizing the transformer 17. In such a configuration, when a person touches the touch plate 10, a voltage is input to the touch plate 10 through the stray capacitance formed between the touch plate 10 and the ground, and the voltage is input to the operational amplifier. Since the input resistance of the operational amplifier 16 is very high, the voltage is divided by the input capacitor 11 and the bias resistor 12 and inputted to the inverting input terminal of the operational amplifier 16 as the input voltage V _b . The input voltage V _b is adjusted by the sensitivity adjustment volume 15,
When the comparator voltage becomes higher than the preset comparator voltage V _p , the output voltage of the operational amplifier 16 is
V _p becomes the potential of the negative bus N from the positive bus P, and is output as a detection signal to a control device (not shown).
The relationship between the input voltage V _b and the comparator voltage V _p is shown in FIG. 2. Note that R is a registration signal,
COM indicates a common bus (zero bus).

However, the induced voltage around the touch switch may be weak, or the touch plate 1 may be inserted through an insulating material such as a glove.
In order to fully function as a touch switch even if the touch switch touches
COM is AC biased by a bias transformer 17 connected to an AC power supply 18.
The AC bias voltage output from the bias transformer 17 causes a bias current to flow through the bias resistor 12, the input capacitor 11, the human body capacitance 19, and the ground. This bias current causes a positive bias voltage V _b to appear across bias resistor 12 during the negative half cycle. Therefore, similarly to the above, when the bias voltage V _b exceeds the comparator voltage V _p as shown in FIG.
The output voltage V _p of No. 6 becomes the potential of the negative bus N, and becomes a detection signal. As mentioned above, since the AC bias circuit is added, the detection signal which is the output signal of the operational amplifier 16 cannot be directly connected to other directly grounded control circuits, and must be separated from the power source. Therefore, the power supply system becomes complicated. Also, if a short circuit failure occurs in the input capacitor 11, it is natural for a person to touch the touch plate 1.
When you touch zero, a large amount of current flows through your body due to the AC bias, and you will feel an electric shock, which is extremely dangerous. Furthermore, when installing the touch switch or adjusting the sensitivity using the sensitivity adjustment volume 15, if the adjuster accidentally touches a part other than the touch plate 10, a large amount of current will flow through the human body due to the AC bias as described above. It is a danger. Furthermore, when the distance between the touch switch and the control position is long, that is, when the wiring distance becomes long, the load impedance of the AC bias becomes small due to stray capacitance between the wirings, and the capacity of the bias transformer 17 becomes large, which becomes very uneconomical. Become.

[Purpose of the invention]

SUMMARY OF THE INVENTION An object of the present invention is to provide a touch switch that can solve the problems of conventional touch switches and, in addition, is safe and capable of reliable detection.

[Summary of the invention]

In order to achieve such an object, the present invention includes a touch plate, an oscillation circuit that is connected to the touch plate via a limiting resistor in series and stops oscillation due to a change in its input impedance, and a comparison between its output and a predetermined value. The present invention is characterized by comprising a comparison circuit that detects a human body touching the touch plate based on its output, and a circuit that outputs a detection signal for a certain period of time when it detects that a human body has touched the touch plate.

[Embodiments of the invention]

An embodiment of the touch switch according to the present invention will be described below with reference to FIG.

The circuit of the touch switch shown in Fig. 4 is as follows:
Input overvoltage protection diodes 31 and 32 are connected between the 0, positive and negative bus lines P and N with the polarity shown, an input resistor 33 is connected between the contact plate 20 and the diodes 31 and 32, and this input resistor. 33, a bandpass filter 22 to which the output V ₁ of this oscillation circuit 21 is applied, and an output of this bandpass filter 22.
V ₂ and the reference voltage V _s taken from the variable resistor 37
Comparison circuit 23 that compares the output of this comparison circuit with
Smoothing circuit 24 for smoothing V ₃ , this smoothing circuit 24
a one-shot circuit 25 to which the output V ₄ of is applied;
A drive transistor 35 to which the output V ₅ of the one-shot circuit 25 is applied to the base via a base current limiting resistor 34, and an output overvoltage protection element (for example, a bidirectional Zener diode) 36 connected between the emitter and collector of this transistor 35. It is made up of.

FIG. 5 shows a detailed diagram of the oscillation circuit 21, which forms a so-called Wien Bridge oscillation circuit. That is, as shown in FIG. 5, this oscillation circuit 21 includes a resistor 41 between the normal input terminal 1 of the operational amplifier 47 and the common potential line COM.
and a capacitor 42 are connected in parallel, and a capacitor 43 and a resistor 44 are connected in series between the non-inverting input terminal 1 and the output terminal 3 of the operational amplifier 47, and the inverting input terminal 2 and the common potential line COM are connected in series. A resistor 15 is connected between the inverting input terminal 2 and the output terminal 3, and a resistor 46 is connected between the inverting input terminal 2 and the output terminal 3. Note that the power supply terminals 7 and 4 of the operational amplifier 47 are connected to a positive bus P and a negative bus N.

Therefore, in Figure 5, if the respective resistance values and capacitances are as follows: Resistor 41-R ₂ (Ω) Capacitor 42-C ₂ (F) 〃 43-C ₁ (F) Resistor 44-R ₁ (Ω) 〃 45-R ₃ (Ω) 〃 46-R ₄ (Ω) It is known that the oscillation conditions of the Wien Bridge circuit are as follows.

1+R ₄ /R ₃ ≧1+C ₂ /C ₁ +R ₁ /R ₂ -(1) In other words, by selecting each resistance value and capacitance in equation (1), this oscillation circuit can be made to oscillate or stopped. I can do things. Note that the oscillation circuit 2 shown here
Let the input terminal of 1 be X and the output terminal be Y.

Next, the operation of the touch switch constructed as described above will be explained with reference to FIG. Now, if the normal input terminal 1 of the Vienna Bridge oscillation circuit 21 is used as a touch plate of a touch switch, and the human body touches the touch plate, the common bus line COM is grounded as shown in FIG. As shown by the broken line in the figure, a resistor 48 and a capacitor 49 are equivalently connected.

In other words, the resistance value R ₂ of the resistor 41 due to the resistor 48
becomes smaller, while capacitor 49 increases the capacitance of capacitor _C2 . This is the same as (1) above.
Increase the right-hand term in the equation.

Therefore, under normal conditions, when the oscillation condition of equation (1) above is satisfied and a person touches the forward input terminal 1, the right term of equation (1) becomes large, the oscillation condition collapses, and oscillation stops. By selecting respective resistance values and capacitances, when a human body touches the touch plate 20, a signal is input to the oscillation circuit 21 through the input resistor 33, and the oscillation is stopped as described above. Then, the output V ₁ at that time has noise components removed by a bandpass filter 22 and is input to a comparison circuit 23 . In order to prevent malfunctions due to noise radio waves induced from the outside into the touch plate 20, the oscillation circuit 2 is configured as shown in FIG.
It is a bandpass filter that can pass only frequencies around the oscillation frequency _f0 of 1.

The comparison circuit 23 has two input terminals, one of which receives the output of the oscillation circuit 21 through the bandpass filter 22 as _V2 . V _s preset by the variable resistor 37 is input to the other end.

The output voltage V ₃ of the comparator circuit 23 becomes the negative bus N when the voltage V ₂ becomes larger than V _s . That is, when a person touches the touch plate 20, the oscillation circuit 21 stops oscillating, and _V2 becomes the common bus line COM.

Since V _s is set in advance to be lower than the common bus line COM, the waveform, which had been swinging alternately between the positive bus line P and the negative bus line N, stabilizes at the negative bus line N. Next, the output V ₃ of the comparison circuit 23 is input to the smoothing circuit 24 . In this smoothing circuit 24, the input waveform is smoothed into _V4 . When a person touches it, the input waveform V ₃ becomes the negative bus N as described above, so the output waveform V ₄ of the smoothing circuit 24 is transferred to the next one-shot circuit 2.
It becomes smaller than the trigger voltage V _T of 5. In the one-shot circuit 25, when the input voltage V ₄ becomes lower than a predetermined trigger voltage _VT , the output voltage V ₅ is set to the positive bus P for a predetermined fixed time.
becomes.

At that time, current flows to the base of the drive transistor 35 through the base current limiting resistor 34,
An output signal is output using a so-called open collector method.

In addition, the collector of the drive transistor 35 is equipped with a
A protection element 36 (for example a bidirectional Zener diode) is connected.

〔Effect of the invention〕

As described above, the touch switch according to the present invention does not use an alternating current bias, so it is very safe without electric shock, and even if the human body is charged with static electricity and touches the touch plate, it will not receive a static shock. Furthermore, it is possible to provide a touch switch that can reliably obtain a detection signal for a certain period of time.

[Brief explanation of drawings]

Figure 1 is a circuit diagram showing a conventional touch switch circuit, Figure 2 is an input/output waveform diagram of the circuit shown in Figure 1,
Fig. 3 is a diagram showing the principle of AC bias in the circuit shown in Fig. 1, Fig. 4 is a block diagram showing an embodiment of the touch switch circuit according to the present invention, and Fig. 5 is a wiring diagram of the oscillation circuit in the same embodiment. , FIG. 6 is a characteristic diagram of the bandpass filter circuit in the same embodiment,
FIG. 7 is an input/output waveform diagram for explaining the operation of the same embodiment. 20... touch plate, 21... oscillation circuit, 22... bandpass filter circuit, 23... comparison circuit, 2
4...Smoothing circuit, 25...One shot circuit, 3
1, 32...Input overvoltage protection diode, 33...
...Input current limiting resistor, 34...Base current limiting resistor, 35...Drive transistor, 36...
...Output overvoltage protection element, P...Positive bus, N...Negative bus, COM...Common bus.

Claims (1)

[Claims] 1 A touch plate, an input terminal is connected to this touch plate, and is connected to a common bus bar at ground potential via an input impedance consisting of a resistor and a capacitor, and is always in an oscillating state, and when the human body swings against the touch plate, an oscillation circuit that stops the oscillation operation due to a change in the input impedance; a limiting resistor provided in series with an overvoltage protection diode between the touch plate and the input terminal of the oscillation circuit; and an output of the oscillation circuit. A comparison circuit that compares the potential of the common bus with a set value set to a value lower than the potential of the common bus, and when the output of the comparison circuit is added and the output of the oscillation circuit is less than the set value, the human body swings against the contact plate. A touch switch consists of a circuit that detects the detection signal and outputs the detection signal for a certain period of time.