JP2640006B2 - Timer circuit - Google Patents

Description

The present invention relates to a timer circuit using a microcomputer.

(B) Prior art In response to a call signal coming from a telephone line, a response message recorded on a magnetic tape or the like is sent to a caller, and a message from the caller is recorded on a magnetic tape or the like. 2. Description of the Related Art A device called an automatic answering machine has been widely used. Devices using microcomputers as circuits for performing various control operations of such answering machine automatic answering devices are increasing, and techniques using such microcomputers are described, for example, in Japanese Patent Publication No. 63-37991. I have.

(C) Problems to be Solved by the Invention In a device using a microcomputer, when performing a timer operation of outputting a switching signal for a predetermined time in response to a switching operation of a switch, providing an input terminal and an output terminal separately. However, such a configuration has a problem that the number of input terminals and output terminals increases,
In particular, in order to obtain timer signals having different lengths, the number of input terminals and output terminals is further increased. An object of the present invention is to provide a timer circuit in which this point is improved.

(D) Means for Solving the Problems A timer circuit according to the present invention comprises a microcomputer having an input / output terminal that operates as an input terminal and an output terminal when in an input mode state and an output mode state, and the input / output terminal and a power supply. And a switch and a voltage setting means connected in series between the input / output terminal and ground, and a switch connected to the input / output terminal when the input / output terminal of the microcomputer is in an output mode state. A switching element that is inverted by the output signal and outputs a timer signal during that time, and is provided between the input / output terminal and the switching element, and the input / output terminal is switched from the output mode state to the input mode state. A time constant circuit for holding the switching element in an inverted state for a predetermined time when being switched. Have been.

(E) Operation The present invention switches the input / output terminal to the output mode state when the switch is closed when the input / output terminal provided in the microcomputer is in the input mode state, and sets the output mode state after the set time. When the switch is switched to the input mode state and the switch is closed during the switching operation, the input / output terminal is set to the output mode state for a predetermined time.

(F) Embodiment The circuit shown in FIG. 1 is an embodiment of the timer circuit of the present invention, and FIGS. 2, 3 and 4 are diagrams for explaining the operation of the present invention. In FIG. 1, (1) is a microcomputer for performing various control operations of, for example, an automatic answering machine, and has a number of input terminals and output terminals, which are not shown but are well known. Reference numeral (2) denotes an input / output terminal provided in the microcomputer (1). The input / output terminal operates as an input terminal in the input mode state and operates as an output terminal in the output mode state. (3) a resistor connected between the input / output terminal (2) and a power supply;
(4) and (5) are a switch and a voltage setting resistor connected in series between the input / output terminal (2) and ground. (6) is a switching transistor whose base is connected to the input / output terminal (2) via a resistor (7) and whose emitter is grounded, and whose collector is connected to a power supply via a resistor (8). And is connected to the output terminal (9). (10) is a capacitor connected between the base of the switching transistor (6) and ground, and constitutes a time constant circuit ( 11 ) together with the resistor (7). In such a circuit configuration, the input / output terminal (2) of the microcomputer (1)
Is in a state in which the input / output terminal (2) operates as an input terminal when the voltage input to the input / output terminal (2) is lower than _{VA when the} input / output terminal (2) is in a state of operating as an input terminal; The mode is switched to the output mode, and after a set time (T ₁ ), the mode is switched to the input mode.
When the input mode is switched to the input mode, the input / output terminal (2) is switched to the output mode for a set time (T ₂ ) when a voltage lower than _VA is applied to the input / output terminal (2). To output an L (low) level signal. When the switch (4) is in the closed state, the voltage at the connection point (P) with the resistor (3) is lower than the voltage _VA and higher than the L level output from the input / output terminal (2). value of the voltage setting resistor so that the V _B (5) is set. And the value of the voltage V _B is set to be a value that the switching transistor (6) in the conductive state. Furthermore, set to a predetermined time T ₃ the time that the constant circuit (11) switching transistor (6) is held in the nonconductive state when the input and output terminals (2) is switched to the input mode state than the output mode state Have been. The timer circuit of the present invention is configured as described above, and the operation of such a circuit will be described next.

First, the case where the switch (4) is closed for a short time, that is, the case where the switch (4) is opened when the mode is switched from the output mode state to the input mode state will be described. 2 (A), (B) and (C) are diagrams for explaining such an operation, and FIG. 2 (A) shows a state change between an open state and a closed state of the switch (4). 2 (B) shows a voltage change at the connection point (P), and FIG. 2 (C)
Indicates a voltage change of the output terminal (9). When the microcomputer (1) is in the input mode state and the switch (4) is in the open state, the voltage of the input / output terminal (2), that is, the connection point (P) is at the H (high) level, so that the switching transistor (6) ) Are biased and conducting. Therefore, an L-level signal is output to the output terminal (9) connected to the collector of the switching transistor (6). In such a state, when the switch (4) is closed, the connection point (P)
Voltage drops to V _B as shown in FIG. 2 (B). Determining that the voltage of the connection point (P) ie input and output terminals (2) is lowered to less than V _A V _B microcomputer (1) is input switching signal, with switches on the output mode state from the input mode state T After ₁ hour, switch to input mode. In this case, the microcomputer (1) remains in the input mode because the switch (4) is open when the mode is switched to the input mode. As a result of this operation, an L-level signal is applied to the input / output terminal (2) of the microcomputer (1) for T _1.
During this time, the switching transistor (6) is inverted and held in a non-conductive state. Also,
Even if the output signal of the input / output terminal (2) is inverted from the L level to the H level, the switching transistor (6) is connected to the base circuit of the switching transistor (6) because the time constant circuit ( 11 ) is provided. It is kept non-conductive for ₃ hours. Therefore, the output terminal (9) is connected to FIG.
As shown in ( _1), the timer signal at the H level is output during T ₁ + T ₃ .

When the switch (4) is closed for a short time, that is, when the switch (4) is opened when the mode is switched from the output mode to the input mode, the operation is performed as described above. The operation when the switch (4) is closed when the mode is switched to the input mode state will be described. First, a case will be described in which the opening operation of the switch (4) is performed when an L-level signal is being output from the input / output terminal (2), that is, in the output mode state. FIGS. 3 (A), (B) and (C) are diagrams for explaining such an operation, and FIG. 3 (A) shows a state change between the open state and the closed state of the switch (4). , FIG. 3 (B) shows a voltage change at the connection point (P), and FIG. 3 (C)
Indicates a voltage change of the output terminal (9). Is switched to the input mode state ₁ hour after T the switch (4) is switched to the output mode state as described above and is closed when the micro computer (1) is in the input mode. In this case, since the switch (4) is closed when the microcomputer is switched to the input mode, the microcomputer (1) is again switched to the output mode and the input / output terminal (2) is connected to the input / output terminal (2) for a predetermined time T _2. The signal at the time L level is output. Voltage after a lapse of T ₂ hours after being switched to the output mode state microcomputer (1) is connected for allowed to return to the input mode state than the output mode state point (P) becomes the H level. Invert the conducting state for a predetermined time or the time constant circuit switching transistor (6) that elapses T ₃ hours a time determined by (11) is biased after the voltage is changed to H level at the node (P) Therefore, the output signal of the output terminal (9) becomes L level. FIG. 3 (C) shows a signal output to the output terminal (9) when such an operation is performed. As shown, the output terminal (9) has T ₁ + T ₀ + T ₂ + T _3.
During this period, the H-level timer signal is output.
Here, T ₀ is the time required for the operation of switching from the input mode state to the output mode state, and is actually as short as can be ignored.

The opening operation of the switch (4) is set to L from the input / output terminal (2).
The operation performed when the level signal is being output, that is, when the output mode is in the output mode state, is performed as described above. Next, the case where the opening operation is performed in the input mode state will be described. FIG. 4 (A), (B),
(C) is a diagram for explaining such an operation, FIG. 4 (A) shows the state change between the open state and the closed state of the switch (4), and FIG. 4 (B) shows the connection point ( FIG. 4 (C) shows the voltage change at the output terminal (9). When the switch (4) is closed when the microcomputer (1) is in the input mode state, the operation of switching the microcomputer (1) to the output mode state, switching to the input mode state, and switching to the output mode state is performed. Then, an L level signal is output to the input / output terminal (2) for a predetermined time. After a predetermined time has elapsed, the microcomputer (1) is switched to the input mode state as described above,
At this time, the switch (4) is in the closed state, but the microcomputer (1) is configured so as not to be switched to the output mode state.
No level signal is output. When the switch (4) is in the closed state, the voltage at the connection point (P) is V _B
However, since such a voltage is higher than the voltage that makes the switching transistor (6) conductive, the switching transistor (6) is made conductive even when the switch (4) is closed. Accordingly, the timer signal output to the output terminal (9) becomes T ₁ + T ₀ + T ₂ + T ₃ as shown in FIG. 4 (C), which is the same as the signal shown in FIG. 3 (C).

In this embodiment, a transistor is used as a switching element for outputting a timer signal, but it is of course possible to use another switching element. Although a resistor is used as the voltage setting means, a constant voltage element such as a diode can be used.

(G) Effect of the Invention The timer circuit of the present invention uses one terminal provided in the microcomputer as an input terminal and an output terminal to generate a desired timer signal, so that the number of input / output terminals is increased. This has a very great effect when incorporated in a device that cannot do this. Further, according to the present invention, since two different timer signals can be obtained depending on the difference in the closing time of the switch, it can be used as various switching signals, and the control function can be increased without increasing the number of input / output terminals. It has the advantage that it can be done.

[Brief description of the drawings]

The circuit shown in FIG. 1 is an embodiment of the timer circuit of the present invention, and FIGS. 2, 3, and 4 are diagrams for explaining the operation of the present invention. Description of main figure numbers (1) microcomputer, (2) input / output terminal, (4) switch, (5) resistance for voltage setting, (6) switching transistor, (9) ) ...
... output terminal, ( 11 ) ... time constant circuit.

Claims (1)

(57) [Claims] 1. A microcomputer having an input / output terminal that operates as an input terminal when in an input mode state and operates as an output terminal when in an output mode state, and is connected between the input / output terminal and a power supply. A resistor, a switch and a voltage setting means connected in series between the input / output terminal and ground, and a signal output from the input / output terminal when the input / output terminal of the microcomputer is in an output mode. A switching element that outputs a timer signal during the switching, and is provided between the input / output terminal and the switching element, and switches the switching element when the input / output terminal is switched from the output mode state to the input mode state. A time constant circuit for holding an inverted state for a first predetermined time; When the switch is closed when in the input mode state, the input / output terminal is switched to the output mode state, and after a set time, is switched from the output mode state to the input mode state, and at the time of the switching operation, the switch is closed. A timer circuit, wherein the input / output terminal is set to an output mode state for a second predetermined time at one time.