JP2714976B2 - Data communication method of electric fuse - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data communication method of an electric fuze for transmitting data to an electric fuze such as a cannonball or a guided ammunition and receiving data from the electric fuze.

2. Description of the Related Art Conventionally, transmission and reception between an electric fuse and a measuring instrument as an external control device generally required a plurality of signal lines.

In addition, the signal from the transmitter coil of the measuring instrument is given to the receiving coil of the electric fuse and the time limit is set, and the state after the setting is fed back from the transmitting electrode of the electric fuse to the receiving electrode of the measuring instrument by electrostatic coupling. Some of them check the setting status.

Problems to be Solved by the Invention However, these all have complicated structures, and particularly when using a plurality of signal lines, wiring is extremely difficult in consideration of the fuse shape, and connection is made at a plurality of locations. The direction was specified and it was difficult to handle.

By the way, since the electric fuse is often used outside and its contacts are exposed, it must be protected from rain and the like. In addition, the space for the circuit section of the electric fuse is limited, and the power supply is also restricted, so that the power consumption must be reduced as much as possible.

An object of the present invention is to satisfy such conditions, and
It is an object of the present invention to provide a method capable of transmitting and receiving data through input / output lines.

Therefore, in the present invention, a control circuit (19) and a serial data input / output circuit (20) are provided in the electric fuse (10), and the control circuit is provided in the external control device (11). (13) Serial data output circuit (14) and serial data input circuit (15)
The electric fuse (10) and the external control device (11)
Are connected via one data input / output line (12),
Control terminal (17) of control circuit (13) of external control device (11)
After the serial data input circuit (15) is turned off by the output from the control circuit (13), a start signal is generated in the control circuit (13), and the start signal is shifted by a shift clock to the serial data output terminal (16) of the control circuit (13). To the serial data output circuit (14) to turn it on, and through the serial data output circuit (14), the data input / output line (12) and the serial data input / output circuit (20) of the electric fuse (10). The start signal is input to the serial data input terminal (22) of the control circuit (19) of the electric fuse (10), thereby generating a shift clock in the control circuit (19) and controlling the external control device (11). The data output from the serial data output terminal (16) of the circuit (13) by the shift clock following the start signal is input to the serial data output circuit (14). Serial data input terminal (22) of control circuit (19) via output line (12) and serial data input / output circuit (20) of electric fuse (10)
After being sequentially input to the control circuit (19), the serial data input circuit (15) is turned on by the output of the control terminal (17) in the control circuit (13) of the external control device (11). By outputting a stop signal from the serial data output terminal (16) and inputting the stop signal to the serial data input terminal (22) of the control circuit (19) of the electric fuse (10) in the same manner as the start signal, The control circuit (19) sets the data transmitted so far in the shift register, and sets the data by the shift clock in the serial data output terminal (21) of the control circuit (19).
From the data input / output line (12) by changing the impedance of the output data in the serial data input / output circuit (20) of the electric fuse (10).
The data is returned to the serial data input circuit (15) of the external control device (11) through the interface, and the serial data input circuit (15) detects the data due to the impedance change and inputs the serial data to the control circuit (13). Data is input to the terminal (18), and the data is sequentially captured by the control circuit (13) using a shift clock, and the electric fuse (10)
The control circuit (19) stops the shift clock when the stop signal is input, and the control circuit (13) on the external control device (11) outputs the stop signal returned from the electric fuse (10). After inputting, stop the shift clock,
Check whether the transmitted data matches the received data.

According to such a method, data from the external control device (11) is transmitted to the electric fuse (10) via one data input / output line (12) after the start signal is transmitted, and the electric fuse (10) is transmitted. In (2), a shift clock is generated based on the reception of the start signal, and data is sequentially taken in. When a stop signal is transmitted from the external control device (11), data captured from the electric fuse (10) is returned to the external control device (11) via the same data input / output line (12),
It is checked whether it matches the transmitted data.

When data is sent back from the electric fuse (10) to the external control device (11) by impedance change, the influence of rain or the like is reduced, and the power consumption of the electric fuse (10) is reduced.

Embodiment Next, an embodiment of the present invention will be described with reference to the drawings.

In FIG. 1, an electric fuse (10) and an external control device (1
1) is connected via one data input / output line (12).

The external control device (11) has a control circuit (13) including a shift register, an input / output data comparison circuit, and the like, a serial data output circuit (14), and a serial data input circuit (15). The serial data output circuit (14) has two transistors (Tr ₁ ), (Tr ₂ ), resistors (R ₁ ), (R ₂ ), (R ₃ ), a low resistor (R ₄ ), and a diode (D ₁ ). ).
The base of the transistor (Tr ₁ ) is connected to the serial data output terminal (16) of the control circuit (13) via the resistor (R ₁ ).
And the collector of the transistor (Tr ₁ ) and the base of the transistor (Tr ₂ ) are connected via a resistor (R ₃ ). The collector of the transistor (Tr ₂ ) has a low resistance (R ₄ ) and a diode ( D ₁ ) to the data input / output line (12). Transistor (Tr ₁ )
Grounds its emitter and adds a resistor (R ₂ ) to its collector.
It is applied a DC voltage Vcc ₁ via and the transistor (Tr ₂₎ is a DC voltage Vcc ₁ to the emitter.

The serial data input circuit (15) has two transistors (Tr ₃ ), (Tr ₄ ), a resistor (R ₅ ), a low resistor (R ₆ ), a resistor (R ₇ ), (R ₈ ), and a Zener diode (Tr ₈ ). ZD ₁₎ · (ZD ₂₎
And a diode (D ₂ ). The base of the transistor (Tr ₃ ) is connected to the control terminal (17) of the control circuit (13) via a resistor (R ₅ ), and the collector of the transistor (Tr ₃ ) is connected via a Zener diode (ZD ₁ ). Connected to the base of the transistor (Tr ₄ ), the emitter of the transistor (Tr ₃ ) is connected to the data input / output line (12) via the diode (D ₂ ),
₄ ) The collector is a serial data input terminal (18) of the control circuit (13) and a resistor (R ₈ ) that is grounded in parallel
And a Zener diode (ZD ₂ ). The collector of the transistor (Tr ₃ ) is applied with a low resistance (R ₆ ), and the emitter of the transistor (Tr ₄ ) is applied with a DC voltage Vcc ₁ via a resistance (R ₇ ).

On the other hand, the electric fuse (10) has a control circuit (19) including a shift register and the like and a serial data input / output circuit (20). The serial data input / output circuit (20) includes one transistor (Tr ₅ ), low resistance (R ₉ ), grounded low resistance (R ₁₀ ), resistance (R ₁₁ ) · (R ₁₂ ), and diode ( D ₃ ). And the transistor (Tr ₅ )
The emitter grounded so that parallel with a low resistance (R _10),
The collector (R ₁₁ ) and the diode (D ₃ )
A DC voltage Vcc ₂ is applied through the switch. Transistor (Tr
Based ₅₎ is connected to the resistor (serial data output terminal (21 R ₁₂₎ via a control circuit (19)), also a serial data input terminal (22) of the diode of the control circuit (19) (D ₃ ) And a resistor (R ₉ ) to the data input / output line (12).

As shown in FIGS. 2 and 3, on the top (10a) of the electric fuse (10), a data input / output terminal (23) for connecting a data input / output line (12) and a ground terminal (24) are provided. A power supply charging terminal (25) is provided concentrically.

In such a configuration, when transmitting data from the external control device (11) to the electric fuse (10), the control terminal (17) is first set to “L” by the control circuit (13) in the external control device (11). Level to turn off the transistor (Tr ₃ ), set a start signal in the shift register of the control circuit (13) to generate a shift clock, and use the shift clock to output a start signal to the serial data output terminal (1
6) Output one bit at a time. In this case, the first output bit of the start signal is always "H" level.
This first output bit determines the transistor (Tr ₁ )
(Tr ₂ ) is turned on, a voltage is applied to the data input / output line (12) via the resistor (R ₄ ), and the level of the serial data input terminal (22) of the electric fuse (10) changes from “L” to “H”. "become. Therefore, in the electric fuse (10), the control circuit (19) generates a shift clock, and data can be taken in.

In the control circuit of the external control device (11) (13), the serial data is output following the start signal from the shift register, the transistor (Tr ₁₎ · (Tr ₂₎ is turned on or off, its data The data is sequentially applied to the serial data input terminal (22) of the electric signal (10) via the data input / output line (12), and the electric fuse (10) sequentially takes in the data by the shift clock.

In the external control device (11), the transmission of data is completed, outputs a stop signal from the serial data output terminal (16), to turn on transistor (Tr ₃₎ as "H" level of the control terminal (17).

On the other hand, upon receiving the stop signal, the electric fuse (10) sets the data transmitted so far in the shift register of the control circuit (13), and sequentially stores the data from the serial data output terminal (21) by the shift clock. Output,
Turn the transistor (Tr ₅ ) on or off via the resistor (R ₁₂ ). When the transistor (Tr ₅ ) is turned on,
The impedance changes, and in the external control device (11), the operating point of the transistor (Tr ₃ ) changes and the collector voltage changes. Therefore, the transistor (Tr ₄ ) is turned on, the serial data input terminal (18) of the control circuit (13) becomes “H” level, and the control circuit (13) takes in the bit data into the shift register by the shift clock. . When the transistor (Tr ₅ ) is off,
The transistor (Tr ₄ ) is also turned off, the serial data input terminal (18) goes to “L” level, and the bit data is similarly taken into the shift register.

Upon receiving the stop signal from the electric fuse (10), the external control device (11) stops the shift clock, and checks whether the transmitted data matches the received data with the input / output data matching circuit.

FIG. 4 shows a power charging terminal (25), a data input / output terminal (23) at the time limit setting, and a data input / output terminal (23) at the arrival / departure setting in the measurement mode in which the measurement is performed in this manner. 4 shows a timing chart of added signals. In this figure, a substantial connection between the external control device (11) and the electric fuse (10) is detected by a change in impedance. Also, one check pulse P of a constant voltage is applied to the power supply charging terminal (25), and whether the electric fuze (10) operates normally depending on the level of the output voltage of the fuze (10) in response thereto. Judge.

When reading out the data in the electric fuse (10) for confirmation, the readout signal is transmitted from the external control device (11) according to the shift clock following the start signal.
In the electric fuse (10), when receiving the read signal, after setting the required data into the shift register, the data by the shift clock output from the serial data output terminal (21), to operate the transistor (Tr ₅₎ . Thus, the external control device (11) takes in the received data into the shift register by the shift clock in the same manner as described above. When the data transmission is completed in the electric fuse (10), the shift clock is stopped. On the other hand, the shift clock is stopped in the external control device (11) when the data reception is completed. The data read in this way is displayed on the display device of the external control device (11).

FIG. 5 is added to the power supply terminal (25) in the confirmation mode for confirming in this way, the data input / output terminal (23) at the time setting, and the data input / output terminal (23) at the arrival / departure setting. 4 shows a timing chart of signals.

When data is transmitted from the external control device (11) to eliminate the effects of rain, etc., the resistance (R ₄ ) and (R ₉ )
And lower the impedance by reducing the resistance value of (R _10). The electric fuse (10) when returning a data from the external control device (11) changes the impedance transistor (Tr _5), drives the transistor (Tr ₃₎ by the change, and the resistance (R _Since the resistance value of ₆ ) is reduced, the influence of rain etc. is further reduced, and the power consumption of the electric fuse (10) can be reduced.

According to the present invention, since the data transmission line, the reception line, and the control line can be integrated into one, not only the wiring becomes very easy, but also the structure of the electric fuse is simplified.
Further, since data is returned from the electric fuse to the external control device by impedance change, the influence of rain or the like is small, and the electric power consumption of the electric fuse is also reduced.

[Brief description of the drawings]

FIG. 1 is a block diagram of an exemplary circuit for implementing the method according to the present invention, FIG. 2 is an external view of an electric fuse, and FIG. 3 is a cross-sectional view of the top. FIG. 4 and FIG. 5 are data input / output timing charts in the collation mode and the confirmation mode, respectively. (10) Electrical fuse (11) External control device (12) Data input / output line (14) Serial data output circuit (15) Serial data input circuit

Claims (1)

(57) [Claims] An electric fuse (10) is provided with a control circuit (19) and a serial data input / output circuit (20), and an external control device (11) is provided with a control circuit (13) and a serial data output circuit. (14) and a serial data input circuit (15), and the electric fuse (10) and the external control device (11) are connected via one data input / output line (12). After turning off the serial data input circuit (15) by the output from the control terminal (17) of the control circuit (13) of 11),
A start signal is generated in the control circuit (13), the start signal is output from the serial data output terminal (16) of the control circuit (13) to the serial data output circuit (14) by a shift clock, and is turned on. The start signal is sent to the control circuit (19) of the electric fuse (10) through the serial data output circuit (14), the data input / output line (12) and the serial data input / output circuit (20) of the electric fuse (10). By inputting to the data input terminal (22),
Generating a shift clock in the control circuit (19);
The data output from the serial data output terminal (16) of the control circuit (13) of the external control device (11) by the shift clock following the start signal is transmitted to the serial data output circuit (14) and the data input / output line (12). And fuze (1
0) through the serial data input / output circuit (20) to the serial data input terminal (22) of the control circuit (19), and sequentially takes in the control circuit (19). In the control circuit (13), the serial data input circuit (15) is turned on by the output of the control terminal (17), and a stop signal is output from the serial data output terminal (16). To the serial data input terminal (22) of the control circuit (19) of the electric fuse (10), the data transmitted so far in the control circuit (19) is set in the shift register, and the data Are sequentially output from the serial data output terminal (21) of the control circuit (19) by the shift clock, and the output data is applied to the serial data input / output circuit (20) of the electric fuse (10). By changing the Oite impedance, via a data input line (12) returns the data to the serial data input circuit of the external control device (11) (15), in the serial data input circuit (15),
Detecting the data due to the impedance change and inputting the data to the serial data input terminal (18) of the control circuit (13), the data is sequentially captured by the control circuit (13) by the shift clock, and the electric fuse (10) side The control circuit (19) stops the shift clock when the stop signal is input, and the control circuit (13) of the external control device (11) receives the stop signal returned from the electric fuse (10) side when the stop signal is input. A data communication method for an electric fuse, characterized in that a shift clock is stopped and whether transmitted data matches received data is checked.