JPH0758894B2 - Electric circuit device - Google Patents

Abstract

An electric circuit arrangement, particularly in an integrated logic chip, is proposed which indicates whether an electric connection exists at a switch input. This forms a function which does not depend on the signal state at the input but on the electric state of the connection. <IMAGE>

Description

Description: FIELD OF THE INVENTION The invention has at least one supply voltage, one reference potential and at least one input, to which a window comparator is post-connected. The present invention relates to an electric circuit device in, for example, an integrated logic module in which a switch window of the window comparator is between a power supply voltage and a reference potential, and a digital signal is output to the output side of the window comparator.

BACKGROUND OF THE INVENTION Electrical circuit devices, such as integrated logic modules, have been known for a long time and are commercially available. Such a logic module generally has at least one switch input, which transitions from the outside to a controlled electrical state to trigger an internal switch function. This electrical state has the characteristic that it is expressed, and in the case of the TTL module, on the input side,
A logic 0 is determined by a voltage less than 0.7V and a logic 1 on the input side is determined by a voltage greater than 2.4V.

Problem to be Solved by the Invention An object of the present invention is to provide an electric circuit device capable of detecting a state where the input side is not electrically connected with a simple configuration.

Means for Solving the Problems According to the present invention, the input side is connected to the tap of the voltage divider between the power supply voltage and the input side, and the switch window of the window comparator is electrically disconnected. It is solved by configuring so as to be set to a potential.

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

The input side of the window comparator 1 in the figure is connected to the switch input side 3, and the output side of the window comparator 1 is connected to the switch output side 4. Switch input side 3 has upper supply voltage U _B and lower supply voltage GND.
Connected to a voltage divider consisting of resistor 5 and resistor 6 between
At the same time, it is connected to the input side of the logic gate 2. The output side of the logic gate 2 is connected to the gate output side 7.

Although only the function of the module is shown in the drawing, the constituent elements and functions of the monolithic integrated logic module can be easily realized by those skilled in the art. The switch input 3 is then connected to the pin of the logic module.

When the switch input side 3 is connected to the output side of the three-state gate 8, the three-state gate 8 becomes
If in the cutoff state, the window comparator 1 sends out a positive output signal. In that case, switch input side 3
This is because the potential of (2) enters the switch window of the window comparator by the voltage dividers (4,5). When the three-state gate 8 is in the active state, the potential on the switch input side 3 is either 0 or 1, so that the switch output side 4 always shows a logic 0. Therefore, the signal on the switch output side 4 represents a signal indicating whether or not the switch input side 3 is electrically connected.

A logic gate 2 controlled in a known manner by this device
In addition to the signal on the gate output 7 of the switch, a signal which can be further processed is obtained on the switch output 4 as well. The voltage dividers 5 and 6 are
The circuit constants are determined as follows. That is, the input resistance of the switch input side 3 is not unnecessary and can be reduced, but when the three-state output side 8 is in the cut-off state, the switch input side voltage enters the switch window of the window comparator and at the same time the input of the logic gate 2 is input. The voltage on the side is defined so that it is not in an unspecified region, so that the input side of the logic gate 2 has a trigger characteristic.

The invention is not limited to the embodiments described above. Of course, it is possible to use only the window comparator 1. Therefore, the switch output 4 is used to perform the following function. For this purpose, the switch input 3 is connected to an adjacent conductor, which is a conductor conducting a signal or a conductor supplying a voltage. Then, the window comparator 1 can be used only when it is not connected.
Indicates a switch state corresponding to the switch window. Simply such a window comparator is connected to all inputs of the electrical circuit arrangement. In particular, the output side of the window comparator is combined into one logical function, which indicates whether the electric circuit device is apparently operating correctly. When the circuit device becomes complicated, for example,
In the case of a control device for an electric vehicle, or in the case of a VLSI circuit, the inspection function can be achieved by combining the output side of the window comparator into one logical function.

In the case of a series of different types of devices, which differ only in their function, it is possible to construct a device which exhibits all the circuit functions at a small cost. Only by connecting the switch input side to the outside can the various internal circuit functions be switched, so that compatibility is ensured despite various implementations.

Advantageous Effects of Invention The electric circuit device of the present invention has an advantage that, in addition to the two known electric states, another state, that is, an electric connection state can be used as an input variable. A particular advantage is that the use of the electrical connection state as an input variable allows the use of conventional circuit devices, for example integrated logic modules, to be extended without compromising their use. In point. In the case of a switch that does not change in hardware, it is possible to use a bridge to invert the switch logic for the next connection terminal.
It is possible. The invention can be used to self-diagnose in the case of integrated circuits, as well as larger controllers such as those used in automobiles, in response to disconnections and connection terminal defects. obtain. Furthermore, the output state of the control output side connected to the switch input side,
It is possible to know without needing a special circuit, and particularly to know the circuit state of the three-state driver.

Advantageous embodiments of the invention are described in the embodiments section. In particular, the switch window is between 0.8V and 2.3V for a TTL-logic circuit, between the reference voltage and the supply voltage, ie between the two possible voltage states on the switch input side,
It is particularly simple to detect the electrical circuit status on the switch input side using a window comparator. When the input of the window comparator provided on the switch input side is inside the switch window, the output of the window comparator shows a logic 1 state. If the switch input is connected to a nearby terminal, the supply voltage terminal, or the output of some logic module, the voltage at the input of the window comparator will always be outside the switch window. The window comparator is connected in parallel to the normal input side of the electric circuit device,
It is then particularly advantageous to use this device if the input side is fixed by a voltage divider to a potential that is not electrically connected inside the switch window.

When a three-state gate connected to a high resistance is connected as a drive output side to this device, the window comparator shows a state in which it is electrically connected. Whether the switch input is electrically connected can likewise be detected very well by a current monitoring device, which is designed as an ungrounded current / voltage converter. A digital signal can be obtained from the output of the converter, preferably through a window comparator. If the switch input side is electrically unloaded, that is, if the input or output current is zero, the converter voltage is also zero. Even with other possible electrical connection conditions, at least a detectable dormant current will flow. The particular advantage of this current sensing is that the electrical state on the switch input side is unaffected.

[Brief description of drawings]

The figure illustrates an embodiment of the invention and shows a schematic diagram of an electrical circuit arrangement for monitoring the electrical connection status of the input side of a logic gate. 1 ... Window comparator, 2 ... Logic gate, 3
...... Switch input side, 5,6 …… Voltage divider, U _B …… Supply voltage, GND …… Reference voltage

Claims (2)

[Claims] 1. At least one power supply voltage (UB), one reference potential (GND), and at least one input side (3).
A window comparator (1) is connected to the input side, and the switch window of the window comparator is between the power supply voltage (UB) and the reference potential (GND). In an electric circuit device in which a digital signal is output to the output side (4), the input side (3) has a power supply voltage (UB) and a reference potential (GND).
An electric circuit, which is set to a potential within the switch window of the window comparator (1) in an electrically cut off state by connecting to a tap of a voltage divider (5, 6) between apparatus. 2. The electric circuit device according to claim 1, wherein a gate (2) is connected in parallel to the window comparator (1).