JP3282396B2 - Signal transmission method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a signal transmission method for transmitting and receiving data in both directions, for example, on a bidirectional bus shared between devices or circuits.

[0002]

2. Description of the Related Art Generally, a digital circuit requires a plurality of bits to transmit data in parallel. As described above, it is known that the number of signal lines in a digital circuit increases because a certain bit width is required.

A digital circuit uses a bidirectional data bus for transmitting and receiving data between two circuits in order to simplify the circuit wiring and the like on the board.

[0004]

When digital data is communicated in a digital circuit, it is necessary to provide a bit width corresponding to the signal level. , A plurality of signal lines are required.

However, in such a bus line provided with a plurality of signal lines, the board wiring requires an area, and in a semiconductor IC, the number of pins of a package increases.

In particular, reducing the size of a semiconductor IC has recently been cited as a major problem. In order to solve such a problem, a communication system using a bidirectional bus as described above has been used for data transmission and reception.

However, the direction switching of the bidirectional bus is
For example, each semiconductor IC asynchronously switches directions, that is, switches input / output modes. Since there is no rule for this mode switching, there are many problems such as the output of the semiconductor ICs colliding with each other.

Accordingly, the present invention has been made in view of the above-described circumstances, and has been made in consideration of the above-described circumstances. The aim is to provide a method.

[0009]

According to the present invention, there is provided a signal transmission method for transmitting / receiving data between a first data input / output target and a second data input / output target via a bidirectional bus. Generating a timing signal for switching the input / output state of the first and second data input / output targets and switching the input / output state of the first data input / output target or the second data input / output target At the time of transition, both the first and second data input / output targets are set to the input state in accordance with the timing signal and mode switching is performed, thereby solving the above-described problem.

Here, the timing signal may be automatically generated by self-running when there is no continuous signal. Further, the timing signal is one in one field.
The data input / output target generated and output in the output state is switched from the output state to the input state at the first edge of the timing signal, and the data input / output target in the input state is set in the field next to the first edge. Switching from the input state to the output state at the second edge of the above timing signal. That is, for example, one field is set between the switching signal from the output state to the input state and the switching signal from the input state to the output state.

A bidirectional bus is an input / output signal line shared between devices or circuits.

[0012]

According to the signal transmission method of the present invention, the first semiconductor I
By switching both the input state and the input state of the first semiconductor IC during the switching transition of the input / output state of the second semiconductor IC and the mode, for example, the mode switching from the input state to the output state of the first semiconductor IC is performed immediately after the mode transition. The mode transition from the output state to the input state of the second semiconductor IC is performed immediately before the switching transition, so that a collision in the bidirectional bus is avoided at the time of the mode switching transition.

Since the mode switching is performed in accordance with the timing signal supplied at the time of the mode switching transition of the input / output state, a reliable switching operation is performed.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a signal transmission method according to the present invention will be described below with reference to the drawings. Here, a description will be given based on an example in which this signal transmission method is applied to data transmission between semiconductor ICs.

In the signal transmission method, a semiconductor IC 1 as a first data transmission target and a data semiconductor IC 2 as a second data transmission target are connected to each other by a bidirectional bus 3 as shown in FIG. I have.

When the semiconductor IC 1 is set to the input state and the semiconductor IC 2 is set to the output state, it is called an A mode. At this time, data to be transmitted is transmitted from the semiconductor IC 2 to the semiconductor IC 2.
It is supplied to C1.

When the semiconductor IC 2 is in the input state,
When C1 is set to the output state, it is called a B mode. At this time, data to be transmitted is supplied from the semiconductor IC1 to the semiconductor IC2.

Since the semiconductor IC 1 and the semiconductor IC 2 can transmit data only in one direction at the same time, when the mode transition from the A mode to the B mode is performed as shown in FIG.
There is a possibility that both the semiconductor IC1 and the semiconductor IC2 are in an output state within one field which is a mode transition period. If such output collision occurs, data transmission between the two cannot be performed accurately.

Therefore, at the time of mode transition, the semiconductor IC 1
When both the semiconductor IC 2 and the semiconductor IC 2 are in the input state, the output collision can be avoided. In order to avoid this collision, a timing signal PBV generated approximately once in one field from the microcomputer is used. This timing signal PBV is automatically generated by self-running when there is no continuous signal. The mode transition starts at the fall of the timing signal PBV and starts at the timing signal PBV of the next field.
Ends at the falling edge of.

In order for the semiconductor IC 1 and the semiconductor IC 2 to be in the input state at the time of mode transition using the falling edge of the timing signal PBV and the falling edge of the next field, the semiconductor IC 1 requires the mode from the input state to the output state. The switching is performed immediately after the mode transition of one field, and in the semiconductor IC 2, the mode transition from the output state to the input state must be performed immediately before the switching transition.

Therefore, when the mode transitions from the A mode to the B mode, the semiconductor IC 2 switches from the output state to the input state at the falling edge of the timing signal PBV. The semiconductor IC 1 switches from the input state to the output state at the falling edge of the timing signal PBV in the next field.

By operating as described above, it is possible to avoid a collision of outputs which may occur because there has been no definition at the time of mode transition. This makes it possible to configure the system without breaking down the digital circuit system, which can greatly contribute to downsizing of the system.

Further, by switching the mode of the semiconductor IC in response to the timing signal PBV sent at a constant interval, it is possible to switch the mode accurately.

In this embodiment, data transmission / reception on a bidirectional bus has been described. However, the present invention is not limited to the above-described embodiment, and may be simultaneously transmitted in one direction such as half-duplex communication. Similarly, even in a communication system that can only transmit data to the same device, collision of output can be avoided and accurate data transmission and reception can be performed.

[0025]

According to the signal transmission method of the present invention, by setting all data transmission targets in the input state during the mode transition, the output which may be generated because there is no definition at the time of the mode transition conventionally. Collision can be avoided. This makes it possible to configure the system without breaking down the digital circuit system, which can greatly contribute to downsizing of the system.

Further, by switching the mode of the semiconductor IC in response to the timing signal sent at regular intervals, it is possible to switch the mode accurately.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing a connection configuration by a bidirectional bus to which a signal transmission method according to the present invention is applied.

FIG. 2 is a timing chart for explaining operation timing in mode transition of the bidirectional bus.

[Explanation of symbols]

 1, 2 semiconductor IC 3 bidirectional bus

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-62-292636 (JP, A) JP-A-60-116252 (JP, A) JP-A-54-127202 (JP, A) JP-A 61-92 60038 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04L 5/14-5/18 H04L 13/00 H04L 12/00 JICST file (JOIS)

Claims (4)

(57) [Claims] 1. A signal transmission method for transmitting and receiving data between a first data input / output target and a second data input / output target via a bidirectional bus, wherein the first and second data input / output targets are provided. Switch the input / output state of
Changing generates a timing signal for, upon switching transition of the first data input object or the output state of the second data input-output target, the timing signal
A signal transmission method characterized in that both the first and second data input / output targets are set to an input state and mode switching is performed in accordance with a signal. 2. The timing signal is a continuous signal.
2. The signal transmission method according to claim 1, wherein the signal is automatically generated by self-propelling when there is no signal. 3. The timing signal is provided in one field.
The data input / output target that is generated once and is in the output state
From the output state to the input state at the first edge of the timing signal.
Data input / output target in the input state
The timing signal of the field following the first edge
The signal transmission method according to claim 2 , wherein the input state is switched from the input state to the output state at the second edge . 4. The timing signal according to claim 1 , wherein
4. The signal transmission method according to claim 3 , wherein the signal transmission method is generated from a computer .