JP2000307413A - Current converting circuit and communication network - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow circuit devices which have different source voltage to perform two-way communicate without using switching signal. SOLUTION: A circuit device 1 connected to a 3.3 V power terminal 10 and a circuit device 2 connected to 5 V power terminal 20 are arranged and input/output terminals 11 and 21 are arranged respectively. To those input/output terminals 11 and 21, open-drain output circuits 13 and 23 and input circuits 15 and 25 which make voltage decisions are connected. Then the input/output terminals 11 and 21 are connected through the source and drain terminals (controlled terminal) of, for example, an N type JFET 31 as a two-way element. The source and drain terminal of the JFET 31 are connected to the power terminals 10 and 20 on the sides where the respective terminals are connected via respective resistors 41 and 51. Further, the gate terminals (control terminal) of the JFETs 31 and 32 are grounded and the load voltage characteristic of the element is about -1.5 V.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a voltage conversion circuit and a communication network suitable for use in, for example, I ² C bus communication. More specifically, for example, in communication of data and the like between IC devices, good communication is performed with a simple configuration even when the power supply voltage of each IC device is different.

[0002]

2. Description of the Related Art For example, in communication between IC devices, a communication system called I ² C bus communication has been proposed. In this communication system, for example, two-wire communication paths for a data signal and a clock signal are provided, and communication under the condition of low active is performed using these communication paths. Then, the data signal is transmitted serially on the above-mentioned communication path. For example, an address set for each IC device is identified, and communication of a data signal or the like is performed between desired circuit devices.

Therefore, by using such a communication system, for example, a microcontroller and a memory or an I / O
The O device can be connected only by a two-wire communication path, and such a circuit device can be designed very easily. For example, it is possible to very easily design a circuit device for performing communication of data signals, such as a digital tuning circuit and a signal processing circuit in a radio receiver or a television receiver, and a dual tone generation circuit in a telephone. Things.

[0004]

When communication is performed between such circuit devices, for example, when the power supply voltage of each circuit device is the same, the connection can be performed as it is.
However, when the power supply voltage of each circuit device is different, connection cannot be made as it is. That is, for example, when the power supply voltage of a central processing unit (CPU) used as a microcontroller is 3.3 V, a circuit device of the peripheral device may use a power supply voltage of 5 V.

In this case, for example, a threshold voltage for determining data or the like communicated by a circuit device having a power supply voltage of 3.3 V is 3.3 / 2 = 1.65 V, and a maximum allowable input voltage is 3.3 V. It is. On the other hand, in a circuit device having a power supply voltage of 5 V, the threshold voltage is 5/2 = 2.5.
V and the maximum allowable input voltage is 5V. Therefore, when these circuit devices are connected, communication of data or the like becomes difficult because the threshold voltage of the 5 V circuit device is close to the maximum allowable input voltage of the 3.3 V circuit device.

In order to perform communication between circuit devices having different power supply voltages, for example, a boosting buffer circuit for satisfying input conditions of a high-voltage side circuit or a withstand voltage voltage of a low-voltage side circuit are required. Requires a step-down buffer circuit. However, for example, in the above-described I ² C bus communication, it is necessary to switch these buffer circuits because the communication path is bidirectional. For example, in the I ² C bus communication, there is a signal for performing such switching. Communication was extremely difficult.

The present invention has been made in view of such a point, and a problem to be solved is that when communication of data or the like is performed between circuit devices having different power supply voltages, a conventional device is used. For example, if there is no signal for switching the communication path in both directions, a circuit for satisfying the communication condition is required, or a special signal for switching the circuit is required, It is extremely difficult to perform communication.

[0008]

Therefore, in the present invention, the input / output terminals of the circuit device are connected via the controlled terminal of the bidirectional element, and the control terminal of the bidirectional element is set at a predetermined potential. In this case, the controlled terminals of the bidirectional elements are respectively connected to the power supplies of the circuit devices via the resistors. According to this, when communication is performed between circuit devices having different power supply voltages, For example, even when there is no signal for switching the communication path in both directions, good communication can be performed with an extremely simple configuration.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention is a voltage conversion circuit which is provided between input / output terminals of circuit devices having different power supply voltages and controls a control terminal of a bidirectional element at a predetermined potential. The controlled terminal of the bidirectional element is connected to the input / output terminal of the circuit device, and the controlled terminal of the bidirectional element is connected to the power supply of the circuit device via a resistor.

A second embodiment of the present invention relates to a communication network for communicating between input / output terminals of circuit devices driven by different power supply voltages on condition of low active state, Are connected via the controlled terminal of the bidirectional element, the control terminal of the bidirectional element is set to a predetermined potential, and the controlled terminal of the bidirectional element is connected to the power supply of the circuit device via each resistor. It is.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of an embodiment of a device to which a voltage conversion circuit and a communication network according to the present invention are applied.

In FIG. 1, a circuit device 1 such as a central processing unit (CPU) used as a microcontroller is connected to a power terminal 10 of, for example, 3.3 V.
And a 5V power supply terminal 20 used as a peripheral device thereof
And a circuit device 2 connected thereto. These circuit devices 1 and 2 have input / output terminals 1 for data signals, respectively.
1 and 21 and clock signal input / output terminals 12 and 22 are provided. And these input / output terminals 11 and 21, 1
2 and 22 are connected.

On the other hand, these input / output terminals 11, 21, 1
The open drain circuits 13, 23, 14, and 24 and the input circuits 15, 25, 16, and 26 for performing voltage determination are connected to the circuit devices 1 and 2, respectively. And these output circuits 13, 23, 14,
24, when the input / output terminals 11, 21, 1
An operation state (low active) is set when each of the input circuits 15 and 22 is set to a low level.
Communication is performed upon detection at 5, 16, and 26.

Therefore, an N-type JFET (Jun) as a bidirectional element is provided between the input / output terminals 11 and 21.
Ction Field Effect Transi
(stor) The element 31 is connected through the source and drain terminals (controlled terminals). Also, this JFET element 3
1 are connected to a resistor 41, respectively.
Through 51, the power supply terminals 10 and 20 on the side of the circuit devices 1 and 2 to which the respective terminals are connected are connected.

Similarly, the connection between the input / output terminals 12 and 22 is made through the source and drain terminals (controlled terminals) of the N-type JFET element 32, for example. The source and drain terminals of the JFET element 32 are connected via resistors 42 and 52 to the power supply terminal 1 on the side of the circuit devices 1 and 2 to which the respective terminals are connected.
0, 20 are connected. Furthermore, these JFET elements 3
The gate terminals (control terminals) 1 and 32 are grounded.

Here, the JFET elements 31 and 32 have, for example, JF, such that the element-specific negative voltage is about -1.5 V which is lower than the threshold voltage of the low-voltage circuit device 1.
An ET element is used. Thus, for example, when the potential of the source and drain terminals is higher than the gate terminal by 1.5 V or more, the source and drain are turned off, and the potential of the source and drain terminals is +1.5 with respect to the gate terminal.
When the voltage becomes V or less, and when the gate terminal is at a positive voltage, conduction between the source and the drain is conducted.

Therefore, for example, when a high level is communicated between the input / output terminals 11, 21, or 12, 22 of the circuit devices 1, 2, the output circuits 13, 23, 14, 24 are cut off. As a result, a power supply voltage is applied to the source and drain terminals of the JFET element 31 or 32 from the power supply terminals 10 and 20 through the resistors 41, 51 or 42 and 52, and the potential of the source and drain terminals is changed from the gate terminal (ground). 1.5V or higher, JFET element 31
Or 32 is turned off.

Therefore, the source and drain terminals of the JFET element 31 or 32 are connected to the power supply terminals 10 and 2 respectively.
The power supply voltages of 3.3V and 5V of 0 are formed, and these potentials are detected by the input circuit 15, 25 or 16, 26, and high-level communication is performed. That is, in this case, JF
Although the ET element 31 or 32 is turned off, the power supply voltage is formed at the source and drain terminals,
As a result, the high level becomes the input / output terminal 11, 21 or 1
Communication will be made between 2, 22.

On the other hand, for example, when a low level is communicated between the input / output terminals 11 and 21 of the circuit devices 1 and 2, the output circuit 13 or 23 is turned on. As a result, the power supply voltage supplied from the power supply terminals 10 and 20 is sucked into the output circuit 13 or 23, and for example, the source or drain terminal of the JFET element 31 is set to the ground potential.
And the source or drain terminal is the gate terminal (ground)
For example, when the voltage becomes +1.5 V or less, the JFET element 31 is made conductive.

Therefore, for example, the output circuit 13 of the circuit device 1
Is turned on, the JFET element 31
Is made conductive, the power supply voltage supplied from the power supply terminal 20 of the circuit device 2 on the other side also becomes the JFET element 3.
1 to the output circuit 13. When the input / output terminal 21 of the circuit device 2 on the other side also drops to the ground potential, a low level is communicated from the input / output terminals 11 to 21. Similarly, the low level is communicated to the input / output terminals 21 to 11 as well.

That is, in this circuit, the circuit device 1,
2 enables low-level signals to be bidirectionally communicated between the input / output terminals 11, 21 or 12, and 22, and disconnects the source and drain terminals of the JFET element 31 or 32 when the signal is at the high level. Since the voltages from the power supply terminals 10 and 20 on each side are applied, for example, a voltage higher than the allowable voltage from the higher voltage side circuit device is not applied to the lower voltage side circuit device. Things.

In this manner, high-level and low-level signals can be bidirectionally communicated between the input / output terminals 11, 21 or 12, 22 of the circuit devices 1, 2. In this case, since there is no need to perform switching or the like depending on the communication direction, there is no need to form a special signal or the like for switching, and further, there is no problem caused by a difference in power supply voltage between circuit devices. It is possible to perform good communication with an extremely simple configuration.

Therefore, in this circuit, the input / output terminals of the circuit device are connected via the controlled terminal of the bidirectional element, the control terminal of the bidirectional element is set at a predetermined potential, and the controlled terminal of the bidirectional element is connected. Are respectively connected to the power supply of the circuit device via the resistor, when communication is performed between the circuit devices having different power supply voltages, for example, even when there is no signal for switching the communication path in both directions, Good communication can be performed with an extremely simple configuration.

In this way, when data or the like is communicated between circuit devices having different power supply voltages, if there is no signal for performing bidirectional switching of the communication path in a conventional device, the communication conditions According to the present invention, although a circuit for satisfying the above is required or a special signal or the like for switching the circuit is required, communication becomes extremely difficult. Can be easily eliminated.

According to this circuit, for example, the I ²
Even in a communication system in which the communication path is bidirectional and there is no signal for switching the communication path, such as C-bus communication, good communication can be performed with an extremely simple configuration. As a result, a good communication network can be formed even in a communication system such as I ² C bus communication.
The connection to the O-device can be facilitated and the design of such a circuit device can be greatly facilitated.

Thus, according to the voltage conversion circuit of the present invention,
It is provided between input and output terminals of circuit devices with different power supply voltages,
The control terminal of the bidirectional element is set to a predetermined potential, the controlled terminal of the bidirectional element is connected to the input / output terminal of the circuit device, and the controlled terminal of the bidirectional element is connected to the power supply of the circuit device via a resistor. , Each can perform good communication with a simple configuration even when the communication path is bidirectional and there is no switching signal.

Further, the present invention is a communication network for communicating between input / output terminals of a circuit device driven by different power supply voltages on condition that the input device is low active. By connecting the controlled terminals of the bidirectional element to a predetermined potential and connecting the controlled terminals of the bidirectional element to the power supply of the circuit device via respective resistors, the communication path is established. Can form a good communication network even when bidirectional and there is no switching signal.

Thus, for example, when designing a circuit device for performing data signal communication, such as a digital tuning circuit or a signal processing circuit in a radio receiver or a television receiver, or a dual tone generation circuit in a telephone, etc. In addition, there is no need to arrange circuit devices having the same power supply voltage as in the related art, or to provide a complicated voltage conversion circuit or the like.
Since a good communication network can be formed with an extremely simple configuration, the design and the like of these devices can be easily performed.

In the above-described embodiment, for example, the N-type JFET elements 31 and 32 as bidirectional elements may be formed by using a transistor as long as a signal can be transmitted bidirectionally. Can be. Further, the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention.

[0030]

Therefore, according to the first aspect of the present invention, the input / output terminals of the circuit device are connected via the controlled terminals of the bidirectional element, and the control terminal of the bidirectional element is set to a predetermined potential. When communication is performed between circuit devices having different power supply voltages by connecting the controlled terminals of the bidirectional elements to the power supply of the circuit device via respective resistors, for example, a signal for switching a communication path in both directions. Even when there is no communication, good communication can be performed with an extremely simple configuration.

Thus, when data or the like is communicated between circuit devices having different power supply voltages, if there is no signal for switching the communication path in both directions in a conventional device, for example, the communication conditions According to the present invention, although a circuit for satisfying the above is required or a special signal or the like for switching the circuit is required, communication becomes extremely difficult. Can be easily eliminated.

According to the second aspect of the present invention, the bidirectional element is turned on when the potential of the controlled terminal is equal to or lower than the threshold potential of the input / output terminal of the circuit device, and becomes low between the input / output terminal of the circuit device. By transmitting an active signal, when communication is performed between circuit devices having different power supply voltages, for example, even when there is no signal for switching a communication path in both directions, good communication can be performed with an extremely simple configuration. Is what you can do.

Further, according to the third aspect of the present invention, a communication system in which the communication path is bidirectional and there is no signal for switching the communication path, such as the above-mentioned I ² C bus communication, is provided. However, by performing good communication with an extremely simple configuration, it is possible to form a good communication network even in a communication method such as I ² C bus communication.
For example, the connection between the microcontroller and the memory or the I / O device can be easily made, and the design of such a circuit device can be made extremely easy.

Further, according to the invention of claim 4, bidirectional element, by which the potential of the control terminal is turned on when the following threshold voltage of the input and output terminals of the circuit arrangement, for example, the I ² C bus communication In such a communication system, a good communication network can be formed, and for example, the connection between the microcontroller and the memory or the I / O device can be easily made, and the design of such a circuit device can be made extremely easy. Is what you can do.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an embodiment of a voltage conversion circuit and a communication network to which the present invention is applied.

[Explanation of symbols]

1, 2, ... circuit device, 10 ... 3.3 V power supply terminal, 20 ...
5V power supply terminal, 11, 21,... Data signal input / output terminal, 12, 22,... Clock signal input / output terminal, 13, 2
3, 14, 24 ... open drain output circuit, 15,
25, 16, 26... Input circuits for determining voltage, 31, 3
2. For example, an N-type JFET element as a bidirectional element, 4
1, 51, 42, 52 ... resistor

Claims (4)

[Claims] 1. A bidirectional element having a predetermined potential provided between input and output terminals of circuit devices having different power supply voltages, and a controlled terminal of the bidirectional element is connected to an input / output terminal of the circuit device. A voltage conversion circuit, wherein the control terminal of the bidirectional element is connected to a power supply of the circuit device via a resistor. 2. The voltage conversion circuit according to claim 1, wherein the bidirectional element conducts when a potential of the controlled terminal is equal to or lower than a threshold potential of an input / output terminal of the circuit device. A voltage conversion circuit for transmitting a low active signal between output terminals. 3. A communication network for communicating between input / output terminals of circuit devices driven by different power supply voltages on a condition of low active, wherein a controlled terminal of a bidirectional element is connected between input / output terminals of the circuit device. And the control terminal of the bidirectional element is set to a predetermined potential, and the controlled terminals of the bidirectional element are respectively connected to the power supply of the circuit device via resistors. Communication network. 4. The voltage conversion circuit according to claim 1, wherein the bidirectional element is turned on when the potential of the controlled terminal is equal to or lower than a threshold potential of an input / output terminal of the circuit device. Network.