JP2011172062A - Resistor module - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a resistor module and an A/D conversion apparatus, easily dealing with an input signal regardless of the type of it. <P>SOLUTION: A resistor module is equipped with: a resistor; input-side connectors connected to both terminals of the resistor, respectively; and output-side connectors connected to both the terminals of the resistor, respectively. The input-side connector is configured to be directly or indirectly and freely removably connected to an outside line connector cable, and the output-side connector is configured to be directly or indirectly and freely removably connected to the input-side connector of an A/D conversion apparatus. The A/D conversion apparatus is equipped with: the input-side connector configured to be directly or indirectly connected to the output-side connector of the resistor module. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a resistance module that is detachably connected to an A / D converter.

2. Description of the Related Art As is well known, a programmable logic controller (programmable logic controller: hereinafter referred to as PLC) called a so-called sequence control device includes a computer such as a microprocessor, and various sensors connected to the input side by the computer. Control controlled devices such as motors connected to the output side based on signals from switches and switches. Signals from various sensors and switches that are input to the PLC are generally analog signals, and an A / D converter for converting the analog signals into digital signals and inputting the digital signals to the computer is provided in the PLC.

  The analog signal output from the various sensors and switches connected to the A / D converter described above may be a voltage signal or a current signal. Therefore, when an analog signal from a sensor, a switch, or the like is a current signal, this current signal is input to the A / D converter via a signal converter that converts the voltage signal.

  Conventionally, when an analog signal input to a voltage-dedicated A / D converter is a current signal, a relay terminal block having a resistor is connected in the middle of the input circuit of the A / D converter. A current signal is converted into a voltage signal by a resistor and is input to an A / D converter (for example, see Patent Document 1).

  That is, in the case of the conventional apparatus, as shown in FIG. 6, when the analog signal transmitted from the external connector cable 91,... 9n is a current signal, the resistors 31,. The relay terminal blocks 21, ... 2n are installed between the respective external conductors 91, ... 9n and the input side connectors 511, ... 5n1 of the A / D converter 5, and the respective current signals are sent. The resistors 31,... 3 n are converted into voltage signals and input to the A / D converter 5. In FIG. 6, 51,... 5n are A / D conversion circuits, 512,.

JP-A-11-205146

  In the case of the conventional apparatus as described above, when the type of the input signal is changed halfway from the current signal to the voltage signal, the relay terminal block having the resistor is changed to the relay terminal block having no resistor, or When changing the input signal from a voltage signal to a current signal, on the contrary, every time the input signal type changes, such as changing from a relay terminal block without a resistor to a relay terminal block with a resistor, The hardware needs to be changed, and a space for installing the relay terminal block in the panel of the PLC is required.

  The present invention has been made to solve the above-mentioned problems in conventional devices, and provides a resistance module that can easily correspond to an A / D converter regardless of the type of input signal. It is intended to do.

A resistor module according to the present invention is a resistor module connected to an input side connector of an A / D converter that performs signal conversion between an analog signal and a digital signal, and the resistor is connected to both terminals of the resistor. An input-side connector that is connected to each other; an output-side connector that is connected to both terminals of the resistor; and a board on which the resistor, the input-side connector, and the output-side connector are mounted. The connector is configured to be detachably connectable directly or indirectly to an external connector cable to be connected to the A / D converter, and the output connector is the input connector of the A / D converter Further, it is configured to be detachably connectable directly or indirectly.
Is.

  According to the resistance module of the present invention, the resistor, the input-side connector connected to both terminals of the resistor, the output-side connector connected to both terminals of the resistor, the resistor, and the An input side connector and a substrate on which the output side connector is mounted are provided, and the input side connector can be directly or indirectly detachably connected to an external line connector cable to be connected to the A / D converter. Since the output side connector is configured to be detachably connectable directly or indirectly to the input side connector of the A / D converter, A / D conversion is possible regardless of the type of input signal. The apparatus can be easily accommodated, and the installation space in a housing such as a PLC can be greatly reduced.

It is a block diagram which shows the resistance module by Embodiment 1 of this invention, and the A / D converter which connected this resistance module. It is a block diagram which shows the resistance module by Embodiment 2 of this invention, and the A / D converter which connected this resistance module. It is a block diagram which shows the resistance module by Embodiment 3 of this invention, and the A / D converter which connected this resistance module. It is a block diagram which shows the resistance module by Embodiment 4 of this invention, and the A / D converter which connected this resistance module. It is a block diagram which shows the resistance module by Embodiment 5 of this invention, and the A / D converter which connected this resistance module. It is a block diagram which shows the conventional relay terminal block and A / D converter.

  Hereinafter, the resistance modules according to the first to fifth embodiments of the present invention will be described in detail with reference to the drawings when applied to a PLC. The resistance module according to the present invention is not limited to application to PLC. 1 to 5 in the first to fifth embodiments of the present invention and FIG. 6 showing the above-described conventional apparatus, the same reference numerals denote the same or corresponding parts, respectively.

Embodiment 1 FIG.
FIG. 1 is a configuration diagram showing a resistor module according to Embodiment 1 of the present invention and an A / D conversion device to which the resistor module is connected. For example, the resistor module is mounted in a PLC board. In FIG. 1, an A / D conversion card 5 as an A / D conversion device and a resistance module 6 are mounted in a PCL casing 100 on the right side of the alternate long and short dash line.

In the A / D conversion card 5, circuit components such as a plurality of voltage input dedicated A / D conversion circuits 51,..., 5n and a plurality of amplifier circuits 512,. Substrate 50
Are connected to the input sides of the respective A / D conversion circuits 51,... 5n via amplifier circuits 512,... 5n2, respectively. Is provided. Note that circuit components such as the respective A / D conversion circuits 51,... 5n, amplifier circuits 512,... 5n2 may be formed on the substrate 50 as an integrated circuit.

  The resistor module 6 is formed in a card shape by mounting a plurality of resistors 31,... This resistance module 6 is a module formed by mounting resistors 31,..., 3 n having resistance values equivalent to the resistors provided in the conventional relay terminal block. Each of the resistors 31,... 3n has a resistance value corresponding to each of the A / D conversion circuits 51,. Input side connectors 311,..., 3 n 1 connected to both terminals of the respective resistors 31,... 3 n are provided at one end of the substrate 60, and each resistor 31,. The output side connectors 312,... 3n2 connected to both terminals of 3n are provided at the other side end of the substrate 60.

  Each of the input side connectors 311 to 3n1 of the resistance module 6 is detachably connected to lead conductors 41 to 4n provided in the housing 100, and each lead conductor 41 to 4n is Are connected to the external connector cables 91, ... 9n existing outside the housing. The external connector cables 91,... 9n are connected to various sensors, switches, etc. (not shown), and analog signals corresponding to detection values of these sensors or analog signals indicating the open / close state of the switches are transmitted. come. Now, all these analog signals are assumed to be current signals.

  A connector cable 7 having a first connector 71 at one end and a second connector 72 at the other end is a dedicated connector cable provided to connect the A / D conversion card 5 and the resistance module 6. . The first connector 71 of the connector cable 7 is detachably connected to the respective input side connectors 511,... 5n1 of the A / D conversion card 5, and the second connector 72 is the respective output of the resistance module 6. It is detachably connected to the side connectors 312... 3n1.

  The aforementioned A / D conversion card 5 is inserted into a predetermined space of a housing 100 such as a PCL, and its output side is connected to the input side of a computer (not shown) such as a microprocessor. The input side connectors 511,... 5n1 of the A / D conversion card 5 are collectively connected to the first connector 71 of the connector cable 7.

  Further, in the resistor module 6 according to the first embodiment of the present invention, the output side connectors 312... 3n2 are collectively connected to the second connector 72 of the connector cable 7 and installed in the housing 100. 3n1 of the resistance module 6 is detachably connected to the lead conductors 41,... 4n, and the external connector cable 91,. 9n. The connector cable 7 may be led out from the housing 100 to the outside of the housing, and the resistance module 6 may be installed outside the housing.

  As described above, the analog signals sent from the various sensors, switches, etc. to the external connector cables 91,... 91n are all current signals in the first embodiment. Are provided as current inputs to the input side connectors 311 to 3n1 of the resistor module 6 through the lead conductors 41 to 4n. This input current signal flows to the corresponding resistor 31,... 3n, and based on the current value and the resistance value of the resistor between both ends of the resistor 31,. A potential difference occurs. Therefore, each current signal input to the resistance module 6 is converted into a voltage signal and output from the output side connectors 312... 3n2 of the resistance module 6. The voltage signals output from the output side connectors 312... 3n2 of the resistance module 6 are input to the input side connectors 511... 5n1 of the A / D conversion card 5 via the connector cable 7.

  Voltage signals input to the input side connectors 511,... 5n1 of the A / D conversion card 5 are amplified by the corresponding amplifier circuits 512,... 5n2, respectively, and A / D conversion circuits 51,. Is converted into a digital signal and input to a computer such as a microprocessor.

  Here, if all the analog signals sent to the external connector cables 91,... 91n from the various sensors and switches described above are voltage signals, the resistor module 6 is not necessary. Therefore, in this case, the external connector cables 91,... 9n are directly connected to the input side connectors 511,... 5n1 of the A / D conversion card 5.

  According to the resistance module according to the first embodiment of the present invention described above, the A / D conversion card 5 and the resistance module 6 are configured to be connected by the connector cable 7, so that the conventional relay terminal block As described above, it is possible to avoid troubles such as management of tightening torque of a screw for fixing the relay terminal block and breakage of the relay terminal block during construction. In addition, the construction time can be shortened.

Embodiment 2. FIG.
FIG. 2 is a configuration diagram showing a resistor module according to Embodiment 2 of the present invention and an A / D converter connected to the resistor module. In FIG. 2, the resistor module 6A is connected to a plurality of resistors 31,... 3n, and these resistors 31,. A plurality of possible switches 81,..., 8n are mounted and formed in a card shape. This resistor module 6A is modularized by mounting resistors 31,... 3n, and switches 8,... 8n having resistance values equivalent to the resistors provided in the conventional relay terminal block. Is.

  Each of the resistors 31,... 3n is provided corresponding to the A / D conversion circuit 51,... 5n of the A / D conversion card 5, respectively. Input side connectors 311,..., 3 n 1 connected to both terminals of the respective resistors 31,... 3 n are provided at one end of the substrate 60, and each resistor 31,. The output side connectors 312,... 3n2 connected to both terminals of 3n are provided at the other side end of the substrate 60. The switches 8, ... 8n may be mechanical switches or semiconductor switches. When the switches 8,... 8n are semiconductor switches, they can be integrated on the substrate 60 together with the resistors 3,.

  .. 3n1 of the resistance module 6A is connected to lead conductors 41,... 4n provided in the housing 100, and the respective lead conductors 41,. It is connected to existing external connector cables 91, ... 9n.

  The A / D conversion card 5, the connector cable 7, the lead conductors 41,... 4n, the external connector cables 91,... 9n are the same as those in the first embodiment.

  Now, if all analog signals transmitted from the various sensors and switches to the external connector cables 91,... 91n are current signals, all the switches 8,. And Thereby, each current signal input to the input side connectors 311,... 3n1 flows to the corresponding resistors 31,. Are output from the output side connectors 312... 3n2.

  The analog signal thus converted from the current signal to the voltage signal is converted into a digital signal by the A / D conversion circuit 51,... 5n of the A / D conversion card 5 in the same manner as in the first embodiment. And input to a computer such as a microprocessor.

  On the other hand, if some analog signals are current signals and other analog signals are voltage signals among the analog signals sent to the external connector cables 91,. .., 8n of the resistance module 6A, only the switch connected to the input side connector to which the current signal is input is turned on, and the switch connected to the input side connector to which the voltage signal is input is turned off. To do.

  As a result, the current signal input to the input side connector of the resistor module 6A is converted into a voltage signal by the resistor via the turned-on switch, and is output as a voltage signal from the output side connector of the resistor module 6A. On the other hand, the voltage signal input to the input side connector of the resistor module 6A is output from the output side connector of the resistor module 6A without passing through the resistor because the switch is turned off.

  The voltage signal output from the output side connector 312 of the resistor module 6A,... 3n2 is input to the input side connector 511,... 5n1 of the A / D conversion card 5 via the connector cable 7, and the above-described implementation is performed. As in the case of the first embodiment, the A / D conversion circuit 51 of the A / D conversion card 5 converts the digital signal into a digital signal and inputs it to a computer such as a microprocessor.

  On the other hand, if all the analog signals transmitted from the external connector cables 91,... 9n are voltage signals, all the switches 81,. Thereby, the voltage signal input to the input side connectors 311... 3n1 of the resistor module 6A is output as it is from the output side connectors 312.

  As described above, according to the second embodiment of the present invention, as in the first embodiment, the A / D conversion card 5 and the resistor module 6A are connected by the connector cable 7. Therefore, as in the conventional relay terminal block, it is possible to avoid troubles such as management of the tightening torque of the screws for fixing the relay terminal block and breakage of the relay terminal block during construction. In addition, the construction time can be shortened.

  Furthermore, the resistor module 6A is provided with switches 81,... 8n for connecting and disconnecting these resistors in series with the resistors 31,. By turning this switch on or off depending on the type of analog signal input from the circuit, that is, whether it is a current signal or a voltage signal, all the voltage signals are output from the output side connector of the resistor module 6A. Thus, analog signals of two signal types can be converted into digital signals by one resistor module and one A / D conversion card.

Embodiment 3 FIG.
FIG. 3 is a block diagram showing a resistor module according to Embodiment 3 of the present invention and an A / D conversion device to which the resistor module is connected. In FIG. 3, the output side connectors 313,... 3n3 of the resistor module 6B are configured to be detachably connectable directly to the input side connectors 511,... 5n1 of the A / D conversion card 5. . Therefore, it is not necessary to use the connector cable 7 as in the case of the first and second embodiments. Other configurations and operations are the same as those in the second embodiment.

According to the third embodiment, the resistor module 6B is provided with the switches 31,... 8n for connecting and disconnecting these resistors in series with the resistors 31,. By turning this switch on or off according to the type of analog signal input from the cable 91,... 9n, that is, whether it is a current signal or a voltage signal, the output side connector of the resistor module 6B All of them can be output as voltage signals, whereby analog signals of two types can be converted into digital signals by one resistor module 6B and one A / D conversion card 5. Moreover, since the connector cable can be omitted, cost reduction and space saving can be achieved.

Embodiment 4 FIG.
FIG. 4 is a block diagram showing a resistor module according to Embodiment 4 of the present invention and an A / D converter connected to the resistor module. In FIG. 4, the input side connectors 314,... 3n4 of the resistor module 6C are configured to be detachably connectable directly to the external line connectors 90 provided on the external line connector cables 91,. . In addition, the output side connectors 312... 3n2 of the resistor module 6C are configured to be detachably connectable to the second connector 72 of the connector cable 7.

  .., 5n1 of the A / D conversion card 5 are detachably connected to the first connector 71 of the connector cable 7 as in the case of the first embodiment. Other configurations and operations are the same as those in the third embodiment.

  According to the fourth embodiment, as in the second embodiment, the resistor module 6C includes a switch 81 that connects and disconnects these resistors in series with the resistors 31,. .. Since 8n is provided, this switch is turned on or off depending on the type of analog signal input from the external connector cable 91,... 9n, that is, whether it is a current signal or a voltage signal. Thus, all voltage signals can be output from the output side connector of the resistor module 6C, whereby analog signals of two types of signals are converted into digital signals by one resistor module 6C and one A / D conversion card 5. Can be converted to In addition, since the lead conductors between the external connector cables 91,... 9n and the resistor module 6C can be omitted, cost reduction and space saving can be achieved.

Embodiment 5 FIG.
FIG. 5 is a configuration diagram showing a resistor module according to Embodiment 5 of the present invention and an A / D conversion device to which the resistor module is connected. 5, the input side connectors 314,..., 3n4 of the resistance module 6D are configured to be directly detachable and connectable to the external line connectors 90 provided on the external line connector cables 91,. . In addition, the output side connectors 313,... 3n3 of the resistor module 6D are configured to be directly and detachably connectable to the input side connectors 511,... 5n1 of the A / D conversion card 5. Other configurations and operations are the same as those in the fourth embodiment.

  According to the fifth embodiment, as in the second embodiment, the resistor module 6D includes a switch 81 that connects and disconnects these resistors in series with the resistors 31,. .. Since 8n is provided, this switch is turned on or off depending on the type of analog signal input from the external connector cable 91,... 9n, that is, whether it is a current signal or a voltage signal. Thus, all of the voltage signals can be output from the output side connector of the resistor module 6C, whereby analog signals of two types of signals are converted into digital signals by one resistor module 6D and one A / D conversion card 5. Can be converted to The same effects as in the case of the fourth embodiment can be obtained, the lead conductors between the external connector cables 91,... 9n and the resistor module 6C can be omitted, and the connector cable is omitted. Therefore, cost reduction and space saving can be achieved.

5 A / D conversion card 51,... 5 n A / D conversion circuit 512,... 5 n 1 A / D conversion card input side connectors 6, 6 A, 6 B, 6 C, 6 D Resistance module 311,. 314,... 3n4 resistance module input side connector 312,... 3n2, 313,... 3n3 resistance module output side connector 31,... 3n resistor 41,. Cable 71 First connector 72 of connector cable 72 Second connector 81 of connector cable, ... 8n Switch 91, ... 9n External connector cable 90 Connector of external connector cable

Claims (8)

A resistor module connected to an input side connector of an A / D converter that performs signal conversion between an analog signal and a digital signal,
A resistor,
Input side connectors respectively connected to both terminals of the resistor;
Output side connectors respectively connected to both terminals of the resistor;
With
The input side connector is configured to be detachably connectable directly or indirectly to an external line connector cable to be connected to the A / D converter,
The output connector is configured to be detachably connectable directly or indirectly to the input connector of the A / D converter.
A resistance module characterized by that.   Via the connector cable having a first connector detachably connected to the A / D converter and a second connector detachably connected to the output side connector of the resistor module. The resistance module according to claim 1, wherein the resistance module is configured to be detachably connected to the conversion device. The input side connector of the resistor module is configured to be detachably connectable directly to a connector provided in the external connector cable.
The resistance module according to claim 2. The input side connector of the resistance module is configured to be detachably connectable directly or indirectly to the external connector cable,
The output side connector of the resistor module is configured to be detachably connectable directly to the input side connector of the A / D converter.
The resistance module according to claim 1. The input side connector of the resistance module is configured to be detachably connectable directly to a connector provided on the external line connector cable,
The output side connector of the resistor module is configured to be detachably connectable directly to the input side connector of the A / D converter.
The resistance module according to claim 1. A plurality of the resistors are provided,
The input side connectors are respectively connected to both terminals of the plurality of resistors,
The resistance module according to claim 1, wherein the output-side connector is connected to both terminals of the plurality of resistors.   The said resistor, the said input side connector of the said resistance module, and the said output side connector are integrally mounted to a board | substrate, and are comprised by the card | curd shape, The one of the Claims 1 thru | or 6 characterized by the above-mentioned. The resistance module described in 1.   The resistance module according to claim 1, further comprising a switch that can open and close the resistor.

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