JPH0413177A - Load controller - Google Patents

Abstract

PURPOSE:To detect the fusing of a fuse under a simple constitution by connecting a resistance for limiting a current between the connection point of one end of a serial circuit including loads and a switching element and a fuse and the connection point of the other end of the serial circuit and one output terminal of a power source, and disposing detecting elements in parallel with the fuse. CONSTITUTION:The resistance Ra for limiting the current is connected with the connection point 27 of a line 23 on which transistors Tr0 and Trl are connected and the fuse 25, and also connected with a line 22 on which loads L0 and L1 are commonly connected through a line 26 at a connection point 28. Also, the fuse 25 is connected with a power source PW through a terminal COM and a line 29. A terminal FB is also arranged in a programmable controller 15, and a light emitting diode 30 functioning as the detecting element is connected with the connecting terminals COM and FB, and the terminal FB is connected with the connection point 27 through the resistance Rb. Thus, the fusing of the fuse can be detected by a simple constitution.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a load control device that can be implemented in connection with, for example, a programmable controller.

Conventional technology A typical prior art is shown in FIG.

The programmable controller 1 includes a processing circuit 2,
By the output of this processing circuit 2, the photocouplers PDO,P
DI is activated, thereby controlling switching transistors TRO and TRI. This transistor TR
Loads LO and Ll are connected to O and TRI, and are connected to source PW. Transistors TRO and TRI are also connected to a power supply PW via a fuse 4 of a fuse circuit 3.

The fuse circuit 3 has the configuration shown in FIG. At the 5th fZ (1), the spring member 5 is pulled to the right by the fuse 4 at the 5121st (1). When an excessive overcurrent flows through the fuse 4 and the fuse 4 blows out, the spring member 5 is displaced to the left in FIG. 5(2), as shown in FIG. 5(2), and the pair of Displace the contact point 6 to make it conductive. Due to the conduction of the contact 6, the light emitting diode 7 is turned on, indicating that the fuse 4 has been blown.

In the prior art shown in FIG. 4, the structure of the fuse circuit 3 is clearly complicated.

FIG. 6 is another prior art electrical circuit diagram.

In this embodiment, the fuse 8 is a general glass tube fuse or the like, and both ends of the fuse 8 are connected to photocouplers 9.
connected to. When the fuse 8 blows, the light emitting diode 10 of the photocoupler 9 lights up, the phototransistor 11 of the photocoupler 9 becomes conductive, and the output of the buffer 12 lights up the light emitting diode 13, indicating that the fuse 8 is blown. be done.

In such prior art, the photocoupler 9 and the buffer 1
2 is used, and therefore it is desirable to have a simplified configuration.

Problems to be Solved by the Invention An object of the present invention is to provide a load control device that can detect fuse blowout with a simple configuration.

Means for Solving IN The present invention connects a series circuit including a load and a switching element to the true output terminal of a power supply via a fuse, and connects one end of the series circuit and the connection point with the fuse, as well as the connection point between one end of the series circuit and the fuse. This load control device is characterized in that a current limiting resistor Ra is connected between the other end of the series circuit and a connection point with one output terminal of the power supply, and a detection element is provided in parallel with the fuse.

Effect According to the present invention, when the fuse is not blown,
No current flows through the sensing element, such as a light emitting diode, and the sensing element is disabled. If the fuse blows due to excessive current flowing through the load, the power supply and current limiting resistor R
A current flows through the closed loop between a and the detection element, activating the detection element, and detecting the blowing of this fuse.

Embodiment FIG. 1 is an electrical circuit diagram of an embodiment of the present invention. The programmable controller 15 is equipped with a processing circuit 16 . This processing circuit 16 is realized by, for example, a microcomputer. From the processing circuit 16,
Photocouplers PDO and PC correspond to loads LO and Ll.
A control signal is given to the light emitting diode 17.18 of I,
As a result, phototransistors 19 and 20 receive light from light emitting diodes 17 and 18 and become conductive. The output from the phototransistors 19 and 20 passes through the base current limiting resistors RO and R1 to the switching transistors Try,
Given to the base of Tr 1. The resistors R10 and R11 function to prevent the transistors Try and Tr1 from malfunctioning and becoming conductive due to leakage current when the phototransistors 19 and 20 are cut off.

A series circuit including the load LO and the transistor TrO is connected to the positive and negative true output terminals of the DC power supply PW via lines 22 and 23. Load L1 and switching transistor Tri are likewise connected to line 22.23. These loads LO and L1 are connected to terminals PO1P1 of the programmable controller 15. A fuse 25 is connected to the line 23, which blows out when an excessive load current flows.

The current limiting resistor Ra is a transistor Try.

It is connected to a connection point 27 between the line 23 to which Tri is connected and the fuse 25, and is connected to the line 22 to which the load LO1L1 is commonly connected at a connection point 28 via a line 26.

Fuse 25 is further connected to line 2 via terminal COM.
It is connected to the power supply PW via 9.

The programmable controller 15 is also provided with a terminal FB, and a light emitting diode 30 as a detection element is connected to the connection terminals COM and FB.

Terminal FB is connected to connection point 27 via resistor Rb.

The second section includes terminals PO, PL, P2 . COM.

This shows the state in which it is actually connected to the FB. terminal COM
A power source PW is connected to the power source PW via two lines, and a light emitting diode 30 is also connected as described above.

The phototransistor 19 of the photocoupler PDO is made conductive by the action of the processing port #g16, which makes the transistor TrO conductive, and the load LO is connected from the power supply pw to the line 22, the load LO1 terminal PO, the transistor TrO, the line 23, and the connection point. The load current flows through 27, fuse 25, terminal COM and line 29. In this way, the load LO is driven. A load current also flows through the load L1 when the transistor Trl becomes conductive.

When the fuse 25 is not blown, the resistance value of the series resistance between the resistor Rb and the light emitting diode 30 is the same as that of the fuse 25.
is larger than the resistance value of the light emitting diode 30.
is off.

When excessive current flows through the loads LO and Ll, the fuse 25 blows. This causes the load LO.

This prevents excessive load current from continuing to flow through Ll.

FIG. 3 is an equivalent circuit diagram showing the current path when the fuse 25 is blown. When the fuse 25 blows, the on/off states of the transistors Try and Tri and the impedances of the loads LO and Ll are undefined. The resistor Ra is connected in parallel to the series circuit of the transistor TrO and the load LO, and the series circuit of the transistor Tri and the load L1, and when the composite impedance of such a circuit 31 is Rc, the composite impedance R
It serves to quantify c into the first equation.

0 < Rc < Ra
-(1) The resistance values of the resistors Ra and Rb are determined by the following equations, where i max is the upper limit of the current value i that lights up the light emitting diode 30 for detection at an appropriate brightness, and the lower limit is 1 m1n. is selected so that it is satisfied, where V is the output voltage of the DC power supply pw, and VF is the output voltage of the light emitting diode 30.
is the value of the forward voltage drop.

Here, when Rc=O, when Rc=Ra, for example, V=24V, VF=2V, imax=10mA
, imin=5mA, from the third and fourth equations, therefore, Ra=2.2 is Ω, and Rb=2゜2 is Ω.
becomes.

The present invention can be widely implemented not only in programmable controllers but also in other applications.

Instead of the light emitting diode 30, a relay, a buzzer, and other detection elements may be used.

Effects of the Invention As described above, according to the present invention, blowing of a fuse can be detected with a simple configuration, that is, by using a current limiting resistor Ra and a detection element, and the present invention is easy to implement. be.

[Brief explanation of the drawing]

FIG. 1 is an electric circuit diagram of an embodiment of the present invention, FIG. 2 is a simplified diagram of the vicinity of the terminals of the programmable controller 15, FIG. 3 is an equivalent circuit diagram showing the state when the fuse 25 is blown, and FIG. 4 is an electric circuit diagram of the prior art, FIG. 5 is a diagram for explaining the operation of the fuse circuit 3, and FIG. 6 is an electric circuit diagram of another prior art. 15...Programmable controller, 16...Processing circuit, 30...Light emitting diode, Try, Tri...
Transistor, LO, LL...load, PW...power supply, Ra, Rb...resistance agent Patent attorney Number of strokes Keiichi W

Claims (1)

[Claims] A series circuit including a load and a switching element is connected to both output terminals of a power source via a fuse, and one end of the series circuit and a connection point with the fuse, as well as the other end of the series circuit. and the connection point with one output terminal of the power supply,
A load control device characterized in that a current limiting resistor Ra is connected and a detection element is provided in parallel with a fuse.