JPH0528372A - Current limitter - Google Patents

Abstract

PURPOSE:To protect a load by constituting a fire detecting circuit of a comparator to compare the voltage and reference voltage of a sensor line and providing a current limiting circuit to limit the current to flow at the time of the action of a sensor. CONSTITUTION:A receiver 1 is provided with a fire detecting circuit 4 to detect the fire by a sensor S, a disconnection detecting circuit 5 to detect the disconnection of sensor lines 2 and 3, and a current limiting circuit 6 to limit the current to flow at the sensor line. The fire detecting circuit 4 is constituted of a comparator CP1 and resistors a R1, R4 and R5, and when either of sensors S1-Sn operated, the signal of an H level is outputted as a fire signal from the comparator CP1. The disconnection detecting circuit 5, when the sensor line is disconnected, outputs the signal of the H level as a disconnection signal from a comparator CP2. The current limitting circuit 6 is constituted of an MOSFET.Q1, a transistor Q2 and resistors, R6 and R7, and when the sensor S is operated, limits the current.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a current limiting device used in a receiver connected with a detector line for detecting a fire.

[0002]

2. Description of the Related Art Power is supplied to drive a load.

[0003]

However, in the prior art, a power source is simply connected to a load to supply the power, and when an abnormality occurs in the load and a large current flows,
There was a problem that the load was damaged. The present invention has been made in view of the above points, and provides a current limiting device intended to protect a load by limiting a current flowing through the load.

[0004]

The present invention provides a current limiting circuit for limiting a current flowing between a power source and a load. In claim 2, a plurality of sensors as the load for detecting a fire are connected between the sensor lines connected to the pair of terminals of the receiver, and the voltage of the sensor line at the time of monitoring and when detecting the fire is detected. A fire detection circuit that detects a fire by a change is provided, and the first resistance having a low resistance value connected between the power supply and the sensor line, and the voltage and resistance division of the sensor line via this first resistance The fire detection circuit is configured with a comparator that compares the reference voltage thus formed, and a current limiting circuit that limits the current that flows when the detector operates.

According to the third aspect of the present invention, the MOSFET constituting the current limiting circuit is connected in the line of the sensor line and a signal is input to the gate of the MOSFET to enable switch control. In the fourth aspect, a disconnection detection circuit for detecting disconnection of the sensor line is provided.

[0006]

The current limiting circuit limits the current flowing through the load to protect the load. Further, in claim 2,
The fire detection circuit detects a fire and the value of the first resistance of the fire detection circuit is set to be low, so that the voltage drop due to the first resistance during monitoring is suppressed and the current limit circuit is used to detect the sensor. It is possible to reduce the current consumption during the operation of.

In the third aspect, M constituting the current limiting circuit
Connect the OSFET to the line of the sensor line,
By turning on and off the MOSFET by inputting a signal to the gate of the FET to control the switch, it can also be used as a switch control circuit for restoring the sensor line. Furthermore, in claim 4, the disconnection detection circuit easily detects disconnection of the sensor line,
Fire alarms are prevented from being missed.

[0008]

Embodiments of the present invention will be described below with reference to the drawings. In FIG. 1, the left side shows the sensor line side, and the right side shows the receiving circuit side. That is, the sensor lines 2 and 3 are connected to the terminals L and C of the receiver 1, and a plurality of sensors S _{1 to} Sn are connected between the sensor lines 2 and 3. A terminating device Re for enabling disconnection detection is connected to the ends of the sensor lines 2 and 3. In this embodiment, a resistor is used as the terminator Re.

In the receiver 1, a fire detection circuit 4 for detecting a fire by the sensor S, a disconnection detection circuit 5 for detecting disconnection of the sensor lines 2 and 3, and a current flowing in the sensor lines 2 and 3. A current limiting circuit 6 for limiting the current is provided. Here, the fire detection circuit 4 includes a comparator CP ₁ , a resistor R ₁ ,
Comprised of R ₄ and R ₅ , when any of the sensors S _{1 to} Sn operates (turns on), the comparator CP ₁ outputs an H level signal as a fire signal.

The disconnection detection circuit 5 includes a comparator CP ₂ ,
Comprising resistors R _{1 to} R _3, etc., when the sensor lines 2 and 3 are disconnected, the comparator CP ₂ outputs a disconnection signal,
It outputs an H level signal. In addition, the current limiting circuit 6
MOSFET · Q _1, transistor Q _2, resistors R _6, R
It is composed of ₇ etc., and is for limiting the current when the sensor S operates.

Next, the circuit operation will be described. An H level voltage is applied to the control input Ci of the current limiting circuit 6 to turn on the MOSFET Q ₁ . First, the fire reception operation will be described. When the sensor S is a smoke sensor, the current flowing through the sensor lines 2 and 3 at the time of monitoring is the sum of the current consumption of the terminator Re and the current consumption of the sensor S (parallel number), which is a mechanical formula. In the case of the heat sensor of, only the amount flowing to the terminator Re.

Assuming that this current is the monitoring current Is, when the voltage of the sensor line 2 is Vs, the voltage of the input terminal of the comparator CP ₁ is Va, and the voltage of the power source is V, Vs = V-Is · R ₁ Va = (R ₅ · V) / (R ₄ + R ₅ ), so that Vs> Va is set.

Next, when the sensor S operates, the voltage between the terminals L and C of the receiver 1 becomes almost 0V, so that Vs <V.
If the resistors R ₄ and R ₅ are determined so as to be a, the fire signal is output from the comparator CP ₁ . That is, in the fire monitoring state, since Vs> Va, the output of the comparator CP ₁ is L level, and during the fire operation, Vs <Va, and the output of the comparator CP ₁ is H level. Is output.

Here, the current consumption during operation of the sensor S is
When the current limiting circuit 6 is not provided, the current is almost determined by V / R ₁ . This resistance R ₁ is a voltage drop (Is ·
Since a resistor having a relatively small value is selected for the purpose of suppressing R ₁ ) as much as possible, the current during operation becomes large. In the present embodiment, since the current consumption during operation is also reduced, the current limiting circuit 6 is provided for the purpose of satisfying both of them.

If the emitter-base voltage of the transistor Q ₂ is V _F , the limiting current I _L is I _L = V _F / R ₆
Is determined by. Since V _F is about 0.6 V, for example,
When setting to 20 mA, R ₆ = 30Ω from 20 mA = 0.6 / R ₆ . The on-resistance of the MOSFET Q ₁ is as low as 1Ω or less, and the current during monitoring is about 3 mA, so that the voltage drop in the current limiting circuit 6 can be suppressed to about 90 mV.

Further, when it is necessary to restore the sensor S after it has been operated, the MOSFET Q ₁ is turned off by dropping the control input Ci to the L level (ground level), and the power supply to the sensor S is reduced. Can be turned off and restored. Therefore, the current limiting circuit 6 has both current limiting and switch control functions. Next, the disconnection detection operation will be described. Assuming that the line current at the time of monitoring is Is, Iso when the current path to the sensor S at the final end is in the cutoff state, and the reference voltage at the input end of the comparator CP ₂ is Vo, V-Is · R ₁ <Vo V- If the values of the resistors R ₂ and R ₃ are determined so that Iso · R ₁ > Vo, a disconnection signal is output from the comparator CP ₂ . That is, in the state where the sensor lines 2 and 3 are not broken, the output of the comparator CP ₂ is L level,
The comparator CP ₂ outputs an H level signal as a disconnection signal.

(Second Embodiment) FIG. 2 shows a second embodiment in which a current limiting circuit 6 is inserted and connected between a power source and a load 7. The limiting current I _L to the load 7 is _calculated by the following equation. I _L = V _F / R ₆ where V _F is the base-emitter forward voltage drop of transistor Q ₂ . Load current Io causes Io · R
When the ₆ = V _F, the transistor Q ₂ is turned on, the potential of the gate G of the MOSFET · Q ₁ to the ground potential, MOSFET · Q ₁ is turned off. In practice, the load current I before the transistor Q ₂ is fully saturated.
Since o is constant, no more current flows.

When the control input Ci is set to the power source potential V, the MOSFET Q ₁ is turned on, and when it is set to the ground potential, it is turned off. That is, the switch control can be performed on the load 7. A lamp, a relay, etc. are used as the load 7 in this embodiment. In the present embodiment, with this configuration, even if a short circuit occurs on the load 7 side, the current is limited by the current limiting circuit 6, so that it is safe. In addition, the voltage drop is smaller than when the current is limited by the resistor. Furthermore, since the on / off control of the current limiting circuit 6 can be performed by controlling the gate potential of the MOSFET Q ₁ , the current required for the control can be smaller than that of the transistor. The control voltage is 0-
Since it can be performed at the logic level of 5V, the configuration can be simplified.

[0019]

As described above, the present invention is provided with the current limiting circuit for limiting the current flowing between the power source and the load. Therefore, the current limiting circuit limits the current flowing through the load to reduce the load. It has an effect that can be protected. In claim 2, a plurality of sensors as the load for detecting a fire are connected between the sensor lines connected to the pair of terminals of the receiver, and the voltage of the sensor line at the time of monitoring and when detecting the fire is detected. A fire detection circuit that detects a fire by a change is provided, and the first resistance having a low resistance value connected between the power supply and the sensor line, and the voltage and resistance division of the sensor line via this first resistance The fire detection circuit is composed of a comparator that compares the generated reference voltage with a comparator, and a current limiting circuit that limits the current that flows when the sensor is operating is provided. It is possible to detect, and by lowering the value of the first resistance of the fire detection circuit, it is possible to suppress the voltage drop due to the first resistance during monitoring, and the current limit circuit reduces the current consumption during operation of the sensor. It can be reduced.

In the third aspect, M constituting the current limiting circuit
Connect the OSFET to the line of the sensor line,
By turning on and off the MOSFET by inputting a signal to the gate of the FET to control the switch, it can also be used as a switch control circuit for restoring the sensor line. Furthermore, in claim 4, the disconnection detection circuit easily detects disconnection of the sensor line,
It is possible to prevent the fire alarm from not being reported.

[Brief description of drawings]

FIG. 1 is a circuit diagram of an embodiment of the present invention.

FIG. 2 is a circuit diagram of another embodiment.

[Explanation of symbols]

1 receiver 2 sensor line 3 sensor line 4 fire detection circuit 5 disconnection detection circuit 6 current limiting circuit 7 load S sensor R ₁ first resistance CP ₁ comparator Q ₁ MOSFET

Claims (4)

[Claims] 1. A current limiting device provided with a current limiting circuit for limiting a current flowing between a power source and a load. 2. A plurality of detectors as the load for detecting a fire are connected between the detector lines connected to a pair of terminals of the receiver to detect the voltage of the detector line at the time of monitoring and when the fire is detected. A fire detection circuit that detects a fire by a change is provided, and the first resistance having a low resistance value connected between the power supply and the sensor line, and the voltage and resistance division of the sensor line via this first resistance A current limiting device comprising the fire detection circuit configured with a comparator for comparing the formed reference voltage, and a current limiting circuit for limiting a current flowing when the detector operates. 3. The current according to claim 2, wherein a MOSFET forming a current limiting circuit is connected in the line of the sensor line and a signal is input to the gate of the MOSFET to enable switch control. Restriction device. 4. The current limiting device according to claim 2, further comprising a disconnection detection circuit for detecting disconnection of the sensor line.