JPH0612499B2 - Constant current circuit with voltage limit - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a constant current circuit with a voltage lit, which includes a voltage rit circuit that limits an output voltage to a certain value or less.

[Prior art]

As a constant current circuit with a voltage limit, the circuit shown in FIG. 3 has been disclosed in Japanese Utility Model Laid-Open No. 60-087017. In FIG. 3, 21 is a constant current diode, 22
Is a transistor, 23 is a shunt regulator, 24 is a shunt regulator, and 25, 26, and 27 are resistors. In the constant current circuit having the above configuration, when the current flowing through the resistor 25 exceeds a predetermined value, the shunt regulator 2
4 operates to draw the base current of the transistor 22 to turn off the transistor 22 and keep the output current at a constant value. The constant current circuit with the above configuration cannot be used when the power input voltage V _I exceeds the absolute maximum rated voltage between the cathode and the anode of the shunt regulator 23, and the circuit with the configuration shown in FIG. 4 is used. Had to do.

In FIG. 4, 31 is a constant current diode, 32, 3
4, 38 and 40 are resistors, 33 and 36 are transistors,
Reference numeral 35 is a shunt regulator, 37 is a Zener diode, and 39 is a variable resistor. In the constant current circuit having the above configuration, when the current flowing through the resistor 34 exceeds the set value, that is, when the reference voltage of the shunt regulator exceeds about 2.5 V, the shunt regulator 35 is turned on, and the base current of the extra transistor 33 is turned on. Is supplied to the output power supply terminal side to make the output current constant. In the constant voltage circuit unit, when the voltage related to the base of the transistor 36 becomes higher than the voltage value set by the Zener diode 37 by about 0.7 V (V _BE ), the Zener diode 37 is turned on to control the base current of the transistor 33. As a result, the output voltage is restricted so that it does not exceed a certain value.

[Problems to be solved by the invention]

However, in the conventional constant current circuit having the circuit configuration shown in FIG. 4, although the accuracy of the constant current circuit can be achieved, the voltage limit circuit has a large variation in parts, and particularly the variation in the reference voltage of the Zener diode 37 for the reference voltage. Therefore, there is a drawback that fine adjustment using the variable resistor 39 is necessary and the stability against temperature change is poor.

The present invention has been made in view of the above points, has high accuracy that does not require fine adjustment by a variable resistor, has good stability with respect to temperature changes, and has a power supply input voltage that is absolute between the cathode and anode of a shunt regulator. It is to provide a constant current circuit with a voltage limit that can be used even when the maximum rated voltage is exceeded.

[Means for solving problems]

In order to solve the above problems, the present invention provides a power supply input terminal to which an input voltage V _I is input and a first transistor having a collector connected to the power supply input terminal, as shown in FIG. 1 or 2. 4, a constant current diode 1 whose anode is connected to a power input terminal, a cathode of the constant current diode 1 serving as a base of the first transistor 4, a cathode of the first shunt regulator 6 and a collector of the second transistor 7. Is commonly connected to the emitter of the first transistor 4 and one end of the current detection resistor 5, the reference of the first shunt regulator 6 is commonly connected, and the anode of the first shunt regulator 6 is connected to the other of the current detection resistor 5. End and the current output terminal are commonly connected, and the resistance division between the current output terminal and the common potential (GND) is referred to the second shunt regulator 8. And a cathode of the second shunt regulator 8 is connected to the emitter of the second transistor 7, and means for generating an arbitrary potential is provided between the common potential and the power supply input terminal. 2 transistor 7
And the anode of the second shunt regulator 8 is connected to a common potential.

[Action]

By configuring the constant current circuit with voltage limit as described above, the second shunt regulator 8 for detecting the output voltage is provided.
Since using, with the restriction of the limit voltage is not required, since there is provided a means for dividing an input voltage input, is high input voltage V _I is applied for the output control first
No high voltage is applied to the shunt regulator 6 of the first shunt regulator 6 for controlling the output.
Is never destroyed.

〔Example〕

 An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 shows a constant current circuit with a voltage limit according to the present invention. In FIG. 1, 1 is a constant current diode, 2, 3,
5, 9 and 10 are resistors, 11 is a load resistor connected to the output, 4 and 7 are transistors, and 6 and 8 are shunt regulators.

The input power terminal to which the input voltage V _I is input is the transistor 4
Is connected to ground (GND) through the collector of the diode, the anode of the constant current diode 1 and the resistors 2 and 3, and the emitter of the transistor 4 outputs the output voltage V _O through the resistor 5 for current detection. Connected to the
Further, the base of the transistor 4 is a shunt regulator 6
Of the constant current diode 1, and the collector of the transistor 7.

A shunt regulator 8 is provided at the emitter of the transistor 7.
Of the shunt regulator 8 is connected to the ground, and the anode of the shunt regulator 8 is connected to the ground. The base of the transistor 7 is connected to the connection point of the resistor 2 and the resistor 3, and the reference of the shunt regulator 6 is connected to the connection point of the resistor 5 for current detection and the emitter of the transistor 4. The reference point of the shunt regulator 8 is connected to the connection point of the voltage detection resistor 10 and the resistor 9.

The shunt regulators 6 and 8 are ICs in which a current flows to the cathode when a reference voltage of about 2.5 V is applied and a current does not flow when the reference voltage is lower than about 2.5 V, and variations in the reference voltage include temperature changes. It has the feature of being very few.

In the constant current circuit having the above configuration, the output current is converted into a voltage by the resistor 5, and when the voltage exceeds about 2.5 V, the shunt regulator 6 is turned on to control the base current of the transistor 4 to output the output current. Keep it constant. Further, since it is a constant current circuit, when the value of the load resistor 11 increases, the output voltage level rises, but the output voltage level is divided by the resistors 9 and 10 and given to the reference of the shunt regulator 8. When the voltage exceeds about 2.5V, the shunt regulator 8 and the transistor 7 are turned on, the base current of the transistor 4 is flown to the ground, and the output voltage is kept constant.
Further, the input voltage V of the input power supply terminal is set by the resistors 2 and 3.
_{Since I} is divided and applied to the shunt regulator 8, the voltage applied to the shunt regulator 8 is prevented from exceeding the absolute maximum rating (about 36V), so that it can withstand a high input voltage. That is, the series circuit of the resistor 2 and the resistor 3 constitutes a circuit for arbitrarily dividing the input voltage V _I and inputting it by arbitrarily selecting its resistance value.
The circuit for inputting the input voltage V _I after dividing it arbitrarily is
The series circuit is not limited to the series of resistors, and may be a series circuit of a resistor and a tunneler diode, for example. The point is that it is a means for generating an arbitrary potential from the input voltage V _I , which is between the common potential and the power supply input terminal, which is ground.

FIG. 2 is a circuit diagram showing the configuration of the constant current circuit with voltage limit according to the present invention. In the same figure, the parts given the same symbols as in FIG. 1 indicate the same or corresponding parts. As shown in the figure, in this constant current circuit, a capacitor 12 is connected between the collector and the base of the transistor 7. By thus connecting the capacitor 12 between the collector and the base of the transistor 7, the transistor 7 may oscillate in the constant current circuit of FIG. 1, but in the present embodiment, the oscillation of the transistor 7 is prevented. be able to.

〔The invention's effect〕

As described above, according to the present invention, the following excellent effects can be obtained.

That is, since the shunt regulator is used for detecting the output voltage by configuring the constant current circuit with voltage limit as described above, it is not necessary to limit the maximum output voltage and the input voltage is divided and input. Therefore, even if a high input voltage is applied, the high voltage is not applied to the output control shunt regulator, and the output control shunt regulator is not destroyed.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing a configuration of a constant current circuit with a voltage limit according to the present invention, FIG. 2 is a circuit diagram showing a configuration of another constant current circuit with a voltage limit according to the present invention, FIGS. Each of the drawings is a circuit diagram showing the configuration of a conventional constant current circuit with a voltage limit. In the figure, 1 ... Constant current diode, 2 ... Resistor, 3 ...
Resistor, 4 ... Transistor, 5 ... Resistor, 6 ... Shunt regulator, 7 ... Transistor, 8 ... Shunt regulator, 9 ... Resistor, 10 ... Resistor, 1
1 ... Load resistor, 12 ... Capacitor.

Claims (1)

[Claims] 1. A power supply input terminal, a first transistor (4) having a collector connected to the power supply input terminal, a constant current diode (1) having an anode connected to the power supply input terminal, and the constant current. The cathode of the diode (1) is commonly connected to the base of the first transistor (4), the cathode of the first shunt regulator (6) and the collector of the second transistor (7), and the first shunt regulator (7) is connected. ) Is commonly connected to the emitter of the first transistor (4) and one end of the current detection resistor (5), and the anode of the first shunt regulator (6) is connected to the current detection resistor (5). The other end and the current output terminal are connected in common, and the resistance division between the current output terminal and the common potential is connected to the reference of the second shunt regulator (8). The cathode of the shunt regulator (8) is connected to the emitter of the second transistor (7), and means for generating an arbitrary potential is provided between the common potential and the power supply input terminal. A constant current circuit with voltage limit, characterized in that it is connected to the base of a transistor (7) and the anode of the second shunt regulator (8) is connected to the common potential.