JPH07248833A - Reference voltage source circuit with voltage rise detecting circuit - Google Patents

Abstract

PURPOSE:To provide the reference voltage source circuit provided with the function to prevent the malfunction of an external circuit, to which an output voltage is supplied, before arrival of the output voltage at a prescribed voltage at the time of power-on. CONSTITUTION:This reference voltage source circuit is provided with the circuit which is connected to a power supply terminal Vcc and turns on a transistor TRQ13 at the time of arrival at the prescribed voltage after turning-on of a power source and generates the prescribed voltage to an output terminal Vout as a reference voltage hereafter. A TRQ14 is connected to the TRQ13 in the current mirror constitution, and the output of the TRQ14 is connected to the external circuit so that the external circuit connected to the output terminal Vout can be operated after turning-on of the TR Q14.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a reference voltage source circuit,
In particular, the present invention relates to a reference voltage source circuit having a function of preventing malfunction of an external circuit connected to the reference voltage source circuit before the output voltage reaches the specified voltage V1 when the power is turned on.

[0002]

2. Description of the Related Art An example of a reference voltage source circuit will be described with reference to FIG. In FIG. 5, a transistor Q31 is inserted and connected between the power supply terminal V _cc and the output terminal V _OUT , and a series circuit of a resistor R31 and a Zener diode 31 is connected between the power supply terminal V _cc and the ground terminal TG. Are connected. A connection point P1 between the resistor R31 and the Zener diode 31 is connected to one input of the comparator 32. A voltage dividing circuit including resistors R32 and R33 is connected between the collector terminal of the transistor Q31 and the ground terminal TG, and these voltage dividing points are connected to the other input of the comparator 32. The output of the comparator 32 is connected to the base terminal of the transistor Q32, and the collector terminal and the emitter terminal of the transistor Q32 are the base terminal and the ground terminal TG of the transistor Q31, respectively.
It is connected to the. The connection point P1 between the resistor R31 and the Zener diode 31 is also connected to an external circuit that requires a reference voltage. The capacitor 33 is for preventing noise from entering an external circuit.

In this reference voltage source circuit, when power is supplied from the power supply terminal V _cc when the power is turned on and the voltage at the connection point P1 reaches the specified voltage V1, the comparator 32 outputs a high level signal. Transistor Q32
Turns on. As a result, the transistor Q31 is turned on, the power supply terminal _Vcc and the output terminal _VOUT are brought into conduction, and power can be supplied from the output terminal _VOUT .
On the other hand, the specified voltage V is applied to the external circuit connected to the connection point P1.
1 is output as the reference voltage.

[0004]

By the way, in the circuit as described above, the external circuit connected to the connection point P1 is connected to the external circuit connected to the connection point P1 after the power is turned on and before the voltage at the connection point P1 reaches the specified voltage V1. Malfunction may occur due to insufficient voltage. In addition, when the capacitor 33 is connected to the voltage supply line to the external circuit, the delay action further facilitates the malfunction.

In view of such a problem, an object of the present invention is that the output voltage to be output as the reference voltage is the specified voltage V1.
It is an object of the present invention to provide a reference voltage source circuit having a function of preventing an external circuit, to which the output voltage is supplied, from causing a malfunction due to the output voltage until the voltage reaches.

[0006]

According to the present invention, the first three-terminal active element is turned on when the power supply is connected to a power supply terminal and the specified voltage V1 is reached after the power is turned on, and thereafter the specified voltage V1 is used as a reference. In a reference voltage source circuit including a circuit for generating a voltage at an output terminal, a second three-terminal active element is connected to the first three-terminal active element in a current mirror configuration, and the second three-terminal active element is connected. The output of the second three-terminal active element is connected to the external circuit so that the external circuit connected to the output terminal can operate after the active element is turned on.

[0007]

According to such a circuit, the external circuit connected to the output terminal is prevented from operating unless the second three-terminal active element is turned on, so that malfunction may occur due to insufficient voltage. There is no.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention will be described below with reference to FIGS.
An example will be described. In FIG. 1, a series circuit of a resistor R11 and a reference voltage circuit 11 is connected between the power supply terminal _Vcc and the ground terminal TG. The reference voltage circuit 11 has a circuit in which a series circuit including a resistor R12 and a self-biased transistor Q11 and a series circuit including a resistor R13, a transistor Q12, and a resistor R14 are connected in parallel. The reference voltage circuit 11 also includes a transistor Q13, the base terminal of which is connected to the connection point between the resistor R12 and the collector terminal of the transistor Q12, and the collector terminal of which is connected to the resistor R1.
The emitter terminal is connected to the connection point between the reference voltage circuit 1 and the reference voltage circuit 11, respectively. A noise preventing capacitor 12 is connected between the output terminal V _OUT and the ground terminal TG.

In this embodiment, the transistor Q that functions as a voltage rise detection circuit for the transistor Q13.
14 is connected in a current mirror configuration. The collector terminal of the transistor Q14 is the output terminal V
It is connected to an external circuit connected via _OUT , and this external circuit is configured so as not to operate unless a high level output is obtained from the collector terminal. For a specific configuration for that purpose, for example, a switching element that is turned on / off by the output of the collector terminal may be combined with an external circuit,
Since it is not an essential part of the present invention, its detailed description is omitted.

In this reference voltage source circuit, when power is supplied from the power supply terminal V _cc when the power is turned on and the voltage at the output terminal V _OUT reaches the specified voltage V1, the current I12 flowing through the resistor R12 and the current flowing through the resistor R13. When the balance with I13 is lost and the transistor Q12 is turned on, the transistor Q13 is turned on, and at the same time, the transistor Q14 is also turned on and a high level is output. The external circuit connected to the output terminal V _OUT is the transistor Q1.
Only when a high level is output from 4, the operation becomes possible.

FIG. 2 is a diagram showing the time variation of the voltage V at the output terminal V _OUT and the current I flowing through the transistor Q13. The voltage V gradually increases when the power is turned on, and when the specified voltage V1 is reached, the transistor Q13 is turned on. Then, the current I flows.

As is clear from the above description of the operation, in this reference voltage source circuit, even if the time from the power-on until the voltage rises to the specified voltage V1 is long, the output terminal V _OUT is _supplied to the output terminal V _OUT unless the transistor Q14 is turned on. The connected external circuit does not work. As a result, the external circuit does not malfunction even if there is a transient state in which the voltage from the output terminal V _OUT does not reach the specified voltage V1 when the power is turned on.

The above embodiment shows the case where the present invention is applied to a specific reference voltage circuit. In the present invention, the voltage at the output terminal reaches the specified voltage V1 regardless of the structure of the reference voltage circuit. It goes without saying that it is applicable as long as it is a circuit including a three-terminal active element that is turned on at the time.

FIG. 3 shows a second embodiment in which the present invention is applied to the conventional circuit of FIG. 5, in which a transistor Q33 is connected to a transistor Q32 in a current mirror configuration. The operation is as described in FIGS. 5 and 1, and the description is omitted.

FIG. 4 shows a third embodiment of the present invention. This reference voltage source circuit has a power supply terminal Vcc and a ground terminal TG.
A resistor R21 connected between a reference voltage circuit 20 and a transistor Q3 which functions as a voltage rise detection circuit.
Has 0 and. The reference voltage circuit 20 includes resistors R22 and R for voltage division connected between the connection point P2 and the ground terminal TG.
23, R24 and transistor Q25 for current mirror
And a series circuit of the transistors Q21 to Q24 which form a comparator, and a transistor Q26 for current mirror connected between the comparator and the ground terminal.
Includes and. The two inputs of the comparator are connected to both ends of the resistor R23, and the output is connected to the base terminal of the switching transistor Q27. The emitter terminal of the transistor Q27 has a connection point P2.
The collector terminal is a transistor Q for the current mirror.
It is connected to 28 collector terminals. Transistor Q
The emitter terminal of 28 is connected to the ground terminal. The connection point between the collector terminal of the transistor Q27 and the collector terminal of Q28 is connected to the base terminal of the switching transistor Q29 connected between the connection point P2 and the ground terminal TG. And the transistor Q29
The transistor Q30 is connected in a current mirror configuration.

In this reference voltage source circuit, power is supplied from the power supply terminal V _cc when the power is turned on, and when the voltage at the connection point P2 becomes the specified voltage V1, the terminal voltage of the resistor R23 is the voltage necessary for inverting the output of the comparator. Then, the transistor Q27 is turned on. At the same time, the transistor Q29
Is turned on, the transistor Q30 also turns on and outputs a high level. The connection relationship between the external circuit connected to the output terminal V _OUT and the output of the transistor Q30 is the same as in the first embodiment. Therefore, the output terminal V
_{Since the} capacitor 21 is connected between _OUT and the ground terminal TG, the external circuit operates until the transistor Q30 turns on even if there is a delay in the rise of the voltage up to the specified voltage V1 when the power is turned on. Is forcibly suppressed, so that the external circuit does not malfunction before the specified voltage V1 is reached.

[0017]

As described above, the reference voltage source circuit according to the present invention is provided with the voltage rising detection circuit for detecting that the voltage at the output terminal has reached the specified voltage. It is possible to prevent the malfunction of the external circuit connected to the output terminal by the output of.

[Brief description of drawings]

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

FIG. 2 is a diagram showing a time change of a voltage V of an output terminal V _OUT and a current I flowing through a transistor Q13 shown in FIG.

FIG. 3 is a circuit diagram of a second embodiment of the present invention.

FIG. 4 is a circuit diagram of a third embodiment of the present invention.

FIG. 5 is a diagram showing a conventional reference voltage source circuit.

[Explanation of symbols]

11,20 Reference voltage circuit V _cc power supply terminal V _OUT output terminal TG ground terminal

Claims (1)

[Claims] 1. A circuit which is connected to a power supply terminal and turns on a first three-terminal active element when a specified voltage V1 is reached after power is turned on, and thereafter, the specified voltage V1 is generated as a reference voltage at an output terminal. In the reference voltage source circuit with
An external circuit in which a second three-terminal active element is connected to the first three-terminal active element in a current mirror configuration, and the second three-terminal active element is turned on and then connected to the output terminal. The reference voltage source circuit having a voltage rise detection circuit, wherein the output of the second three-terminal active element is connected to the external circuit so that the above operation can be performed.