JPH0720729Y2 - Constant voltage power supply protection circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Industrial field of application The present invention relates to a constant voltage power supply protection circuit for protecting an output transistor of a constant voltage power supply from an abnormal rise in power supply voltage, and particularly to a low loss type. The present invention intends to provide a suitable protection circuit for use in the constant voltage power supply of.

(B) Conventional technology In order to reduce the size and efficiency of the constant voltage power supply, it is common practice to integrate the constant voltage power supply into an IC (integrated circuit). Loss becomes a big problem. Therefore, a low-loss constant-voltage power supply with high power-use efficiency and easy heat dissipation design is required, but in the low-loss constant-voltage power supply, a protection circuit is added to protect the output transistor from damage. It was difficult to do.

Fig. 2 shows a general constant-voltage power supply circuit described on page 1-8 of the "Voltage Regulator Handbook" issued by Seibundo Shinkosha on September 10, 1982. The emitter current of (1) is made to flow through the voltage dividing resistors (2) and (3) to generate the voltage dividing resistors (2) and (3).
A voltage is generated at the midpoint of connection between the two, and the error signal is generated by applying the voltage and the reference voltage from the power source (4) to the comparison circuit (5), and the error signal generates the base of the output transistor (1). The output voltage V _OUT is obtained at the output terminal (6) by controlling the current. Therefore, in the constant voltage power supply of FIG. 2, an overcurrent protection circuit for protecting the output transistor (1) from an overcurrent is provided, and the protection circuit includes a current detection resistor (7) and the current detection resistor (7). It is constituted by a protection transistor (8) which conducts according to the terminal voltage of the detection resistor (7) and limits the base current of the output transistor (1). The constant voltage power supply of FIG. 2 protects the output transistor (1) when the power supply voltage rises abnormally. Therefore, the series circuit of the Zener diode (9) and the resistor (10) has a power supply terminal (11) and a protection transistor. When inserted between the base of (8) and the Zener diode (9) when the power supply voltage rises abnormally, the protection transistor (8) becomes conductive and limits the collector current of the output transistor (1). It is made like. However, the constant voltage power supply shown in FIG. 2 has a voltage drop in the overcurrent detection resistor (7) inserted between the emitter of the output transistor (1) and the output terminal (6), and the NPN as the output transistor (1). Since there is a voltage drop due to the use of the transistor, the voltage loss becomes large and the constant loss type cannot be obtained. Therefore, as a circuit for solving the problem of FIG. 2, the constant voltage power supply of FIG. 3 can be considered. According to FIG. 3, the output transistor (12) is composed of a PNP transistor, and the collector current of the drive transistor (14) which operates according to the output signal of the comparison circuit (13) is converted to the output transistor (12) and the diode. A low-loss constant-voltage power supply can be created by supplying it to a current mirror circuit composed of a connection-type transistor (15).

(C) Problems to be solved by the device However, in the case of FIG. 3, a transistor (16) having a current mirror relationship with the diode-connected transistor (15) is arranged, and a current flowing through the transistor (16). The output transistor (12) can be protected from an excessive current by driving the protection transistor (17) in accordance with the above, but a protection circuit that protects the output transistor (12) from an abnormal rise in the power supply voltage shown in FIG. Application, it is necessary to connect a plurality of constant-voltage elements such as Zener diodes in series between the power supply terminal (18) and the base of the protection transistor (17), which increases the number of elements and increases the area for IC integration. There was a problem of causing an increase.

(D) Means for Solving the Problems The present invention has been made in view of the above points, and includes a resistor and a plurality of constant voltage elements connected in series between a power supply terminal and an output terminal, and the constant voltage element. It is characterized by including a first transistor connected to one of the voltage elements in a current mirror relationship, and a second transistor that responds to the current flowing through the first transistor and controls the current flowing through the output transistor.

(E) Function According to the present invention, when the collector-emitter voltage of the output transistor to be protected becomes a predetermined value or more, the constant voltage element is turned on to protect the output transistor.

(F) Embodiment FIG. 1 is a circuit diagram showing an embodiment of the present invention. In (19), the emitter is the power supply terminal (20) and the collector is the output terminal (21).
Connected to the output transistors, (22) and (23) are first and second resistors connected in series between the collector of the output transistor (19) and ground, and (24) is the first and second resistors. The voltage obtained at the connection point of resistors (22) and (23),
A comparison circuit that compares the reference voltage obtained from the reference power supply (25) and generates an error signal according to the difference between both voltages, and (26) outputs the collector current according to the output error signal of the comparison circuit (24). The generated drive transistor (27) constitutes a current mirror circuit together with the output transistor (19), and is a diode connection type for flowing a current according to the current flowing through the drive transistor (26) into the output transistor (19). Transistor (28) constitutes a current mirror circuit together with the transistor (27), and the drive transistor (26)
Overcurrent detection transistor for generating a collector current according to the current flowing through the transistor, (29) is a detection resistor for generating a voltage according to the collector current of the overcurrent detection transistor (28), and (30) is the detection resistor (29 ) Is a short-circuit transistor that conducts according to the terminal voltage, and (31) is a resistor (32) and a Zener diode (33) connected in series between the power supply terminal (20) and the output terminal (21) A series circuit composed of a transistor (34) and (35) is a series circuit (3
This is an overvoltage detection transistor connected in current mirror relation with the diode-connected transistor (34) of 1) .
The Zener diode (33) and the diode-connected transistor (34) function as a constant voltage element, and the collector current of the detection transistor (35) flows into the detection resistor (29) via the resistor (36) and is short-circuited. Make the transistor (30) conductive.

Now, let the zener voltage of the zener diode (33) be V _Z ,
The rising voltage of the diode-connected transistor (34)
If it is V _BE , the voltage V _IN of the power supply terminal (20) and the output terminal (2
Difference voltage V _S (= V _IN −V _OUT ) from the voltage V _{OUT of} 1) is V _S <V _Z +
In a normal state of V _BE , the transistor (34) does not conduct and the overvoltage detection transistor (35) does not conduct. Therefore, in a normal state, the series circuit (31) and the detection transistor (35) have nothing to do with the circuit operation for generating a constant voltage. Also, if no overcurrent flows through the output transistor (19), the collector current of the overcurrent detection transistor (28) is also small, so the terminal voltage of the detection resistor (29) is small and the short-circuit transistor (30) Since it is off, the entire protection circuit does not adversely affect the circuit operation. As a result, the voltage at the connection point of the first and second resistors (22) and (23) and the reference voltage are compared by the comparison circuit (24), and the output signal thereof controls the collector current of the drive transistor (26). As a result, the collector current of the output transistor (19) reaches a specified value and the output terminal (21) receives a specified voltage V
_OUT occurs.

Next, when the voltage V _IN of the power supply terminal (20) rises due to surge voltage or the like and V _IN > V _Z + V _BE , the Zener diode (33) and the diode-connected transistor (34) become conductive, and the differential voltage The resistance value of V _S and the resistance (32) and the voltage V _Z + V
_A current determined by _BE flows in the transistor (34). Therefore, if the mirror ratio is set to 6: 1, 1/6 of the collector current flows in the overvoltage detection transistor (35), and the collector current flows into the detection resistor (29). 30) conducts and limits the current in the drive transistor (26). Therefore, the collector current of the output transistor (19) is reduced and the protection of the output transistor (19) is achieved. Also, when a large current flows through the output transistor (19) due to a load short circuit or the like, the voltage at the connection point of the first and second resistors (22) and (23) decreases, and the output signal of the comparison circuit (24) becomes large. Next drive transistor (2
6) Collector current becomes large. Therefore, the collector current of the diode-connected transistor (27) also becomes large, and the collector current of the current detection transistor (28) connected to the transistor (27) as a current mirror also becomes large. Then, since the collector current of the current detection transistor (28) flows into the detection resistor (29), its terminal voltage rises, the short-circuit transistor (30) becomes conductive, the collector current of the drive transistor (26) decreases, and the diode The protection operation of reducing the collector current of the connection type transistor (27) and the collector current of the output transistor (19) is performed, and destruction protection of the output transistor (19) is achieved.
Therefore, by using the circuit of FIG. 1, it is possible to achieve the destruction protection of the output transistor caused by the abnormal rise of the power supply voltage and the destruction protection of the output transistor caused by the excessive current.

FIG. 4 is a circuit diagram showing another embodiment of the present invention, in which the collector of the drive transistor (37) controlled by the output signal of the comparison circuit (24) is connected to the base of the PNP type output transistor (19). By doing so, a constant voltage power supply circuit is configured. Further, the emitter of the drive transistor (37) is provided with the detection resistor (38) and the base of the short-circuit transistor (39),
The collector of the short-circuit transistor (39) is connected to the base of the drive transistor (37) to form an overcurrent protection circuit. Further, a resistor (40) and a Zener diode (4) are connected between the power supply terminal (20) and the output terminal (21).
1), (42) and diode-connected transistor (43)
And a first detection transistor (44) connected to the transistor (43) in a current mirror relationship with the transistor (43), and a second detection transistor (45) according to the operation of the first detection transistor (44) 6. Is operated and the emitter of the second detection transistor (45) is connected to the base of the short-circuit transistor (39) to form an overvoltage protection circuit.

In the case of FIG. 4, the input voltage V applied to the power supply terminal (20)
_{When IN} rises abnormally and the Zener diodes (41) and (42) forming the series circuit and the diode-connected transistor (43) become conductive, a current equal to the current flowing through the transistor (43) is applied to the first detection transistor ( 44), and accordingly, the second detection transistor (45) becomes conductive and the short-circuit transistor (39) becomes conductive, so that the drive transistor (37) and the output transistor (19) are current-limited, and the output transistor (19) is protected from damage due to abnormal rise in input voltage. When an excessive current flows through the output transistor (19), the emitter current of the drive transistor (37) also increases, and the short-circuit transistor (39) becomes conductive accordingly.
9) is also protected from damage due to excessive current.

(G) Effect of the Invention As described above, according to the present invention, it is possible to provide a protection circuit for a constant voltage power supply which operates reliably when the power supply voltage rises abnormally and can protect the output transistor from destruction. In particular, the protection circuit according to the present invention detects an abnormal rise in the power supply voltage by the series circuit including the constant voltage element inserted between the power supply terminal and the output terminal, and detects the current flowing in the series circuit by the current mirror circuit. Since the configuration is taken out, it can be easily applied to a low loss type constant power supply voltage.
Therefore, the number of constant voltage elements can be reduced when connecting with the short-circuit transistor that constitutes the overcurrent protection circuit.
Since it can be applied as it is to power supplies having different power supply voltages and output voltages, there are advantages that integrated circuits are easy and series development of integrated circuits is easy.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, FIG. 2 is a circuit diagram showing a conventional constant voltage power supply protection circuit, and FIG. 3 is a low loss type to which the protection circuit according to the present invention is applied. FIG. 4 is a circuit diagram showing the constant voltage power supply of FIG. 4 and FIG. 4 is a circuit diagram showing another embodiment of the present invention. Description of main drawing numbers (19) …… Output transistor, (20) …… Power supply terminal,
(21) …… Output terminal, (26) …… Drive transistor,
(30) …… Short-circuit transistor, (31) …… Series circuit, (3
5) …… Overvoltage detection transistor.

Claims (1)

[Scope of utility model registration request] 1. An output transistor (19) having an input electrode and an output electrode connected to a power supply terminal (20) and an output terminal (21).
And a comparison circuit (24) for comparing a voltage generated according to the current flowing through the output transistor (19) with a reference voltage,
A drive transistor whose control electrode is connected to the output of the comparison circuit (24) and whose input electrode is connected to the control electrode of the output transistor (19) and which operates according to the error output voltage of the comparison circuit (24). (26, 37) and a constant voltage circuit for controlling the output transistor (19) according to the output current of the drive transistor (26, 37) to obtain a constant output voltage, the power supply terminal A series circuit (31, 40, 41, 42, 43) of resistors and a plurality of constant voltage elements connected between (20) and the output terminal (21), and a part of the plurality of constant voltage elements. Forming transistor (34,4
3) The first transistor (35,44) connected to the current mirror
And to generate a detection voltage according to the output current of the drive transistor (26, 37) and to generate the detection voltage of the first transistor (3
A detection resistor (29, 38) for generating a detection voltage corresponding to the output current of the output circuit (5, 44) and an input electrode are connected to the output of the comparison circuit (24), and the comparison circuit (24 ) Controlling the voltage value applied to the drive transistor (26,37) from the second transistor (30,39), the voltage between the power supply terminal (20) and the output terminal (21) is The output transistor (19) is prevented from being destroyed according to the current flowing through the first transistor (35, 44) when it reaches a predetermined value, and the drive transistor is driven when an overcurrent flows through the output transistor (19). A protection circuit for a constant voltage power supply, characterized in that the output transistor (19) is prevented from being broken according to the current flowing through (26, 37).