KR20080027589A - Low voltage protection reject circuit - Google Patents

Abstract

A low voltage protection interruption circuit is provided to prevent generation of a shutdown phenomenon by limiting charging of an SCP(Short-Circuit Protection) terminal through connection of a transistor to a capacitor in an on-state of the transistor. A low voltage protection interruption circuit includes a capacitor(10) and a switching unit(60). The capacitor is connected to an SCP terminal. The switching unit is connected to the SCP terminal. When a high signal is applied, the switching unit controls to block connection to the capacitor by being bypassed in a ground state and when a low signal is applied, the switching unit controls to open the connection to the capacitor. The switching unit includes a first NPN transistor(20), a first resistor(40), a second transistor(30), and a second resistor(50). The first NPN transistor is connected to the SCP terminal. The first resistor and the second NPN transistor are connected to the first NPN transistor in parallel and connected to a power terminal and a ground terminal in series. The second resistor is connected to a base of the second NPN transistor in series.

Description

Low voltage protection reject circuit

1 is a block diagram of a low voltage protection circuit of the present invention.

2 is a configuration diagram of a conventional low voltage protection circuit.

<Explanation of symbols on main parts of the drawings>

10-Capacitor 20-First NPN Transistor

30-2nd NPN transistor 40-1st resistor

50-2nd resistor 60-Switching part

The present invention relates to a low voltage protection circuit.

2 is a configuration diagram of a conventional low voltage protection circuit.

In the conventional protection circuit, when the protection mode is entered, the SCP terminal is charged, and when the voltage exceeds a predetermined voltage, the IC is shut down.

Shutdown (shotdown) refers to the phenomenon that the system is turned off in case of protection or damage to the lamp. In particular, the SCP terminal sets the time until the 1ch, 2ch protection circuit operates and shuts down. The conventional shutdown protection circuit is configured as shown in FIG. 2, and performs a constant current charging of 1.0 mA to an external connection capacitor and shuts down when the terminal voltage reaches 2.0V. In other words, shutdown occurs in protected mode when the overall duty is about 87% saturation. At this time, even if the duty is saturated, if the feedback has a normal signal, the IC will operate normally, and if an abnormal signal (3V or more) is input to the feedback, the SCP will charge. Conventionally, when the protection circuit operates at the SCP terminal, if the duty is saturated not only in the protection mode but also at the low voltage, a shutdown phenomenon occurs, causing a problem.

It is an object of the present invention to provide a low-voltage protection blocking circuit that prevents charging to the SCP terminal even when entering the protection mode, so that the duty is saturated at low voltage so that a shutdown does not occur.

The low voltage protection circuit of the present invention is a low voltage protection circuit that prevents charging to the SCP terminal when the voltage is low in the protection mode, and is connected to a capacitor connected to the SCP terminal and the SCP terminal. When a high signal is applied to the ground state is bypassed to control the connection to the capacitor is cut off, when the low signal is applied (low) is configured to include a switching unit for controlling to open the connection to the capacitor.

The switching unit includes a first NPN transistor connected to the SCP terminal, a first resistor and a second NPN transistor connected in parallel to the first NPN transistor, and connected in series to a power supply terminal and a ground terminal, and a second NPN transistor. It includes a second resistor connected in series with the base of the. At this time, the collector of the first NPN transistor is connected to the SCP terminal, the base of the first NPN transistor is connected to the collector of the second NPN transistor, and the emitter of the first NPN transistor is connected to the emitter of the second NPN transistor. .

When a high signal is input through the second resistor, a high signal flows through the base and the emitter of the second NPN transistor so that the second NPN transistor is turned on, and when the second NPN transistor is turned on, A low signal flows to the base of the first NPN transistor so that the base of the first NPN transistor is turned off to the ground state, and thus the connection to the capacitor is cut off and charged to the SCP terminal. At this time, the high signal is a signal supplied when the lamp is damaged or the lamp is broken.

When a low signal is input through the second resistor, a low signal flows to the emitter of the second NPN transistor so that the second NPN transistor is turned off, and when the second NPN transistor is turned off, the first signal is turned off. A certain amount of current flows from the Vcc power supply terminal to the base of the NPN transistor so that the first NPN transistor is turned on, connected to the capacitor, and prevents charging from the SCP terminal. In this case, the low signal is a signal supplied when the voltage is in a low voltage state.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

SCP terminal sets the time until the 1ch, 2ch protection circuit is activated and shut down. A constant current charge of 1.0 mA is applied to the externally connected capacitor and shut down when the terminal voltage reaches 2.0V. In other words, when the total duty is saturated to about 87%, shutdown occurs in the protection mode. At this time, even if the duty is saturated, if the feedback has a normal signal, the IC will operate normally, and if an abnormal signal (3V or more) is input to the feedback, the SCP will charge.

1 is a block diagram of a low voltage protection circuit of the present invention.

In the low voltage protection circuit of the present invention, the capacitor 10 connected to the SCP terminal is connected to the SCP terminal, and when a high signal is applied to P2, it is bypassed to the ground state and connected to the capacitor. When the low signal is applied and the low signal is applied, the switch unit 60 is connected to the capacitor.

The switching unit 60 is connected to the first NPN transistor 20 and the first NPN transistor 20 connected in parallel with the SCP terminal, and is connected in series to the power supply terminal and the ground terminal. The resistor 40 and the 2nd NPN transistor 30 and the 2nd resistor 50 connected in series with the base of the 2nd NPN transistor 30 are comprised.

At this time, the collector of the first NPN transistor 20 is connected to the SCP terminal, the base of the first NPN transistor 20 is connected to the collector 30 of the second NPN transistor, the emitter of the first NPN transistor 20 is connected to the emitter 30 of the second NPN transistor.

When a high signal is input through the second resistor 50, a high signal flows to the base and the emitter of the second NPN transistor 30.

When the second NPN transistor 30 is turned on and the second NPN transistor 30 is turned on, a low signal flows to the base of the first NPN transistor 20 so that the first NPN transistor 20 is turned on. ) Base is off to ground.

When the low signal is input to the base of the first NPN transistor 20 to be turned off, the connection to the capacitor 10 is cut off, and the battery is operated to be charged to the SCP terminal as in the prior art, and a shutdown occurs. . At this time, the high signal is a signal supplied when the lamp is damaged or the lamp is broken.

When a low signal is input from P2 through the second resistor 50, the low signal flows to the emitter of the second NPN transistor 30, and the second NPN transistor 30 is turned off.

When the second NPN transistor 30 is turned off, a certain amount of current flows from the Vcc power supply terminal to the base of the first NPN transistor 20 so that the first NPN transistor 20 is turned on.

When the first NPN transistor 20 is turned on, the first NPN transistor 20 is connected to the capacitor 10 to perform an operation of restricting charging to the SCP terminal. Therefore, the shutdown does not occur. In this case, the low signal is a signal supplied when the voltage is in a low voltage state.

As mentioned above, although this invention was demonstrated to the several example, this invention is not limited to a specific Example. Those skilled in the art will appreciate that various modifications and changes can be made without departing from the spirit of the invention.

The present invention has an effect of preventing the charging to the SCP terminal even when entering the protection mode, so that the duty is saturated only at low voltage so that a shutdown does not occur.

Claims (7)

In the low voltage protection circuit to cut off the charge to the SCP terminal in case of low voltage in the protection mode, A capacitor connected to the SCP terminal, It is connected to the SCP terminal, and when a high signal is applied, it is bypassed to a ground state to control the connection with the capacitor to be cut off, and when a low signal is applied, it is connected to the capacitor. Switch to control the opening, Low voltage protection blocking circuit comprising a. The method of claim 1, wherein the switching unit, A first NPN transistor connected to the SCP terminal; A first resistor and a second NPN transistor connected in parallel with the first NPN transistor and connected in series to a power supply terminal and a ground terminal; A second resistor connected in series with the base of the second NPN transistor, Low voltage protection blocking circuit comprising a. The method of claim 2, The collector of the first NPN transistor is connected to the SCP terminal, the base of the first NPN transistor is connected to the collector of the second NPN transistor, and the emitter of the first NPN transistor is an emitter of the second NPN transistor. Low voltage protection disconnect circuit. The method of claim 2, When a high signal is input through the second resistor, a high signal flows to the base and the emitter of the second NPN transistor so that the second NPN transistor is turned on and the second NPN transistor is turned on. A low voltage flows to a base of the first NPN transistor so that the base of the first NPN transistor is turned off to a ground state so that the connection to the capacitor is cut off and operated to charge the SCP terminal. Protection circuit breaker. The method of claim 4, wherein The high signal is a signal supplied when a lamp is damaged or a lamp is broken. The method of claim 2, When a low signal is input through the second resistor, a low signal flows to the emitter of the second NPN transistor so that the second NPN transistor is turned off, and when the second NPN transistor is turned off, A low voltage protection cut-off circuit in which a predetermined amount of current flows from the Vcc power supply terminal to the base of the first NPN transistor so that the first NPN transistor is turned on, connected to the capacitor, and operated to prevent charging to the SCP terminal. The method of claim 1, And the low signal is a signal supplied when the voltage is in a low voltage state.

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