JPH09327123A - Power-supply protective circuit for lnb - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a power-supply protective circuit by which an overcurrent flowing to a low-noise block(LNB) and a voltage drop are detected properly so as to protect the LNB when a power supply is supplied to the LNB by using a general-purpose low-power regulator. SOLUTION: An input voltage V1 is changed into a prescribed output voltage V2 by a low-power regulator RG so as to be supplied to an LNB. A resistance R1 is inserted in series with the voltage line of the output voltage, and its potential difference is amplified by an amplifier OP1 so as to be compared with a prescribed voltage by a comparator OP2. Its output latchs an FF1, and the output voltage V2 of the regulator RG is cut off by the output. A Zener diode D1 which is inserted in series with the voltage line of the output voltage V2 is input to the base terminal of a transistor TR1 so as to be turned on and off, an FF2 is latched by its output, and the output voltage V2 of the regulator RG is cut off by the output.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an LN that appropriately protects an LNB when using a general-purpose low power regulator.
B power supply protection circuit.

[0002]

2. Description of the Related Art L using a general-purpose small power regulator
When power is supplied to the NB, if the overcurrent protection circuit normally built in the regulator is used, the protection circuit will not operate due to a short circuit with impedance,
However, there is a problem that the protection of On the other hand, LN
If a small power regulator conforming to B is designed and manufactured, it cannot be shared with other devices, which is uneconomical.

[0003]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and when a general-purpose small power regulator is used to supply power to an LNB, an overcurrent and a voltage drop that flow in the LNB are appropriately adjusted. The purpose is to detect and protect.

[0004]

[Means for Solving the Problems] An overcurrent detection circuit for detecting that an output current has exceeded a predetermined constant value on the output side of a small power regulator, and an output voltage has fallen below a predetermined constant value. A voltage drop detection circuit is provided to detect that the output voltage of the small power regulator is adjusted when the output current exceeds a predetermined constant value or when the output voltage falls below a predetermined constant value. By shutting off and protecting the power supply and the LNB, even if a general-purpose regulator that can be shared with other devices is used, appropriate protection can be achieved.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION An LNB (Low Noise Block) using a small power regulator built in a satellite broadcast receiving tuner.
) Power supply protection circuit, an overcurrent detection circuit that detects that the output current on the output side of the small power regulator has exceeded a predetermined constant value, and that the output voltage has dropped below a predetermined constant value. A voltage drop detection circuit for detecting is provided, and the output voltage of the small power regulator is shut off when the output current becomes equal to or higher than a predetermined constant value or when the output voltage becomes equal to or lower than a predetermined constant value.

As an overcurrent detection circuit, an amplifier amplifies the voltage across a resistor inserted in series on the output side of a small power regulator, and the output voltage is input to a comparison circuit which compares the output voltage with a constant voltage. Is a certain voltage or more, the overcurrent is detected by latching the latch circuit at the rising edge of the output voltage of the comparison circuit.

As a voltage drop circuit, a Zener diode connected in parallel to the output side of a small power regulator is input to the base of a transistor having a collector connected to a load resistor and an emitter grounded, and the current flowing through the Zener diode is output to the same output. A voltage drop is detected by latching the latch circuit at the rise of the collector potential caused by the cutoff of the collector current of the transistor when the voltage on the side is cut off below a certain voltage.

The collector of the transistor is connected in parallel to the collector of a second transistor whose emitter is grounded,
The output voltage from a power supply reset delay circuit that outputs a constant voltage for a fixed time after the power of the LNB protection circuit is turned on is input to the base of the second transistor, and the collector voltage of the transistor is input within a fixed time after the power is turned on. Do not stand up.

The latch outputs of the overcurrent detection circuit and the voltage drop detection circuit are commonly connected via a diode to form a common signal, and the common signal cuts off the output voltage of the small power regulator.

[0010]

1 is a circuit diagram of a main part of an embodiment of an LNB power supply protection circuit according to the present invention. A low power regulator RG installed in the satellite broadcast receiving tuner regulates the input voltage V1 to a predetermined output voltage V2 and supplies it to the LNB installed in the primary radiator of the satellite broadcast receiving antenna. A resistor R1 is inserted in series with the voltage line of the output voltage V2.
The potential difference between both ends of the resistor R1 is input to both input terminals of the amplifier OP1 to amplify the same potential difference. The output of the amplifier OP1 is input to the non-inverting input terminal of the comparator OP2, and the inverting input terminal is held at a predetermined voltage by the constant voltage circuit E. When the current of the voltage line of the output voltage V2 increases, the output of the amplifier OP1 increases, and when the voltage of the constant voltage circuit E exceeds a predetermined voltage, the output of the comparator OP2 changes from low level to high level. The output of the comparator OP2 is input to the clock terminal of the D-type flip-flop FF1 which serves as a latch circuit, and the level of the data terminal is latched at the rising from the low level to the high level. The data terminal of the D type flip-flop FF1 is held at the high level V4, and the output terminal becomes the high level at the rising edge. D type flip-flop FF1
Of the output of the low power regulator R through the diode D3
The output voltage V2 of the small power regulator RG is cut off when input to the G control terminal and the output is at a high level. The set value of the current flowing through the resistor R1 that cuts off the output voltage V2, that is, the detected overcurrent can be arbitrarily set by adjusting the gain of the amplifier OP1 and the voltage of the constant voltage circuit E. Note that D
The reset terminal of the type flip-flop FF1 has a power-on reset signal PW which is output for a certain time when the power is turned on.
Connect and reset at power-on to initialize.

The Zener diode D1 is connected in parallel to the voltage line of the output voltage V2 through the input resistor R2 to the base terminal of the transistor TR1. The emitter of the transistor TR1 is grounded, and the collector is connected to the power supply voltage V3 via the load resistor R3. When the output voltage V2 is higher than the Zener voltage of the Zener diode D1, a base current limited by the input resistor R2 flows in the base of the transistor TR1, so that the transistor TR1 is turned on and the collector voltage becomes substantially the ground potential. ing. When the output voltage V2 becomes lower than the Zener voltage of the Zener diode D1, the current flowing through the Zener diode D1 is cut off and the base current of the transistor TR1 stops flowing. Therefore, the transistor TR1 is turned off and the collector voltage is substantially equal to the potential of the power supply voltage V3. Become. Similarly to the above, the collector output of the transistor TR1 becomes a latch circuit D
It is input to the clock terminal of the type flip-flop FF2, and the high level of the data terminal is latched at the rise from the ground level to the power supply voltage level. The output of the D-type flip-flop FF2 is input to the control terminal of the small power regulator RG through the diode D2, and the output voltage V2 of the small power regulator RG is cut off when the output is high level. The set value of the drop of the output voltage that cuts off the output voltage V2, that is, the detected voltage drop can be arbitrarily set by selecting the Zener voltage of the Zener diode D1. The D type flip-flop FF2 is also reset and initialized by the power-on reset signal PW.

The collector of the transistor TR1 is connected to the collector of a second transistor TR2 whose emitter is grounded. The power reset signal PW is set to the base of the second transistor TR2, and the output of the monostable multi-MM1 that outputs a high level for a certain period after the power is turned on is input. The second transistor TR2 is turned on for a certain time after the power is turned on, and the collector output of the transistor TR1 is suppressed to the ground level. Therefore, malfunction such as the D type flip-flop FF2 being set during the unstable period when the power is turned on may occur. To prevent.

The output of the D type flip-flop FF1 which is the overcurrent detection signal and the output of the D type flip-flop FF2 which is the voltage drop detection signal are the diodes D3 and D.
It is possible to control the control terminal of the small power regulator RG by using so-called wired OR via 2 as one signal.

[0014]

The present invention is embodied in the form described above, and has the following effects.

An overcurrent detection circuit for detecting that the output current has exceeded a predetermined constant value on the output side of the small power regulator, and a voltage drop for detecting that the output voltage has dropped below a predetermined constant value. A detection circuit is provided to shut off the output voltage of the small power regulator when the output current becomes equal to or higher than a predetermined constant value or when the output voltage becomes equal to or lower than a predetermined constant value. By protecting the above, it becomes possible to easily set any detected overcurrent value and voltage drop value, and it becomes possible to use a general-purpose regulator that can be shared with other devices. Therefore, the design can be facilitated and the cost can be reduced.

An amplifier amplifies the voltage across the resistor inserted in series on the output side of the small power regulator, inputs the output voltage to a constant voltage, and outputs it when the output voltage is equal to or higher than the constant voltage. The overcurrent detection circuit can be easily configured by detecting the overcurrent by latching the latch circuit at the rising of the output voltage of the comparison circuit.

A zener diode connected in parallel to the output side of the small power regulator is input to the base of a transistor in which a load resistor is connected to the collector and the emitter is grounded, and the current flowing through the zener diode has a constant voltage on the output side. The voltage drop circuit can be easily configured by detecting the voltage drop by latching the latch circuit at the rise of the collector potential due to the cutoff of the transistor below.

A power supply reset delay in which the collector of the transistor is connected in parallel to the collector of a second transistor whose emitter is grounded, and a constant voltage is output to the base of the second transistor for a certain period of time after the power source of the LNB protection circuit is turned on. By inputting the output voltage from the circuit and preventing the collector voltage of the transistor from rising within a certain time after the power is turned on, it is possible to prevent malfunction of the voltage drop detection circuit during the voltage unstable period when the power is turned on. , Reliability is increased.

The latch outputs of the overcurrent detection signal and the voltage drop detection signal are commonly connected through a diode to form a common signal, and the common voltage cuts off the output voltage of the small power regulator. With this circuit, the output voltage can be controlled by using both detection signals as one.

[Brief description of drawings]

FIG. 1 is a circuit diagram of a main part of an embodiment of a power supply protection circuit for LNB according to the present invention.

[Explanation of symbols]

 V1 Input voltage V2 Output voltage V3 Power supply voltage V4 High level RG Small power regulator R1, R2, R3 Resistor OP1 Amplifier OP2 Comparator E Constant voltage circuit FF1, FF2 D type flip-flop D2, D3 Diode D1 Zener diode TR1, TR2 Transistor MM1 Monostable multi PW power reset signal

Claims (5)

[Claims] 1. In a power protection circuit for an LNB (Low Noise Block) using a small power regulator built in a satellite broadcast receiving tuner, an output current of the small power regulator is set to a predetermined constant value on the output side of the small power regulator. An overcurrent detection circuit that detects that the output voltage of the small power regulator and a voltage drop detection circuit that detects that the output voltage of the small power regulator has become less than a predetermined value are provided. The LNB characterized in that the output voltage of the small power regulator is cut off when the output voltage becomes equal to or higher than a certain value or becomes equal to or less than a predetermined value.
Power supply protection circuit. 2. The overcurrent detection circuit inputs a voltage across a resistor inserted in series on the output side by an amplifier to a comparator circuit for comparing the output voltage with a constant voltage, and the output voltage is kept constant. 2. The LNB power supply protection circuit according to claim 1, wherein an overcurrent is detected by latching the latch circuit at the rising edge of the output voltage of the comparison circuit which is output when the voltage is equal to or higher than the voltage. 3. The voltage drop detection circuit inputs a Zener diode connected in parallel to the output side to the base of a transistor whose collector is connected to a load resistor and whose emitter is grounded, and the current flowing through the Zener diode is the same. 2. The voltage drop is detected by latching a latch circuit at a rise of a collector potential due to interruption of a collector current of the same transistor when an output side voltage is cut off below a certain voltage. Power supply protection circuit for LNB. 4. A collector of a second transistor whose emitter is grounded is connected in parallel to the collector of the transistor, and a constant voltage is output to the base of the second transistor for a certain period of time after the power source of the LNB protection circuit is turned on. 4. The power supply protection circuit for LNB according to claim 3, wherein the output voltage from the power supply reset delay circuit is input so that the collector voltage of the transistor does not rise within a fixed time after the power supply is turned on. 5. The outputs of the latch circuits of the overcurrent detection circuit and the voltage drop detection circuit are commonly connected via a diode to form a common signal, and the common signal cuts off the output voltage of the small power regulator. The LNB power supply protection circuit according to claim 2 or 3, wherein