JP2007289522A - Input voltage monitor circuit for game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make circuit blocks work normally even in various states of electric abnormalities, and normally restore only circuit blocks with the protective function without affecting other circuits after the occurrence of abnormalities. <P>SOLUTION: In this circuit, when an input voltage terminal DCIN shows a voltage below the second threshold value, power is not supplied to a power source voltage output terminal VIN because the output terminal of a comparator IC1 reaches "H" with a transistor Q1 turned on, a transistor Q2 off, and transistors Q3 and Q4 off. When the input voltage terminal DCIN shows a voltage over the second threshold value, power is supplied to the power source voltage output terminal VIN because the output terminal of the comparator IC1 reaches "L" with the transistor Q1 is turned off, the transistor Q2 on, and the transistors Q3 and Q4 on. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

The present invention relates to an input voltage monitoring circuit for gaming machines, and more particularly to an input voltage monitoring circuit for circuit blocks of gaming machines such as pachinko gaming machines and slot machines.

Conventionally, in gaming machines, a main control board constituting a main control circuit, a display control board constituting a display control circuit for controlling display, a liquid crystal inverter board for lighting a cold cathode tube as a backlight of a liquid crystal display device Various substrates such as a power supply substrate for supplying power of a necessary voltage to each electronic component and each substrate are provided and electrically connected (for example, refer to paragraph 0059 of Patent Document 1). Various circuits provided on these boards exchange power and communication between the boards or within each board to control the operation as a gaming machine.

By the way, each circuit provided in the gaming machine not only controls the normal operation of the gaming machine, but also detects an abnormal state occurring in the gaming machine and quickly recovers to the normal state or is in an abnormal state. Various measures are incorporated to avoid dangerous situations such as informing the user. For example, in a liquid crystal inverter board that constitutes a liquid crystal display control device of a gaming machine, the inverter circuit is driven and controlled, and the output voltage of the inverter circuit is monitored, and the output voltage of the inverter circuit decreases as the input voltage to the inverter circuit decreases. A protection function works when the voltage drops below a certain threshold, and an integrated circuit (IC) with a power supply voltage drop protection function that stops drive control of the inverter circuit may be used (non-patented) Reference 1). Note that the output voltage drop protection function is canceled by setting the power supply voltage to the IC to zero.

JP 2006-87551 A FAN7311LCD Backlight Inverter Drive IC, [online], FAIRCHILD SEMICONDUCTOR, 2006, [FAN7311 Rev.1.0.2], Retrieved from the Internet: <URL: http://www.fairchildsemi.com/sitesearch/fsc.jsp?command= eq & attr1 = AAAFamily & attr2 = CCFL + Backlight + IC>.

There are various causes for the decrease in the input voltage. For example, a failure of the device or an abnormal instantaneous power failure may occur. Although the frequency of equipment breakdowns during the operation at amusement stores is fairly rare, it is well known that in an amusement store, machines that polish game balls are always in operation and this is an environment where static electricity is likely to occur. The frequency of power outages is quite high. When an instantaneous power failure occurs, it is considered that the input voltage drops for a moment and then immediately recovers. However, there is a possibility that the reduced input voltage does not completely become zero and becomes an intermediate potential. In such a case, when the input voltage drops below a certain threshold voltage, the IC protection function works to stop the drive control of the circuit block. There is a problem that the drive control of the circuit block does not return to normal while the protection function of the IC remains active. That is, when an abnormal state such as a voltage drop occurs in the power supply to the circuit block, the protection function for the circuit block is activated due to the occurrence of the abnormal voltage, and the drive control of the circuit block is stopped. The drive control of the circuit block may remain stopped. In particular, in the case of a liquid crystal inverter board that turns on the backlight of a liquid crystal display used in a gaming machine, when the above situation occurs, the backlight does not turn on and the liquid crystal display cannot be seen and the game cannot be continued. There is a risk of a situation.

In general equipment, even if a power supply abnormality occurs and the function is stopped, it may be sufficient to return to normal by turning on the power again. Of course, it is possible to release the protection function for the circuit block and restore the drive control of the circuit block by turning off the main power circuit of the gaming machine once. There is a case where the power supply cannot be cut off and the main power supply circuit cannot be turned off. Specifically, in the control circuit for gaming machines, lottery information and payout information during the game are stored in the memory, and the power cannot be turned off. In this state, the input voltage to the circuit block such as the liquid crystal inverter board for the backlight on the liquid crystal display control device drops momentarily due to an instantaneous power failure, etc., and the protection function for the circuit block works to control the drive of the circuit block. When the game stops, if the main power supply circuit of the gaming machine is turned off to release this protection function, there is a problem that information in the game is also lost. In addition, even if the main power circuit of the gaming machine is turned off, a battery or the like is mounted on the gaming machine so that the lottery information and payout information stored in the memory will not be erased for a certain period of time. However, if the backlight of the liquid crystal display is turned off each time an instantaneous power failure occurs and it cannot be recovered until an employee arrives, there is a risk that it may hinder the game, and in some cases it may be a compensation issue.

In view of the above points, the object of the present invention is to add various circuits that cut off power supply to an integrated circuit having a protection function for circuit blocks mounted on a device that controls the operation of a gaming machine. Even if the power supply is abnormal, the circuit block can be operated normally, and the circuit block with the protective function can be restored normally without affecting other circuits even after the abnormality occurs. It is to provide a circuit.

Means for Solving the Problems and Effects of the Invention

The gaming machine input voltage monitoring circuit according to claim 1 monitors one circuit block mounted on a device for controlling the operation of the gaming machine, and the input voltage supplied to the circuit block is a first threshold value. The power supply voltage is supplied to an integrated circuit having a protection function that operates when the voltage is lower than the voltage, and the input voltage is lower than the second threshold voltage set higher than the first threshold voltage. A monitoring circuit unit for detecting whether or not the monitoring circuit unit supplies the power supply voltage to the integrated circuit when the monitoring circuit unit detects that the input voltage is greater than or equal to the second threshold voltage; And a cutoff circuit unit that cuts off the supply of the power supply voltage to the integrated circuit when it is detected by the unit that the input voltage is equal to or lower than the second threshold voltage. According to the input voltage monitoring circuit for a gaming machine according to claim 1, the second threshold voltage higher than the first threshold voltage of the input voltage at which the protection function of the integrated circuit operates is set, and the input voltage is By providing a circuit that can cut off the power supply to an integrated circuit that has a protection function when the threshold voltage falls below two, the input voltage drops below the first threshold voltage due to an instantaneous power failure, etc. When the normal voltage is restored immediately after the operation, the circuit block in which the protection function works can be restored normally without affecting other circuits. Further, by changing only the second threshold voltage of the monitoring circuit unit, it is possible to cope with other circuit blocks in which the protection function works at various first threshold voltages.

The gaming machine input voltage monitoring circuit according to claim 2 is the gaming machine input voltage monitoring circuit according to claim 1, wherein the circuit block is provided on a liquid crystal inverter board constituting a liquid crystal display control device of the gaming machine. The integrated circuit controls the drive of the inverter circuit and monitors the output voltage of the inverter circuit, and the output when the input voltage becomes equal to or lower than the first threshold voltage. It has an output voltage drop protection function that stops the drive control of the inverter circuit when the voltage drops below a predetermined threshold value, and the input voltage is lower than the second threshold voltage by the monitoring circuit unit. Is detected, the cutoff circuit unit cuts off the supply of the power supply voltage to the integrated circuit, thereby enabling the output voltage drop protection function of the integrated circuit to function. If the drive control of the inverter circuit is stopped and it is detected that the input voltage is equal to or higher than the second threshold voltage, the supply of the power supply voltage to the integrated circuit is restarted to reduce the output voltage. The drive control of the inverter circuit is resumed without activating the protection function. According to the input voltage monitoring circuit for gaming machines according to claim 2, the second threshold voltage higher than the first threshold voltage of the input voltage to the inverter circuit in which the output voltage drop protection function works is set, By providing a circuit capable of shutting off power supply to an integrated circuit having an output voltage drop protection function when the input voltage becomes equal to or lower than the second threshold voltage, the input voltage becomes first due to an instantaneous power failure or the like. When the voltage is restored to the normal voltage immediately after the voltage drops below the threshold voltage, the inverter circuit in which the output voltage drop protection function works can be restored normally without affecting other circuits.

Even if various power failure situations such as momentary power failure occur in gaming machines, the various circuit blocks that make up the gaming machine operate normally, and the circuit blocks for which the protection function originally works are restored to normal as soon as power is restored. This object is achieved by adding an input voltage monitoring circuit for a gaming machine that cuts off power supply to an integrated circuit having a protection function.

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

FIG. 1 is a circuit block diagram of a gaming machine in which an input voltage monitoring circuit for gaming machines (hereinafter, appropriately referred to as an input voltage monitoring circuit) 20 according to Embodiment 1 of the present invention is disposed. This gaming machine includes a main power supply 1 that generates AC (Alternative Current) 24V, a power supply board 2 that receives AC 24V from the main power supply 1 and generates various DC (Direct Current) voltages, and a power supply voltage from the power supply board 2 A main board 3 that receives the supply and controls the gaming machine, and a liquid crystal display control device 4 that receives the supply of the DC32V power supply voltage from the power supply board 2 and receives an image control command from the main board 3 to display an image. It is configured to include.

The main board 3 includes a CPU (Central Processing Unit) 31 that is a control body of the gaming machine, a ROM (Read Only Memory) 32 that stores a program and data for the CPU 31 to operate, and a RAM (CPU (31) that loads the program and data. Random Access Memory) 33.

The liquid crystal display control device 4 is used, for example, as a symbol display unit for displaying a special symbol (special symbol) of a pachinko machine, and includes a display control board 10, an input voltage monitoring circuit 20 according to the first embodiment, The liquid crystal inverter board 40 with an output voltage drop protection function and a liquid crystal display 50 made of a color liquid crystal panel are included.

The display control board 10 includes a CPU (sub CPU) 101, a ROM (program ROM) 102, a VDP (Video Display Processor) 103, a ROM (character ROM) 104, and a RAM (pallet RAM) 105. Has been. The sub CPU 101 analyzes the contents of the image control command received from the main board 3 (CPU 31) according to the program recorded in the program ROM 102, and sends the analysis result to the VDP 103. The VDP 103 reads a pattern or character corresponding to the analysis result from the character ROM 104 in which a pattern or character corresponding to the display content is recorded, and also reads the address, display color, rotation, enlargement, and the like of the read pattern or character. The reduction or the like is calculated based on the analysis result, and the calculation result is temporarily stored in the palette RAM 105. Subsequently, the VDP 103 sends an RGB signal to the liquid crystal display 50 based on the calculation result temporarily stored in the palette RAM 105.

The liquid crystal inverter board 40 serves as a backlight power source for lighting the cold cathode tube 51 provided in the liquid crystal display 50, and has a power supply system IC 41 having an output voltage drop protection function (see IC 41 in FIG. 4, see the present invention). And an inverter circuit 42 (corresponding to a circuit block of the present invention) for supplying a power supply voltage to the cold cathode tube 51 is provided. A common input voltage is supplied from the display control board 10 to the inverter circuit 42 and the input voltage monitoring circuit 20, and a power supply voltage is supplied from the input voltage monitoring circuit 20 to the IC 41. The IC 41 controls the output voltage of the inverter circuit 42 to be constant by driving and controlling the input voltage supplied from the display control board 10 to the inverter circuit 42 (control by OUTA, OUTB, OTUC, OUTD of the IC 41 in FIG. 4). ) And the output voltage output from the inverter circuit 42 (the voltage at the terminal FB in FIG. 4) is monitored. When the output voltage output from the inverter circuit 42 falls below a predetermined threshold voltage, the inverter circuit 42 It has an output voltage drop protection function that stops drive control. When the input voltage supplied to the inverter circuit 42 decreases, the output voltage output from the inverter circuit 42 also decreases. Therefore, the input voltage supplied to the inverter circuit 42 is a voltage at which the output voltage drop protection function of the IC 41 works (hereinafter, referred to as “the output voltage”). When the voltage is equal to or lower than the first threshold voltage, the output voltage drop protection function is activated and the drive control of the inverter circuit 42 is stopped. The first threshold voltage of the liquid crystal inverter substrate 40 is, for example, DC12V (see FIG. 3). Note that the output voltage drop protection function of the IC 41 is not canceled unless the IC 41 is reset (power supply voltage is zero) once it is activated.

FIG. 2 is a circuit diagram showing the input voltage monitoring circuit 20 in more detail. The input voltage monitoring circuit 20 includes a connector CN1 having an input voltage terminal DCIN, an on / off signal terminal ON / OFF, and a ground terminal GND, and a resistor connected via a fuse F between the input voltage terminal DCIN and the ground. The series connection of R1 and Zener diode D1, the series connection of resistor R2 and resistor R3 connected in parallel to the series connection of resistor R1 and Zener diode D1, and the connection point of resistor R1 and Zener diode D1 are the reference. The comparator IC1 is connected to the voltage terminal (+), and the connection point between the resistor R2 and the resistor R3 is connected to the comparison voltage terminal (−), and between the output terminal of the comparator IC1 and the comparison voltage terminal (−). The base is connected to the inserted resistor R4 and the output terminal of the comparator IC1, the emitter is grounded, and the collector is turned on / off signal terminal ON / OFF. An NPN transistor Q1 connected to the FF, a resistor R5 interposed between the collector of the NPN transistor Q1 and the ground, a resistor R6 connected between one end of the fuse F and the collector of the NPN transistor Q1, An NPN transistor Q2 whose base is connected to the collector of the NPN transistor Q1, an emitter is grounded, and a collector of the NPN transistor Q2 is connected to the base, and an emitter is connected to one end of the fuse F via a resistor R7. And a base connected to the collector of the PNP transistor Q3 via a resistor R8, an NPN transistor Q4 having a collector connected to one end of the fuse F via a resistor R9, and between the base of the NPN transistor Q4 and the ground. Inserted Zener diode D2 and NPN transistor Q4 emitter and the zener diode D3 which is interposed between the ground, and a connected supply voltage output terminal VIN to the emitter of NPN transistor Q4. The power supply voltage output terminal VIN is also a power supply voltage input terminal of the IC 41 provided on the liquid crystal inverter substrate 40 and having an output voltage drop protection function. In FIG. 2, monitoring is performed to detect whether or not a portion surrounded by a broken line is equal to or lower than a voltage (hereinafter referred to as a second threshold voltage) set to be higher than the first threshold voltage. The liquid crystal inverter board 40 is provided with a power supply voltage derived from the input voltage when the monitoring circuit detects that the input voltage is equal to or higher than the second threshold voltage. This is a cut-off circuit unit that supplies power to the IC 41 and cuts off the supply of the power supply voltage to the IC 41 when the monitoring circuit unit detects that the input voltage is equal to or lower than the second threshold voltage. The second threshold voltage of the input voltage monitoring circuit 20 is, for example, DC 20V (see FIG. 3).

The input voltage terminal DCIN is normally supplied with an input voltage of DC 32V from the display control board 10. Further, a power supply on / off signal is supplied from the display control board 10 to the on / off signal terminal ON / OFF. If the power supply ON / OFF signal is ON (“L”), the NPN transistor Q2 is turned ON, and the PNP transistor Q3 and the NPN transistor Q4 are turned ON. As a result, the power supply voltage derived from the input voltage supplied to the input voltage terminal DCIN is output to the power supply voltage output terminal VIN, and the power supply to the IC 41 is performed. If the power supply on / off signal is OFF (“H”), the NPN transistor Q2 is turned OFF, and the PNP transistor Q3 and the NPN transistor Q4 are turned OFF. As a result, the power supply voltage derived from the input voltage supplied to the input voltage terminal DCIN is not output to the power supply voltage output terminal VIN, and the power supply to the IC 41 is not performed. The ground terminal GND is grounded.

The zener diode D1 serves to generate a constant reference voltage from the input voltage supplied to the input voltage terminal DCIN. This reference voltage coincides with the voltage value generated at the connection point between the resistor R2 and the resistor R3 when the input voltage supplied to the input voltage terminal DCIN drops to the second threshold voltage, for example, DC 20V. It is set to be.

The comparator IC1 compares the voltage of the comparison voltage terminal (−) with the reference voltage of the reference voltage terminal (+), and if the voltage of the comparison voltage terminal (−) is higher than the reference voltage of the reference voltage terminal (+), the output terminal is When the voltage at the comparison voltage terminal (−) is lower than the reference voltage at the reference voltage terminal (+), the output terminal is set at “L”.

The NPN transistor Q1 is turned on or off depending on whether the output terminal of the comparator IC1 is “H” or “L”, and serves to turn on or off the NPN transistor Q2, the PNP transistor Q3, and the NPN transistor Q4. .

The Zener diode D2 applies an input voltage supplied from the input voltage terminal DCIN to the anode through the resistor R7, the PNP transistor Q3, and the resistor R8 when the PNP transistor Q3 is turned on, and thereby (slightly more than the Zener voltage generated at the anode ( It serves to output a low voltage as a power supply voltage from the power supply voltage output terminal VIN.

The Zener diode D3 is a protection element in the case where some abnormal voltage is generated in the power supply voltage output from the power supply voltage output terminal VIN.

FIG. 3 is a diagram for explaining the relationship between the second threshold voltage at which the input voltage monitoring circuit 20 cuts off the power supply and the first threshold voltage at which the output voltage drop protection function of the liquid crystal inverter board 40 operates. . When the input voltage drops below the second threshold voltage of DC 20V, for example, the input voltage monitoring circuit 20 reduces the input voltage to the inverter circuit 42 to the first threshold voltage of DC 12V, for example. The power supply to the IC 41 is cut off before the output voltage becomes equal to or lower than the predetermined threshold voltage and the output voltage drop protection function of the IC 41 is activated. For example, even when an abnormal instantaneous power failure occurs, the power supply to the IC 41 is shut off before the output voltage drop protection function works, so the drive control of the inverter circuit 42 does not work without the output voltage drop protection function working. Stops, and the liquid crystal inverter board 40 stops completely. Thereafter, when the input voltage returns to, for example, the second threshold voltage of DC 20V or more, the input voltage monitoring circuit 20 resumes power supply to the IC 41. As a result, the drive control of the inverter circuit 42 is resumed, and the liquid crystal inverter board 40 resumes operation in a reset state in which the output voltage drop protection function is not working. In order to avoid frequent interruption / resumption of power supply in the vicinity of the second threshold voltage, a predetermined margin with respect to the second threshold voltage is used as the threshold voltage at the time of resumption of power supply. You may make it use the 3rd threshold voltage which added.

Next, the operation of the input voltage monitoring circuit 20 according to the first embodiment configured as described above will be described with reference to FIGS. 1 to 3 together with the operation of the gaming machine.

(1) When the input voltage terminal DCIN becomes equal to or lower than DC20V which is the second threshold voltage

When the voltage at the input voltage terminal DCIN, which is normally DC32V, drops below DC20V, which is the second threshold voltage, the input voltage monitoring circuit 20 determines the voltage at the comparison voltage terminal (−) of the comparator IC1, that is, the resistance of the input voltage. Since the divided voltage of R2 and resistor R3 is lower than the voltage of the reference voltage terminal (+) of the comparator IC1, that is, the Zener voltage generated at the anode of the Zener diode D1, the output terminal of the comparator IC1 is “H”. It becomes. For this reason, the NPN transistor Q1 is turned on, the NPN transistor Q2 is turned off, and the PNP transistor Q3 and the NPN transistor Q4 are turned off. As a result, the power supply to the power supply voltage output terminal VIN is cut off, and the power supply to the IC 41 provided on the liquid crystal inverter board 40 is cut off, so that the drive control of the inverter circuit 42 is stopped. For example, when an abnormal instantaneous power failure occurs, the output voltage drop protection function does not work, and the liquid crystal inverter board 40 is completely stopped.

(2) When the input voltage terminal DCIN becomes equal to or higher than DC20V which is the second threshold voltage

When the voltage at the input voltage terminal DCIN returns to DC20V or higher, which is the second threshold voltage, the input voltage monitoring circuit 20 includes the voltage at the comparison voltage terminal (−) of the comparator IC1, that is, the input voltage resistors R2 and R3. Is higher than the voltage at the reference voltage terminal (+) of the comparator IC1, that is, the Zener voltage generated at the anode of the Zener diode D1, so that the output terminal of the comparator IC1 becomes “L”. Therefore, the NPN transistor Q1 is turned off, the NPN transistor Q2 is turned on, and the PNP transistor Q3 and the NPN transistor Q4 are turned on. As a result, a voltage slightly lower (a voltage drop of the NPN transistor Q4) than the Zener voltage generated at the anode of the Zener diode D2 is output as the power supply voltage from the power supply voltage output terminal VIN and is supplied to the IC 41 provided on the liquid crystal inverter board 40. The power supply is resumed. As a result, the IC 41 resumes operation in a reset state in which the output voltage drop protection function is not working, and drive control of the inverter circuit 42 is also resumed, so that the liquid crystal inverter board 40 is completely restored.

(3) When the output voltage of the inverter circuit 42 falls below a predetermined threshold value

When the voltage of the input voltage terminal DCIN is equal to or higher than the second threshold voltage of DC 20 V, the output voltage output from the inverter circuit 42 becomes lower than the predetermined threshold value due to a failure of a device such as the cold cathode tube 51. When the IC 42 detects this, the output voltage drop protection function of the IC 42 is activated and the drive control of the inverter circuit 42 is stopped. Therefore, the liquid crystal inverter board 40 is completely stopped, and then the output voltage drop protection function is not released unless the IC 42 is reset by turning off the main power source of the gaming machine. For example, if the output drop protection function actually works due to poor connection of the cold cathode tube 51, etc., it will be necessary to repair equipment such as the cold cathode tube 51, so the main power supply should be turned off. is there. Note that when the voltage at the voltage terminal DCIN at the input is lower than the second threshold voltage of DC 20 V, the supply of the power supply voltage to the IC 42 is cut off, so that the output voltage drop protection function works. There is no.

According to the first embodiment, the second threshold voltage higher than the first threshold voltage of the input voltage to the inverter circuit 42 in which the output voltage drop protection function works is set, and the input voltage is the second threshold voltage. After the input voltage drops below the first threshold voltage due to an instantaneous power failure, etc., by providing a circuit that can cut off the power supply to the integrated circuit having the output voltage drop protection function when When the normal voltage is immediately restored, the inverter circuit 42 in which the output voltage drop protection function works can be restored normally without affecting other circuits. In particular, in a gaming machine, the input voltage monitoring circuit 20 that is simply and reliably performed is effective as a countermeasure against an abnormal operation of the liquid crystal inverter board 40 having the output voltage drop protection function.

In the first embodiment, the input voltage monitoring circuit 20 is added as a separate unit before the liquid crystal inverter board 40. However, the input voltage monitoring circuit 20 may be incorporated in the liquid crystal inverter board 40 in advance. Good.

FIG. 4 is a circuit diagram (cited from page 9 of Non-Patent Document 1) showing a specific example of the liquid crystal inverter substrate 40. Since this liquid crystal inverter substrate 40 is already known, a detailed description of its configuration and operation will be omitted, but only parts related to the present invention will be described briefly. The liquid crystal inverter board 40 is used by being connected to the display control board 10 by the connector CN2 and connected to the cold cathode tube 51 by the connectors CN3 to CN6. The voltage of the cold cathode tube 51, that is, the output voltage of the inverter circuit 42 is supplied to the terminals EA_IN and EA_OUT of the IC 41 through the connectors CN3 to CN6, and the IC 41 monitors the voltage of the cold cathode tube 51, that is, the output voltage of the inverter circuit 42. I do. Then, the IC 41 outputs a control voltage to the terminals OUTA, OUTB, OUTC, and OUTD based on the monitoring result, and an inverter including dual N & P channel MOSFETs (Metal Oxide Semiconductor Field Effect Transistors) 43 and 44, transformers 45 and 46, and the like. The circuit 42 is driven and controlled so that the cold cathode tube 51 is turned on with a constant output voltage. The IC 41 has an output voltage drop protection function, and when the monitoring result is abnormal, that is, when the output voltage of the inverter circuit 42 is equal to or lower than the first threshold voltage, the drive control of the inverter circuit 42 is stopped, The cold cathode tube 51 is turned off. When the input voltage monitoring circuit 20 of the present invention is incorporated in such a liquid crystal inverter board 40, the input voltage monitoring circuit 20 is inserted in a line from the connector CN2 connected to the display control board 10 to the terminal VIN of the IC 41. In addition, a signal from the ON / OFF signal terminal ON / OFF of the connector CN2 may be input to the input voltage monitoring circuit 20 and the input voltage monitoring circuit 20 may be grounded.

In the first embodiment, the integrated circuit having the output voltage drop protection function is the IC 41 of the liquid crystal inverter board 40, and the circuit block in which the output voltage drop protection function works is the inverter circuit 42 of the liquid crystal inverter board 40. The combination of circuit blocks is not limited to this, and it goes without saying that the present invention can be similarly applied to combinations of various integrated circuits and circuit blocks used in gaming machines. Furthermore, although the protective function is described as the output voltage drop protective function in the first embodiment, it goes without saying that various protective functions for maintaining the performance of the gaming machine can be adopted. For example, an overvoltage protection function, an overcurrent protection function, a short circuit protection function, etc. can be considered.

As mentioned above, although the Example of this invention was described, this is only an illustration, this invention is not limited to this, Based on the knowledge of those skilled in the art, unless it deviates from the meaning of a claim Various changes are possible.

1 is a circuit block diagram of a gaming machine provided with an input voltage monitoring circuit for gaming machines according to Embodiment 1 of the present invention. 1 is a circuit diagram of an input voltage monitoring circuit for a gaming machine according to Embodiment 1. FIG. The figure explaining the relationship between the 1st threshold voltage and the 2nd threshold voltage. The circuit diagram which illustrates a liquid crystal inverter board in detail.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Main power supply 2 Power supply board 3 Main board 4 Liquid crystal display control apparatus 10 Display control board 20 Input voltage monitoring circuit 40 for game machines Liquid crystal inverter board 41 IC (integrated circuit)
42 Inverter circuit (circuit block)
50 Liquid Crystal Display 51 Cold Cathode Tube CN1 Connector D1 Zener Diode (Monitoring Circuit Unit)
D2, D3 Zener diode (cutoff circuit)
DCIN input voltage terminal F Fuse IC1 Comparator (monitoring circuit)
GND Ground terminal ON / OFF ON / OFF signal terminal Q1 NPN transistor (monitoring circuit)
Q2, Q4 NPN transistor (cut-off circuit)
Q3 PNP transistor (cut-off circuit part)
R1 to R9 Resistor VIN Power supply voltage output terminal

The input voltage monitoring circuit for a gaming machine according to claim 1, wherein the input voltage supplied to the circuit block is controlled by driving one circuit block mounted on a device provided in the gaming machine for controlling the operation of the gaming machine. It said power supply voltage to the integrated circuit but having a protection function for releasing the stops the drive control of the circuit block operates with less than or equal to a first threshold voltage, the supply of power supply voltage to itself is interrupted A monitoring circuit unit for detecting whether the input voltage is equal to or lower than a second threshold voltage set higher than the first threshold voltage; and When it is detected that the input voltage is not less than the second threshold voltage, the power supply voltage is supplied to the integrated circuit, and the input voltage is not more than the second threshold voltage by the monitoring circuit unit. Can When issued and a cutoff circuit for cutting off the supply of the power supply voltage to the integrated circuit, when the input voltage decreases to the second threshold voltage, the power supply voltage to the integrated circuit The drive control of the circuit block is stopped before the protection function is activated by shutting off the supply of power, and then when the input voltage returns to the second threshold voltage or higher, The drive control of the circuit block is resumed without resuming the protection function by resuming the supply of the power supply voltage . According to the input voltage monitoring circuit for a gaming machine according to claim 1, the second threshold voltage higher than the first threshold voltage of the input voltage at which the protection function of the integrated circuit operates is set, and the input voltage is By providing a circuit that can cut off the power supply to an integrated circuit that has a protection function when the threshold voltage falls below two, the input voltage drops below the first threshold voltage due to an instantaneous power failure, etc. When the normal voltage is restored immediately after the operation, the circuit block in which the protection function works can be restored normally without affecting other circuits. Further, by changing only the second threshold voltage of the monitoring circuit unit, it is possible to cope with other circuit blocks in which the protection function works at various first threshold voltages.

For gaming machines input voltage monitoring circuit according to claim 2, monitors the output voltage of the inverter circuit to drive controls the inverter circuit provided in the liquid crystal inverter substrate constituting the liquid crystal display control device Yu technique machine, When the input voltage supplied to the inverter circuit decreases to the first threshold voltage, the output voltage becomes lower than the predetermined threshold voltage, and the drive control of the inverter circuit is stopped and the supply of the power supply voltage to itself is cut off. is configured to supply the power supply voltage to an integrated circuit that have a output voltage protection function for releasing to be, a second threshold, wherein the input voltage is set higher than the first threshold voltage A monitoring circuit unit for detecting whether or not the voltage is equal to or lower than a value voltage; and when the monitoring circuit unit detects that the input voltage is higher than or equal to the second threshold voltage Shutting off the supply of the power supply voltage to the integrated circuit when the power supply voltage is supplied to the integrated circuit and the monitoring circuit unit detects that the input voltage is less than or equal to the second threshold voltage comprising: a circuit portion, when the entering-force voltage decreases to the second threshold voltage, exerting a pre-Symbol pre Symbol output voltage protection function by blocking the supply of the power supply voltage to the integrated circuit Without stopping the drive control of the inverter circuit, and after that, when the input voltage returns to the second threshold voltage or more , the supply of the power supply voltage to the integrated circuit is resumed, thereby the output voltage drop protection function wherein the resume drive control of the inverter circuit without exerting. According to the input voltage monitoring circuit for gaming machines according to claim 2, the second threshold voltage higher than the first threshold voltage of the input voltage to the inverter circuit in which the output voltage drop protection function works is set, By providing a circuit capable of shutting off power supply to an integrated circuit having an output voltage drop protection function when the input voltage becomes equal to or lower than the second threshold voltage, the input voltage becomes first due to an instantaneous power failure or the like. When the voltage is restored to the normal voltage immediately after the voltage drops below the threshold voltage, the inverter circuit in which the output voltage drop protection function works can be restored normally without affecting other circuits.

According to the first aspect of the present invention , an input voltage monitor for a gaming machine that supplies a power supply voltage to an integrated circuit that drives and controls one circuit block mounted on a device that is provided in the gaming machine and controls the operation of the gaming machine. The integrated circuit has an output voltage drop protection function that monitors the output voltage of the circuit block and stops driving control of the circuit block when the output voltage falls below a predetermined threshold value. When the input voltage to the circuit block decreases, the output voltage of the circuit block also decreases . When the input voltage to the circuit block falls below the first threshold voltage , the output voltage drops below the predetermined threshold voltage. Thus, the integrated circuit operates the output voltage drop protection function, and the output voltage drop protection function once activated is not released unless the supply of the power supply voltage to the integrated circuit is cut off. Made is and a monitoring circuit for detecting whether a second threshold voltage less than the input voltage is set higher than the first threshold voltage, the input voltage by the monitoring circuit portion is When it is detected that the voltage is equal to or higher than the second threshold voltage, the power supply voltage is supplied to the integrated circuit, and the monitoring circuit unit detects that the input voltage is equal to or lower than the second threshold voltage. And a shutoff circuit unit that shuts off the supply of the power supply voltage to the integrated circuit, and the monitoring circuit unit detects that the input voltage has dropped below the second threshold voltage . time, the drive control of the circuit blocks is stopped without exerting the output voltage protection function by blocking the supply of the power supply voltage to the integrated circuit by the blocking circuit unit, then the monitoring circuit portion When said input voltage has returned to more than the second threshold voltage is detected, exert the output voltage protection function by resuming the supply of power supply voltage to the integrated circuit by the blocking circuit characterized Rukoto restarts the drive control of the circuit block without. According to the input voltage monitoring circuit for a gaming machine according to claim 1, the second threshold voltage higher than the first threshold voltage of the input voltage at which the output voltage drop protection function of the integrated circuit works is set, and the input By providing a circuit capable of shutting off the power supply to an integrated circuit having an output voltage drop protection function when the voltage becomes equal to or lower than the second threshold voltage, the input voltage becomes first due to an instantaneous power failure or the like. When the voltage is restored to the normal voltage immediately after the voltage drops below the threshold voltage, the circuit block in which the output voltage drop protection function works can be restored normally without affecting other circuits. Further, by changing only the second threshold voltage of the monitoring circuit unit, it is possible to cope with other circuit blocks in which the output voltage drop protection function works at various first threshold voltages.

According to a second aspect of the invention, in the gaming machine input voltage monitoring circuit of claim 1, wherein the circuit block is an inverter circuit provided in the liquid crystal inverter substrate constituting the liquid crystal display control device of the gaming machine It is characterized by that. According to the input voltage monitoring circuit for gaming machines according to claim 2, the second threshold voltage higher than the first threshold voltage of the input voltage to the inverter circuit in which the output voltage drop protection function works is set, By providing a circuit capable of shutting off power supply to an integrated circuit having an output voltage drop protection function when the input voltage becomes equal to or lower than the second threshold voltage, the input voltage becomes first due to an instantaneous power failure or the like. When the voltage is restored to the normal voltage immediately after the voltage drops below the threshold voltage, the inverter circuit in which the output voltage drop protection function works can be restored normally without affecting other circuits.

When the voltage of the input voltage terminal DCIN is equal to or higher than the second threshold voltage of DC 20 V, the output voltage output from the inverter circuit 42 becomes lower than the predetermined threshold value due to a failure of a device such as the cold cathode tube 51. When the IC 41 detects this, the output voltage drop protection function of the IC 41 is activated and the drive control of the inverter circuit 42 is stopped. Therefore, the liquid crystal inverter board 40 is completely stopped, and then the output voltage drop protection function is not canceled unless the IC 41 is reset by turning off the main power source of the gaming machine. For example, if the output drop protection function actually works due to poor connection of the cold cathode tube 51, etc., it will be necessary to repair the equipment such as the cold cathode tube 51, so the main power supply should be turned off. is there. Note that when the voltage at the voltage terminal DCIN at the input is lowered to the second threshold voltage of DC 20 V or less, the supply of the power supply voltage to the IC 41 is cut off, so that the output voltage drop protection function works. There is nothing.

Claims (2)

A power supply for an integrated circuit having a protection function that monitors one circuit block mounted on a device that controls the operation of a gaming machine and that works when an input voltage supplied to the circuit block is equal to or lower than a first threshold voltage Configured to supply voltage,
A monitoring circuit unit for detecting whether or not the input voltage is equal to or lower than a second threshold voltage set higher than the first threshold voltage;
When the monitoring circuit unit detects that the input voltage is equal to or higher than the second threshold voltage, the power supply voltage is supplied to the integrated circuit, and the monitoring circuit unit supplies the second input voltage to the second voltage. An input voltage monitoring circuit for a gaming machine, comprising: a shut-off circuit unit that shuts off the supply of the power supply voltage to the integrated circuit when it is detected that the voltage is not more than a threshold voltage. The circuit block is an inverter circuit provided on a liquid crystal inverter board constituting a liquid crystal display control device of a gaming machine,
The integrated circuit drives and controls the inverter circuit and monitors the output voltage of the inverter circuit, and the output voltage is less than a predetermined threshold as the input voltage becomes less than the first threshold voltage. The output voltage drop protection function for stopping the drive control of the inverter circuit when the input voltage is reduced to the second threshold voltage when the monitoring circuit unit detects that the input voltage is less than or equal to the second threshold voltage. The cutoff circuit unit cuts off the supply of the power supply voltage to the integrated circuit, so that the drive control of the inverter circuit is stopped without operating the output voltage drop protection function of the integrated circuit, and the input voltage is the second voltage. When it is detected that the voltage is equal to or higher than the threshold voltage, the supply of the power supply voltage to the integrated circuit is restarted without using the output voltage drop protection function. Serial inverter gaming machine input voltage monitoring circuit restarts claim 1, wherein the drive control circuit.

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