TH19683B - Fault prevention using a microprocessor boost - Google Patents

Abstract

The television's microprocessor controller controls the power supply connected to the horizontal refraction circuit to determine alternate and normal operation. The microprocessor has a new entry point that increases the power for starting after the power is supplied at the mains AC voltage. At least one of the loads will be either an overcurrent or an overvoltage fault. The fault detection circuit detects an over-voltage or overcurrent and sends a temporary reset pulse to the newly added entry point. microprocessor power On the new pulse capture, the microprocessor puts the TV in reserve by transferring power from an over-voltage or over-current condition.

Claims (8)

1.Video display devices with fault protection devices for controlling such video display devices The fault protection device consists of Horizontal refraction cycle Horizontal frequency operator connected to the horizontal refraction cycle. It is controlled to operate when it is in the normal operation (run mode) and not when it is in the standby mode. By the operation of the refraction circuit to transmit power to the load in normal operation. A fault detection circuit with at least one check point is attached to the load in normal operation to detect the fault condition. It generates a reset signal in response to detection of such fault conditions and a microprocessor control circuit with a new entry point connected to the reset signal. And an output signal is connected to control the operation of the horizontal frequency generator Microprocessor As such, it will help to detect missing fault conditions in normal operation. And initiate the backup operation to respond to the duty detecting the fault condition in the load under such normal operation. Which cycle of refraction Normal power supply And the load in the said normal operation will be stopped. 2. Visual display device according to claim 1, where the microprocessor control circuit is programmed to count the reset signal caused by fault. Error, which inhibits the normal operation of the command that is entered by the user When a preset is too large 3. Image display device according to claim 1, where the microprocessor includes a nonvolatile momory, a hold input, connected to the power source. Of the display device It also consists of a section attached to the capture entry point to provide a delay in the power loss to the micro. The processor after the loss of power at the power source. The microprocessor will operate during delay to store at least one operational variable in memory regardless of the voltage. And to start the work when the power is started to act as a variable of such operation. 4. Visual display device according to claim 1 where the horizontal rate output state includes the reversed transformer at There is a secondary winding connected to the normal working power supply. To create a number of voltage sources 5. Visual display device according to claim 1, where the fault detection circuit will include a pressure comparator connected to the load that is in normal operation. The pressure comparator activates a reset signal when the pressure at the normal operating load passes at least one specified limit pressure representing the internal fault condition. 6. Device in accordance with claim 5. Where the defined limit voltage indicates an overpressure condition where the overpressure at the normal power supply will coincide with the overpressure at the alter terminal in such a way as to prohibit its operation. Of the refraction circuit that provides X-ray protection 7. 1. video display devices with fault protection devices for controlling such visual display devices The fault protection device consists of Horizontal refraction cycle Horizontal frequency operator connected to the horizontal refraction cycle. It is controlled to operate when it is in the normal operation (run mode) and not when it is in the standby mode. By the operation of the refraction circuit to transmit power to the load in normal operation. A fault detection circuit with at least one check point is attached to the load in normal operation to detect the fault condition. It generates a reset signal in response to detection of such fault conditions and a microprocessor control circuit with a new entry point connected to the reset signal. And an output signal is connected to control the operation of the horizontal frequency generator Microprocessor As such, it will help to detect missing fault conditions in normal operation. And initiate the backup operation to respond to the duty detecting the fault condition in the load under such normal operation. Which cycle of refraction Normal power supply And the load in the said normal operation will be stopped. 2. Visual display device according to claim 1, where the microprocessor control circuit is programmed to count the reset signal caused by fault. Error, which inhibits the normal operation of the command that is entered by the user When a preset is too large 3. Image display device according to claim 1, where the microprocessor includes a nonvolatile momory, a hold input, connected to the power source. Of the display device It also consists of a section attached to the capture entry point to provide a delay in the power loss to the micro. The processor after the loss of power at the power source. The microprocessor will operate during delay to store at least one operational variable in memory regardless of the voltage. And to start the work when the power is started to act as a variable of such operation. 4. Visual display device according to claim 1 where the horizontal rate output state includes the reversed transformer at There is a secondary winding connected to the normal working power supply. To create a number of voltage sources 5. Visual display device according to claim 1, where the fault detection circuit will include a pressure comparator connected to the load that is in normal operation. The pressure comparator activates a reset signal when the pressure at the normal operating load passes at least one specified limit pressure representing the internal fault condition. 6. Device in accordance with claim 5. Where the defined limit voltage is defined as an induced voltage condition where the voltage at the power source normally occurs in conjunction with the overpressure at the alter terminal in such a way as to prohibit The task of a refraction circuit that provides X-ray protection. 7. Visual display devices According to claim 1, the fault detection circuit can be activated to detect at least one type of short-circuit condition. 8. Visual display device according to claim 1, where the fault detection circuit responds to the fault condition in the vertical refraction circuit 9. Display device Visual results according to claim 8, where the vertical refraction circuit will include a resistor checking the refraction current. The fault detection circuit is connected to the current monitoring resistor 1 0. Video display device according to claim 9, the fault detection circuit consists of a negative peak rectifier connected to the resistor. Check the fault indication and the positive voltage comparison source is connected to the output of the rectifier, the negative peak, the transistor switch which is connected to the input. Reset and connect to the sum of the rectifier's outputs, write down the negative peaks, and the large voltage comparator. Where the fault detection circuit operates to protect against open and short-circuit conditions by a positive substitution of the sum of the aforementioned outputs 1. 1. The display device according to claim 1 also contains a section for regenerating the set-up signal attached to the new entry point. And responds to fault conditions in the AC supply connected to the device 1 2. Image display device according to claim 11, where the regeneration section includes a delay circuit connected between the new entry point and the power source voltage 1. 3. Visual display device including fault protection circuit Which the fault protection circuit consists of Microprocessor control circuit with a new entry point. And a control signal output point for selecting between the normal operation. And a backup of the aforementioned display devices Section for regenerating the first reset signal connected to check AC power and to generate the first reset signal that responds to the AC power active-detection section, the section for regenerating the second setting signal connected for Detects an error within the video display device and generates a second reset signal that responds to the detected fault within the display device and the first reset signal. And the second one will be attached to the microprocessor's new entry point to perform the microprocessor reset. And control signal output points to select the operation of the display device as a backup operation that responds to either of the first and second reset signals 1 4. A visual display with a fault protection device for controlling the operation of the said display, the device consists of Regulated horizontal refraction circuit to operate normally. And does not work in a backup job form Normal operating power supply is powered The work of the horizontal refraction cycle to transmit power to the load that is in normal operation. The vertical refraction cycle creates a vertical sweeping component of the image display. A fault detection circuit with at least one inspection entry point is attached to the horizontal sensing circuit to detect an internal fault condition. And generate a new set signal that responds to the fault condition in the aforementioned vertical detecting circuit. A microprocessor with an entry point located under it to receive a new signal. The output control signal has one condition for selecting normal and second condition for alternating mode selection. The output control signal is connected to the horizontal refraction circuit to control the function. The microprocessor selects normal operation without the fault condition of the vertical refraction circuit. And create a control signal of the output with a first condition for stimulating the refraction cycle Normal power supply And the burden of such normal activities The microprocessor will initiate a secondary task in response to a detected error in the vertical refraction circuit. And generates a secondary control signal that stops the activation of the refraction cycle. Normal power supply And the burden of the aforementioned normal operation 1 5. Visual display according to claim 14, where such horizontal refraction circuit consists of a horizontal frequency generator for powering the horizontal refraction circuit. And a normal power supply Such a horizontal frequency generator is activated by the first condition and stopped by the second condition 1. 6. Visual display according to claim 14, where the fault condition in the vertical refraction circuit corresponds to the opening of the opening circuit 1. 7. Visual display according to claim 14, where the fault condition in the vertical refraction circuit corresponds to the short-circuit of the prohibiting capacitor DC 1. 8. Image display according to claim 15, where the fault detection circuit has a second sensing entry point connected to detect the loss of the AC power source.