CS261552B1 - Enable for backed-up power of a computer system with initial power-on detection - Google Patents

Abstract

The solution relates to a connection for a backup power supply of a computer system, which is arranged in such a way that the input of the system source (1) is connected to a power failure indicator (6), the output of which is connected to the input of the part (2, 1) of the computer with a non-backup power supply. Other outputs of the source system are connected to the inputs of the part (2.1) of the computer. The output of the switching circuit (5) of the power supply is connected to the power input of the part (2.2) of the computer with a backup power supply and at the same time to the input of the timing circuit (3), the output of which is connected to the computer with a non-backup power supply. The solution can be used in computer control systems for process control of technological equipment.

Description

The invention solves a circuit for a back-up power supply of a computer system with initial power-on recognition, particularly useful for control systems where a different system response at initial power-up and a different power recovery after a power failure during the control process is required.

Known backup methods use a spare battery pack, which however requires the use of large capacity batteries. · The power supply can be direct when all blocks of the system are powered by DC voltage or indirect when the battery inverter is powered by a power part of the system. Checking and recharging the batteries · Another option is to back up power to the computer's memory, which reduces battery demand and reduces multi-level power problems. However, there are problems with proper computer operation in the event of a power failure that may result in erroneous memory recording. these methods have a common disadvantage in that they do not distinguish initial power-up from power recovery after a power failure, which makes application in control systems more difficult where a different system response is required at the initial power on and others when power is restored after a power failure ·

At present, microcomputer systems are available, eg with the MHB8048 and MHB8O51 microprocessor, which enable to recognize the initial power up without the need for additional circuits. However, these systems are not yet available in a configuration suitable for wider industrial use · Microcomputer systems based on the MHB8080 microprocessor system are commonly available, which do not allow recognition of the initial start-up without the need for additional circuits.

These drawbacks are eliminated by the back-up power supply of a computer system with initial power-on detection, which is based on the fact that the power supply output is connected to the input of the first switch whose output is connected to the input of the power supply. it is connected to the battery input of the power switching circuit. The power input is connected to the output of the first circuit breaker and the second circuit breaker is coupled to the first circuit breaker. The input of the system source is connected to the mains failure indicator, the output of which is connected to the input of another part

261 5S2 computer β non-backed-up power, while power supply outputs are connected to inputs of another non-backed-up computer part · Power switching circuit output is connected to the power input of the back-up computer as well as timing circuit input Unpowered computers.

The advantages of the circuitry according to the invention are the resolution of the initial power-up from power recovery after a power failure and thus the possibility of differentiating the computer's response to these two situations. Another advantage is the minimum power consumption of the backup batteries, which reduces the demand on battery capacity and maintenance.

A higher effect of the solution according to the invention is that the timing circuit generates a pulse only upon initial power-up, and the computer, according to the existence of this pulse, can distinguish the initial power-up of the system from power recovery after a power failure.

An exemplary embodiment of the invention is schematically indicated for healing for a back-up power supply of a computer system with initial power-on detection, such that the power supply output β is coupled to the input of the primary switch 7.1.. the output 3 is connected to an input blocking the operation of part 2.1 of the non-backed-up computer, the output of the first switch 7.1 being further coupled to the input of the source system i, whose outputs 1.0 to

l.N are connected to inputs 2.1.0 to 2.1.N of part 2 * 1 with non-back-up power supply, while the battery output is connected to the input of the second switch 7.2. whose output is coupled to the battery input of the power switching circuit 6, the power input of which is connected to the output of the first switch 7.1, and the output of the power switching circuit 8 is connected to the input of the timing circuit X the output of the power switching circuit 6 is further coupled to the power input of the back-up computer portion 2.2, the first switch 7.1 being coupled to the second switch 7.2.

261 552

The function of the circuit is that, when it is first switched on, the timer circuit 2 generates an impulse, which by testing it in a part of the computer with unattended power, identifies the initial switch-on and invokes the corresponding program. In the event of a power failure, the operation of part 2> 1 of the non-backed-up computer is blocked by means of the power failure indicator 6, so that information is not erroneously recorded. When the power is restored, the timing circuit 2 does not generate a pulse, as it is still powered by the battery, indicating that this is a power recovery state after a power failure and the computer provides another necessary program that is different from the first / second power. The breakdown of a computer into a section 2.1 that is not backed up and a section 2.2 that is backed up is done so that the voltage backup applies only to those parts of the computer where the loss of information would make it impossible to return to the process before the power outage. The switching circuit 2 ensures automatic switching of the mains supply to the battery when the mains voltage fails.

The solutions according to the invention can be used in control systems, for example in controlling the processes of vacuum devices for forming thin films.

For control systems (using a microcomputer) where a different system response is required on initial power up and a different response when power is restored.

Claims (1)

pftED! l ¥! T FIND Connection for backup power supply of computer system !! by recognizing the initial power-up designed so that the mains output is connected to the input of the power switch, the output of which is connected to the input of the source system, while the battery output is connected to the input of the second switch. the network input is connected to the output of the first switch, the second switch being coupled to the first switch, characterized in that the input of the power supply of the system (1) is connected to the power failure indicator (6); uninterrupted power supply, while the outputs (1.0 to 1.IT) of the source system (1) are connected to inputs (2.01 to 2.ON) of the non-backed-up computer part (2.1), the output of the power switching circuit (5) being connected to the power input parts (2.2) of the computer with back - up power supply and with the input of the timing circuit (3), its The output is connected to the bit input of the non-backed-up computer part (2.1). 1 drawing 261 552