RU2020613C1 - Storage with data save facility at de-energization - Google Patents

Abstract

FIELD: computer technology. SUBSTANCE: device has basic power supply, reserve power supply, current-stabilizing element, storage, separating elements, terminals, current-setting element, switch, output. Device provides voltage of basic power supply and satisfies technical conditions for memory cells for allowable spread in power voltages and logic unit level. EFFECT: improved reliability of operation. 1 dwg

Description

 The invention relates to computing, and in particular to information storage technology, and can be used in equipment with micro-consuming memory, where it is required to save the entered information when the power is turned off, for example, in portable devices.

 A memory device with a backup power source is known, which contains memory chips characterized by micropower consumption, a main power source, a separation element, a backup power source, an additional power source with a voltage exceeding the maximum allowable voltage of the microcircuits, and a current stabilizing element. The device allows to increase the storage time of information when the main power source is turned off. However, the voltage of the main power source should be higher than the power supply voltage of memory chips by 0.7-1.0 V and it cannot be used to power other devices without reducing the reliability, and the use of an additional power source complicates the design and reduces the reliability of the entire device. This device cannot also ensure the reliability of information storage when used in portable devices, where long-term storage of information is required when the device is turned off.

 The purpose of the invention is to increase the reliability of the device.

 The goal is achieved by the fact that in the storage device with saving information when the power is turned off, containing the main and backup power sources, a current stabilizing element, a drive, the first and second dividing elements on the first and second diodes, the input of the backup power source being connected to the cathode of the first diode and the first the input of the current stabilizing element, the output of which is connected to the drive power inputs and the cathode of the second diode, the information input of the drive is connected to the second input of the current stabilizing electric of the element, the outputs of the main and backup power sources and is the first information input of the device, the third isolation element on the third diode, the current-setting element on the resistor and the key, the input of which is connected to the anode of the first diode and is the second information input of the device, the key output is connected to the first output the resistor of the current-sensing element and the input of the main power source, the output of which is connected to the drive lock input and the cathode of the third diode, the anode of which is connected to the second terminal p ican voltage driving element and the anode of the second diode, the accumulator output is the output device.

 The drawing shows a structural electrical circuit of a storage device.

 The device comprises a main power source 1, a backup power source 2, a current stabilizing element 3, a drive 4, isolation elements 5, 6 and 8, terminals 7 and 11, a current setting element 9, a key 10, an output 12 of the device.

 The device operates as follows.

 In the information storage mode (the primary power source is connected to terminals 7 and 11, the key 10 is open), the current from the primary power source through the diode 5 separates the backup power source 2 to a voltage close to the voltage of the primary power source. At the same time, the current of the primary power source is supplied to a current-stabilizing element 3, the output of which is set to a voltage corresponding to the minimum voltage for storing information in the elements of the drive. At the same time, the voltage of the main power supply 1 is removed from the drive lock input, thereby the outputs of drive 4 will be transferred to the third state, disconnecting drive 4 from the output lines. The storage time of information will practically depend on the availability of the primary power source, since the current consumed by the drive if it is made on CMOS RAM elements is negligible.

 In the replacement mode of the primary power source (the primary power source is disconnected from terminals 7 and 11, the key 10 is open) or when it is disconnected abnormally, the current of the backup power source 2, which was charged to a voltage close to the voltage of the primary power source, is supplied to the current-stabilizing element 3 and similarly supports the voltage corresponding to the voltage of information storage on the elements of the drive 4.

 The information storage time is determined by the capacity of the backup power source 2, which should ensure that information is stored in RAM when replacing the primary power source or short-term emergency shutdowns.

 Normal operation (the primary power source is connected to terminals 7 and 11, key 10 is open) corresponds to the drive's operation for writing and reading information. The main power source 1 in this mode produces a voltage of 5 V ± 10%, which is used to power other devices that work in parallel with the drive as part of the product (for example, a read-only memory processor, input-output device, etc.). At the same time, voltage is supplied to the drive lock input, connecting its output 12 to the information highway.

, где U

- постоянное прямое напряжение на диоде 8.The supply voltage of the drive will correspond to the voltage of the main power source, i.e. 5 V ± 10%. At point A of the device, the voltage is set
U _A = U _main + U

where U

- direct forward voltage on the diode 8.

- U

Поскольку постоянные прямые напряжения диодов 8 и 6 близки по величине (диоды выбираются однотипными), напряжение питания накопителя практически равняется напряжению основного источника питания. Некоторое увеличение потребления накопителя за счет падения напряжения на токозадающем элементе 9 несущественно, так как мощность потребления накопителя при выполнении его на микросхемах КМОП-технологии составляет единицы процентов от общего потребления прибора и не влияет на общую мощность потребления прибора.The drive voltage will be respectively:
U _knock = U _main + U

- U

Since the direct forward voltages of diodes 8 and 6 are close in magnitude (diodes are selected of the same type), the supply voltage of the drive is almost equal to the voltage of the main power source. A slight increase in the drive’s consumption due to the voltage drop across the current-collecting element 9 is not significant, since the drive’s power consumption when it is implemented on CMOS technology chips makes up a few percent of the total device consumption and does not affect the total device power consumption.

 The device drive can be made on micro-consuming microcircuits, for example 537 RU8, 537 RU9, 537 RU13, etc.

 The current stabilizing element is similar to the current stabilizing element used in the device according to A.S. N 1381596.

 The positive effect of the invention is to increase the reliability of the storage device while maintaining information when the power source is turned off by supplying the drive microcircuits with voltage standard for the device and by storing information in the drive for the entire time that the primary power source is connected to the device.

Claims (1)

 STORING INFORMATION WITH STORING INFORMATION WHEN POWER OFF, containing the main and backup power sources, a current stabilizing element, a drive, the first and second isolation elements on the first and second diodes, respectively, the input of the backup power source being connected to the cathode of the first diode and the first control input of the current stabilizing element, the output of which is connected to the drive's power inputs and the cathode of the second diode, the drive's information input is connected to the second control input of the current stabilizer of the isolating element, the outputs of the main and backup power sources and is the first information input of the device, characterized in that a third isolation element on the third diode, a current-setting element on the resistor and a key, the input of which is connected to the anode of the first diode and is the second information input of the device, are introduced into it , the key output is connected to the first output of the resistor and the input of the main power source, the output of which is connected to the drive lock input and the cathode of the third diode, the anode of which is connected the second terminal of the resistor and the anode of the second diode, the drive output is an output device.

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