RU2506633C1 - Data storage device (versions) - Google Patents

Abstract

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to computer engineering, particularly to means of protecting information from unauthorised access. The data storage device has a control unit, the first group of inputs/outputs of which is connected to the group of inputs/outputs of a memory unit, the device further including a commutation unit for switch circuits and a unit for protecting switch circuits, the group of inputs of which is the group of inputs of the data storage device, and the group of outputs is connected to the group of inputs of the commutation unit for switch circuits, the first group of inputs/outputs of which is the group of inputs/outputs of the data storage device, and the second group of inputs/outputs is connected to the second group of inputs/outputs of the control unit.

EFFECT: high reliability of the data storage device and providing high security of information storage.

5 cl, 5 dwg

Description

The invention relates to computer technology, in particular to means of protection against unauthorized access to information.

A data storage device is known (see JP patent No. 6085158, MPK: G06F 12/14 “Chip card with a system of protection against unauthorized access”, Watanabe Hiroshi, publ. 26.10.1994), containing a control unit including a circuit for comparing the input a code with an installed code, a mismatch counter when comparing the input and installed code, a blocking signal generation circuit and an information area blocking circuit, and a memory consisting of several information areas. To access each information area, one or more established codes are used. Access to the contents of the device is possible only by entering the code from outside and matching it with a pre-set code. Clocking and power supply of the control unit is carried out from the outside. The specified device is taken as the closest analogue of the claimed invention.

The disadvantages of the closest analogue are the lack of protection, which leads to the possibility of dangerous external influences (for example, static electricity) on the information inputs of the control unit and memory, in addition, there is the possibility of direct selection of code data on information lines of communication and analysis of the response of the device in order to select optimal selection algorithm.

The technical result, to which the claimed invention is directed, is to increase the reliability of the data storage device, as well as providing a higher degree of security of information storage.

To achieve a technical result according to the first embodiment, in a data storage device comprising a control unit, the first group of inputs / outputs of which are connected to a group of inputs / outputs of a memory unit, it is new that an additional key circuit switching unit and a key circuit protection unit, an input group are introduced which is a group of inputs of a data storage device, and a group of outputs is connected to a group of inputs of a switching unit of key circuits, the first group of inputs and outputs of which is a group of inputs and outputs of a device storage Twa and a second group of inputs-outputs coupled to a second group of inputs-outputs of the control unit.

The indicated set of essential features makes it possible to increase the reliability of the data storage device by eliminating the possibility of dangerous external influences (for example, static electricity) on the information inputs of the control units and memory in order to damage or destroy them, as well as increasing the security of data storage by eliminating the possibility of direct selection of the installed code on the information lines of communication and analysis of the response of the device in order to select the optimal algorithm.

The combination of control and memory units in a microprocessor module, as well as the integration of key circuit switching units and key circuit protection into an intelligent key circuit protection unit allows reducing the number of used units, which also increases the reliability of the device.

To achieve a technical result according to the second embodiment, in a data storage device comprising a control unit, the first group of inputs / outputs of which are connected to the group of inputs / outputs of the memory unit, it is new that an additional key circuit switching unit, a read-only memory device, an electrically erasable reprogrammable a storage device, an analog component generation device, an analog component extraction device and a digital component isolation device, the first g the UPPIs of the inputs and outputs of the analog and digital component isolation devices are combined and is a group of inputs and outputs of the data storage device, and the second groups of inputs and outputs are connected respectively to the first and second groups of inputs and outputs of the key circuit switching unit, the third group of inputs and outputs of which are connected to the second group of inputs and outputs of the control unit, the group of outputs of which is connected to the group of inputs of the device for forming the analog component, the group of outputs of which is connected to the group of inputs of the unit ommutatsii key chains, the third and fourth groups of the control unit inputs-outputs are respectively connected to input-output groups only memory and electrically erasable reprogrammable memory.

The specified set of essential features according to the second option allows to increase the reliability and ensure higher security of the information of the data storage device by eliminating the possibility of exposure to the batteries and controlling the connection of information circuits, as well as by eliminating the possibility of obtaining information about the state of the device and its inclusion using code sequences of a specific format. An information sharing circuit including a memory unit, a read-only memory device and an electrically erasable flash programmable memory device also improves the reliability of the data storage device.

Figure 1, figure 2, figure 3 and figure 4 shows the structural diagrams of the implementation of the data storage device according to the first embodiment.

Figure 5 shows a structural diagram of an implementation of a data storage device according to the second embodiment.

The data storage device (Fig. 1) contains a key circuit protection unit 1 (BCCC), a key circuit switching unit 2 (BCCC), a control unit 3 (CU), and a memory unit 4 (PSU).

The first group of inputs and outputs BU 3 is connected to the group of inputs and outputs BP 4. The group of inputs BZKC 1 is a group of inputs of a data storage device. The output group BZKTs 1 is connected to the group of inputs BKKTs2. The first group of inputs and outputs BKKTs 2 is a group of inputs and outputs of the data storage device, and the second group of inputs and outputs is connected to the second group of inputs and outputs of the control unit 3. The group of inputs and the group of inputs and outputs of the data storage device are connected respectively to the group of outputs and the group of inputs the outputs of the external connector 5.

The data storage device (figure 2) contains a key circuit protection unit 1, a key circuit switching unit 2, a microprocessor module 6.

The input group BZKC 1 is a group of inputs of a data storage device. The group of outputs BZKTs 1 is connected to the group of inputs of BKKTs 2. The first group of inputs and outputs of BKKTs 2 is a group of inputs and outputs of a data storage device, and the second group of inputs and outputs is connected to a group of inputs and outputs of a microprocessor module 6. Group of inputs and a group of inputs and outputs data storage devices are connected respectively to the group of outputs and the group of inputs and outputs of the external connector 5.

The data storage device (Fig. 3) contains an intelligent block 7 for protecting key circuits (IBPC), a control unit 3, and a memory unit 4.

The first group of inputs and outputs BU 3 is connected to the group of inputs and outputs BP 4. The group of inputs and the first group of inputs and outputs IBZKTs 7 are groups of inputs and inputs of the data storage device, respectively. The second group of inputs and outputs IBZKC 7 is connected to the second group of inputs and outputs BU 3. The group of inputs and the group of inputs and outputs of the data storage device are connected respectively to the group of outputs and the group of inputs and outputs of the external connector 5.

The data storage device (figure 4) contains an intelligent block 7 key circuit protection (IBSC) and a microprocessor module 6.

The group of inputs and the first group of inputs and outputs IBZKTs 7 are groups of inputs and inputs and outputs of the data storage device, respectively. The second group of inputs and outputs IBZKTs 7 is connected to the group of inputs and outputs of the microprocessor module 6. The group of inputs and the group of inputs and outputs of the data storage device are connected respectively to the group of outputs and the group of inputs and outputs of the external connector 5.

The data storage device (Fig. 5) contains BKCC 2, BU 3, BP 4, read-only memory (ROM) 8, an electrically erasable reprogrammable memory (EEPROM) 9, an analog component generation device (UFAS) 10, an analog component extraction device ( UVAS) 11 and the digital component extraction device (UVCS) 12.

The first groups of inputs / outputs UVAC 11 and UVCS 12 are combined and are a group of inputs of the outputs of the data storage device, and the second groups of inputs and outputs are connected respectively to the first and second groups of inputs and outputs of the BKKs 2. The third group of inputs and outputs of the BKKs 2 is connected to the second group inputs and outputs BU 3. The group of outputs BU 3 is connected to the group of inputs UV AC 10, the group of outputs of which is connected to the group of inputs BKKs 2. The third and fourth groups of inputs and outputs BU 3 are connected respectively to the groups of inputs and outputs of ROM 8 and EEPROM 9. Input group in-outputs of the data storage device is connected to the group of inputs and outputs of the external connector 5.

BZKC 1 is a combinational logic circuit, the connection between the input and output variables in which is set using Boolean functions, and selectively connects the switching circuits. Output variables are uniquely determined by the values of the input variables. For their circuitry implementation, it is possible to use logic elements that implement Boolean functions, for example, multiplexers, demultiplexers, a combination shift device, comparators, adders, digital function converters.

BKKZ 2 consists of compact relays with switching ability and low power consumption of the NG6D series. The 1554Lah TTLSh series chip can be used with the “AND-NOT” logic as a comparison element at the input of BZKTs 1.

To implement the above options for a data storage device, a 1886Bex domestic microcontroller can be used as a BU 3, a EEPROM chip (electrically reprogrammable read-only memory device) 558РТ2А as a BP 4, and a 1986 BE9x chip as a microprocessor module 6.

IBSC 7 is an automatic machine for performing logical operations with the ability to memorize individual states of variables. The output variables depend not only on the input variables, but also on the current state of the device. Values are stored using triggers for the duration of a measure. The new state of the automaton is determined, on the one hand, by the previous state and, on the other hand, by the values of the input variables. For their circuitry implementation, the following elements can be used: counters, shift registers, pseudo-random sequence generator, asynchronous and synchronous signal processors.

ROM 8 can be performed on a chip type 1623RT2.

EEPROM 9 can be performed on a type 558PP4 chip.

OFAS 10 can be performed according to the scheme (G.I. Volovich “Circuitry of analog and analog-to-digital electronic devices” - M .: Publishing House “Dodeka-XXI”, 2005, pp. 112-413, Fig. 8.32).

UVAS 11 can be performed according to the scheme (G.I. Volovich “Circuitry of analog and analog-digital electronic devices” - M .: Publishing House “Dodeka-XXI”, 2005, pp. 414-413, Fig. 8.33, 8.34 )

UVCS 12 can be performed according to the scheme (GI Volovich “Circuitry of analog and analog-digital electronic devices” - M .: Publishing House “Dodeka-XXI”, 2005, p. 411-412, Fig. 8.30).

The interaction scheme of UV AC 10, UVAC 11 and UVCS 12 units can be implemented according to the scheme (V.V.Denisenko “Computer control of the technological process, experiment, equipment” - M .: Hot line - Telecom, 2009, p. 74) .

The principle of the device is not affected by the implementation option.

A data storage device operates as follows.

The work is based on a combination of software and hardware of a microprocessor system.

For the storage devices shown in FIGS. 1 to 4, voltages that are necessary for the operation of the devices, in particular digital integrated circuits and analog devices, are supplied from the power source (not shown in the figures).

In the data storage devices (FIG. 1 and FIG. 2), control information is received from the group of outputs of the external connector 5 to the BCC 1. In BZKC 1, the external control signal selectively connects the BKKTs 2 switching circuits. From the group of inputs and outputs of the external connector 5, through the BKKTs 2 unit to the BU 3 unit or microprocessor module 6 (depending on the implementation option), information is received that is converted by the algorithm, embedded in BP 4 or microprocessor module 6 and stored.

In the data storage devices (Fig. 3 and Fig. 4), from the group of outputs of the external connector 5, the control information is received at the input of the IBSC 7, which, passing through the selection system of switching circuits, is an automatic machine for performing logical operations, which has the ability to memorize individual states of variables , commutes the selected key circuits. From the group of inputs and outputs of the external connector 5 through IBZKTs 7 to the BU 3 or microprocessor module 6 (depending on the implementation option), information is transmitted that is converted according to the algorithm laid down by the BP 4 or microprocessor module 6 and stored.

In the data storage device (Fig. 5), a mixed analog-to-digital signal is supplied from external connector 5 to UVAC 11 and UVCS 12, which carries information that controls the switching of key circuits in BKCC 2 and the data that is converted to BU 3 according to the key information contained in EEPROM 9, according to the algorithm contained in ROM 8, and further storage in PSU 4. The selection of the analog and digital components of the signal is due to the strong difference in frequency ranges. The response team is formed in a similar way using UV AC 10.

Thus, the options for constructing a data storage device provide increased reliability from external factors by using the properties of the components that make up the device.

Claims (5)

1. A data storage device comprising a control unit, the first group of inputs and outputs of which is connected to a group of inputs and outputs of a memory unit, characterized in that an additional key circuit switching unit and a key circuit protection unit are introduced, the input group of which is a group of inputs of the data storage device and the group of outputs is connected to the group of inputs of the key circuit switching unit, the first group of inputs and outputs of which is a group of inputs and outputs of the data storage device, and the second group of inputs and outputs is connected and with the second group of inputs and outputs of the control unit. 2. The data storage device according to claim 1, characterized in that the control units and the memory are combined into a microprocessor module, the group of inputs and outputs of which is the second group of inputs and outputs of the control unit. 3. The data storage device according to claim 1, characterized in that the key circuit switching units and the key circuit protection unit are combined into an intelligent key circuit protection unit, the input group of which is a group of inputs of the data storage device, and the first group of inputs and outputs is a group of inputs -outputs of the data storage device, the second group of inputs and outputs of the smart block of protection of key circuits is the second group of inputs and outputs of the block of switching key circuits. 4. The data storage device according to claim 1, characterized in that the control and memory units are combined in a microprocessor module, and the key circuit switching units and the key circuit protection unit are combined into an intelligent key circuit protection unit, the input group of which is a group of inputs of the data storage device and the first group of inputs and outputs is the group of inputs and outputs of the data storage device, respectively, the second group of inputs and outputs of the smart block of protection of key circuits is the second group of inputs and outputs Block switching key chains, the group microprocessor module inputs-outputs a second group of inputs of the control unit outputs. 5. A data storage device comprising a control unit, the first group of inputs and outputs of which is connected to a group of inputs and outputs of a memory unit, characterized in that an additional key circuit switching unit, a read-only memory device, an electrically erasable reprogrammable memory device, an analog component generating device are introduced , an analog component isolation device and a digital component isolation device, the first input / output groups of analog and digital isolation devices oh components are combined and is a group of inputs / outputs of the data storage device, and the second groups of inputs and outputs are connected respectively to the first and second groups of inputs and outputs of the key circuit switching unit, the third group of inputs and outputs of which are connected to the second group of inputs and outputs of the control unit, the group of outputs of which is connected to the group of inputs of the device for forming the analog component, the group of outputs of which is connected to the group of inputs of the switching unit of the key circuits, the third and fourth groups of inputs the outputs of the control unit are connected respectively to the input-output groups of the read-only memory and the electrically erasable reprogrammable memory.

Images