Developers: | Micron |
Last Release Date: | 2021/12/23 |
Branches: | Electrical and Microelectronics |
Technology: | Internet of Things (IoT), Processors |
2024
Use of Embox OS in testing
Micron and Embox successfully tested the operation of the Embox domestic open cross-platform real-time operating system (OS RV) on the RISC-V debug board of the MIK32 Cupid microcontroller (K1948VK018). Micron announced this on October 29, 2024. Read more here.
Compatibility of smart cards and USB tokens Esmart Token GOST on MIK51SC72DV6 with "Red OS" 8
ESMART Token GOST key media in smart card and USB token form factors developed by ESMART on the basis of the domestic first-level microcircuit MIK51SC72DV6 manufactured by Micron have been successfully tested and confirmed the compatibility and correctness of using hardware and software systems with the operating system Red OS 8. The result of the joint tests officially confirms the bilateral certificate. Micron announced this on June 10, 2024. [1]Подробнее #.2A_.D0.A1.D0.BE.D0.B2.D0.BC.D0.B5.D1.81.D1.82.D0.B8.D0.BC.D0.BE.D1.81.D1.82.D1.8C_.D1.81.D0.BC.D0.B0.D1.80.D1.82-.D0.BA.D0.B0.D1.80.D1.82_.D0.B8_USB-.D1.82.D0.BE.D0.BA.D0.B5.D0.BD.D0.BE.D0.B2_Esmart_Token_.D0.93.D0.9E.D0.A1.D0.A2_.D0.BD.D0.B0_MIK51SC72DV6__.D1.81_.C2.AB.D0.A0.D0.B5.D0.B4_.D0.9E.D0.A1.C2.BB_8 здесь.
MIK32 "Cupid" based on the Arduino-compatible Elbear Ace-Uno board
Micron and Elron on April 22, 2024 presented a fully Russian Arduino-compatible ELBEAR ACE-UNO board controlled by a microcontroller MIK32 AMUR. Read more here.
MIK32 "Cupid" based on the prototype programmable logic controller
Micron April 18, 2024 presented prototype programmable logic controller (PLC) on the basis of Russian RISC-V a microcontroller MIK32 Amur. PLC is designed for industrial automation systems,,, mechanical engineering fuel and energy infrastructures lighting engineering, security systems, water supply systems and others, where uninterrupted operation is required. More. here
Launch of Amur MIK32
Micron began selling a fully Russian microcontroller with a kernel based on the open RISC-V architecture. The company reported this in February 2024.
We are talking about the Amur MIK32 chip (K1948VK018), which, as reported on the Micron website, is intended for industrial automation and the Internet of things, wireless peripherals, smart networks, security systems, alarm, telemetry, monitoring, smart home and climate management, lighting and other infrastructure systems. The manufacturer's website also lists the main characteristics of the microcontroller:
- interfaces - SPI, I2C, UART;
- temperature sensor;
- ADC 12 bits, 8 channels, sampling rate up to 1 MHz;
- DAC 12 bits, 2 channels, sampling rate up to 1 MHz, real time clock with support for the full calendar;
- Supported 1-32 MHz reference clock frequencies
- HDPE (Once Programmable ROM) - 256 bits;
- RAM - 16 KB;
- ROM (EEPROM) - 8 KB;
- maximum operating frequency - 32 MHz;
- plug-in external program memory (QSPI Flash) - up to 16 MB;
- External Program Memory Bus Cache - 1 kB
- 16- and 32-bit timers with PWM support, signal acquisition/comparison;
- hardware support for crypto algorithms GOST 34.12-2018 and AES128
- operating temperatures from -40 to + 85 degrees Celsius;
- QFN64 housing.
Micron claims that the new microcontroller has a number of advantages over the analogues that are used in Russia. Among the advantages are the full production cycle in the Russian Federation, the stability of supplies and independence from restrictions on the import of high-tech products, the lack of foreign intellectual property and a low price. MIK32 Amur is the first industrial microcircuit based on the RISC-V architecture in the company's assortment.[1]
2023
Confirmation of compliance with the requirements for domestic production of the first level
On December 21, 2023, Micron JSC reported that the Ministry of Industry and Trade of the Russian Federation confirmed the compliance of the integrated circuit of the AMUR MIK32 with the requirements for the products of domestic production of the first level.
The entire development and production cycle is localized in Russia with the support of the Ministry of Industry and Trade by the enterprises of the Element group and in cooperation with all interested manufacturers of electronic equipment - this is the subject result of our general work on state support programs for the industry. The targeted subsidy of the Ministry of Industry and Trade helped to take this important step in reducing dependence on foreign producers, - said Ilya Ivantsov, President of the Element Group of Companies. |
The microcontroller MIK32 AMUR was developed by NIIMA Progress and mastered in serial production by the Micron plant with the support of the Ministry of Industry and Trade of Russia with partial financing from the federal budget in accordance with the Decree of the Government of the Russian Federation of 17.02.2016 No. 109 "On the approval of the Rules for the provision from the federal budget of subsidies to Russian organizations for the financial support of part of the costs of creating a scientific and technical reserve for the development of basic technologies for the production of priority electronic components and electronic equipment."
MIK32 AMUR - the first completely domestic microcontroller with a core based on the open RISC-V architecture - is presented in the mass segment of microcontrollers, easy to program and use. Designed for industrial automation devices and the Internet of Things, including smart networks, wireless peripherals, alarm systems, telemetry, monitoring, smart home and climate management, lighting, security and other infrastructure systems.
The microcontroller operates at 32 MHz and is equipped with all the necessary types of I/O interface, timers and interrupt controllers. Built-in GOST cryptographic protection allows you to use AMUR MIK32 in critical infrastructure and facilities that have increased security requirements.
SAGA S-200 ATM ATM Implementation Plan
On July 20, 2023, JSC "" and Micron JSC "" SAGA Technology signed an agreement on long-term cooperation to solve problems, import substitution promote joint products for the Russian market development and production of self-service and automation devices based on the domestic electronic component base. As part of the agreement, it is planned to introduce the MIK32 Cupid microcontroller and other Micron serial chips into self-service devices. More. here
2022
Issue of more than half a million school Moskvyonok cards on the Micron chip MIK1K
The Zelenograd manufacturer RFID of products, the company ISBC , manufactured by the 2022-2023 academic year more than half a million school cards "" Moskvyonok on domestic a chip. This is twice as much as in 2021. ISBC announced this on September 2, 2022. More. here
Inclusion of seven chips in the register of domestic industrial products
The next batch of serial microcircuits produced by a resident of the Technopolis Moscow special economic zone of the Micron Group of Companies is included in the register of domestic industrial products. This was reported on June 27, 2022 by Micron from the words of the head of the Department of Investment and Industrial Policy, which is part of the Complex of Economic Policy and Property and Land Relations of the capital, Vladislav Ovchinsky.
The company received from the Ministry of Industry and Trade of the Russian Federation an opinion confirming the production in Russia of seven more serial integrated circuits for industrial use in plastic cases.
Expanding the line of chips in the register will help Russian companies localize industrial electronics based on them and reduce dependence on imported components. The company has already invested over a billion rubles in the development and development of new industrial and special-purpose microcircuits, - said Vladislav Ovchinsky. |
Power control chips and interface chips are used in telecommunications equipment, electrical meters, industrial equipment and consumer electronics. They are part of both household electronic equipment and specialized medical, measuring, navigation equipment and robotic devices.
The convenience of the infrastructure logistics and sites of the capital's SEZ contributed to the resident regularly expanding the line of his products, which already includes more than 700 types of terminal of various types. microelectronics Thanks to the microcircuits included in the register of domestic industrial products, the total number of products produced by the Micron Group of Companies in it has grown to 31 names, - said the general director of the Technopolis SEZ. Moscow Gennady Dögtev |
Evgeny Kuzmin, Deputy General Director for Commercial Activities of Micron JSC, noted that microcircuits are made in popular and massively used types of cases for surface mounting, which are used in a large range of electronic equipment. Thanks to the support of the Ministry of Industry and Trade, the company provides customers - manufacturers of devices and systems of industrial electronics with the ability to localize products, reduce dependence on components of foreign production and external factors.
2021
Conclusion of the Ministry of Industry and Trade on confirmation of production in Russia
On December 23, 2021, the Micron company announced that it had received an opinion from the Ministry of Industry and Trade of the Russian Federation confirming the production of a number of microcircuits in plastic cases in Russia.
In a situation of a global shortage of electronic components, import substitution has become not only a matter of technological sovereignty, but also a way to ensure the uninterrupted production of electronic equipment, "said Yevgeny Kuzmin, Deputy General Director for Commercial Activities of Mikron JSC. Thanks to the support of the Ministry of Industry and Trade aimed at stimulating demand, we are expanding mass production of microcircuits on the Russian market in order to provide our customers with the ability to localize final products. |
As of December 2021, power management chips, as well as interface chips, are included in the register of industrial products produced in the Russian Federation. These products are used in telecommunications equipment, electrical meters, industrial equipment and commercial electronics: from household appliances and electronic musical instruments to medical equipment, and robotic devices. The list of chips in the register will be continuously replenished, in plans expansion of a line of chips in such used plastic casings as SO-8, ESOP-8, SOT-223, SOT-23, TO-263, TO-252.
The conclusion on confirmation of the production of microcircuits in Russia was issued based on the results of consideration of documents in accordance with Decree of the Government of the Russian Federation of July 17, 2015 No. 719 "On Confirmation of the Production of Industrial Products in the Russian Federation."
As of December 2021, 22 positions of Micron's production were included in the register of industrial products, including: microcircuits and chip modules for bank cards and identification documents, microcircuits, inlets and solutions for transport, MCDS and RFID, IoT microcontroller, power management microcircuits, interface microcircuits.
Industrial Chip Line Upgrade Project for Extreme Applications
The resident of the SEZ "Technopolice' Moscow" company "Micron" is modernizing the production of industrial microcircuits for efficient operation in the most extreme conditions. This was announced on September 24, 2021 by the head of the Department of Investment and Industrial Policy of Moscow, Alexander Prokhorov. Read more here.
2020: Entry of Micron transport tickets into the Register of Russian Industrial Products
Micron, a Russian manufacturer and exporter of microelectronics, on December 16, 2020 announced the receipt of an opinion from the Ministry of Industry and Trade of the Russian Federation on confirming the production of a paper contactless ticket and a contactless smart card in Russia. The conclusion was issued based on the results of consideration of documents in accordance with the Decree of the Government of the Russian Federation of July 17, 2015 No. 719 "On Confirmation of Production of Industrial Products in the Territory of the Russian Federation."
As of December 2020, the line of Micron products included in the Register of Domestic Industrial Products is 10 products.
An automated fare payment system with contactless tickets is part of the smart city's infrastructure. As experience shows, the transition to RFID tickets reduces to zero the possibility of faking transport documents, allows you to improve passenger traffic accounting and ensures passenger comfort. The data collected are used to optimize the operation of existing routes and plan the development of the transport network, which leads to an overall improvement in the quality of urban transport.
Micron has been producing and supplying contactless tickets in various form factors for Russian and foreign transport systems for more than 10 years. The replication of experience on a national and international scale is carried out by the Micron Competence Center of SME LLC.
The use of domestic microelectronic products in critical industries such as transport, medicine, finance ensures the information security of users and the technological sovereignty of the country.
For December, 2020 the Register of domestic industrial output included also following products of Micron: chips of K5016XC1M1H4 (MIK640M1D, MIK64PTAS) and MIK1KMCM for transport tickets, a chip for NFC of tags MIK213ND, a chip of K5016VK01-D (MIK51BC16D) for cash cards, a chip for identification documents K5016VK02-DOS3.0 (K5016VK02-D, MIK51AD144D), K5016TS01-04D/K5016TS01-04B (MIK51AB144D-04) and K5016HS2 (MIK51AB72D), a secure chip of K5016VG1 (MIK51SC72D).
2019
Readiness to start serial production of the first Russian dual banking chip
On September 9, 2019, Miron, NIIME and NSPK announced the completion of the development, certification and preparation of production for serial production of the first-level domestic microcircuit K5016VK01 (MIK51BC16D), the first Russian dual banking chip for contact and contactless payments.
A dual banking chip with support for the HF standard, developed by the Research Institute of Molecular Electronics (NIIME), in July 2019 was certified by the National Payment Card System (NSPK) for use in the Mir payment system and included in the list of recommended card platforms with the name MIKPay.MTD.D6.
The bank chip, developed and produced in Russia, ensures the reliability of all transactions in the payment system, this is an important factor in the country's technological sovereignty. The production capacities of Micron make it possible to fully satisfy the current need of NSPK in domestic chips, - said Gulnara Khasyanova, General Director of Micron PJSC. |
Chip modules will be produced according to the process standards of 180 nm. According to the results of the assessment, the dual microcircuit meets all the required levels of quality, safety and functionality.
The integrated circuit is a universal single-chip microprocessor with a dual interface and is designed for use in secure access systems that have high requirements for the level of information protection, "said Alexander Kravtsov, chief designer of NIIME. |
The chip is implemented on a dual payment platform MIKPay.MTD.D6 domestic development based on the Russian technologies as an alternative to foreign-made chips used in the release of cards for. Russian banks Supports certified international and Russian. cryptographic algorithms enciphering
The bank chip is a Russian-made chip of the first level. As explained in Micron, the chip is the most critical and technologically complex element of the national payment system, ensures the reliability of the bank card and the security of transactions at the hardware level.
IoT devices based on a crypto-secure microcontroller MIK51SC72D
On April 16, 2019, Micron introduced a line of IoT devices based on a crypto-secure microcontroller of the first level of MIK51SC72D.
The first-level MIK51SC72D microcontroller is certified as a cryptographic means information protection (CIPF) according to the KS3 class and supports domestic algorithms enciphering GOST R34.12-2015 and GOST 28147-89, which provides high transmission security data and protection against hacks at the hardware level.
author '= Gulnara Khasyanova, General Director of Micron PJSC ' Solutions with certified crypto protection are especially relevant at critical infrastructure facilities such as power grids, housing and communal services, urban and transport infrastructure. Our line in this segment, which is developed and produced jointly with integrator partners and equipment manufacturers, includes more than ten devices as of April 2019. The use of a microcontroller of the first level Micron in these devices ensures security at the hardware level. |
The line of IoT devices Micron includes a controller of lighting systems, a tracker for cargo transportation, industrial sensors, utility meters (water, gas, electricity, heat supply), as well as a sensor for monitoring the filling of containers with household waste. The devices are developed and manufactured jointly with Russian partners for use at enterprises interested in using domestic ECB in their digital infrastructure.
Up to 80% of the total component base required for the Internet of Things can be carried out at domestic enterprises, thereby solving the problem of secure connection and exchange of data with IoT devices and eliminating vulnerabilities against which protection cannot be implemented only at the hardware level.
As of April 2019, ten Micron integrated circuits have the status of first-level Russian-made products, which meet the needs of existing and promising projects related to the introduction of state electronic documents and the development of banking and transport spheres, information protection tools and critical infrastructure.
2018
The start of the release of Rutoken 2151 devices based on Micron chips
Micron Group of Companies and Aktiv Company, a Russian manufacturer and developer of information security software and hardware, on April 11, 2018 announced the start of production of USB tokens and Rutoken smart cards based on domestic microcontrollers Micron. Read more here.
Release of 6-pin chip modules
At the end of March 2018, Micron announced the start of production of 6-pin contact chip modules for bank cards, identification documents and other electronic personal data carriers.
As part of Micron's industrial strategy, we are continuously improving and modernizing production to meet the growing demand for smart card chips. At the current stage, we are investing 220 million rubles until mid-2018. The next planned step was the development in the production of carrier tape, made specifically for our current projects. The development of this technological process allows us to increase productivity by one and a half times on the sealing line of chip modules, - said Deputy General Director for Production Sergey Ranchin. |
The tape - a carrier for 6-pin chip modules - was made according to the project of the technological department of Micron. The advanced technological process allows you to optimize the use of materials when enclosing microcircuits and significantly increase productivity in this area, the company emphasized.
As of March 27, the carrier tape is used to produce chip modules for bank cards of NSPK Mir. The first batch of chip modules has already been delivered to the customer.
Functional Silicon Microwave Component Library Tests
In February 2018, Micron completed testing of a library of complex functional silicon microwave components operating at a frequency of up to 3 GHz. According to the company, the created units will reduce the cost of receiving and transmitting modules and increase the energy efficiency of radar systems used in navigation and auto electronics.
The market is already waiting for this development, since expensive arsenide-gallium technology can be replaced with silicon without loss in resistance, reliability and quality, which is relevant, for example, in location systems of airports, in shipping and cars of the future, - said Denis Adamov, Advisor to the General Director of Micron. - Our next step will be a chip that integrates the functions of receiving and transmitting and processing a digital signal to make radio systems more compact and non-volatile, which is in demand in auto electronics for driver assistance systems and autopilot vehicles. |
As part of the development work, Micron created a library of IP blocks, which will allow developers to design their own silicon microwave chips and produce them at Micron in the background mode.
2017
The line of production of chip modules has been modernized
On December 19, 2017, Micron announced the launch of a line for the production of chip modules for bank cards, identification documents and other electronic personal data carriers.
Until mid-2018, the volume of investments in this stage of modernization will amount to 220 million rubles.
The first sealing lines of chip modules were opened on Micron in 2005 and became the basis of the assembly shop, which as of December 19, 2017 provides a full assembly cycle of a line of RFID products and chip modules for identification documents using its own integrated circuits, including supplies products for export.
Release of 2 million Mir cards with a MIK51BC16D chip
On November 20, 2017, a memorandum of cooperation was signed between Post Bank and the National Payment Card System, providing for the release of the largest batch of Mir cards on the market with the Russian microchip MIK51BC16D manufactured by Micron.
The first batch of Mir cards with a Russian microchip of 400 thousand units has already been sent to the regions of the bank's presence. The cards are delivered by the shareholder of Post Bank - Russian Post. Read more here.
MIK213ND received the status of a domestic microcircuit of the first level
The Ministry of Industry and Trade of the Russian Federation has confirmed that the microcircuit developed by NIIME and manufactured by Micron for NFC tags meets the MIK213ND requirements for first-level domestic production. Micron announced this on October 10, 2017.
The MIK213ND chip is used in radio frequency tags to mark a wide range of objects, including wood, metal, glass, plastic, paper, mainly for marketing purposes. According to representatives of Micron, the Russian MIK213ND microchip, which meets NFC Forum Type 2 Tag standards, is the first domestic chip with an NFC interface. It does not require a special reader, any device with an NFC module can be used to read.
We began producing a MIK213ND chip in 2017 for RFID labeling of Micron products. RFID NFC label contains information about the batch, production date, name of the chip. It also serves as a kind of protection of goods from fakes and brand protection, "said Alexey Markin, head of the RFID laboratory" Micron. " |
MIK213ND is a universal single-chip microprocessor designed for use in radio frequency tags. It provides contactless information transfer at a distance of up to 100 mm, depending on the geometry of the antenna and the power of the reader-recorder. The microchip transmits data at 13.56 MHz at 106 kbit/s.
The MIK213ND microcircuit is already used in electronic maps in a pilot project for chipping wood in the Irkutsk region, as well as for internal warehouse accounting at Mikron PJSC.
MIK51BC16D certified as a first-level domestic microcircuit
On September 12, 2017, the Department of Radio-Electronic Industry Ministry of Industry and Trade Russia , based on the results of consideration of the application for confirmation of the production of industrial products in the Russian Federation, confirmed the compliance of the K5016VK01 microcontroller (MIK51BC16D), manufactured on "Microns" and certified for use in maps, with NATIONAL PAYMENT CARD SYSTEM "Mir" the requirements for integrated circuits of Russian production of the first level.
The Russian market for payment systems is built mainly on foreign-made microcircuits. Our chip allows us to make a completely Russian solution, "said Gulnara Khasyanova, General Director of PJSC Micron. "This is an important factor in technological independence and security, which applies to the entire line of smart cards and ID documents." |
The K5016VK01 integrated circuit (MIK51BC16D) is a universal single-chip microprocessor with a dual interface, manufactured using CMOS (complementary metal-oxide-semiconductor structure) technology and designed for use in secure access systems that have high requirements for the level of information protection. It is used in microprocessor cards for issuing banks, including the Russian national payment system Mir.
The status of domestic microelectronic products of the first level confirms that the design and development of this integrated circuit does not use ready-made circuitry solutions of foreign production, development, manufacture and assembly are carried out on the territory of the Russian Federation by a resident company.
MIK51BC16D chips (K5016VK01) are recommended for use in the Mir payment system
On May 25, 2017, the company "Micron" announced the inclusion of MIK51BC16D (K5016VK01) chips in the list of recommended for use in the national payment system. "Mir" This decision was made by JSC "National Payment Card System" based on the results of the security assessment of the card platform.
Microcontroller for bank cards manufactured by PJSC Micron is made in the form of a microprocessor with support for certified international and Russian cryptographic algorithms. Created on the contact payment platform MIKPay.MJC.D4 with the Mir payment applet installed in ROM memory.
The MIKPay card platform, on the basis of which a family of microprocessors was created for various systems with payment functionality, contact and contactless interface, was developed by specialists of NIIME JSC based on Russian technologies as an alternative to chips of American, European and Asian production used in issuing cards for Russian banks.
The microcontroller is manufactured at Micron PJSC according to technological standards of 180 nm, complies with international quality standards and ensures a high level of safety and security of personal data of users. The microchip has memory for writing and using applications: ROM - 256Kbyte, EEPROM - 16Kbyte.
The security and stability of the national financial system depends to a large extent on state control over all its elements. Certification of a Russian-made bank microchip in the national payment system is the expected development of the state import substitution program and support for the implementation of the plan of guaranteed purchases of Russian microelectronic products. Russian banks, in turn, will be able to issue completely domestic payment cards for their consumers, thereby strengthening the reliability of the national payment system. Gulnara Khasyanova, General Director of Micron PJSC |
The Russian-made bank chip of the first level of the previous generation is produced on Micron with a circulation of more than 700 thousand units and is used by a number of Russian banks in the production of domestic bank cards for the Mir payment system.
Ministry of Industry confirmed the status of products
On January 27, the Ministry of Industry and Trade of the Russian Federation confirmed that the integrated circuits developed by JSC NII Molecular Electronics (JSC NIIME) and manufactured by PJSC Micron meet the requirements for Russian-made integrated circuits of the first level K5016KhS2 (MIK51AB72D) and K5016TS01-04D/B (MIK51AB144D-04).
Microna microcircuits, which have already received the status of Russian-made products of the first level, completely cover all the needs of existing and promising projects related to the introduction of state electronic documents and the development of the banking sector. In the near future, we plan to obtain confirmation of the status of Russian-made integrated circuits of the first level for our RFID chips and microcontrollers used in transport applications, product labeling and in system projects in the field of the Internet of Things. Gulnara Khasyanova, General Director of Micron PJSC |
Integrated circuits K5016-series (MIK51ABxxx)
As of January 27, 2017, K5016-series integrated circuits (MIK51ABxxx) are designed for use in secure access systems that have high requirements for the level of information protection.
Microcircuits of this series (K5016KhS2 (MIK51AB72D) and K5016TS01-04D/B (MIK51AB144D-04)) are designed for the manufacture of passport and visa documents of citizenship of the Russian Federation (biometric passports), various state electronic identification documents:
- identity cards of a citizen of the Russian Federation,
- serviceman's certificates,
- compulsory medical insurance policy,
- electronic driver's license
- others.
2016: MIK51SC72D (K5016VG1) - integrated circuit of the first level
On December 14, 2016, Micron received confirmation of the recognition of microcircuits developed for Mir bank cards as domestic first-level integrated circuits. Compliance with the level was confirmed by the Ministry of Industry and Trade.
The Ministry, represented by the Department of International Cooperation, confirmed the compliance of microcircuits with K5016VG1 (MIK51SC72D) integrated circuits of the first level. These microcircuits are used to create bank cards of the Mir payment system. [2]
To recognize products as a second-level integrated circuit, it is necessary that its manufacturer was an enterprise from the Eurasian Economic Union that owns the rights to design and technological documentation, including used complex functional units that are not the subject of its own development.
Such documentation should allow the enterprise to produce these products for at least five years. In addition, the company must design, develop and test integrated circuits in Russia.
In order to recognize products as Level 1 integrated circuits, in addition to these requirements, the manufacturer must perform the following operations in Russia:
- development of the structure,
- development of logical and electrical circuit diagram of integrated circuits,
- development of integrated circuit topology;
- development of software for integrated circuits;
- manufacture of full-cycle plates (except for photomabels) with crystals and their measurement;
- assembling the crystals in the housing;
- measurement and testing of integrated circuits.
For integrated circuits of the first level, it is not allowed to use in their design and development of ready-made circuitry solutions of foreign production.
The K5016VG1 integrated circuit is a specialized controller with two types of interface, manufactured using CMOS technology. It is intended for use in secure systems as identification documents, bank cards, secure access system, digital signature and transfer system. The chip provides a high degree of protection against fraudulent activities, so it is used in Mir cards.
The same chip manufactured by Micron is used in the creation of electronic keys (tokens). In these cases, other software is installed on the chip.
The Chamber of Commerce and Industry conducted an examination of Micron's application for the recognition of these microcircuits as domestic. Micron provided all necessary information for the examination, including:
- list of the main equipment used in the manufacture of the microcircuit;
- chip specification;
- a set of design and process documentation;
- route to basic technology;
- product manufacturing routes;
- documents confirming expenses related to the production of final industrial products, etc.
The company "Micron" announced its superiority in obtaining confirmation from the Ministry of Industry and Trade of the status of domestic integrated circuits of the first level.
If the established criteria for classifying microcircuits as domestic goods are actively used to create preferences for domestic products during state tenders as part of the implementation of the government's plan for guaranteed purchases of Russian microelectronic products, this will protect both the national market and national manufacturers. The new state course on import substitution, which gave a qualitative impetus to the development of the domestic electronic industry, will contribute to the further development of Russian electronics within the framework of completely new market trends - such as the Internet of Things and the industrial Internet. Gulnara Khasyanova, CEO of Micron |
2015: Description of MIK51SC72D (K5016VG1)
On June 15, 2015, it became known about plans to use MIK51SC72D to implement the company's bank cards in production. NATIONAL PAYMENT CARD SYSTEM
The microchip is developed on the basis of Russian technologies as an alternative to chips of American (Atmel), European (STMicroelectronics, NXP, Infineon) and Asian production (Samsung, Renesas), which are used by Russian banks when issuing cards.
Properties of the MIK51SC72D
- Dual (contact ISO 7816, contactless ISO 1443A/B)
- ROM - 384 KB
- RAM - 8 KB
- EEPROM - 72 KB
- Encryption - DES, 3DES, AES-128, AES-256, RSA up to 2048-bit, EC-DSA, GOST 28147; 34-11; P34.10-2001
- Certification - EMVco and MasterCard
MIK51SC72D is a microcontroller designed to control an electronic key. Made in 180 nm topology.
On March 16, 2015, it became known about the joint development of a microchip with a hardware implementation of cryptographic algorithms to verify an electronic signature. Product creators: Micron plant and ISBC[3].
Based on the microcircuit, it is planned to produce electronic keys (tokens) and smart cards.
Smart card based on a Russian-designed chip, 2014
ISBC has created software for the chip and its integration with electronic signature programs developed by Crypto PRO and InfoTeCS.
The chip hardware is not unique. Due to the installation of certified payment applications MasterCard M/Chip (Java applet used in the PRO-100 payment system) and the Java Card virtual machine in the chip, it is used in various identification and payment cards. Among them, according to the statement of the developers of the plant, there is a universal electronic card, various transport cards, payment cards of the PRO100 system, social cards and employee identification cards.
According to ISBC experts, the uniqueness of the MIK51SC72D chip is due to the fact that this is the first microcontroller for electronic keys created by a Russian company in Russia without leaving the country, which, according to the developers, guarantees the absence of bookmarks.
The microcircuit at the hardware level implements cryptographic algorithms for checking the electronic signature of GOST R34.10-2001, R34.10-2012, hardware support biometric authentications (fingerprint verification) and a built-in virtual machine. Java
Serial production of the microcontroller may begin in April 2015. The amount of circulation depends on the needs of the customers.