♥️ 🐌 👩‍⚖️ Overview of domestic microchips complying with 719 regulation 🖐🏾 🚾 👨🏾‍🔬

It’s not a secret for many that in 2015 the Russian government adopted Resolution No. 719 “On Confirming the Production of Industrial Products in the Russian Federation”. The essence of the document is that products recognized as domestic should have preferences over imports for public procurement and other cases where state regulation is possible. The document also defines the principles on the basis of which the product receives domestic status and a register of such products is formed. For all the ambiguities of the criteria by which domestic products are determined, the document has a general outline - a more complex product is recognized as domestic if it uses domestic components, in particular microcircuits.

So, for example, in order for the products “Meters of consumption or production of gas, liquid or electricity” to be recognized as domestic, the requirements for it are established that the following operations must be carried out in the Russian Federation:

body manufacturing;
manufacturing of a counting mechanism;
production of printed circuit boards;
manufacture of control unit;
installation of at least 70 percent of electronic components on the printed circuit boards
assembly;
downloading and configuring Russian software;
adjustment and verification of metrological characteristics;
packaging;
compliance with the percentage of use of Russian electronic components (microprocessors, microcontrollers, memory circuits and interface chips) :

until December 31, 2019 - at least 10 percent,
from January 1, 2020 - at least 50 percent,
from January 1, 2022 - not less than 90 percent of the total number of these electronic components

For the "Data Storage System" a more complex calculation scheme is used, but in general it also introduces a restriction that

1 2021 . — 35 , , , , .

Similarly for other types of products, for example, “Programmable logic controller”, a requirement is introduced for the mandatory use of domestic microcircuits of the first and second levels.

For domestic microcircuits of the first and second level, Decree No. 719 also introduces criteria, so in order for the microcircuit to be of the second level, the rights to the topology should be registered on the territory of the Russian Federation, the development of the microcircuit itself and testing should also be carried out by enterprises belonging to jurisdiction Russian Federation. At the same time, the microcircuits themselves can be manufactured at foreign factories. Chips of the first level should be fully manufactured in domestic factories.

All products recognized as domestic are included in the register of domestic products, which is led by the Ministry of Industry and Trade.

What can be found in this registry regarding microchips? As of April 2020, the registry has a total of 22 entries with integrated circuits.

No.	Company	Name
1	JSC "PKK MILANDR"	Integrated circuit K1901VTs1QI
2	JSC "PKK MILANDR"	Integrated circuit K1986BE1QI (1986BE1QI)
3	JSC "PKK MILANDR"	Integrated circuit K1986BE92QI
4	JSC "PKK MILANDR"	Integrated circuit K1986VK214
5	JSC "PKK MILANDR"	Integrated circuit K1986VK234
6	JSC "PKK MILANDR"	Integrated circuit chip K5559IN10BSI (K5559IN10ASI)
7	JSC "PKK MILANDR"	Integrated circuit chip K5559IN14ASI (K5559IN14BSI, K5559IN14VSI)
8	LLC "TEKON MICROPROCESSOR TECHNOLOGIES"	Integrated circuit microprocessor Friendship series
9	JSC "BAIKAL ELECTRONICS"	Integrated circuit chip processor BE-T1000
10	PJSC "MICRON"	Chip K5016VG1 (MIK51SC72D)
eleven	PJSC "MICRON"	Chip K5016VK02-DOS3.0 (K5016VK02-D, MIK51AD144D)
12	PJSC "MICRON"	501601-04/501601-04 (MIK51144D-04)
13	«»	50162 (MIK51AB72D)
14	«»	1891018
15	«»	1891028
16	«»	189110
17	«»	189111
18	«»	189112
19	«»	18916
20	«»	18918
21	«»	19911
22	«»	19912

What are these microcircuits?

K1901VTs1QI (Milander)

Dual-core microcontroller: 32-bit RISC core with a clock frequency of up to 100 MHz, 16-bit DSP core with a clock frequency of up to 100 MHz. The K1901VTs1QI microprocessor is a system based on two computing cores: RISC (32 bits) operates at a frequency of up to 100 MHz (128 KB program memory / 32 KB data memory) and DSP (16 bits) operates at a frequency of up to 100 MHz (128 KB program memory / 128 KB of data memory). The set of interface peripheral modules includes a USB, UART, SPI, I2C, McBSP controller. The external system bus controller allows you to work with external chips of static RAM and ROM, Flash memory and other peripheral devices. The chip also has an SDIO interface.

The documentation for the microcircuit is available on the company's website:

→ Specification for K1901VTs1QI

There are various debug boards for the microcircuit .

K1986BE1QI (Milander)

32-bit microcontroller for aviation applications. Built on the basis of a high-performance RISC core with a clock frequency of up to 144 MHz. Contains 128 Kbytes of program flash memory and 48 Kbytes of RAM. The periphery includes a USB interface controller with a built-in analog transceiver with a transmission speed of 12 Mbps (Full Speed) and 1.5 Mbps (Low Speed), standard UART and SPI interfaces, aviation interfaces according to GOST 18977-79 and GOST P52070 -2003, a digital Ethernet interface with a transmission speed of 10/100 Mbit, an MII interface and a built-in analog physical-transceiver. Two CAN interface controllers. An external system bus controller that allows you to work with external chips of static RAM and ROM, NAND Flash memory and other peripheral devices.The microcontroller contains four 32-bit timers with 4 channels of capture circuits and PWM with the functions of forming a "dead zone" and hardware blocking. The microcontroller also contains a 24-bit system timer and two watchdog timers. The microcontroller contains a 12-bit high-speed (up to 512 Kbps) ADC with the ability to digitize information from 8 channels, a built-in temperature sensor and a reference voltage. The microcontroller has two 12-bit DACs.The microcontroller has two 12-bit DACs.The microcontroller has two 12-bit DACs.

The documentation for the chip is available on the company's website:

→ Specification for K1986BE1QI

There are various debug boards for the chip .

K1986BE92QI (Milander) A

32-bit microcontroller built on the ARM Cortex-M3 core, containing 128 KB of Flash-type memory and 32 KB of RAM. The microcontroller operates at a clock frequency of up to 80 MHz. The periphery of the microcontroller includes a USB interface controller, UART, SPI and I2C interfaces, an external system bus controller, which allows you to work with external chips of static RAM and ROM, NAND Flash memory and other external devices.

Microcontrollers contain various timers, ADC and DAC units, a comparator with three inputs and an internal voltage scale. The architecture of the memory system through the matrix of system buses allows you to minimize possible conflicts during system operation and increase overall performance. The DMA controller accelerates the exchange of information between RAM and peripherals without the participation of the processor core.

The documentation for the microcircuit is available on the company's website:

→ Specification for K1986BE92QI

There are various debug boards for the microcircuit .

K1986VK214 (Milander)

32-bit microcontroller based on a microprocessor 32-bit RISC core for a single-phase electric meter.

Chip documentation is available on the company's website:

→Specification for K1986BE214

There are K1986BK234 (Milander) debug boards for the microcircuit. A 32-bit microcontroller based on a 32-bit RISC core for a three-phase electric meter. The documentation for the microcircuit is available on the company's website: → Specification for K1986BE234 The K1986BE214 and BE234 microcircuits are used in various electricity meters . K5559IN10BSI (Milander) RS-485/422 interface transceiver with a data transfer rate of up to 2.5 Mbps. The documentation for the chip is available on the company's website: → Specification for K5559IN10 K5559IN14ASI (Milander) CAN interface transceiver.

The documentation for the microcircuit is available on the company’s website:

→ Specification for K5559IN14 Integrated

microcircuit chip of the Druzhba series (TEKON MICROPROCESSOR TECHNOLOGIES LLC)

The Druzhba microcircuit is a domestic chip-based system based on a processor core with RISCV architecture. This is a modern energy-efficient microcontroller with a wide range of interfaces used in industrial automation.

Brief technical specifications are presented on the company's website . Full documentation on the chip in open sources could not be found.

Integrated microcircuit processor BE-T1000 (JSC "BAIKAL ELECTRONICS")

BE-T1000 - a domestic system on a chip based on the MIPS Warrior P-class P5600 architecture. This is a modern energy-efficient processor with a rich set of high-speed interfaces, designed for a wide range of target devices in the consumer and B2B segments. The microcircuit contains 2 P5600 MIPS 32 r5 cores with an operating frequency of 1.2 GHz
1 MB L2 cache, DDR3-1600 memory controller, 1 10 Gb Ethernet port, 2 1 Gb Ethernet ports,
PCIe Gen.3 controller, 2 SATA 3.0 ports USB 2.0

The documentation for the chip is available on the company's website:

→ Brief Specification for BE-T1000

There is a debug board for the chip .

1891VM018 (MCST)

Integrated microcircuits 1891018, 1891018, 1891018 TVGI.431281.024 (marking - R-2000 and 1891018), code Sapphire-2 ”.

Not in the list of products on the company's website. Information is presented on Wikipedia

1891028 ()

Integrated microcircuits 1891028 TVGI.431281.025 (marking - Elbrus-81 and 1891028), code "Designator-10".

Not in the list of products on the company's website. Most likely it is a modification of the 189110 chip.

189110 ()

Integrated circuits 189110, 189110.

TVGI. 431281.016 (marking - Elbrus-8S and 1891VM10YA), code of OKR "Processor-1"
The chip of the central processor 189110 is a high-performance server-class computer. Contains 8 cores of the 4th generation Elbrus architecture with a clock frequency of up to 1300 MHz. It allows you to build multiprocessor servers and workstations, as well as on-board computers, demanding on the speed of processing and transmitting information.

Brief technical specifications are presented on the site .

189111 ()

Integrated microcircuits 189111, 189111 TVGI.431281.017 (marking - Elbrus-1 + and 189111), code "Designator-2".

The 1891BM11Ya central processor microcircuit is an economical representative of the 4th generation Elbrus architecture with an integrated video core and support for hardware acceleration of 3D graphics. Due to its low power consumption, it is suitable for personal computers, thin clients, industrial automation and embedded systems.

Brief technical specifications are presented on the site .

189112 ()

Integrated microcircuits 189112, 189112, 189112 TVGI.431281.023 (marking - Elbrus-8 and 189112), code "Designator-9".

The chip of the central processor 189112 is a server class computer with an improved set of vector instructions. Contains 8 cores of the 5th generation Elbrus architecture with a clock frequency of up to 1500 MHz. It allows you to build multiprocessor servers and workstations, as well as on-board computers, demanding on the speed of processing and transmitting information.

Brief technical specifications are presented on the site .

18916 ()

Integrated microcircuits 18916, 18916 TVGI.431281.009 (marking - R1000 and 18916), code RRC Champion 2.

MTsST R1000 (1891VM6Ya) contains 4 cores with SPARC V9 architecture and its own microarchitectural development of AO “MTsT”. VIS1 and VIS2 vector extensions are supported, as well as additional instructions for combined and packaged operations. Clock frequency up to 1000 MHz.

Brief technical specifications are presented in the catalog on the site .

18918 ()

Integrated microcircuits1891 8, 18918, 18918 TVGI.431281.010 (marking - Elbrus-4C and 1891VM8YA), code OKR "Tour guide-2".

Four-core universal high-performance microprocessor with improved Elbrus architecture. Clock frequency up to 800 MHz, technological norm 65 nm.

Brief technical specifications are presented on the site .

1991VG1YA (MCST)

Integrated microcircuits 1991VG1AYA, 1991VG1BYA TVGI.431291.001 (marking - KPI and 1991VG1YA), code ROC "Wagon-T".

The 1991VG1Ya Southbridge Chip is an ICST proprietary I / O controller that connects peripheral devices and buses to a central processor, providing a data transfer rate of up to 4 GB / s.

Brief technical specifications are presented on the site .

1991VG2YA (MTsST)

Integrated microcircuits 1991VG2AYA, 1991VG2BYA TVGI.431291.002 (marking - KPI-2 and
1991VG2YA), code OKR "Processor-8".

The south bridge microcircuit 1991VG2YA is an I / O controller of the 2nd generation of its own design, MTsST, which provides a data exchange rate with a central processor of up to 16 GB / s.

Brief technical specifications are presented on the site .

All the above microcircuits belong to the domestic second level, as they are manufactured at foreign factories. Next, the products of the factory PJSC "Micron", which are domestic first level.

MIK51SC72D (Micron) A single-

chip microprocessor with cryptography support and a dual interface (pin ISO 7816, non-contact ISO 14443A / B), ROM size 384 Kbytes, RAM size 8 Kbytes, EEPROM volume 72 Kbytes, has cryptography support DES, 3DES, AES-128, AES-256, RSA, EC-DSA. It complies with the requirements of GOST 28147-89, 34.11-94, 34.10-2001, 34.10-2012, 34.11-2012.

The documentation for the chip is available on the company's website:

→ Specification for MIK51SC72D

MIK51AD144D (Micron)

Single chip microprocessor with cryptography support and a dual interface (pin ISO 7816, non-contact ISO 14443 A / V, Mifare compatible) ROM capacity 256 Kbytes, RAM 8 Kbytes, EEPROM 144 Kbytes, has DES, 3DES, AES cryptography support -128, AES-256, RSA, EC-DSA. It complies with the requirements of GOST 28147-89, 34.11-94, 34.10-2001, 34.10-2012, 34.11-2012.

The documentation for the chip in open sources could not be found.

MIK51AB72D (Micron)

The most interesting chip, as it seems to be used in domestic passports. A single-chip microprocessor with cryptography support and a non-contact ISO 14443V interface. The amount of ROM 160 Kbytes, The amount of RAM 6 Kbytes, The volume EEPROM 72 Kbytes, has support for cryptography DES, 3DES, AES, RSA, EC-DSA, GOST 28147, GOST R34.10-2001, GOST 34-11.

The documentation for the chip in open sources could not be found.

MIK51AB144D-04 (Micron)

And although there are references to this chip in the news on the Micron website, it is not presented in the product list. Apparently this is the second generation of microcircuits for biometric passports.

The documentation for the chip in open sources could not be found.

This completes the official list of domestic microcircuits.

UPD: Thanks to the user hardegorfor clarification, indeed the products of the company MCST were found in the register. The publication is supplemented.

Unfortunately, the registry also could not find any resistors, capacitors, transistors or connectors.

Overview of domestic microchips complying with 719 regulation

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