INTEGRATED CIRCUIT
DESIGN CENTER SERVICES

  • Milandr are privately held Russia-based ASIC design services company, designing analog, RF, mixed-signal and memory integrated circuits. Corporate headquarter and main IC design house is located in Russian silicon valley — Zelenograd. Our test house is also attractive feature of services we provide. Both divisions, design center and test house, allow us to face the future, develop modern chips, constantly raise our technical level up, and make products upgrade in time.
    • Power-management unit design
    • Analog design (ADC, DAC, PLI...)
    • Complete set of MCU analog IP design
    • RF IC design
    • MCU & DSP
    • High-level model-building using programming language C/C++ and SystemC
    • Dividing into software and hardware modules, study of system parameters
    • Obtaining specifications (set of required parameters) for software and hardware blocks, hardware design and verification
    • RTL model design using Verilog language
    • FPGA prototyping
    • Project synthesis using foundry libraries and timing specification
    • Analog block design
    • Mixed signal verification
    • Layout design and verification, “cross talk” analysis, power grid optimization, production test
    • Pattern generation
    • Physical prototyping

DESIGN CENTRE

Consists of a number of divisions,
integrated in one product design process

EXAMPLES OF
COMPLETED PROJECTS

  • digital IC DESIGN
    • High performance ARM®-based 32-bit Cortex®-M3 MCU
      • 32-bit ARM Cortex-M3 processor, running at frequencies of up to 80 MHz;
      • 1.25 DMIPS/MHz (Dhrystone 2.1) performance at 0 wait state memory access memory Protection Unit (MPU);
      • Single power supply 2.2-3.6V;
      • 128 KBytes of Flash memory;
      • 32 KBytes of SRAM;
      • External system bus controller of with support of SRAM, ROM and NAND Flash Ic’s;
      • 2 x12-bit ADC (up to 16 channels);
      • Temperature sensor;
      • 2 x 12-bit DAC;
      • Internal comparator;
      • Internal DMA controller;
      • 2 controllers of CAN interface (2.0B);
      • USB OTG controller (Device and Host);
      • Controllers of UART, SPI, I2C interfaces;
      • Up to 108 user lO’s;
      • 2 x 32-bit timer unit (timer/Capture/PWM);
      • Serial wire debug (SWD) interfaces and JTAG;
      • 180 nm CMOS process.
    • Ultra Low-power ARM®-based 32-bit Cortex®-M0 MCU
      • Low-power ARM® 32-bit Cortex®-M0 CPU Core;
      • Frequency up to 36MHz, supply current in run mode < 21mA;
      • Single power supply 2.2-3.6V;
      • 128Kbite Flash, 16Kbite SRAM;
      • Internal DMA;
      • 24-bit IA ADC 8 channel MUX;
      • DAC 12 bit;
      • Comparator SAR ADC 12 bit, 8 channel MUX;
      • UART, SSP;
      • 2 x 16-bit timers with input capture/ output compare/PWM functions;
      • Up to 36 I/Os;
      • Serial wire debug (SWD) interfaces and JTAG;
      • 180 nm CMOS process.
    • 32-bit MCU embedded Ethernet solution
      • 32-bit CPU Core;
      • Frequency up to 144MHz;
      • Single power supply 3.0-3.6V;
      • 128Kbite Flash, 48Kbite SRAM;
      • 2 x SAR ADC 12 bit, 8 channel MUX;
      • USB OTG +PHY, 2 x CAN bus controllers;
      • ADC 12-bit, UART, SPI;
      • 16-bit £A ADC + DAC;
      • Up to 144 I/Os;
      • 2 x Ethernet 10/100 controller + PHY transceiver;
      • 4 x MIL STD 1553 controller;
      • ARINC-429 controller 14Rs/4Ts;
      • Serial wire debug (SWD) and JTAG interfaces;
      • 180 nm CMOS process.
    • High performance ARM®-based 32-bit Cortex®-M3 MCU
      • 4 Channel controllers + PHY;
      • 1 additional port for chips interconnection;
      • (cascading is available up to 8 ports);
      • External oscillator 25 MHz, internal PLL;
      • MAC detection, routing + CRC;
      • 180 nm CMOS process.
  • DSP design
  • Power management design
    • Low Input /Low Dropout 2A Regulator
      • Low Input /Low Dropout 2A Regulator;
      • 800mV dropout d> 2A;
      • Adjustable output;
      • from 1 .OV to 4.5 V @ Input Voltage from 2.0V to 5.5V;
      • Fixed output;
      • 1.2V @ Input Voltage from 2.0V to 5.5V;
      • 1.8V @ Input Voltage from 2.6V to 5.5V;
      • 2.5V @ Input Voltage from 3.3V to 5.5V;
      • 3.3V @ Input Voltage from 4.1 V to 5.5V;
      • Enable pin;
      • Over current and over temperature protection;
      • 0.6 urn CMOS process.
    • Step-down DC-DC converter with 1.5A load current
      • Output accuracy 3%;
      • Input voltage: 3.0 to 5.5V;
      • Output voltage 3.3 V/2.5V/1.1 V (selectable) from 1.1 V to Uin (adjustable);
      • Load current up to 1.5 A;
      • Supply current up to 400 uA;
      • PWM and PFM modes;
      • Analog IC design;
      • Adjustable soft-start inrush current limiting;
      • 100% duty cycle during low-dropout operation;
      • Thermal shutdown;
      • Low power consumption mode;
      • 0.6 urn CMOS process.
    • Low power small area fully integrated Power Management Unit IP
      • 1.8-3.75V single battery supply source;
      • Programmable 3+3.6V±5% output voltage (3 bits voltage control);
      • Clean LDO output voltage;
      • Programmable 1.7-2.1V±5% output voltage (3 bits voltage control);
      • Extremely low shutdown current for each supply of 1 A max;
      • Synchronized operation switching for the each DC2DC with different phases;
      • Soft start for each regulator;
      • Short circuit protection for each regulator;
      • Enable controls for each regulator;
      • Startup time from power up to active <0,3 sec;
      • 32KHz RC oscillator with 6% accuracy;
      • Sleep logic for converters wakeup;
      • POR circuit;
      • BandGap voltage generation;
      • 180 nm CMOS Procces.
  • Wired interfaces team
    • LVDS transceiver
      • TIA/EIA-644-A LVDS;
      • Bit rate 400Mbit/s;
      • 2 receivers, 2 transmitters;
      • Single power supply 3,0-3,6V;
      • 180 nm CMOS process.
    • CAN BUS transceiver
      • ISO 11898-2;
      • Bit rate 1 Mbit/s;
      • Single power supply 4.5-5.5V;
      • 0.6 urn SOI CMOS process.
    • LIN transceiver
      • LIN 1.3 and 2.1 standart;
      • Low EME, transmission rate controlled limiting, data transmission rate up to 20Kbit/s;
      • Low rate data transmission for low EME at up to 10,4Kbit/s;
      • Transmission line input voltage: –27 to +40V;
      • Low EMI sensitivity;
      • Control inputs are compatible with logic levels 3.3 V и 5 V;
      • Integrated matching resistor 30 kOhm for use as LIN network slave unit;
      • Overheating protection;
      • LIN output short-circuit protection;
      • Low power consumption in power off mode;
      • Single power supply 4,5-27,3V.
    • Ethernet commutator 10/100
      • IEEE 802.3 10Base-T и 100Base-TX;
      • 4 channel controllers + PHY;
      • 1 additional port for chips interconnection (cascading is available up to 8 ports);
      • External oscillator 25MHz, internal PLL;
      • MAC detection;
      • Routing + CRC;
      • Single power supply 3,0-3,6V.
    • DVI receiver
      • DVI 1.0 standart;
      • Supports pixel rates up to 165 MHz;
      • Reduced power consumption, 1.8 V core;
      • Single power supply 3,0-3,6V;
  • RF IC and ADC design
    • 14-bit High speed pipeline ADC
      • Resolution 14 Bit Sample rate 125 MSPS;
      • Parallel CMOS and LVDS output;
      • Single power supply 1.8V;
      • SNR - 69.9dBFS;
      • INL - 3.0 LSB;
      • 180 nm CMOS process.
    • Power Line Communication Analog Front End (PLC-AFE) IP
      • It is a complete PLC-AFE solution which provides the transmitter (Tx) and receiver (Rx). The transmitter contains digital to analog converter (DAC), Programmable Amplifier, and a line driver. It drives an OFDM modulated signal to the AC power line. The receiver contains programmable gain amplifier, High Pass Filter, and an analog to digital converter (ADC) that samples the AC power line. Additionally the low pass filter is shared between RX and TX path.
        The PLC AFE supports frequency band 3kHz- 490kHz covering following PLC standards:
      • G3(ERwDF)
      • PRIME
      • IEEE1901.2
      • ITU-T G.9955
      • The PLC AFE is compliant with following standards:
      • CENELEC EN50065-1
      • FCC15 part B
      • ARIB STD-T 84
    • The RF UHF Analog Front End (RF AFE) transceiver IP
      • The RF UHF Analog Front End (RF AFE) transceiver is integrated in a OFDM/FSK Mobix SoC chip produced in TSMC 0.18um G RF process. The RF AFE includes the Receiver and Transmitter analog parts of the chip.

        Both RX and TX are based on direct conversion, Zero IF architecture.

        The AFE includes all the analog components required for receive and transmit of the following standards:
      • IEEE 802.15Ag (BPSK/QPSK/16-QAM/FSK) 450MHz - 960MHz
      • ISO 18000-7 (FSK) 433.915MHz-433.925MHz
      • MBUS DIN EN 13757-4 (FSK) 868MHz - 870MHz
      • ISM band (BPSK/QPSK/16-QAM/FSK) 314MHz-960MHz


      • The AFE is composed of 5 main sections:
        AIA fractional synthesizer (with a fraction divider) is used for the FSK transmission modulation. When receive/transmit OFDM or receive FSK or transmit FSK modulations are used, the synthesizer output is used as a reference modulation frequency. An OFDM transmission section which includes dual ZA DAC converters, up- conversion to RF frequency and a controlled gain Power Amplifier (PA).
        A receiver section for all modulations which includes a signal gain circuit, down- conversion to zero IF, programmable LPF and ZA ADC conversion.
        Auxiliary measurements section that measures RSSI values at several (RFRS5I, BBRSSI, TSSI) points of the design and an external temperature sensor.
        Oscillators circuit and Main PLL. The external oscillator circuit provides means to connect a crystal as a reference source clock. The main PLL provides an accurate clocks for the converters and the SoC. 180 nm CMOS Procces.
  • PLL & oscillator design
    • PROGRAMMABLE 12-50 MHZ TCVCXO
      • Frequency range: 12 MHz to 50 MHz;
      • Sine and CMOS mode;
      • Fully analog compensation method;
      • Frequency tolerance:
      • ± 2 PPM (- 60 C° to +85 C°, RL=10 kO. CL=10 pF);
      • ± 1 PPM (- 40 C° to +85 C°);
      • Frequency vs. Load Change ±10%: ±0.2 ppm;
      • Frequency vs. Supply Voltage ±5%: ±0.2 ppm;
      • Current consumption: 8.075 mA Max;
      • Output voltage:
      • 0,1 UCC (UOL), 0,9 UCC (UOH) @CMOS mode,
      • 0.8 V Min (peak-to-peak) @sine mode;
      • Single power supply: 3.135-5.25V;
      • 0.6 urn BiCMOS procces.
    • 12 GHz SiGe fractional-N PLL
      • Frequency range: 0.1-12 GHz;
      • Reference frequency up to 250 MHz;
      • Programmable prescaler 8/9, 4/5;
      • Fractional or integer modes;
      • Figure of Merit (FOM) -229 dBc/Hz (integer mode);
      • Read / Write Serial Port;
      • Cycle Slip Prevention;
      • Single power supply 3.0-3.6V;
      • 180 nm SiGe Procces.
    • PROGRAMMABLE 1-220 MHZ clock generator
      • Frequency range: 1 MHz to 220 MHz;
      • Reference frequency: 18 MHz to 24MHz;
      • Single power supply: 1.8/2.5/3.3 V;
      • Frequency vs. Supply Voltage ±10%: ±2 ppm;
      • Duty (25C°): 45% to 55%;
      • Current consumption: 20 mA;
      • Stand-by current: 10 pA Max;
      • Output voltage: 0,1 UCC (UOL), 0,9 UCC (UOH);
      • 0.35 urn CMOS procces.
    • 6 GHz SiGe fractional-N PLL+VCO
      • Frequency range: 23.5-6000 MHz;
      • Reference frequency up to 200 Mhz;
      • Fractional or integer modes;
      • Maximum phase detector rate
      • 100 MHz (integer mode)
      • 50 MHz (fractional mode);
      • Ultralow phase noise-100.5 dBc/Hz in band;
      • Figure of Merit (FOM) -226 dBc/Hz (integer mode);
      • Read / Write Serial Port;
      • Cycle Slip Prevention;
      • Fast frequency hopping;
      • Single power supply 3.0-3.6V;
      • 180 nm SiGe Procces.
  • Memory design

DESIGN CENTRE overview

DESIGN PROJECT STRUCTURE

  • Memory
  • RF & ADC
  • Digital
  • Wired
  • PLL & OSC
  • Power
  • Mixed signal
  • MCU & DSP

~ 100
completed projects

> 30
active projects

READY TO USE
ANALOG BLOCK SOLUTIONS

Solution XFAB TSMC GF
0,180 0,350 0,6 0,040 0,065 0,090 0,180 0,180
SAR ADC +   + +     +  
6A ADC +           + +
DAC +   + +     +  
PLC tr             +
RF tr             +  
USB tr +   +       +  
LVDS tr +       +   +  
LDO +   + +   + +  
DC-DC             +  
REF + + + + + + + +
POR + + + + + + + +
VOLTAGE det +   +     + +  
COMP +           +  
PLL + + +     + + +
RC osc +   + +   + + +
Quartz osc + + +     + + +

OUR PARTNERS

Imec Ltd.

Imec Ltd.

Taiwan Semiconductor

Taiwan Semiconductor
Manufacturing Company Ltd

GlobalFoundries Inc.

GlobalFoundries Inc.

XFAB Semiconductor

XFAB Semiconductor
Foundries AG

Mobix Wireless

Mobix Wireless
Solutions Ltd.

Avnet ASIC Israel Ltd.

Avnet ASIC Israel Ltd.

TowerJazz

TowerJazz
Semiconductor Inc.

AAI started collaboration with Milandr in 2011. During this period, we realized 2 projects, where Milandr was the Analog Design provider. Milandr Design Center developed a power control unit and a RC oscillator block of IC in accordance with AAI spec. The first project is already silicon proven, and works well.

Now we are working on next collaborative design, where our companies play same roles. We have found Milandr team to be highly professional and experienced.

We highly appreciate their ability to see the big picture, looking for the best solution and not just fulfilling the spec as is. Milandr is very reliable it terms of service, the personal contact is great and timeline commitments are respected.

Milandr is a good partner and a meaningful contributor to the success of AAI designs.

X

Do you need ASIC?

LEAVE THE MESSAGE

contact us

Georgievskiy prospekt, 5,
Zelenograd, Moscow,
Russia, 124498

info@milandr.com
www.milandr.com

X

AAI started collaboration with Milandr in 2011. During this period, we realized 2 projects, where Milandr was the Analog Design provider. Milandr Design Center developed a power control unit and a RC oscillator block of IC in accordance with AAI spec. The first project is already silicon proven, and works well.

Now we are working on next collaborative design, where our companies play same roles. We have found Milandr team to be highly professional and experienced.

We highly appreciate their ability to see the big picture, looking for the best solution and not just fulfilling the spec as is. Milandr is very reliable it terms of service, the personal contact is great and timeline commitments are respected.

Milandr is a good partner and a meaningful contributor to the success of AAI designs.