RADAR MMS, SCIENTIFICPRODUCTION ENTERPRISE, OPEN JOINT STOCK COMPANY HEREINAFTER REFERRED TO AS "RAD

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RADAR MMS, SCIENTIFIC/PRODUCTION ENTERPRISE,
OPEN JOINT STOCK COMPANY (HEREINAFTER REFERRED
TO AS "RADAR MMS)
37, Novoselkovskaya St. Petersburg 197375 Phone
7 (812) 302-1313, fax 7 (812) 302-1616 E-mail
RADAR_at_RADAR-MMS.COM WWW.RADAR-MMS.COM
JSC "Radar MMS" is one of the leading
defense industry companies in the domain of
design and manufacture of various complicated
electronic radar systems. Unique engineering
approaches, gained scientific/technical
experience, highly qualified specialists,
state-of-the-art equipment and testing
facilities allow for the company to develop
science-intensive radio electronic systems of any
configurations (from researches and designs to
field tests from the development of particular
modules to fully integrated specialized systems).

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• DIVERSIFICATION OF COMPANYS ACTIVITIES
• MICROSYSTEM AND MICROELECTRONIC ENGINEERING
• AUTOELECTRONIC
• MEDICAL EQUIPMENT
• EQUIOPMENT AND FACILITIES FOR RAILWAYS
• EQUIPAGE OF CUSTOMS TERMINALS
• METEOROLOGICAL RADARS
• REMOTELY CONTROLLED AIRCRAFTS
• SOUVENIRS
• RENDERING SCIENTIFIC AND EDUCATIONAL SERVICES
• FIRE ALARM SYSTEMS
• INTELLECTUAL PRODUCTS
• MONITORING
• CONTROL OF MUNICIPAL UTILITIES
• EQUIPMENT AND TECHNIQUES FOR SMALL-SIZE AND
  BUSINESS AVIATION
• FLIGHT NAVIGATION INSTRUMENTS FOR RAM WING
  CRAFTS
• ENERGY SAVING GENERATORS
• MONITORING OF TIMBERLANDS

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• THE FACILITIES PRODUCING MICROELECTRONIC
  APPLIANCES POSSESSES THE TECHNIQUES
• USED FOR THE PRODUCTION OF MICROWAVE FREQUENCY
  APPLIANCES
• Development and manufacture of thin-filmed and
  thick-filmed microchips, micro- assemblies
  and sealed low frequency/microwave frequency
  modules followed by a series of thermal cycling
  tests at a temperature varying from 60 to 125OC
• Development and manufacture of various SAW-based
  acoustoelectronic devices (frequency range from
  2.2 GHz)
• Development and manufacture of hypersonic
  microwave frequency delay lines on the bulk
  acoustic wave (BAW) (frequency range up to 15
  GHz)
• Vacuum depositing
• Galvanization of ferrous and non-ferrous alloys
• Fitting dart in flat ceramic bases
• Production of sealed adaptors

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SAW-BASED TWO-PORT QUARTZ RESONATOR
Application area Resonator is designed to
stabilize the frequency of the communication
system automatic generator on the dominant mode.
Workmanship Thin-filmed resonant structure
with reflect array is located onto the surface
of piezo-quartz plate embedded into a sealable
double-output glass-to-metal case.
Basic characteristics
Activation scheme
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SAW-BASED ELECTRONIC DELAY LINES
SAW-based acoustic/electronic delay lines are
intended for delaying radio signals and are
applied to specifically designed
receiver-transmitters. Achieved characteristic
level Frequency of up to 1.7 GHz Transmission
band of up to 70 Delay time of up to 100
µs Transducer insertion losses of up to 10
dB Guaranteed attenuation of up to 60 dB Relative
delay accuracy of up to 0.01 High temperature
stability of quartz delay circuits
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Basic technical characteristics



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SAW-BASED BANDWIDTH FILTERS
Basic technical characteristics


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NEW CLASS OF SAW-BASED PRODUCTS Dispersive Delay
Lines (DDL) Of New Generation Products

• Basic technical features
• Center frequency up to
  800 MHz
• Transmission band up to
  700 MHz
• LFM signal duration up to 10
  ns
• Compressed signal duration up to 2.5 µks
• Suppression of secondary lobes up to 38 dB
• Distinctive features
• Wide transmission band features complicated
  spread-spectrum coding
• Higher competitiveness as compared to digital
  processing
• No similar equipment is available in Russia
• Application
• Radar receivers
• Signal spectra analysis instruments
• Location mapping radar equipment with a
  resolution of up to 0.5 ? 0.5 m
• Technique peculiarities
• Precision submicron photolithography with a
  resolution of up to 0.5 µkm
• Ionic/chemical etching of reflecting grids

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NEW CLASS OF SAW-BASED PRODUCTS LFM-signal
Shaping And Suppression Module On The Basis Of
DDL (Integrated Hybrid Version)

• Basic technical features
• Center frequency up to 300 MHz
• Secondary lobe level in compressed signal
• up to 38 dB
• Duration of shaped LFM signal is up to 85 µs
• Distinctive features
• Low level of secondary lobes in compressed
  signal
• with a wide temperature range
• Application
• Developed for horizontal target acquisition
  radar
• stations
• The set is designed to shape and compress
  linear
• frequency modulated signals in radar station
• intermediate frequency sections
• Technique peculiarities
• Ionic/chemical etching of reflecting grids

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RECEIVER MICRO-MODULE WITH SAW-BASED BANDWIDTH
FILTER

• IF amplifier unit
• Working frequency 200 MHz
• Transmission band 3,5 17 MHz
• Gain factor 85 dB
• Automatic noise level control
• Automatic digital noise level control
• Minor noise level
• Internal interference filtration along
• signal and power supply circuits

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NEW CLASS OF SAW-BASED PRODUCTS Monolithic
Correlator Module With Memory

• Basic technical features
• Working frequency, MHz, 200
• Duration of processed signal, µs up to 13
• Information storage time, s
  0.3
• Distinctive features
• Correlator shapes a signal with a random code
  and a coding procedure
• Correlator is equipped with a complete set of
  recording/reading
• circuitry
• Correlator is capable of enhancing the
  signal-noise ratio by 30-40 dB
• Application
• allied-enemy signal identification instruments
• Radar receivers with a higher noise stability
• Peculiarities of engineering approaches
• Monolithic design of correlator (as compared to
  hybrid one) does not
• require alignments
• Proved reactive evaporation of zinc oxide films
  provides for enhanced

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NEW CLASS OF SAW-BASED PRODUCTSBandwidth Filter
Bank Module

• Basic technical features
• Frequency range, MHz
  250-450
• Number of channels 40
• Band of each channel, MHz
  5
• Distinctive features
• Enhanced temperature characteristics due to the
  use of lithium tantalate
• Higher suppression of signal slip along adjacent
  
• channel
  up to 50 dB
• Application
• Signal frequency selection units (for
  communication channels)
• Signal frequency content identification equipment
  
• Peculiarities of engineering approaches
• Higher processability of cellular design
• Achievement of filter high identity by the
  mapping
• scale method

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FLIP CHIP- ASSEMBLY OF ACOUSTIC ELECTRONIC
PRODUCTS AND SYSTEM TECHNOLOGY DEVICES
piezoelectric crystal output columns
parylene sealing frame
bonding pads base metal
filled holes
Advantages - extremely simple design - excluding
use of casings - increased range of working
frequencies - utmost minimization of weight and
dimensions - flux-free assembly without reducing
medium - integral grouped process (up to the
final operation) - higher processability and low
cost of the product
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NEW GENERATION OF SAW-BASED MEMBRANE
NANORESONATORS
Implementation of the project will allow to
introduce UHF resonators with the following
properties
1 piezo clip board, 2 reflecting structures,
3 IDT, 4 membrane.
Membrane resonator with a submicron membrane
(volume wave based frequency setting element,
membrane thickness ?/4) and SAW driver provide
for an enhanced Q factor with frequencies in
excess of 1 GHz.
Plastic membrane resonator
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MONITORING OF PETROLEUM/GAS PRODUCTION INDUSTRY
ON THE BASIS OF MICROSYSTEM ENGINEERING
Purpose fitting of petroleum/gas production
equipment, wells, oil/gas processing equipment
with microsystem engineering intelligent means
to monitor and control the production process
and to ensure environment protection and safety.
Acoustoc/electronic ID marks for identifying
sensors and devices in petroleum/gas production
industry
Reflecting grids containing code information
Interdigital transducer h
Lithium niobate
ID mark composition
ID mark
Readout device
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SAW RADIO FREQUENCY IDENTIFICATION SYSTEM
Transducer/ receiver
SAW-based radio signal marking
Information processing unit
CODE
Readout measuring scheme

• Parameters
• carrier frequency 915 2450 MHz
• number of code bits (up to 32)
• range up to 20m
• range of working temperature from -2000C to
  2500?
• resistance to aggressive mediums
• capability of transferring information through a
  radio
• channel

1 reflecting slot
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SAW-BASED SMALL-SIZE LOW NOISE HIGHLY STABILIZED
GENERATOR OF CONTINUOUS SINE WAVEFORM
Basic parameters (characteristics) Frequency
range(360 1650)
MHz Output power.(0,
5 2,5) MW Carrier frequency second sinusoidal
component level, not more than .......minus
15 dB Suppression of subordinate components
within the frequency band 200 MHz of carrier
frequency, at least...30 dB Power
spectral density of phase noise of output signal
when turned out of carrier frequency of 5/0 kHz,
not more than.minus 115
dB/Hz Temperature frequency coefficient of the
second order, not more than..0,0310-6
1/(?)2 Range of working temperature
(minus 60 - 80) ? Supply
voltage(10-12)
V Overall dimensions.5
0,031,512,0 mm Weight , not more
than..45 g

• Overall dimensions (unsealed version) to be
  integrated in sealed modules. Sealed version of
  generator may be manufactured
• Standard frequencies 360 MHz, 415 MHz, 1232
  MHz, 1532 MHz, 1620 MHz. Equipment with a
  frequency band required by a customer may be
  supplied
• When the temperature frequency coefficient of the
  second order is not in excess of 0.0310-6
  1/(?)2 (standard values are not more than
  0,0510-6 1/(?)2), the stability of generator
  frequency within the working range of
  temperatures is to be not more than 10-4

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ACOUSTIC/ELECTRONIC SENSORSOF PHYSICAL VALUES

• Pressure sensors
• Hydrostatic pressure sensors
• Acceleration meters
• SAW-based temperature gauges
• Strain sensors
• Tire pressure measuring gages
• Torque sensors

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SAW-BASED QUARTZ RESONATORS FORTORQUE SENSOR

• Torque sensors are based on two resonators
  operating within the surface acoustic waves.
• Basic technical characteristics
• Resonance frequency 200 201 MHz
• Impedance with resonance frequency
  50 Ohm
• Reduced relative accuracy 0.1
• Distinctive features
• Contactless measuring method
• Rapid acting
• Small sizes and low cost
• Application
• To be used for industrial equipment, vehicles,
  motor boats, washing machines to control forces
  onto rotating elements.

Bonding pads
Resonator
Quartz cover
Sealing frame
Piezo clip board
Fragment of a shaft
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CONTACTLESS PRESSURE GAUGETO BE USED IN MEDICINE
The gauge is designed to measure fluid
pressure in biological systems with a high
accuracy at a distance of 5 m. Quartz being used
as a structural material of the gauge, makes it
resistant to aggressive mediums, including major
part of acids and alkaline. Sensitive
element is made in the form of quartz membrane
box, whose inner side bears a SAW-based converter
layout. Technical data Maximum pressure
range, Pa 105 Relative accuracy, 1 Center
frequency, MHz 915 Maximum readout range, m 5
Pressure sensor
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HIGHLY ACCURATE GAS/FLUID PRESSURE SENSOR,
RESISTANT TO AGGRESSIVE MEDIUMS
The sensor is designed to accurately
measure gas/fluids pressure in household water
supply and HVAC systems. Properties of a
structural material of the gauge (sensor) makes
it resistant to aggressive mediums, including
major part of acids and alkaline.
Sensitive element is made in the form of quartz
membrane box, whose inner side bears a SAW-based
converter layout. Technical data Maximum
pressure range, Pa 107 Relative accuracy,
0,03 Center frequency, MHz 915
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HYDROSTATIC PRESSUREACOUSTIC/ELECTRONIC SENSOR
Is used for measuring submersion depth Range of
pressure to be measured is 0.1-60 MPa Resolution
0.03
Sealing agent
Sensor
Aqueous filter
Steel case
Signal output
Measuring circuit (board)
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SAW-BASED SENSOR FOR PRECISE MEASUREMENTS OF
TEMPERATURE BY PHASE METHOD
Working frequency is 250 MHz Range of measured
temperature 60125º? Measurement error
0.01º?
Phasemeter
Continuous Oscillation generator
SAW-based delay lines (duration 10 ms)
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BAW/SAW STRAIN SENSORS

• Purpose
• Sensor is designed for
• Registration and control of the strain of
  mechanical structures and carrying structures of
  buildings and facilities
• Measurements of dynamic forces and strain of
  elastic elements of girders and levers
• Scientific researches

• Technical data
• Measurement precision 0.1-1 of maximum strain
  rate
• Ultimate strain rate 1-10 µkm/1mm
• Temperature correction of readout data within a
  temperature range of -600o? 850o? is provided
• Life cycle, 15 years

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PRODUCTION OF RADAR MMS, SCIENTIFIC/PRODUCTION
ENTERPRISE,OPEN JOINT STOCK COMPANY

• Radar MMS, Scientific/Production Enterprise, Open
  Joint Stock Company has great experience in
  design and production of acoustoelectric devices
  for radiocommunication, television and
  radiolocation
• a large variety of acoustoelectric devices with
  border-line parameters had been implemented by
  OJSC Radar MMS, Scientific/Production Enterprise

Adaptive multitapped (128 taps) delay lines
Dispersive delay lines Frequency up to
700MHz strip up to 600MHz
Piezocrystal platesand primary SAW - converters
Correlator Frequency up to 300 MHz
Torsion torque sensors Accuracy up to 0.1
Hypersonic delay lines Frequency up to 12 GHz
Bandpass filters Frequency up to 1850
MHz Out-of-band suppression up to 70 dB
Resonators Frequency up to 1800 MHz Q-factor
2000
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THANK YOU FOR ATTENTION!
37, Novoselkovskaya St. Petersburg 197375 Phone
7 (812) 302-1313, fax 7 (812) 302-1616 E-mail
RADAR_at_RADAR-MMS.COM WWW.RADAR-MMS.COM