Uncategorized

• 3GHz RF analog signal generator
• AM, FM, PM, Sweep & Pulse Modulation
• Exceptionally Low Phase Noise of -145dBc/Hz @100MHz and 10@kHz offset
• Field ready, with 10” touch screen suited for day and night use and 2 hour battery operation
• Remotely programmable via MATLAB, Python, LabVIEW and other software programming environments.
• Removable uSD card for instrument security

• 20 Amp Operation: Full performance with 20 amp service
• Automatic Power Reduction: Reduces power usage during idle periods
• Heat Only Mode: Reduces power usage when cold temperatures are not used
• WhisperStream Technology: quieter, smooth-sounding operation, 56 dBA
• Frost Free Test Environment: dry air purge for tester interface, prevents condensation:
  0.5 to 3scfm (0.25 to 1.5 l/s)
• Heated Defrost: quickly removes moisture buildup from internal chiller
• DUT Temperature Control : Proprietary control algorithm enables DUT temperature to be directly controlled
• Transition Rate*
  -55 to +125°C, approx. 10 seconds
  125 to -55°C, approx. 10 seconds
• System Airflow Output*
  4 to 18scfm (1.9 to 8.5 l/s) Continuous
• Temperature Range*
  -80 to +225°C (60Hz) No LN2 or LCO2 Required

• High reliability thermal cycling without thermoelectric modules
• Temperature range: -65 to 175°C
• Cooling power:
  • 40W at -40°C for lower power devices
  • 55W at -55°C and 120W at -40°C.
• Transition rate: up to <35 sec over 25 to -40°C
• Easy and secure thermal connection to in-circuit or test socked DUT
• Touch-screen controller: user-programmable temperatures, graphing, data logging
• Communications options: Ethernet, USB, IEEE, RS232

-60° to +200°C

• Economy model with high thermal capacity
• Precise temperatures with fast transitions from -60 to 200°C
• No annual leak testing required per EU 517/2014 F-Gas Regulation
• Effective testing and conditioning of electronic components, boards, and modules
• Available for 50 and 60Hz operation
• No need for Liquid Nitrogen (LN2) or Liquid Carbon Dioxide (LCO2)
• Remote communications and set up and touch screen operation
• User Defined Temperature Limits

• High voltage output to 300Vp-p (±150V)
• Output current to 150 mA
• Full power bandwidth from DC to >500kHz
• Slew rate to 200V/µs
• Low distortion
• Low cost
• Custom Configuration of gain and signal Ground

• Single channel
• High voltage output to 400Vp-p (±200V)
• Output current to 125 mA
• Full power bandwidth from DC to >500kHz
• Slew rate to 400V/µs
• Monitor Output
• Precise signal amplification for multiple applications
• Compatible with any of the Tabor waveform generators

• High voltage output to 300Vp-p (±150V)
• Output current to 100 mA per channel
• Full power bandwidth from DC to >500kHz
• Slew rate to 200V/µs
• Low distortion
• Low cost
• Custom Configuration of: Gain, Signal Ground

• 12GHz RF Analog Signal Generator
• Extremely fast switching speed of <100μs
• AM, FM, PM Sweep & Pulse Modulation
• Extra small, compact module platform
• Exceptionally Low Phase Noise of -145dBc/Hz @100MHz and 10@kHz offset
• SPI and micro-USB integrated interfaces
• Remotely programmable via MATLAB, Python, LabVIEW
• and other software programming environments.
• Flixible modular platform for OEM and custom requirements
• and applications, to satisfy specific customer demands.
• Multi instrument synchronization capability

• 6GHz RF Analog Signal Generator
• Extremely fast switching speed of <100μs
• AM, FM, PM Sweep & Pulse Modulation
• Extra small, compact module platform
• Exceptionally Low Phase Noise of -145dBc/Hz @100MHz and 10@kHz offset
• SPI and micro-USB integrated interfaces
• Remotely programmable via MATLAB, Python, LabVIEW
• and other software programming environments.
• Flixible modular platform for OEM and custom requirements
• and applications, to satisfy specific customer demands.
• Multi instrument synchronization capability

• 2U Chassis – 19″ rack mount 3.48” Height, 9.60” Depth and Weight 6lb.
• Power 120V AC 60Hz
• Washable front removable air filter
• Ball Bearing AC fans provide 330 CFM
• Dual plenum design
• Cooling for 160mm,220mm depth modules
• Diverts lower warmed air to rear of Cabinet
• RM option diverts lower air to front of Cabinet

• accommodate these control schemes
• total control system interface on a single VME-standard card
• occupies the left-most slot of the crate
• monitoring voltage reference inputs, output voltages and fault conditions
• standard VMEbus-compatible 6U by 220 mm board installed
• Eurocard crate
• Two 96-pin I/O connectors

MCOR Modules

MCOR 2/6/9/12

Each module can be customized to provide maximum outputs of 2 amps, 6 amps, 9 amps, and 12 amps. Up to 16 of these can fit in a single 6U VME style crate.

MCOR 30

Each module can provide a maximum output 30 amps. Up to 8 of these can fit in a single 6U VME style crate.

• provides precision bi-polar output currents
• minimal zero-cross over distortion
• 19” rack mounted 6U x 220 mm crate
• crate has 17 slots; 16 (slot 0 thru 15)
• connectors
  • J1 (ExtIntlk),
  • J2 (CrateOK),
  • J3 (Input Reference Voltages),
  • J4 (Output Monitors), and
  • J9 (Bitbus)

• Dynamic set up: During a simple frame reading, users can define elements to be acquired, recorded, visualized and surveyed in real time.
•  Macro-command: Users can write and execute complex test sequences thanks to macro-command functions.
•  Local & Distant Integration: AT-DIAG can be driven and interrogated by external software. It can also be used with a computer through Ethernet.
• Communication ports: Communication is done through RS232, NI CAN acq. Card, specific acquisition card or system.
•  Protocols: FREERUNNING, KWP2000, CAN, LIN, FlexRay, ARINC, … Possibility to implement new protocols (customized protocol, …).
•  Multi-product & Multi-protocol Communication: Communication can be set up with multiple addresses and protocols during a single test.

• 1 software for all your equipment
• 1 software for all standards
• 1 software for your electrical and EMC tests
• Advanced functions of monitoring and control
• Automated reports
• Team of specialists at your disposal

• Fast: ACA compression and parallelization allow to speed up the calculation
• Accurate: Fully validated with measurement results on real mock-up
• Innovative: New method from research labs
• Powerful: Compute very large models
• Easy: Dedicated graphical user interface with modern layout