AE Techron 7234

Aim-TTi QPX Series

Posted on by Mihir Mehta

Aim-TTi QPX Series Bench/System DC Power Supply with PowerFlex or PowerFlex+ regulation, Single or Dual Outputs up to 1200 watts, with/without Digital Remote Interfaces

QPX series laboratory power supplies are designed to provide flexibility in the choice of voltage and current so as to meet multiple diverse applications. Voltages up to 80V and currents up to 50A are available within a defined power envelope.

Unlike most power supplies of this power level, the QPX series is well suited to bench top applications in addition to system use.

POWERFLEX & POWERFLEX+

A conventional PSU has a fixed current limit giving a power capability that reduces directly with the output voltage. The Aim-TTi PowerFlex and PowerFlex+ regulation systems enable higher currents to be generated at lower voltages within an overall power limit envelope.

For PowerFlex+ models the output can provide more than six times the current of a conventional PSU of the same maximum voltage and power. For PowerFlex models the increase is three times

LOW RIPPLE AND NOISE

PowerFlex and PowerFlex+ use either a balanced multi-phase converter system or linear final regulation to minimise ripple and improve dynamic performance. This provides unusually low noise for thepower level coupled with good transient response

CURRENT METER AVERAGING

When measuring rapidly varying loads it can become difficult to get accurate readings from the current meter. By selecting meter averaging, the reading is stabilised by averaging the last four readings to reduce the speed and extent of the variation.

OVP AND OCP TRIPS

Variable trips for over-voltage and overcurrent are provided on each output. Unlike a limit setting, the trip setting turns the output off and provides a different level of protection.

For example, when repetitively testing a unit which normally takes a peak current of 10A, the current limit could be set to 11A and the OCP to 10.1A to ensure that a faulty unit will trip the supply off and not be damaged by over dissipation. The output trip can also be activated by other fault conditions including over temperature and remote sense mis-wiring. The cause of the trip is shown on the display. Learn more by downloading the datasheet

Aim-TTi QPX Series Datasheet

[pdf-embedder url=”https://tmetrix.lsmstaging.com/wp-content/uploads/AIM-QPX_SERIES_Data_Sheet-Issue_1.pdf”]

 

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  • Up to 80V or 50A per output limited by power curve
  • Low ripple and noise of <3mV rms at full power
  • High setting resolution and metering down to 1mV
  • Analog control interface, LAN/LXI, USB, RS232† & GPIB* on P versions
  • Bench or System use with rear and front terminals*

 
Aim-TTi QPX Series

 

 

AE Techron 7234

Aim-TTi MX SERIES

Posted on by Mihir Mehta

Bench/System Multi-Range DC Power Supply with digital control, 3 or 4 Outputs, 315 to 420W with/without Remote Interfaces

The MX series uses mixed mode regulation to provide up to 420W of power split across up to four outputs, this series differs from most other multi-output power supplies in offering full capabilities on all outputs. Each output features CV or CI operation, simultaneous high resolution metering, switchable remote sensing, OVP and OCP trips, and an individual output switch. To increase its ability to match the widest range of applications, each output has more than one range giving the choice of higher voltage or higher current.

When higher power is required, up to two outputs can be disabled to provide twice the power from one or two outputs – up to 210 watts for the MX100T/MX100Q and up to 360 watts for the MX180T

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  • Three or four high performance outputs each with full functionality
  • Range switching gives variable voltage/current combinations
  • Shared power mode provides double power from a single output
  • Low output noise and ripple via linear final regulation
  • High setting resolution of up to 1mV and 0.1mA
  • Variable OVP and OCP trips on all outputs
  • 50 setting memories per output plus 50 linked memories
  • Selectable voltage tracking (isolated tracking)
  • Selectable current meter averaging
  • Switchable remote sense capability
  • Graphic LCD provides simultaneous output metering
  • Numeric or spin-wheel control of all parameters
  • Individual or combined output on/off control with programmable delay sequencing.
  • 3U half-rack case for bench or rack mounting (4U rack kit accessory available)
  • RS-232, USB and LAN (LXI) interfaces (P models), GPIB option
  • Duplicate power & sense terminals at rear (P models)
 Download MX Series Data Sheets

[pdf-embedder url=”https://tmetrix.lsmstaging.com/wp-content/uploads/AIM-MXMX-P_series_DC_power_supplies_data_sheet-Iss7.pdf” title=”AIM-MX+MX-P_series_DC_power_supplies_data_sheet-Iss7″]

 

 
Aim-TTi MX SERIES

 

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Webinar Series – Semiconductor Test Strategies for the Data Explosion

Posted on by Mihir Mehta
Webinar Series22

Thursday December 2, 2021, 9:00am China Standard Time

Thursday December 2, 2021, 9:00am PST/ 12:00pm EST

Quantum computing will likely utilize numerous new technologies which operate at different cryogenic temperatures. For example, a quantum computer might deploy CMOS memory modules at 77K, superconducting control chips at 4K, and a quantum processing unit (QPU) at less than 20 mK. To develop and deploy these various subsystems and technologies, it is vital to reliably and efficiently test and measure them at or near their operating temperatures.

Best Approaches

Wednesday December 9, 2021, 9:00am China Standard Time

Wednesday December 9, 2021, 9:00am PST/ 12:00pm EST

Wafer probing has been done for some time in waveguide at frequencies up to several hundreds of GHz. However solutions were typically limited by the constraints of large format extenders with large format positioners, which could limit the capabilities for over temperature work or RF performance.

Recent advances from Virginia Diodes Inc. and Formfactor, have allowed for solutions that allow optimal path lengths and the ability to isolate the extenders from elevated thermal temperatures while still also carrying out cold / dry / dark measurements.