search.noResults

search.searching

dataCollection.invalidEmail
note.createNoteMessage

search.noResults

search.searching

orderForm.title

orderForm.productCode
orderForm.description
orderForm.quantity
orderForm.itemPrice
orderForm.price
orderForm.totalPrice
orderForm.deliveryDetails.billingAddress
orderForm.deliveryDetails.deliveryAddress
orderForm.noItems
Page 90


www.us- tech.com


May, 2020 Magna-Power Extends MagnaDC Series to 6,000 VDC YOUR SOURCE FOR THE Latest in Global Electronics


Over three decades of in-depth technological coverage makes U.S. Tech the trusted source for the latest in the global electronics market.


Read your


way with digital and print versions available!


FREE


Flemington, NJ — Magna-Power Electronics has released 35 new mod- els to expand its MagnaDC program- mable DC power supply product line with increased output isolation ratings up to 6,000 VDC. The 35 isolat- ed high-voltage models join over 1,000 models in the company’s MagnaDC offering, with voltage rat- ings now from 5 to 6,000 VDC, current ratings from 0.2 to 24,000 ADC and power ratings from 1.5 to 2,000W. The new high-volt-


age models address ap - plications across many industries, including capacitor test- ing and charging, semiconductor ion implantation and physical vapor dep- osition, tethered DC-powered vehi- cles, cable testing, and many others. The new isolated high-voltage


isolation rating and is popular in applications that demand either many units in series or floating the output beyond their standard isola-


TSD10-2000/480 programmable DC power supply.


tion ratings. All MagnaDC programmable


Subscribe today or browse our publications www.us-tech.com


models include: five new 3,000 VDC models in the 2U, 2 to 10 kW XR series; 16 new 5,000 and 6,000 VDC models in the 3 to 8U, 5 to 50 kW TS series; eight new 5,000 and 6,000 VDC models in the floorstanding 30 to 75 kW MS series; and six new 5,000 and 6,000 VDC models in the 100 to 250 kW floorstanding MT series. The new models are offered in


the same physical dimensions as Magna-Power’s existing models of the same power ratings, providing some of the highest power density on the market for high-voltage, high- power products. Magna-Power also increased


 





  


    


 


   


  


the output isolation rating for its popular High-Isolation Output (+ISO) option. It is available for mod- els rated 250 to 1,000 VDC, greatly extends the power supply’s output


DC power supplies come standard with control and monitoring from a variety of sources, including front panel, computer interface and an iso- lated analog-digital user I/O connec- tor for real-time and PLC control. An SCPI programming com-


mand set is supported, allowing easy access ASCII text programming over any available computer interface. An IVI driver is included for the Visual Studio programming environment, along with a dedicated National Instruments LabVIEW™ and Lab - Windows™ driver. Additional computer interface


options include LXI TCP/IP Ethernet (+LXI), IEEE-488 GPIB (+GPIB), USB and RS-485. All rack-mount products come standard with a rack-


mount kit for rear support. Contact: Magna-Power


Electronics, Inc., 39 Royal Road,


Flemington, NJ 08822 % 908-237-2200 E-mail: apitel@magna-power.com Web: www.magna-power.com


CEA-Leti Creates First Quantum Integrated Circuit


Grenoble, France — Leti, an institute of CEA, along with CEA-IRIG, have created what is reported to be the world’s first quantum integrated cir- cuit that demonstrates the possibil- ity of integrating conventional elec- tronic devices and elements with quantum dots on a CMOS chip. The chip, fabricated on a 28


nm FD-SOI process, integrates analog and digital functions (mul- tiplexer, buffer, signal amplifier, oscillator, level converter) that represent future instrumentation needs for the quantum accelerator outlined in CEA-Leti’s quantum initiative. The goal is to produce elec-


tronics capable of routing numer- ous signals to address a matrix of several hundred qubits. To reach quantum suprema-


cy (the point at which quantum com- puters surpass classical ones), quan- tum computers need more than 50 logical qubits with sub-millivolt- accuracy biasing, gighertz-range sig- nal handling and microsecond read- out of thousands of physical qubits at sub-Kelvin temperatures. Silicon- based qubits are a promising approach to scale the qubit number, owing to their small footprint and gaining from the CMOS industrial


Integrated circuit that combines quantum dots and conventional electronics.


directly near the quantum silicon core. This drastically reduces the number of wire connections and qubit-addressing fanout, while in - creasing the operational bandwidth for error correction and the spin-


readout sensitivity. Contact: CEA-Leti, 17 Avenue


des Martyrs, 38054 Grenoble, France % +33-438-780-289 E-mail: sergio.nicoletti@cea.fr Web: www.cea.fr/english


background to reach maturity. The quantum silicon choice


allows the IC community to integrate large-scale qubit-control electronics


Page 1  |  Page 2  |  Page 3  |  Page 4  |  Page 5  |  Page 6  |  Page 7  |  Page 8  |  Page 9  |  Page 10  |  Page 11  |  Page 12  |  Page 13  |  Page 14  |  Page 15  |  Page 16  |  Page 17  |  Page 18  |  Page 19  |  Page 20  |  Page 21  |  Page 22  |  Page 23  |  Page 24  |  Page 25  |  Page 26  |  Page 27  |  Page 28  |  Page 29  |  Page 30  |  Page 31  |  Page 32  |  Page 33  |  Page 34  |  Page 35  |  Page 36  |  Page 37  |  Page 38  |  Page 39  |  Page 40  |  Page 41  |  Page 42  |  Page 43  |  Page 44  |  Page 45  |  Page 46  |  Page 47  |  Page 48  |  Page 49  |  Page 50  |  Page 51  |  Page 52  |  Page 53  |  Page 54  |  Page 55  |  Page 56  |  Page 57  |  Page 58  |  Page 59  |  Page 60  |  Page 61  |  Page 62  |  Page 63  |  Page 64  |  Page 65  |  Page 66  |  Page 67  |  Page 68  |  Page 69  |  Page 70  |  Page 71  |  Page 72  |  Page 73  |  Page 74  |  Page 75  |  Page 76  |  Page 77  |  Page 78  |  Page 79  |  Page 80  |  Page 81  |  Page 82  |  Page 83  |  Page 84  |  Page 85  |  Page 86  |  Page 87  |  Page 88  |  Page 89  |  Page 90  |  Page 91  |  Page 92  |  Page 93  |  Page 94  |  Page 95  |  Page 96