Saturday 26 March 2022

EA Elektro-Automatik introduces its 10000 series of enhanced performance, autoranging, bidirectional and regenerative programmable DC power products | Electronics Maker

YES to EA-10000 Series: Wide range of improved DC power supplies

Viersen, Germany, 24 March 2022 – EA Elektro-Automatik, a worldwide manufacturer of DC power supplies for R&D and manufacturing, introduces its 10000 series enhanced and expanded line of EA-PS and EA-PSI programmable DC power supplies, EA-PSB bidirectional DC power supplies, and EA-ELR regenerative DC electronic loads. The 10000 series includes over 180 new models offering a greater range of power from 0 – 600 W to 0 – 30 kW. The models provide extended voltages from 0 – 10 V to 0 – 2000 V, a significant increase over prior 9000-series power instruments, and provide output current as high as 1000 A.

Power Supply                                 EA-PS 10000             Models in 4U, 3U, and 2U form factors

Power Supply Intelligent                  EA-PSI 10000            Models in 4U, 3U, and 2U form factors

Power Supply Bidirectional              EA-PSB 10000           Models in 4U, 3U, and 2U form factors

Electronic Load Regenerative          EA-ELR 10000Models in 4U, 3U, and 2U form factors

Series  Power Voltage Current
EA-PS 10000 4U 0 – 30000 W 0 – 60 V up to 0 – 2000 V 0 – 40 A up to 0 – 1000 A
EA-PSI 10000 4U 0 – 30000 W 0 – 60 V up to 0 – 2000 V 0 – 40 A up to 0 – 1000 A
EA-PSB 10000 4U 0 – 30000 W 0 – 10 V up to 0 – 2000 V 0 – 40 A up to 0 – 1000 A
EA-ELR 10000 4U 0 – 30000 W 0 – 80 V up to 0 – 2000 V 0 – 40 A up to 0 – 1000 A
       
EA-PS 10000 3U 0 – 5 kW / 0 – 10 kW / 0 – 15 kW 0 – 60 V up to 0 – 2000 V 0 – 20 A up to 0 – 510 A
EA-PSI 10000 3U 0 – 5 kW / 0 – 10 kW / 0 – 15 kW 0 – 60 V up to 0 – 2000 V 0 – 20 A up to 0 – 510 A
EA-PSB 10000 3U 0 – 5 kW / 0 – 10 kW / 0 – 15 kW 0 – 10 V up to 0 – 2000 V 0 – 20 A up to 0 – 510 A
EA-ELR 10000 3U 0 – 5 kW / 0 – 10 kW / 0 – 15 kW 0 – 80 V up to 0 – 2000 V 0 – 20 A up to 0 – 510 A
       
EA-PS 10000 2U 0 – 1500 W / 0 – 3000 W 0 – 60 V up to 0 – 1500 V 0 – 6 A up to 0 – 120 A
EA-PSI 10000 2U 0 – 1500 W / 0 – 3000 W 0 – 60 V up to 0 – 1500 V 0 – 6 A up to 0 – 120 A
EA-PSB 10000 2U 0 – 1500 W / 0 – 3000 W 0 – 10 V up to 0 – 1500 V 0 – 6 A up to 0 – 120 A
EA-ELR 10000 2U 0 – 1500 W / 0 – 3000 W 0 – 80 V up to 0 – 1500 V 0 – 6 A up to 0 – 120 A

Save test development time with seamless operation between all models

All 10000 series instruments operate on the same firmware and have the same touchscreen user interface. The physical layout is the same, and all instruments have similar input and output characteristics. The common programming and user interface saves test development and setup time when building test systems that have requirements for multiple power instrumentation.

Access greater voltage and current in one device with autoranging

All 10000 series instruments employ an autoranging output (input if an electronic load) characteristic. Autoranging enables the instrument to have a higher voltage capability at lower currents and a higher current capability at lower voltages than a power supply or load with a conventional rectangular output/input characteristic. Furthermore, an instrument with autoranging output/input can deliver/accept full power output over a significant portion of the instrument’s operating range. This is in contrast with an instrument with a rectangular output characteristic which has maximum power only at its maximum voltage and current. The benefit of EA’s autoranging capability for a test engineer is access to a wider range of voltages and currents enabling the engineer to test more applications without the need for multiple power level supplies.

Simulate other power devices and create AC + DC signals with built-in arbitrary waveform function generator

The EA-PSI supplies, EA-PSB supplies, and EA-ELR loads all have a built-in function generator to allow creation of complex signals riding on a DC bias and to simulate the characteristics of various devices such as solar cells, batteries, and fuel cells. Special functions enable maximum power point tracking (MPPT) and EN 50530 for solar panel inverter testing and LV123-, LV124-, and LV148-standard based test sequences for testing of automotive components and systems. The built-in functions simplify the tasks of programming the instrument to simulate various devices and creating sequences of outputs (or inputs) to comply with key test standards.

Reduce power consumption with high efficiency 10000 series and enjoy greater than 96% energy recovery

All models of the 10000 series employ active power factor correction, typically 0.99, to minimize the power drawn from the power grid. Additionally, EA-PSB bidirectional power supplies and EA-ELR electronic loads employ regenerative circuitry to return energy back to the grid with up to greater than 96% efficiency. Regenerative circuitry saves operation costs and the expense of cooling requirements to dissipate the heat that a conventional electronic load generates.

Communicate easily to PCs and Programmable Logic Controllers (PLCs)

The 10000 series instruments work effectively in either PC-controlled test systems or PLC-controlled industrial processes. Engineers can easily program the instruments using SCPI or ModBus programming modes. The 10000 series instruments have an extensive set of interfaces. PC interfaces include Ethernet, USB, and RS-232, while PLC interfaces include CanBus, Profibus, ModBus, Profinet, and EtherCat, among several other interface options.

Parallel for high-power systems up to 1.92 MW

Test engineers can parallel up to 64 of the 10000 series power supplies and loads using the Master-Auxiliary bus to enable one instrument to control all instruments in the system. The system can consist of any combination of instrument power levels within the same EA-XXX family (EA-PSB, EA-PSI, EA-ELR, etc). A galvanically isolated Share-Bus interface in each instrument ensures that all the instruments safely share the load requirements so that the entire rack can operate with full performance.

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