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Table Of Contents

Page 12

PSI 9000 3U Series

www.elektroautomatik.de

ea1974@elektroautomatik.de

EA Elektro-Automatik GmbH

Helmholtzstr. 31-33 • 41747 Viersen

Germany

Fon: +49 2162 / 3785-0

Fax: +49 2162 / 16230

5 kW / 6.6 kW / 10 kW

Model 3U

PSI 9750-20 PSI 9040-340 PSI 9040-510 PSI 9080-340 PSI 9200-140

AC Input

Input voltage 340...460 V AC 340...460 V AC 340...460 V AC 340...460 V AC 340...460 V AC

Input connection 2ph,PE 3ph,PE 3ph,PE 3ph,PE 3ph,PE

Input frequency 50/60 Hz 50/60 Hz 50/60 Hz 50/60 Hz 50/60 Hz

Input fuse (internal) 2x T16 A 4x T16 A 4x T16 A 4x T16 A 4x T16 A

Leak current < 3.5 mA < 3.5 mA < 3.5 mA < 3.5 mA < 3.5 mA

Power factor > 0.99 > 0.99 > 0.99 > 0.99 > 0.99

DC Output

Max. output voltage U

Max

750 V 40 V 40 V 80 V 200 V

Max. output current I

Max

20 A 340 A 510 A 340 A 140 A

Max. output power P

Max

5 kW 6.6 kW 10 kW 10 kW 10 kW

Voltage regulation

Adjustment range 0...750 V 0...40 V 0...40 V 0...80 V 0...200 V

Overvoltage protection range 0...825 V 0...44 V 0...44 V 0...88 V 0...220 V

Accuracy

< 0.1% U

Max

< 0.1% U

Max

< 0.1% U

Max

< 0.1% U

Max

< 0.1% U

Max

Stabilityat±10%ΔU

< 0.02% U

Max

< 0.02% U

Max

< 0.02% U

Max

< 0.02% U

Max

< 0.02% U

Max

Stability at 0...100% load < 0.05% U

Max

< 0.05% U

Max

< 0.05% U

Max

< 0.05% U

Max

< 0.05% U

Max

Rise time 10...90% Max. 30 ms Max. 30 ms Max. 30 ms Max. 30 ms Max. 30 ms

Display: Resolution See section „1.10.6.4. Resolution of the displayed values“

Display: Accuracy

≤0.2%U

Max

≤0.2%U

Max

≤0.2%U

Max

≤0.2%U

Max

≤0.2%U

Max

Ripple

< 600 mV

< 120 mV

RMS

< 150 mV

< 10 mV

RMS

< 150 mV

< 10 mV

RMS

< 150 mV

< 10 mV

RMS

< 200 mV

< 25 mV

RMS

Remote sensing compensation Max. 5% U

Max

Max. 5% U

Max

Max. 5% U

Max

Max. 5% U

Max

Max. 5% U

Max

Fall time at no load after switching

DC output off

Down from

100% to <60 V:

less than 10 s

- -

Down from

100% to <60 V:

less than 10 s

Down from

100% to <60 V:

less than 10 s

Current regulation

Adjustment range 0...20 A 0...340 A 0...510 A 0...340 A 0...140 A

Overcurrent protection range 0...22 A 0...374 A 0...561 A 0...374 A 0...154 A

Accuracy

< 0.2% I

Max

< 0.2% I

Max

< 0.2% I

Max

< 0.2% I

Max

< 0.2% I

Max

Stabilityat±10%ΔU

< 0.05% I

Max

< 0.05% I

Max

< 0.05% I

Max

< 0.05% I

Max

< 0.05% I

Max

Stabilityat0...100%ΔU

OUT

< 0.15% I

Max

< 0.15% I

Max

< 0.15% I

Max

< 0.15% I

Max

< 0.15% I

Max

Ripple

< 18 mA

< 4 mA

RMS

< 600 mA

< 80 mA

RMS

< 900 mA

< 120 mA

RMS

< 600 mA

< 80 mA

RMS

< 89 mA

< 22 mA

RMS

Display: Resolution See section „1.10.6.4. Resolution of the displayed values“

Display: Accuracy

≤0.2%I

Max

≤0.2%I

Max

≤0.2%I

Max

≤0.2%I

Max

≤0.2%I

Max

Compensation 10%->90% load < 1.5 ms < 1.5 ms < 1.5 ms < 1.5 ms < 1.5 ms

Power regulation

Adjustment range 0…5.00 kW 0…6.60 kW 0…10.00 kW 0…10.00 kW 0…10.00 kW

Overpower protection range 0…5.50 kW 0…7.26 kW 0…11.00 kW 0…11.00 kW 0…11.00 kW

Accuracy

< 1% P

Max

< 1% P

Max

< 1% P

Max

< 1% P

Max

< 1% P

Max

Stabilityat±10%ΔU

< 0.05% P

Max

< 0.05% P

Max

< 0.05% P

Max

< 0.05% P

Max

< 0.05% P

Max

Stabilityat10-90%ΔU

OUT

*ΔI

OUT

< 0.75% P

Max

< 0.75% P

Max

< 0.75% P

Max

< 0.75% P

Max

< 0.75% P

Max

Display: Resolution See section „1.10.6.4. Resolution of the displayed values“

Display: Accuracy

≤0.8%P

Max

≤0.7%P

Max

≤0.7%P

Max

≤0.8%P

Max

≤0.85%P

Max

Efciency

~ 94% ~ 93% ~ 93% ~ 93% ~ 95%

(1Relatedtothenominalvalues,theaccuracydenesthemaximumdeviationbetweenanadjustedvaluesandthetrue(actual)value.

Example: a 80 V model has min. 0.1% voltage accuracy, that is 80 mV. When adjusting the voltage to 5 V, the actual value is allowed to differ max. 80 mV, which

means it might be between 4.92 V and 5.08 V.

(2 RMS value: LF 0...300 kHz, PP value: HF 0...20MHz

(3 Typical value at 100% output voltage and 100% power

(4 Set values as in the display or as data readable via digital interfaces are more accurate than the corresponding value on the DC output. Their accuracy subtracts

from the general accuracy. For actual values it is vice versa. There the display accuracy adds to the general accuracy, so the error (i.e. deviation) will be higher.