User manual

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ELR 9000 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

► How to start and stop a function

1. The function can be started either by tapping or pushing the “On/Off” button, if the DC input is

currently switched off. The function then starts immediately. In case START is used while the DC input is

still switched off, the DC input will be switched on automatically.

During the progress of the functions sine wave, rectangular wave, triangular wave, trapezoi-

dal wave or ramp no actual values are displayed.

2. The function can be stopped either by tapping or pushing the “On/Off” button. However, there

is a difference:

a) The are only stops the function, the DC input remains ON with the static value in effect.

b) The “On/Off“ button stops the function and switches the DC input off.

Any device alarm (overvoltage, overtemperature etc.) or protection (OPP, OCP) or event with

action = Alarm stops the function progress automatically, switched of the DC input and reports

the alarm in the display.

3.9.5 Sine wave function

The following parameters can be congured for a sine function:

Value Range Description

I(A), U(A) 0...(Nominal value - (Off)) von

U, I

A = Amplitude of the signal to be generated

I(Off), U(Off) (A)...(Nominal value - (A)) von

U, I

Off = Offset, based on the zero point of the mathematic sine

curve, may not be smaller than the amplitude.

f (1/t) 1...10000 Hz Static frequency of the signal to be generated

Schematic diagram: Application and result:

Offset

Amplitude

A normal sine wave signal is generated and applied to

the selected set value, e.g. current (I). At a constant

input voltage the current input of the load will follow a

sine wave.

For calculating the maximum power input the amplitude

and offset values for the current must be added.

Example: with an input voltage of 100 V and sin(I) se-

lected, set the amplitude to 30 A and the offset to 50 A.

The resulting maximum input power is then achieved at

the highest point of the sine wave and is (30 A + 50 A)

* 100 V = 8000 W.

3.9.6 Triangular function

The following parameters can be congured for a triangular wave function:

Value Range Description

I(A), U(A) 0...(Nominal value - (Off)) of U, I A = Amplitude of the signal to be generated

I(Off), U(Off) 0...(Nominal value - (A)) of U, I Off = Offset, based on the foot of the triangular wave

t1 0.1 ms...36000 s Time for the positive slope of the triangular wave signal.

t2 0.1 ms...36000 s Time for the negative slope of the triangular wave signal