1 fixed gain using external reference control, Fixed gain using external reference control -15, R. 3.4.1) – KEPCO BOP-GL 1KW Operator Manual Firmware Ver.3.05 and higher User Manual

BOP-1K-GL 022814

3-15

Pins of the Analog I/O port can also be used selectively to control the unit if the unit is powered
up with power-up switches S3-2 and S3-5 set to on (see Figure 2-2 and Table 2-2). This allows
the other S3 switches to selectively establish the following:

• Establish voltage or current mode (PAR. 3.3.10).

• Control the main channel using the BOP as a power amplifier (PAR. 3.4.1).

• Establish the protection limits (PAR. 3.4.2).

3.4.1

CONTROLLING THE OUTPUT USING THE BOP AS A POWER AMPLIFIER

The BOP can function as a power amplifier by means of the External Reference input at the
Analog I/O port. This analog signal controls the main channel of the BOP. To use the BOP as a
power amplifier see the following instructions for using the external reference for establishing
the maximum full scale output.: PAR. 3.4.1.1 for fixed gain, PAR. 3.4.1.2 for variable gain.

3.4.1.1

FIXED GAIN USING EXTERNAL REFERENCE CONTROL

The main channel of the BOP, voltage in voltage mode, and current in current mode, can be
controlled by an external reference voltage, 0 to ±10V applied at pin 11, referenced to pin 10, of
the Analog I/O port. The input impedance for this signal is 20K ohms.

NOTE: Power-up switch S3 must either be set to 00000 or S3-2 and S3-5 must be set to 1

(on) prior to power-up, otherwise the analog reference signal applied to Analog
I/O Port pin 11 will have no effect.

When the external reference is used, the BOP functions as a power amplifier, amplifying the
external reference at pin 11 to produce the output.

The nominal (inherent) voltage gain of each model is calculated by (G

NOM-V

) = E

Onom

/ E

REF

.

and nominal (inherent) current gain is (G

NOM-I

) = I

Onom

/ E

REF

. Thus the nominal gain is the ratio

between the nominal (rated) voltage or current (E

Onom

or I

Onom

), and the external reference

(E

REF

) used to produce that output.

So for an external reference of ±10V, the nominal voltage gain (G

NOM-V

) = E

NOM-V

/10, e.g., the

voltage gain of a BOP 36-28GL is 36/10 = 3.6. The nominal current gain (G

NOM-I

) is I

NOM-V

/10,

e.g., the current gain of a BOP 36-28GL is 28/10 = 2.8.

The external reference voltage may be d-c, a-c, or a combination of a-c plus d-c. The maximum
frequency of an a-c signal should be below the inherent frequency response of the BOP (1KHz
for voltage, 800Hz for current (see Table 1-2). For parallel or series combinations, the frequency
response is reduced as specified in the instruction manual included with the cable kit. A fre-
quency that exceeds the bandwidth of the BOP will cause the output to be distorted.

For linear response (input vs. output) the software limit (see 3.3.5) should be set to nominal and
the maximum peak value (d-c plus a-c) of the reference signal must not exceed ±10V. If the
input signal exceeds the limit value (either ±10V if the software limit is set to nominal, or a lesser
voltage for a user-determined software limit) clipping of the output voltage or current to the limit
will occur.

NOTE: If the system limits have been modified (PAR. 3.3.5), the output of the power supply will

never exceed the modified system limits. E.g, for a BOP 36-28GL, if the system voltage
limit is modified to ±18V, applying a positive analog voltage to pin 11 that starts at zero