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ManualsBrandsGOSSEN METRAWATT ManualsLaboratory & Bench PSUsBench PSU (adjustable voltage) 0 - 60 Vdc

GMC-I Gossen-Metrawatt GmbH 25

Setting Parameters for Status Signal Outputs

1 The signal outputs can be logically linked using the comparison function. The

comparative values are defined by parameters w1, w2, w3 and w4 from the

UI_C_SET command. Momentary measured voltage and current values are

compared with these parameters and evaluated.

7.4 Regulating Output Voltage

Function

Output voltage Uout can be set by means of external control

voltage Usu = U(Uext +) – U(Uext –) via control inputs Uext +

(non-inverting) and Uext – (inverting).

• The voltage control input functions as a differential voltage

input:

• The following applies with activated analog setpoint

(SEtUP/dPYIF/AnIF/AI_U on):

Uset = USET + ku x U(Uext +) – ku x U(Uext –)

Uset = Resulting output voltage setpoint

USET = Voltage setpoint which has been selected

manually or digitally

U(Uext +)

= External control voltage

(0 ... 5 V 0 ... +Usetnom)

with reference to AGND (1)

U(Uext –)

= External control voltage

(0 ... 5 V 0 ... –Usetnom)

with reference to AGND (1)

ku =Control coefficient = U

setnom

/ 5 V

setnom

= 60 V (SYSKON P1500-060-060)

• Max. adjusting error: ±0.2% Unom ±0.4% setting value.

• Input resistance: 10 kΩ each

Notes

• The control inputs are not floating inputs: Their reference

point, AGND (1), is connected to the negative pole of the

power output.

• Connecting grounded circuits to the control input may result

in erroneous settings due to leakage current or ground loops.

• If the reference point of control voltage Usu is connected to

the negative output pole at the load side, the inverting input

must be connected to this point (connection b in figure 7.4).

Influences resulting from voltage drops in the output lead are

thus avoided.

• If control voltage is isolated from the output, connect Uext – to

AGND (1) (connection a in figure 7.4).

• If remote adjustment of output voltage is to be accomplished

by means of a potentiometer, wiring can be laid out as shown

in figure 7.4.

• Usu can also be applied as an alternating voltage, for example

in order to superimpose manually selected direct voltage

USET with interference signals. The maximum operating

frequency of modulated output voltage depends upon voltage

amplitude, the setting selected for current limiting and load,

and thus cannot be defined with a simple formula. It is

increased as amplitude is decreased, and as current limiting

and load are increased.

Connection

Figure 7.4 Wiring for Controlling Output Voltage with External Voltage /

External Potentiometer

7.5 Controlling Output Current

Function

Output current Iout can be set with external voltage

Usi = U(Iext +) – U(Iext –) via control inputs Iext + (non-inverting)

and Iext – (inverting).

• The current control input functions as a differential voltage

input:

• The following applies with activated analog setpoint

(SEtUP/dPYIF/AnIF/AI_I on):

Iset = ISET + ki x U(Iext +) – ki x U(Iext –)

Iset = Resulting output current setpoint

ISET = Current setpoint which has been selected

manually or digitally

U(Iext +) = External control voltage

(0 ... 5 V 0 ... +Isetnom)

with reference to AGND (1)

U(Iext –) = External control voltage

(0 ... 5 V 0 ... –Isetnom)

with reference to AGND (1)

ki = Control coefficient = Isetnom / 5 V

setnom

= 60 A (SYSKON P1500-060-060)

• Max. adjusting error : ±0.2% Inom ±0.4% setting value

• Input resistance: 10 kΩ each

Notes

• The control inputs are not floating inputs: Their reference

point, AGND (1), is connected to the negative pole of the

power output.

• Connecting grounded circuits to the control input may result

in erroneous settings due to leakage current or ground loops.

• If the reference point of control voltage Usi is connected to the

negative output pole at the load side, the inverting input must

be connected to this point (connection b in figure 7.5).

Influences resulting from voltage drops in the output lead are

thus avoided.

• If control voltage is isolated from the output, connect Iext – to

AGND (1) (connection a in figure 7.5).

• If remote adjustment of output current is to be accomplished

by means of a potentiometer, wiring can be laid out as shown

in figure 7.5.

txt Meaning – Allocation Level

OFF SIG n: direct off passive high

ON SIG n: direct on active low

OUT OUTPUT ON passive high

OUTPUT OFF active low

MODE OFF or CV passive high

CC or OL active low

SEQ READY/STOP passive high

RUN active low

SSET OFF passive high

ON active low

U_LO

Umeas ≥ w1 passive high

Umeas < w1 active low

U_HI

Umeas ≤ w2 passive high

Umeas > w2 active low

I_LO

Imeas ≥ w3

passive high

Imeas < w3 active low

I_HI

Imeas ≤ w4

passive high

Imeas > w4 active low

PSP-KONSTANTER

Einstellung

USET = 0 V

ISET = Isoll

OUTPUT ON

SEtUP/dPYIF/AnIF/AI_U on

Analog Interface

TRG 1 + 1

TRG 1 - 2

TRG 2 + 3

TRG 2 - 4

SIG 1 + 5

SIG 1 - 6

SIG 2 + 7

SIG 2 - 8

SIG 3 + 9

AGND 2 10

+15V 11

AGND 1 12

Uext + 13

Uext - 14

Iext + 15

Iext - 16

U MON 17

I MON 18

SENSE + 19

SENSE - 20

+OUT

-OUT

Usu

Last

PSP-KONSTANTER

Einstellung

USET = 0 V

ISET = Isoll

OUTPUT ON

SEtUP/dPYIF/AnIF/ AI_U on

Analog Interface

TRG 1 + 1

TRG 1 - 2

TRG 2 + 3

TRG 2 - 4

SIG 1 + 5

SIG 1 - 6

SIG 2 + 7

SIG 2 - 8

SIG 3 + 9

AGND 2 10

+15V 11

AGND 1 12

Uext + 13

Uext - 14

Iext + 15

Iext - 16

U MON 17

I MON 18

SENSE + 19

SENSE - 20

+OUT

-OUT

2k?

Last

REF 02

OUT +5V