Data sheet, Feature description (continued) – GE Industrial Solutions JRCK017A0S32R0 Orca Series User Manual

GE

Data Sheet

JRCK017A0S32R0 Orca Series; DC-DC Converter Power Modules

36–62 Vdc Input; 32.0Vdc Output; 17.0Adc Output

October 11, 2013

©2012 General Electric Company. All rights reserved.

Page 8

Feature Description (continued)

The voltage between the Vo(+) and Vo(-) terminals must not

exceed the minimum output overvoltage shut-down value
indicated in the Feature Specifications table. This limit
includes any increase in voltage due to remote-sense

compensation and output voltage set-point adjustment (trim).
See Figure 11. If not using the remote-sense feature to
regulate the output at the point of load, then connect
SENSE(+) to V

o

(+) and SENSE(-) to V

o

(-) at the module.

Although the output voltage can be increased by both the

remote sense and by the trim, the maximum increase for the
output voltage is not the sum of both. The maximum increase
is the larger of either the remote sense or the trim. The

amount of power delivered by the module is defined as the
voltage at the output terminals multiplied by the output
current. When using remote sense and trim: the output
voltage of the module can be increased, which at the same
output current would increase the power output of the
module. Care should be taken to ensure that the maximum
output power of the module remains at or below the
maximum rated power.

Figure 11. Effective Circuit Configuration for Single-Module
Remote-Sense Operation Output Voltage.

Output Voltage Programming

Trimming allows the user to increase or decrease the output

voltage set point of a module. Trimming down is
accomplished by connecting an external resistor between the
TRIM pin and the SENSE(-) pin. Trimming up is accomplished

by connecting external resistor between the SENSE(+) pin and
TRIM pin. The trim resistor should be positioned close to the
module. Certain restrictions apply to the input voltage lower
limit when trimming the output voltage to the maximum. See
Figure 12 for the allowed input to output range when using
trim.

Figure 12. Output Voltage Trim Limits vs. Input Voltage.

If not using the trim down feature, leave the TRIM pin open.

Trim Down – Decrease Output Voltage

With an external resistor (R

adj_down

) between the TRIM and

SENSE(-) pins, the output voltage set point (V

o,adj

) decreases

(see Figure 13). The following equation determines the
required external-resistor value to obtain a percentage output
voltage change of %.
For output voltages:

V

O,nom

= 32V

Without –T Option

With –T Option





















k

R

down

adj

2

%

100

_





















k

R

down

adj

11

%

1000

_

Where,

100

%

,

,









nom

o

desired

nom

o

V

V

V

V

desired

= Desired output voltage set point (V).

Figure 13. Circuit Configuration to Decrease Output
Voltage.

Trim Up – Increase Output Voltage

With an external resistor

(

R

adj_up

)

connected between the

SENSE(+) and TRIM pins

,

the output voltage set point (

V

o,

ad

j

)

increases (see Figure 14).
The following equation determines the required external-
resistor value to obtain a percentage output voltage
change of %. For output voltages: V

O,nom

= 32V

Without –T Option





































k

V

R

nom

O

up

adj

%

%)

2

(

100

(

%

225

.

1

%)

100

(

,

_

With –T Option





















k

R

up

adj

12

.

15

%

27122

_

Where,

100

%

,

,









nom

o

nom

o

desired

V

V

V

V

desired

= Desired output voltage set point (V).