GE Industrial Solutions JNC350R Series User Manual

Data Sheet

August 9, 2010

JNC350R Power Modules; DC-DC Converters

18 – 36 Vdc Input; 28Vdc Output; 350W Output

LINEAGE

POWER

10

Feature Description (continued)

Examples:
To trim down the output of a nominal 28V JNC350-T
module to 16.8V

100

28

8

.

16

28

%









V

V

V

∆% = 40





















k

R

down

adj

2

.

111

40

45

.

10631

R

adj - down

= 154.5 k



To trim up the output of a nominal 28V JNC350-T
module to 30.8V

100

28

28

8

.

30

%









V

V

V

Δ% = 10



















k

R

up

adj

10

5

.

488

R

adj - up

= 48.8 kΩ

Active Voltage Programming

For both the JNC350Rx and JNC350Rx-T, a Digital-
Analog converter (DAC), capable of both sourcing
and sinking current, can be used to actively set the
output voltage, as shown in Figure 17. The value of
R

G

will be dependent on the voltage step and range of

the DAC and the desired values for trim-up and trim-
down

Δ%.

Please contact your Lineage Power

technical representative to obtain more details on the
selection for this resistor.

Figure 17. Circuit Configuration to Actively Adjust
the Output Voltage.

Tunable Loop™

The JNC350Rx-T modules have a new feature that
optimizes transient response of the module called
Tunable Loop™.

External capacitors are usually added to the output of
the module for two reasons: to reduce output ripple
and noise and to reduce output voltage deviations
from the steady-state value in the presence of
dynamic load current changes. Adding external
capacitance however affects the voltage control loop
of the module, typically causing the loop to slow down
with sluggish response. Larger values of external
capacitance could also cause the module to become
unstable.

The Tunable Loop

TM

allows the user to externally

adjust the voltage control loop to match the filter
network connected to the output of the module. The
Tunable Loop

TM

is implemented by connecting a

series R-C between the SENSE(+) and TRIM pins of
the module, as shown in Figure 18. This R-C allows
the user to externally adjust the voltage loop feedback
compensation of the module.

Figure 18. Circuit diagram showing connection of
R

TUNE

and C

TUNE

to tune the control loop of the

module.

Recommended values of R

TUNE

and C

TUNE

for different

output capacitor combinations are given in Tables 1
and 2. Table 1 shows the recommended values of

R

TUNE

and C

TUNE

for different values of ceramic output

capacitors up to 8000

F that might be needed for an

application to meet output ripple and noise
requirements. Selecting R

TUNE

and C

TUNE

according to

Table 2 will ensure stable operation of the module
In applications with tight output voltage limits in the
presence of dynamic current loading, additional
output capacitance will be required. Table 2 lists
recommended values of R

TUNE

and C

TUNE

in order to

meet 2% output voltage deviation limits for some
common output voltages in the presence of a 6A to
12A step change (50% of full load), with an input
voltage of 24V.
Table 1. General recommended values of of R

TUNE

and C

TUNE

for V

out

=28V and various external

ceramic capacitor combinations.

Cout(µF)

1320

2200

4400

6600

8000

R

TUNE

(k

 1000 100 36.5 36.5 36.5

C

TUNE

(pF)

470 6800 10000

10000 10000