LOK4000 Datasheet, PDF(6/12 Page) Power-One – DIN-Rail Mountable AC-DC (DC-DC) Converters

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LOK4000 Datasheet, PDF (6/12 Pages) Power-One – DIN-Rail Mountable AC-DC (DC-DC) Converters

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LOS, LOR, LOK4000 Series Data Sheet

DIN-Rail Mountable AC-DC (DC-DC) Converters

Auxiliary Functions

Adjustable Output Voltage (R input)

As a standard feature, the LOK units offer adjustable output

voltage by using the control input R. If the R pin is left open-

circuit, the output voltage is set to Vo nom. (see: Output data)

The R input is referenced to the secondary side of the

converter. Adjustment of the output voltage is possible by

means of either an external resistor or a voltage source.

a) Adjustment by means of an external resistor Rext1:

Depending upon the value of the required output voltage, the

resistor shall be connected

either: Between the R terminal and Voâ to achieve an output

voltage adjustment range of approximately

Vo = 90 - 100 % Vo nom.(LOK4301, 4601 and 4801 types)

Rext1 â 4 kâ¦ â¢ âââââââââ

Vo nom â Vo

or: Between the R terminal and Vo+ to achieve an output

voltage range of approximately Vo = 100 - 110% Vo nom for

rectifier versions and 100 - 125 % Vo nom for battery chargers.

(Vo â 2.5 V)

Rext2 â 4 kâ¦ â¢ âââââââââââââââââââ

2.5 V â¢ (Vo/Vo nom â 1)

Table 4: Output Voltage OK signal

b) Adjustment by means of an external voltage Vext between

Voâ and R terminal to achieve an output voltage adjustment

range of approx. 90 - 110% Vo nom (LOK 4301, 4601 and

4801 types), 93 - 117% Vo nom for battery chargers.

Vo â¢ 2.5 V

Vext

âââââââââ

Vo nom

Attempting to adjust the output below this range will cause

the converter to shut down (hiccup mode).

Note: Applying an external control voltage >3 V may damage the

converter.

06029

Vo+

Vref = 2.5 V 4 kâ¦

control

circuit

Rext 2

Rext1

Vext

Vo-

Fig. 5

Output voltage control by means of the R-input

Output Voltage OK (D Output)

The D-output is referenced to Voâ and monitors the output

voltage Vo. If Vo drops below Vo t, the D-output will be disabled

(open-collector circuit). The circuitry works independently of the

input voltage and can therefore be used as battery-low indicator.

Conditions

Vo t setting

VD Vo - Vo t min

Vo > Vo t max

I D < 50 mA

LOK4001-2RLD

LOK4140-2RLD

LOK4240-2RLD

LOK4740-2RLD

Unit

min

max min

max

4.4

4.8 10.5

11.5 21

23 42

0.6

Battery Charging/Temperature Sensor

The LOK 4140/4240/4740 are designed to charge lead-acid

batteries. For optimum battery charging and extended life time

of the battery an external temperature sensor may be

connected to the R-input. The sensor should be mounted as

close as possible to one of the poles of the battery.

Depending upon the cell voltage and the temperature coefficient

of the battery, different temperature sensors are available. For

more information please see: Temperature Sensors (Accessory

Products on the Web Site) or contact Power-One.

If no sensor is used, the float charge voltage should be

adjusted with a suitable resistor connected to the R input (see:

Adjustable Output Voltage).

Cell voltage [V]

2.45

06123a

2.40

2.35

Vo max

2.30

+ â Sensor Sensor Temperature

wires cable sensor

R white

brown

Vo+

Fuse

Voâ

green

+â

Battery

Fig. 6

Voltage setting by a temperature sensor, wiring diagram

2.25

2.20

2.15 Vo nom

2.10

â20 â10 0

10 20 30 40 50 Â°C

Fig. 7

VC = 2.27 V, â3 mV/K

VC = 2.23 V, â3 mV/K

VC = 2.27 V, â3.5 mV/K

VC = 2.23 V, â3.5 mV/K

Float charge voltage for defined temperature coefficients.

SEP 09, 2005 revised to JUL 17, 2006

Page 6 of 12

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