LV12S20-100 Datasheet, PDF(4/15 Page) Wall Industries,Inc. – Low Voltage DC-DC Converter 10-36 Vdc Input 20Vdc Output at 5A Half-Brick Package

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

LV12S20-100 Datasheet, PDF (4/15 Pages) Wall Industries,Inc. – Low Voltage DC-DC Converter 10-36 Vdc Input 20Vdc Output at 5A Half-Brick Package

◁

Rev. D

TECHNICAL DATASHEET

LV12S20-100

DESIGN CONSIDERATIONS

Under Voltage Lock Out (UVLO)

The converter output is disabled until the input voltage exceeds the UVLO turn-on limit. The converter will

remain ON until the input voltage falls below the UVLO turn-off limit.

Over Current Protection

The converter is protected from short circuit and over current conditions. During these fault conditions, the

converter output will âhiccupâ. The converter output will recover once the short or over current fault is removed.

Over Temperature Protection (OTP)

The converter has internal thermal protection that will shut the converter OFF once the case temperature exceeds

the OTP turn-off limit. The converter will resume operation when the case temperature has dropped below the

OTP turn-on limit.

Input Filter

It is recommended to bypass the +Vin and âVin pins of the converter with a minimum of 680uF (100V minimum)

capacitor. No other bypassing is needed. However, to reduce the input ripple beyond what is seen in Photo 1,

larger values of capacitance may be used. Additionally, an inductor may be placed between the source and the

previously mentioned capacitor. No inductor should be placed between the capacitor and the input to the converter.

Figure 2: Input Filter Setup

Low

Impedance

Source

+Vin

680 ÂµF

electrolytic

capacitor

1 ÂµF

ceramic

capacitor

-Vin

LV12S20-100

Output Filter

No additional output capacitor is needed for the power supply to operate. However, to reduce the ripple and noise

on the output, additional capacitance may be added. A 100uF Ceramic capacitor may be added across the +Vo and

âVo pins to reduce the ripple and spike noise. Additional capacitance in the form of a tantalum or aluminum

electrolytic may also be placed across these pins in order reduce ripple and improve the transient peak-to-peak

voltage deviation.

Remote Sense

To improve the regulation at the load, route the connections from the -RS and the +RS pins to the âVo and +Vo

connections at the load. This will force the converter to regulate the voltage at the load and not at the pins of the

converter (refer to Graph 6). If it is not desired to use the Remotes Sense feature, the âRS and +RS pins may be

left open or they may be shorted to the -Vo and +Vo pins respectively. Shorting the RS pins to the Vo pins will

reduce the voltage drops through the converter pins.

(888) 597-WALL

www.wallindustries.com

Page 4 of 15

▷