LNK500P-TL POWERINT [Power Integrations, Inc.], LNK500P-TL Datasheet - Page 4

LNK500P-TL

Manufacturer Part Number

LNK500P-TL

Description

Energy Efficient, CV or CV/CC Switcher for Very Low Cost Adapters and Chargers

Manufacturer

POWERINT [Power Integrations, Inc.]

Datasheet

1.LNK500P-TL.pdf (20 pages)

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The characteristics described above provide an approximate

CV/CC power supply output without the need for secondary

side voltage or current feedback. The output voltage regulation

is influenced by how well the voltage across C2 tracks the

reflected output voltage. This tracking is influenced by the

value of the transformer leakage inductance which introduces

an error. Resistor R2 and capacitor C2 partially filter the

leakage inductance voltage spike reducing this error. This

circuitry, used with standard transformer construction

techniques provides much better output load regulation than a

linear transformer, making this an ideal power supply solution

in many low power applications. If tighter load regulation is

required, an optocoupler configuration can be used while still

employing the constant output current characteristics provided

by LinkSwitch.

Optional Secondary Feedback

Figure 6 shows a typical power supply outline schematic using

LinkSwitch with optocoupler feedback to improve output voltage

regulation. On the primary side, the schematic differs from

Figure 7. Influence of the Optocoupler on the Power Supply Output Characteristic.

Figure 6. Power Supply Outline Schematic with Optocoupler Feedback.

threshold

feedback

Voltage

85-265

VAC

LNK500

Output Voltage

3/03

Load variation

during battery

charging

LNK500

LinkSwitch

transition

CC to CV

Inherent

Output Current

point

Figure 5 by the addition of R3, C3 and optocoupler U1. R3

forms a potential divider with R1 to limit the U1 collector

emitter voltage.

On the secondary side, the addition of voltage sense circuit

components R4, VR1 and U1 LED provide the voltage feedback

signal. In the example shown, a simple Zener (VR1) reference

is used though a precision TL431 reference is typically needed

to provide ±5% output voltage tolerancing and cable drop

compensation, if required. R4 provides biasing for VR1. The

regulated output voltage is equal to the sum of the VR1 Zener

voltage plus the forward voltage drop of the U1 LED. R5 is an

optional low value resistor to limit U1 LED peak current due to

output ripple. Manufacturer’s specifications for U1 current and

VR1 slope resistance should be consulted to determine whether

R5 is required.

U1 is arranged with collector connected to primary ground and

emitter to the anode of D1. This connection keeps the opto in an

electrically “quiet” position in the circuit. If the opto was

characteristic without

without optocoupler

Tolerance envelope

Characteristic with

Typical inherent

optocoupler

VR1

PI-3418-111802

PI-2788-092101

RTN

OUT

LNK500P-TL POWERINT [Power Integrations, Inc.], LNK500P-TL Datasheet - Page 4

LNK500P-TL

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