LM2576-12 MOTOROLA [Motorola, Inc], LM2576-12 Datasheet - Page 16

LM2576-12

Manufacturer Part Number

LM2576-12

Description

Easy Switcher 3.0A Step-Down Voltage Regulator

Manufacturer

MOTOROLA [Motorola, Inc]

Datasheet

1.LM2576-12.pdf (28 pages)

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because of their fast switching speed and low forward

voltage drop.

voltage applications (5.0 V and lower). Another choice could

be Fast–Recovery, or Ultra–Fast Recovery diodes. It has to

be noted, that some types of these diodes with an abrupt

turnoff characteristic may cause instability or EMI troubles.

can better fulfill some quality, low noise design requirements.

Table 1 provides a list of suitable diodes for the LM2576

regulator. Standard 50/60 Hz rectifier diodes, such as the

1N4001 series or 1N5400 series are NOT suitable.

Inductor

switching power supply designs. The style of the core and

the winding technique used in the magnetic component’s

design has a great influence on the reliability of the overall

power supply.

high voltage spikes generated by the rate of transitions in

current within the switching power supply, and the possibility

of core saturation can arise during an abnormal operational

mode. Voltage spikes can cause the semiconductors to enter

avalanche breakdown and the part can instantly fail if enough

energy is applied. It can also cause significant RFI (Radio

Frequency Interference) and EMI (Electro–Magnetic

Interference) problems.

Continuous and Discontinuous Mode of Operation

continuous and the discontinuous modes of operation. The

regulator works in the continuous mode when loads are

relatively heavy, the current flows through the inductor

continuously and never falls to zero. Under light load

conditions, the circuit will be forced to the discontinuous

mode when inductor current falls to zero for certain period of

time (see Figure 23 and Figure 24). Each mode has

distinctively different operating characteristics, which can

affect the regulator performance and requirements. In many

cases the preferred mode of operation is the continuous

mode. It offers greater output power, lower peak currents in

the switch, inductor and diode, and can have a lower output

ripple voltage. On the other hand it does require larger

inductor values to keep the inductor current flowing

continuously, especially at low output load currents and/or

high input voltages.

selection guide for the LM2576 regulator was added to this

data sheet (Figures 18 through 22). This guide assumes that

the regulator is operating in the continuous mode, and

selects an inductor that will allow a peak–to–peak inductor

ripple current to be a certain percentage of the maximum

design load current. This percentage is allowed to change as

They provide the best efficiency especially in low output

A fast–recovery diode with soft recovery characteristics

The magnetic components are the cornerstone of all

Using an improper or poorly designed inductor can cause

The LM2576 step–down converter can operate in both the

To simplify the inductor selection process, an inductor

LM2576

different design load currents are selected. For light loads

(less than approximately 300 mA) it may be desirable to

operate the regulator in the discontinuous mode, because

the inductor value and size can be kept relatively low.

Consequently, the percentage of inductor peak–to–peak

current increases. This discontinuous mode of operation is

perfectly acceptable for this type of switching converter. Any

buck regulator will be forced to enter discontinuous mode if

the load current is light enough.

Selecting the Right Inductor Style

type are core material, cost, the output power of the power

supply, the physical volume the inductor must fit within, and

the amount of EMI (Electro–Magnetic Interference) shielding

that the core must provide. The inductor selection guide

covers different styles of inductors, such as pot core, E–core,

toroid and bobbin core, as well as different core materials

such as ferrites and powdered iron from different

manufacturers.

be the best choice. Since the magnetic flux is contained

within the core, it generates less EMI, reducing noise

problems in sensitive circuits. The least expensive is the

bobbin core type, which consists of wire wound on a ferrite

rod core. This type of inductor generates more EMI due to the

fact that its core is open, and the magnetic flux is not

contained within the core.

same printed circuit board, open core magnetics can cause

interference between two or more of the regulator circuits,

especially at high currents due to mutual coupling. A toroid,

pot core or E–core (closed magnetic structure) should be

used in such applications.

Waveform

Some important considerations when selecting a core

For high quality design regulators the toroid core seems to

When multiple switching regulators are located on the

Inductor

Current

Figure 23. Continuous Mode Switching Current

Switch

Power

2.0 A

0 A

MOTOROLA ANALOG IC DEVICE DATA

HORIZONTAL TIME BASE: 5.0 s/DIV

Waveforms

LM2576-12 MOTOROLA [Motorola, Inc], LM2576-12 Datasheet - Page 16

LM2576-12

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