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Copyright Cirrus Logic, Inc. 2011
(All Rights Reserved)
http://www.cirrus.com
Application Note
MIGRATING FROM THE L6562 TO THE
CS1601 POWER FACTOR CORRECTION IC
1. Introduction
The CS1601 belongs to Cirrus Logic's family of industry-first digital Power Factor Correction (PFC) ICs offering best-in-class per-
formance. The CS1601 has been optimized for lighting applications. This document compares the CS1601 with the ST Micro-
electronics L6562. A commercially available ballast designed to light two T05HO lamps is used as a benchmark. The test
conditions and setup for the ballast are described in Section 2. The third section of the document details the advantages of using
the CS1601 over the L6562. The fourth section discusses the differences in theory of operation. Section 5 compares the feature
sets of L6562 and CS1601. Section 6 describes a step-by-step procedure to show how to migrate an L6562-based PFC front-
end pre-regulator to a CS1601-based solution.
2. Description of Test Setup
Fluorescent ballasts are a challenging application for PFC due to the presence of large load transients and strict THD require-
ments in a highly cost-sensitive market. Given the wide input voltage range of the application and the demanding form factor
requirements for these applications, many design trade-offs have to be made to complete a design using the current analog Crit-
ical Conduction Mode (CRM) solutions.
2.1 Ballast Specifications & Requirements
- Input Voltage Range: 108V to 305V 50/60Hz
- Output Load: 2x T5HO lamps amounting to ~108W nominal
- Link capacitor: 2x 47F, 250V caps in series
- Low THD (<10%)
- High Power Factor (>0.9)
- No lamp flicker under any test condition
Lamp
Lamp
Bridge + EMI Filter +
Boost PFC
AC
Input
Figure 1. Example Ballast Second Stage and Lamp Connections
AN349
MAR ‘11
AN349REV1
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Inhaltsverzeichnis

Seite 1 - Application Note

Copyright  Cirrus Logic, Inc. 2011(All Rights Reserved)http://www.cirrus.comApplication NoteMIGRATING FROM THE L6562 TO THECS1601 POWER FACTOR CORREC

Seite 2 - 3.1 Smaller Boost Inductor

AN34910 AN349REV1Make changes to the schematic as shown. Note that capacitor C6 can be between pin 1 and GND or pin 1 and VDD, based onrouting conside

Seite 3 - AN349REV1 3

AN349AN349REV1 11In almost all fluorescent ballast applications, there are no requirements for light-load efficiency. The most common topology usedfor

Seite 4 - 4. Theory of Operation

AN34912 AN349REV16.6 Noise Issues When Using CS1601 to replace L6562For an existing design using the L6562, attempting to use the CS1601 with the comp

Seite 5 - AN349REV1 5

AN349AN349REV1 136.6.2 IFB - Pin 1The filter pole (corner) on pin 1 is calculated by:Fp = 1  (2Rfb Cfb2  Gain) From the L6562 data sheet, we will

Seite 6 - 6 AN349REV1

AN34914 AN349REV18. Revision HistoryRevision Date ChangesREV1 MAR 2011 Initial Release.Contacting Cirrus Logic SupportFor all product questions and in

Seite 7 - AN349REV1 7

AN3492 AN349REV13. Advantages of CS1601 over L6562The CS1601 uses a revolutionary digital algorithm that has significant advantages over the existing

Seite 8 - 5.3 Other Specifications

AN349AN349REV1 3near unity power factor across the operating input voltage range. The CS1601-based solutions greatly minimizes the need formaking this

Seite 9 - 6.1 Footprint Compatibility

AN3494 AN349REV1Figure 5. Ballast Startup with CS16014. Theory of OperationFigure 4 and Figure 5 are the internal block diagrams of the L6562 and the

Seite 10 - 6.5 Auxiliary Supply Design

AN349AN349REV1 5Figure 7. CS1601 Block DiagramThe basic principle of operation of the L6562 can be summarized as follows:- The L6562 is a CRM control

Seite 11 - AN349REV1 11

AN3496 AN349REV1Figure 9 shows the frequency profile across the line voltage for CS1601-based solution.Figure 9. CS1601 Switching Frequency vs. Line

Seite 12 - 6.6.1 IAC – PIN 3

AN349AN349REV1 74.1 Boost Inductor SizeLike the L6562-based designs, the size of the boost inductor when using the CS1601 is determined by the amount

Seite 13 - 6.6.2 IFB - Pin 1

AN3498 AN349REV15. Feature SetThe following tables compare the major feature sets of CS1601 and L6562.5.1 Protection Feature Set5.2 Performance Featur

Seite 14 - Revision History

AN349AN349REV1 96. Migrating an Existing Design to Use the CS16016.1 Footprint CompatibilityThe CS1601 is packaged in the industry-standard 8-pin SOIC

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