ICB1FL02G Infineon Technologies, ICB1FL02G Datasheet - Page 29

ICB1FL02G

Manufacturer Part Number

ICB1FL02G

Description

IC SMART BALLAST CONTROL PDSO-18

Manufacturer

Infineon Technologies

Type

PFC/Ballast Controllerr

Datasheet

1.ICB1FL02G.pdf (37 pages)

Specifications of ICB1FL02G

Frequency

20 ~ 100 kHz

Current - Supply

650µA

Voltage - Supply

10.5 V ~ 17.5 V

Operating Temperature

-25°C ~ 125°C

Package / Case

DSO-18

Packages

PG-DSO-18

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Lead Free Status / Rohs Status

Details

Other names

ICB1FL02GXT
SP000204703

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Current page: 29 of 37
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7.1

After turning on the mains switch the peak value of the rectified AC input voltage is available at C02 and smoothing

capacitor C10 (Fig. 17). Via R11 and R12 the supply voltage increases at bypass capacitors C12 and C13. At a

level of 10,5V a source current out of pin RES is sensing the existence of the low-side filament of the fluorescent

lamp. Fed from the BUS voltage a current is detected at pin LVS1 via R31...R35, when the high-side filament is

connected. The current fed into pin LVS1 is used to charge C12 via internal clamping diode. The IC changes into

active mode when Vcc level achieves the turn-on threshold of 14V and both filaments are detected. If not required

the pin LVS2 can be disabled by connecting to GND.

The active IC is sensing the BUS voltage level via R14, R15. Gate drives are disabled when open loop or

overvoltage are detected. If BUS voltage level is within the allowed range, the low-side Gate drive is starting with

the first pulse of the 125kHz softstart frequency. Only few cycles are required to charge the bootstrap capacitor

C14 via D6, R30 and Q3. Without R30 there is a risk of overcurrent shut down by exceeding the 1,6V threshold

at pin LSCS. The power supply is generated by a charge pump C16, D7 and D8. In normal operation C16 is

charged and discharged via C17 from the current forced by the resonance inductor L2 during the deadtime of the

inverter producing a zero voltage switching (ZVS) operation. Run frequency, preheating frequency and preheating

time are set by resistors R21, R22 and R23.

Figure 17

During run mode the lamp voltage is sensed via R31...R33 in order to detect an abnormal increasing of lamp

voltage or an rectifier effect that can occur at end-of-life conditions of the lamp. At the pin RES there is also

detected a non-ZVS operation, classified into Capmode1 and Capmode2. This will be done by the capacitive

divider C18, C19, that transfers the divided AC-part of the inverter output voltage to pin RES. Dependent on the

shape of the signal two different time windows can be started at abnormal conditions in order to protect the ballast.

Zener diode D10 limits voltage transients at pin RES that can occur during removal of the lamp.

Voltage mode preheating is done by two separate windings on the resonant inductor L2. The bandpass filters L21,

C21 and L22, C22 are designed to pass preheating current at preheating frequency only and to block any current

during run mode. Ignition is provided by shifting the operating frequency towards the resonant frequency of L2

and C20. The voltage level during ignition is limited by the current sensed at Shunt resistors R24, R25 with a level

of 0,8V at pin LSCS. Overcurrents that exceed a voltage level of 1,6V for longer than 400ns will disable the IC at

any time and change into fault mode.

The PFC preconverter with L1, Q1 and D5 is starting with a fixed frequent operation and change over to a critical

conduction mode (CritCM) as soon as the level at pin PFCZCD is sufficient to trigger the operation. During light

load the operation mode changes into discontinuous conduction mode (DCM). Compensation of the voltage

control loop is completely integrated with a digital filter and error amplifier. PFC overcurrent is sensed by R18,

R19, Bus overvoltage and undervoltage at pin PFCVS. A bypass diode D11 between the DC side of the mains

rectifier and BUS capacitor is recommended in order to avoid an overload of the PFC MOSFET Q1.

Datasheet Version 2.1

K01

K02

K03

180V..

270V

C01

Application Examples

Operating Behaviour of a Ballast for a single Fluorescent Lamp

Application circuit of a Ballast for a single Fluorescent Lamp with voltage mode Preheating.

D1...4

C04

C03

C05

C02

R11

R12

D11

R18

C10

R19

C12

C11

R13

R14

R15

R16

R20

PFCZCD

PFCGD

PFCVS

PFCCS

R21 R22 R23

HSVCC

HSGND

HSGD

LSGD

LSCS

R31

R26

C14

R27

R30

C13

R32

R24

R29

R25

R33

C15

R34

Application Examples

R35

C16 C18

C17

C19

September 2008

L22

ICB1FL02G

D10

L21

C20

C22

C21

R36

ICB1FL02G Infineon Technologies, ICB1FL02G Datasheet - Page 29

ICB1FL02G

Specifications of ICB1FL02G

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