L4981B STMicroelectronics, L4981B Datasheet

IC PFC CTRLR AVERAGE CURR 20DIP

L4981B

Manufacturer Part Number
L4981B
Description
IC PFC CTRLR AVERAGE CURR 20DIP
Manufacturer
STMicroelectronics
Datasheet

Specifications of L4981B

Mode
Average Current
Frequency - Switching
100kHz
Current - Startup
100µA
Voltage - Supply
14.5 V ~ 19.5V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Through Hole
Package / Case
20-DIP (0.300", 7.62mm)
Switching Frequency
115 KHz
Maximum Operating Temperature
+ 125 C
Mounting Style
Through Hole
Minimum Operating Temperature
- 40 C
Supply Voltage Range
12V To 19.5V
No. Of Pins
20
Operating Temperature Range
-40°C To +125°C
Ic Generic Number
4981
Output Current Max
300µA
Rohs Compliant
Yes
Input Voltage
19.5V
Leaded Process Compatible
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
497-5337-5
L4981B

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DESCRIPTION
The L4981 I.C. provides the necessary features
to achieve a very high power factor up to 0.99.
Realized in BCD 60II technology this power factor
corrector (PFC) pre-regulator contains all the con-
BLOCK DIAGRAM
November 2001
CONTROL BOOST PWM UP TO 0.99P.F.
LIMIT LINE CURRENT DISTORTION TO < 5%
UNIVERSAL INPUT MAINS
FEED FORWARD LINE AND LOAD REGULA-
TION
AVERAGE CURRENT MODE PWM FOR
MINIMUM NOISE SENSITIVITY
HIGH CURRENT BIPOLAR AND DMOS TO-
TEM POLE OUTPUT
LOW START-UP CURRENT (0.3mA TYP.)
UNDER VOLTAGE LOCKOUT WITH HYS-
TERESIS AND PROGRAMMABLE TURN ON
THRESHOLD
OVERVOLTAGE, OVERCURRENT PROTEC-
TION
PRECISE 2% ON CHIP REFERENCE EX-
TERNALLY AVAILABLE
SOFT START
®
POWER FACTOR CORRECTOR
trol functions for designing a high efficiency-mode
power supply with sinusoidal line current con-
sumption.
The L4981 can be easily used in systems with
mains voltages between 85V to 265V without any
line switch. This new PFC offers the possibility to
work at fixed frequency (L4981A) or modulated
frequency (L4981B) optimizing the size of the in-
MULTIPOWER BCD TECHNOLOGY
ORDERING NUMBERS: L4981X (DIP20)
DIP20
L4981XD (SO20)
L4981A
L4981B
SO20
1/16

Related parts for L4981B

L4981B Summary of contents

Page 1

... The L4981 can be easily used in systems with mains voltages between 85V to 265V without any line switch. This new PFC offers the possibility to work at fixed frequency (L4981A) or modulated frequency (L4981B) optimizing the size of the in- L4981A L4981B SO20 L4981XD (SO20) 1/16 ...

Page 2

... To limit the number of the external components, the device integrates pro- tections as overvoltage and overcurrent. The overcurrent level can be programmed using a simple resistor for L4981A. For a better precision and for L4981B an external divider must be used. Parameter 50mA) (*) CC SINK ...

Page 3

... Pin 2 and the sense resistor. To have a better precision another resistor between Pin 2 and a reference voltage (Pin 11) must be added. L4981B peak current limiting. A precise current limitation is obtained using two external resistor only. These resistors must be connected between the sense resistor, Pin 2 and the reference voltage ...

Page 4

... Source Current with High Output 16 Voltage V Low Input Voltage 16L V High Input Voltage 16H t Pulse for Synchronization d FREQUENCY MODULATION FUNCTION (Only for L4981B) f Maximum Oscillation Frequency 18max f Minimum Oscillator Frequency 18min SOFT START SECTION I Soft Start Source Current SS V Output Saturation Voltage ...

Page 5

... SINK I = 250mA SOURCE V = 15V 1nF OUT C = 1nF OUT I = 0mA SOURCE V = 14V 0V IAC COSC Pin17 = Open Pin20 = 1nF (*) Pin 220K CC Pin15 to GND = 33K 5.3V 6 L4981A - L4981B Min. Typ. Max. Unit 19 5 ref ref -20mV +20mV 180 250 320 mV 0. 0.4 0 105 ...

Page 6

... L4981A - L4981B ELECTRICAL CHARACTERISTICS (continued) Symbol Prameter MULTIPLIER SECTION Multipler Output Current K Multiplier Gain V VA OUT MULT OUT LFF REF MULT OUT AC where Figure 1: MULTI-OUT vs 5.1V) LFFD 6/16 Test Condition V = 4V, V VA-OUT RMS MULTOUT LFF OSC 4V, V VA-OUT RMS MULTOUT LFF ...

Page 7

... Figure 3: MULTI-OUT vs 5.1V) LFFD Figure 5: MULTI-OUT vs 2.5V) LFFD Figure 7: MULTI-OUT vs 2.5V) LFFD (V = 4.4V; Figure 4: MULTI-OUT vs. I RMS (V = 1.7V; Figure 6: MULTI-OUT vs. I RMS (V = 4.4V; Figure 8: MULTI-OUT vs. I RMS L4981A - L4981B (V = 5.3V; AC RMS V = 5.1V) LFFD (V = 2.2V; AC RMS V = 2.5V) LFFD (V = 5.3V; AC RMS V = 2.5V) LFFD 7/16 ...

Page 8

... FUSE BRIDGE BY214 220nF Vi 400V 88V AC to 254V AC R11 NTC 560 1% R21 5. 80kHz 200W OUT Figure 9B: L4981B Power Factor Corrector (200W) R17 806K 1% R17 806K 1% R22 1.1M FUSE BRIDGE BY214 220nF Vi 400V 88V AC to 254V AC R11 NTC 560 1% R21 5.1K ...

Page 9

... Figure 10: Reference Voltage vs. Source Refer- ence Current Figure 12: Reference Voltage vs. Junction Tem- perature Figure 14: Gate Driver Rise and Fall Time L4981A - L4981B Figure 11: Reference Voltage vs. Supply Voltage Figure 13: Switching Frequency vs. Junction Temperature Figure 15: Operating Supply Current vs. Supply Voltage 9/16 ...

Page 10

... L4981A - L4981B Figure 16: Programmable Under Voltage Lock- out Thresholds R23 (Kohm) Table 1: Programmable Under Voltage Lockout Thresholds 11V 12V 13V 14V 14.5V 15V Figure 18: Oscillator Diagram 10/16 Figure 17: Modulation Frequency Normalized 0.8 R22 = R23 6.8 0.4 0 OFF 10V 10.1V 10.5V 10.8V 10 ...

Page 11

... L4981A/ B R10 5k TP1 R15 R1 17k 2.2k 3.3n 1n 24k 460 R13 2.2k R9 (RS) 50m // 3*0.15) L4981A - L4981B VCC C10 D4-STTH8R06 150uF NTC to220 (/40CW) 2.5 V+ BUS=400V D5- STTA106 R19 750k R22 D6 R18 L2 750k C14 DZW06-48 6.8 3u 100n 2W R20 R23 750k D7-STTA406 750k 14 3 ...

Page 12

... L4981A - L4981B Figure 20: P.C.B. Component Side (Dimensions 88 x 150mm). Figure 20: P.C.B. Solder Side (Dimensions 88 x 150mm). 12/16 ...

Page 13

... AN628 - DESIGNING A HIGH POWER FACTOR SWITCHING PREREGULATOR WITH THE L4981 CONTINUOUS MODE V P out in 404Vdc 397W 406Vdc 395W 407Vdc 394W V P out in 410Vdc 394W 412Vdc 395W 412Vdc 395W L4981A - L4981B THD PF 5% 0.998 2.2% 0.999 3% 0.999 THD PF 4.7% 0.997 6.4% 0.993 8.1% 0.987 Eff. .92 .94 .945 Eff. ...

Page 14

... L4981A - L4981B mm DIM. MIN. TYP. MAX. A 2.35 2.65 0.093 A1 0.1 0.3 0.004 B 0.33 0.51 0.013 C 0.23 0.32 0.009 D 12.6 13 0.496 E 7.4 7.6 0.291 e 1. 10.65 0.394 h 0.25 0.75 0.010 L 0.4 1.27 0.016 K 0˚ (min.)8˚ (max 14/16 inch MIN. TYP. ...

Page 15

... MIN. TYP. MAX. MIN. a1 0.254 0.010 B 1.39 1.65 0.055 b 0.45 b1 0.25 D 25.4 E 8.5 e 2.54 e3 22.86 F 7.1 I 3.93 L 3.3 Z 1.34 inch MECHANICAL DATA TYP. MAX. 0.065 0.018 0.010 1.000 0.335 0.100 0.900 0.280 0.155 0.130 0.053 L4981A - L4981B OUTLINE AND DIP20 15/16 ...

Page 16

... L4981A - L4981B Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specification mentioned in this publication are subject to change without notice ...

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