Datasheet L6562 (STMicroelectronics) - 4
| Fabricante | STMicroelectronics |
| Descripción | Transition-Mode PFC Controller |
| Páginas / Página | 16 / 4 — L6562. Table 5. Electrical Characteristics. Symbol. Parameter. Test … |
| Idioma del documento | Inglés |
L6562. Table 5. Electrical Characteristics. Symbol. Parameter. Test Condition. Min. Typ. Max. Unit. CURRENT SENSE COMPARATOR
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L6562 Table 5. Electrical Characteristics
(continued) (Tj = -25 to 125°C, VCC = 12, CO = 1 nF; unless otherwise specified)
Symbol Parameter Test Condition Min. Typ. Max. Unit
Gv Voltage Gain Open loop 60 80 dB GB Gain-Bandwidth Product 1 MHz ICOMP Source Current VCOMP = 4V, VINV = 2.4 V -2 -3.5 -5 mA Sink Current VCOMP = 4V, VINV = 2.6 V 2.5 4.5 mA VCOMP Upper Clamp Voltage ISOURCE = 0.5 mA 5.3 5.7 6 V Lower Clamp Voltage ISINK = 0.5 mA (1) 2.1 2.25 2.4 V
CURRENT SENSE COMPARATOR
ICS Input Bias Current VCS = 0 -1 µA td(H-L) Delay to Output 200 350 ns VCS clamp Current sense reference clamp VCOMP = Upper clamp 1.6 1.7 1.8 V VCSoffset Current sense offset VMULT = 0 30 mV VMULT = 2.5V 5
ZERO CURRENT DETECTOR
VZCDH Upper Clamp Voltage IZCD = 2.5 mA 5.0 5.7 6.5 V VZCDL Lower Clamp Voltage IZCD = -2.5 mA 0.3 0.65 1 V VZCDA Arming Voltage (3) 2.1 V (positive-going edge) VZCDT Triggering Voltage (3) 1.6 V (negative-going edge) IZCDb Input Bias Current VZCD = 1 to 4.5 V 2 µA IZCDsrc Source Current Capability -2.5 -5.5 mA IZCDsnk Sink Current Capability 2.5 mA VZCDdis Disable threshold 150 200 250 mV VZCDen Restart threshold 350 mV IZCDres Restart Current after Disable 30 75 µA
STARTER
tSTART Start Timer period 75 130 300 µs
OUTPUT OVERVOLTAGE
IOVP Dynamic OVP triggering current 35 40 45 µA Hys Hysteresis (3) 30 µA Static OVP threshold (1) 2.1 2.25 2.4 V
GATE DRIVER
VOH IGDsource = 20 mA 2 2.6 Dropout Voltage IGDsource = 200 mA 2.5 3 V VOL IGDsink = 200 mA 0.9 1.9 V tf Voltage Fall Time 30 70 ns tr Voltage Rise Time 40 80 ns VOclamp Output clamp voltage IGDsource = 5mA; Vcc = 20V 10 12 15 V UVLO saturation VCC = 0 to VCCon, Isink=10mA 1.1 V (1) All parameters are in tracking (2) The multiplier output is given by: V = K ⋅ V ⋅ (V – 2.5 ) c s M U L T C O M P (3) Parameters guaranteed by design, functionality tested in production. 4/16 Document Outline Figure 1. Packages Table 1. Order Codes 1 Features 1.1 APPLICATIONS 2 Description Figure 2. Block Diagram Table 2. Absolute Maximum Ratings Figure 3. Pin Connection (Top view) Table 3. Thermal Data Table 4. Pin Description Table 5. Electrical Characteristics (Tj = -25 to 125˚C, VCC = 12, CO = 1 nF; unless otherwise specified) 3 Typical Electrical Characteristics Figure 4. Supply current vs. Supply voltage Figure 5. Start-up & UVLO vs. Tj Figure 6. IC consumption vs. Tj Figure 7. Vcc Zener voltage vs. Tj Figure 8. Feedback reference vs. Tj Figure 9. OVP current vs. Tj Figure 10. E/A output clamp levels vs. Tj Figure 11. Delay-to-output vs. Tj Figure 12. Multiplier characteristic Figure 13. Multiplier gain vs. Tj Figure 14. Vcs clamp vs. Tj Figure 15. Start-up timer vs. Tj Figure 16. ZCD clamp levels vs. Tj Figure 17. ZCD source capability vs. Tj Figure 18. Gate-drive output low saturation Figure 19. Gate-drive output high saturation Figure 20. Gate-drive clamp vs. Tj Figure 21. UVLO saturation vs. Tj 4 Application Information 4.1 Overvoltage protection 4.2 THD optimizer circuit Figure 22. THD optimization: standard TM PFC controller (left side) and L6562 (right side) Figure 23. Typical application circuit (250W, Wide-range mains) Figure 24. Demo board (EVAL6562-80W, Wide-range mains): Electrical schematic Figure 25. EVAL6562-80W: PCB and component layout (Top view, real size: 57 x 108 mm) Table 6. EVAL6562N: Evaluation results at full load Table 7. EVAL6562N: Evaluation results at half load Table 8. EVAL6562N: No-load measurements Figure 26. Line filter (not tested for EMI compliance) used for EVAL6562N evaluation 5 Package Information Figure 27. DIP-8 Mechanical Data & Package Dimensions Figure 28. SO-8 Mechanical Data & Package Dimensions 6 Revision History Table 9. Revision History
(continued) (Tj = -25 to 125°C, VCC = 12, CO = 1 nF; unless otherwise specified)
Symbol Parameter Test Condition Min. Typ. Max. Unit
Gv Voltage Gain Open loop 60 80 dB GB Gain-Bandwidth Product 1 MHz ICOMP Source Current VCOMP = 4V, VINV = 2.4 V -2 -3.5 -5 mA Sink Current VCOMP = 4V, VINV = 2.6 V 2.5 4.5 mA VCOMP Upper Clamp Voltage ISOURCE = 0.5 mA 5.3 5.7 6 V Lower Clamp Voltage ISINK = 0.5 mA (1) 2.1 2.25 2.4 V
CURRENT SENSE COMPARATOR
ICS Input Bias Current VCS = 0 -1 µA td(H-L) Delay to Output 200 350 ns VCS clamp Current sense reference clamp VCOMP = Upper clamp 1.6 1.7 1.8 V VCSoffset Current sense offset VMULT = 0 30 mV VMULT = 2.5V 5
ZERO CURRENT DETECTOR
VZCDH Upper Clamp Voltage IZCD = 2.5 mA 5.0 5.7 6.5 V VZCDL Lower Clamp Voltage IZCD = -2.5 mA 0.3 0.65 1 V VZCDA Arming Voltage (3) 2.1 V (positive-going edge) VZCDT Triggering Voltage (3) 1.6 V (negative-going edge) IZCDb Input Bias Current VZCD = 1 to 4.5 V 2 µA IZCDsrc Source Current Capability -2.5 -5.5 mA IZCDsnk Sink Current Capability 2.5 mA VZCDdis Disable threshold 150 200 250 mV VZCDen Restart threshold 350 mV IZCDres Restart Current after Disable 30 75 µA
STARTER
tSTART Start Timer period 75 130 300 µs
OUTPUT OVERVOLTAGE
IOVP Dynamic OVP triggering current 35 40 45 µA Hys Hysteresis (3) 30 µA Static OVP threshold (1) 2.1 2.25 2.4 V
GATE DRIVER
VOH IGDsource = 20 mA 2 2.6 Dropout Voltage IGDsource = 200 mA 2.5 3 V VOL IGDsink = 200 mA 0.9 1.9 V tf Voltage Fall Time 30 70 ns tr Voltage Rise Time 40 80 ns VOclamp Output clamp voltage IGDsource = 5mA; Vcc = 20V 10 12 15 V UVLO saturation VCC = 0 to VCCon, Isink=10mA 1.1 V (1) All parameters are in tracking (2) The multiplier output is given by: V = K ⋅ V ⋅ (V – 2.5 ) c s M U L T C O M P (3) Parameters guaranteed by design, functionality tested in production. 4/16 Document Outline Figure 1. Packages Table 1. Order Codes 1 Features 1.1 APPLICATIONS 2 Description Figure 2. Block Diagram Table 2. Absolute Maximum Ratings Figure 3. Pin Connection (Top view) Table 3. Thermal Data Table 4. Pin Description Table 5. Electrical Characteristics (Tj = -25 to 125˚C, VCC = 12, CO = 1 nF; unless otherwise specified) 3 Typical Electrical Characteristics Figure 4. Supply current vs. Supply voltage Figure 5. Start-up & UVLO vs. Tj Figure 6. IC consumption vs. Tj Figure 7. Vcc Zener voltage vs. Tj Figure 8. Feedback reference vs. Tj Figure 9. OVP current vs. Tj Figure 10. E/A output clamp levels vs. Tj Figure 11. Delay-to-output vs. Tj Figure 12. Multiplier characteristic Figure 13. Multiplier gain vs. Tj Figure 14. Vcs clamp vs. Tj Figure 15. Start-up timer vs. Tj Figure 16. ZCD clamp levels vs. Tj Figure 17. ZCD source capability vs. Tj Figure 18. Gate-drive output low saturation Figure 19. Gate-drive output high saturation Figure 20. Gate-drive clamp vs. Tj Figure 21. UVLO saturation vs. Tj 4 Application Information 4.1 Overvoltage protection 4.2 THD optimizer circuit Figure 22. THD optimization: standard TM PFC controller (left side) and L6562 (right side) Figure 23. Typical application circuit (250W, Wide-range mains) Figure 24. Demo board (EVAL6562-80W, Wide-range mains): Electrical schematic Figure 25. EVAL6562-80W: PCB and component layout (Top view, real size: 57 x 108 mm) Table 6. EVAL6562N: Evaluation results at full load Table 7. EVAL6562N: Evaluation results at half load Table 8. EVAL6562N: No-load measurements Figure 26. Line filter (not tested for EMI compliance) used for EVAL6562N evaluation 5 Package Information Figure 27. DIP-8 Mechanical Data & Package Dimensions Figure 28. SO-8 Mechanical Data & Package Dimensions 6 Revision History Table 9. Revision History