MP44014-AGS-Z

MP44014-A Boundary Mode PFC Controller The Future of Analog IC Technology DESCRIPTION The MP44014-A is a boundary conduction mode PFC controller that provides simple and high-performance active power-factor correction using minimum external components. The output voltage is regulated accurately by a high-performance voltage-mode amplifier with an accurate internal voltage reference. FEATURES      The precise adjustable output over-voltage protection greatly enhances the system reliability.   The on-chip R/C filter on the current sense pin can potentially eliminate the external R/C filter.  The extremely low start-up current, quiescent current, and the disable function reduces the power consumption, resulting in excellent efficiency performance. The MP44014-A is available in a SOIC-8. Boundary Conduction Mode PFC Controller for Pre-Regulator Zero-Crossing Compensation to Minimum THD of AC Input Current Precise Adjustable Output Over-Voltage Protection Ultra-Low (15μA) Start-Up Current Low Quiescent Current (0.46mA) at OVP Condition On-Chip Filter on Current Sense Pin Enable/Disable and Open-Loop Protection Function on FB -750/+800mA Peak Gate-Drive Current APPLICATIONS     Offline Adaptors Electronic Ballasts LLC Front End Other PFC Pre-Regulators All MPS parts are lead-free, halogen-free, and adhere to the RoHS directive. For MPS green status, please visit the MPS website under Quality Assurance. “MPS” and “The Future of Analog IC Technology” are registered trademarks of Monolithic Power Systems, Inc. TYPICAL APPLICATION MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 1 MP44014-A – BOUNDARY MODE PFC CONTROLLER ORDERING INFORMATION Part Number Package SOIC-8 MP44014-AGS* Top Marking See Below * For Tape & Reel, add suffix –Z (e.g. MP44014-AGS–Z). TOP MARKING M44014-A: Product Code of MP44014-AGS LLLLLLLL: Lot Number MPS: MPS Prefix Y: Year Code WW: Week Code PACKAGE REFERENCE 1 FB VCC 8 2 COMP GATE 7 3 MULT GND 6 4 CS ZCS 5 MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 2 MP44014-A – BOUNDARY MODE PFC CONTROLLER ABSOLUTE MAXIMUM RATINGS (1) Thermal Resistance Supply Voltage VCC .............. -0.5V to Self Limit Zero Current Sensing (ZCS) . -0.3V to Self Limit Other Analog Inputs and Outputs -0.3V to 6.5V ZCS Max. Current .....................-2.0mA to 10mA Continuous Power Dissipation (TA = +25°C) (2) SOIC8 ........................................................ 1.4W Junction Temperature………………… …..150C Lead Temperature (Solder).......................260C Storage Temperature............... -55C to +150C SOIC-8 ....................................90 ...... 45 ... C/W Recommended Operating Conditions (3) Supply Voltage VCC ......................13.8V to 21V Operating Junction Temp. (TJ). -40°C to +125°C (4) θJA θJC Notes: 1) Exceeding these ratings may damage the device. 2) The maximum allowable power dissipation is a function of the maximum junction temperature TJ(MAX), the junction-toambient thermal resistance θJA, and the ambient temperature TA. The maximum allowable continuous power dissipation at any ambient temperature is calculated by Exceeding the maximum D(MAX)=(TJ(MAX)-TA)/θJA. allowable power dissipation produces an excessive die temperature, causing the regulator to go into thermal shutdown. Internal thermal shutdown circuitry protects the device from permanent damage. 3) The device is not guaranteed to function outside of its operating conditions. 4) Measured on JESD51-7, 4-layer PCB. MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 3 MP44014-A – BOUNDARY MODE PFC CONTROLLER ELECTRICAL CHARACTERISTICS VCC = 15V, TJ = -40C~+125C, unless otherwise noted Parameter Supply Voltage Operating Range Turn-On Threshold Turn-Off Threshold Hysteresis Zener Voltage Supply Current Start-Up Current Quiescent Current Operating Current Symbol Quiescent Current Iq Multiplier Input Bias Current Linear Operation Range Output Max. Slope Gain(5) VCC VCC_on VCC_off VCC_hys Vz Istartup Iq Icc IMULT VMULT ΔVCS/ΔVMULT K Condition Min After Turn-On 10.7 11 8.7 2.0 22 ICC=20mA VCC=11V No Switch Fs =70kHz, CLOAD=1nF During OVP (Either Static or Dynamic) or VFB ≤150mV Typ Max Units 25 21 13.8 10.8 3.1 28 V V V V V 15 2.5 3.5 40 3.2 4.5 µA mA mA 0.46 0.7 mA -1 3 µA V 12.4 9.8 VMULT=3V 0 VMULT=0~0.6V VCOMP=Upper Clamp 1.0 1.10 VMULT=1V,VCOMP=4V, TJ = 25C 0.32 0.38 0.45 1/V TJ = 25C 2.465 2.5 2.535 V 2 5 mV 1 µA -6.9 mA V/V Error Amplifier Feedback Voltage Feedback Voltage Line Regulation Feedback Bias Current Source Current VFB VFB_LR IFB ICOMP_source VCC=10.7V to 21V VFB=0~2.6V VCOMP=4V, VFB=2.4V, TJ = 25C -2.7 -4.7 Sink Current ICOMP_sink VCOMP=4V, VFB=2.6V, TJ = 25C 3 5 Upper Clamp Voltage VCOMP_H VFB=2V, Isource=-0.5mA 5.3 6 6.6 V Lower Clamp Voltage VCOMP_L VFB=3V, Isink=0.5mA 2.0 2.15 2.3 V FB_Disable Threshold VFB_DIS 150 200 250 mV FB_EN Hysteresis VFB_EN_hys 250 Current-Sense Comparator Input Bias Current Turn-Off Delay LEB Time Current-Sense Clamp Voltage VCS_Clamp Current-Sense Offset VCS_Offset VMULT=0V VMULT=2.5V Zero Current Sensor Upper Clamp Voltage VZCSclamp_H IZCS=2.5mA ICS TDT TLEB mA VCS=6.5V VMULT=0.2V VMULT=0.2V mV -1 40 1.06 7.2 175 80 1.14 25 6 7.8 MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 130 1.22 µA ns ns V mV mV 8.7 V 4 MP44014-A – BOUNDARY MODE PFC CONTROLLER ELECTRICAL CHARACTERISTICS (continued) VCC = 15V, TA = TJ = -40C~+125C, unless otherwise noted. Parameter Lower Clamp Voltage Zero-Current Sensing Threshold Re-Start Current After Disable Re-Starter Re-Start Time Over-Voltage Dynamic OVP Current Hysteresis Static OVP Threshold Gate Driver Output High Voltage Symbol Condition Min Typ Max Units -0.3 0 55 -0.15 1.4 0.7 85 V V V µA Tstart 80 175 280 µs IOVP 23.5 30.5 IOVP_Hys VOVP 2.1 27 20 2.25 µA µA V 11.5 12.5 VZCSclamp_L IZCS=-2.5mA VZCS_H VZCS Rising VZCS_L VZCS Falling IZCS_res VOH IGDsource=20mA VOL Tf Tr VD_max IGDsink=200mA Output Low Voltage Voltage Fall Time Voltage Rise Time Max. Output Drive Voltage Source Current Capability Sink Current Capability IGate_source IGate_sink UVLO Saturation Voltage VSaturation 12 0.9 30 40 13.5 -750 800 VCC=0 to VCC_ON, IGate_sink=10mA 2.4 V 1.9 70 80 15.5 V ns ns V mA mA 0.3 V Note: 5) The multiplier output is given by: Vcs=K·VMUTL·(VCOMP-2.5) MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 5 MP44014-A – BOUNDARY MODE PFC CONTROLLER TYPICAL PERFORMANCE CHARACTERISTICS 10 100 14 10 1 0.1 0.01 0.001 0 5 10 15 20 25 30 28 VCC THRESHOLD(V) SUPPLY CURRENT(mA) OPERATING NON OVP 1 OVP 0.1 START-UP 0.01 -50 0 50 100 150 13 RISING 12 11 FALLING 10 9 8 -50 2.6 250 2.55 200 2.5 150 2.45 100 0 50 100 150 0 50 100 150 0 50 100 150 26 24 22 20 -50 0 50 100 150 35 2.4 -50 1.2 1 0 50 100 150 UPPER CLAMP 50 -50 0.6 30 0.8 0.4 0.6 25 0.4 0.2 20 0.2 15 -50 0 50 100 150 0 0 0.5 1 1.5 2 2.5 3 3.5 4 0 -50 MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 6 MP44014-A – BOUNDARY MODE PFC CONTROLLER TYPICAL PERFORMANCE CHARACTERISTICS (continued) 10 13 3.5 8 12 3 2.5 6 2 10 4 1.5 2 1 8 0 -2 -50 0.5 0 50 100 150 6 0 100 200 300 400 500 0 0 100 200 MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 300 400 500 7 MP44014-A – BOUNDARY MODE PFC CONTROLLER TYPICAL PERFORMANCE CHARACTERISTICS (continued) VOUT AC Coupled 5V/div. VOUT AC Coupled 5V/div. VREC 100V/div. VREC 100V/div. VREC 100V/div. IL 1A/div. IL 1A/div. IL 1A/div. VOUT AC Coupled 5V/div. IL 1A/div. VOUT 100V/div. VOUT 100V/div. VREC 100V/div. VREC 100V/div. IL 2A/div. IL 2A/div. VZCS 5V/div. VGATE 20V/div. 35 30 VREC 20V/div. 25 20 VGATE 20V/div. 15 10 IL 500mA/div. IEC 1000-3-2 Class C MP44014-B Design Example 5 0 3 7 11 15 19 23 27 31 35 39 MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 8 MP44014-A – BOUNDARY MODE PFC CONTROLLER PIN FUNCTIONS Pin # Name 1 FB 2 COMP 3 MULT 4 CS 5 ZCS 6 GND 7 GATE 8 VCC Description Feedback. The output voltage is fed into FB through a resistor divider. Also, FB can be used as an enable and disable pin. Output of the Error Amplifier. A compensation network is connected between COMP and FB. Input of the Multiplier. Connect MULT to the rectified main voltage via a resistor divider to provide the sinusoidal reference for the current control loop. Current Sense. The current through the MOSFET is fed into CS via a resistor. The resulting voltage on CS is compared with the output of the internal multiplier to get an internal sinusoidal-shaped reference, which determines the MOSFETs turn-on signal. The on-chip RC filter reduces high-frequency noise on CS. The Zero-Crossing Current-Sensing Input of the Inductor. A negative-transition edge triggers the MOSFETs turn-on signal. Ground. Gate Driver Output. The high output current of the gate driver is able to drive the low-cost power MOSFET. The high-level voltage of GATE is clamped to 12V in case GATE is supplied with a high VCC. Supply Voltage of Both the Signal Path of the IC and the Gate Driver. A bypass capacitor from VCC to ground is needed to reduce noise. MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 9 MP44014-A – BOUNDARY MODE PFC CONTROLLER FUNCTIONAL BLOCK DIAGRAM ZCS Internal Bias Starter Voltage Regulator VCC - Driver UVLO + Vref - + Enable/Disable Over-Voltage Detection - 1.5pF - Multiplier GND + LEB 80k CS 0.2V 0.45 S Q R + GATE + 1.4V 0.7V MULT FB 2.5V COMP FIGURE 1. Functional Block Diagram MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 10 MP44014-A – BOUNDARY MODE PFC CONTROLLER OPERATION The MP44014-A is a boundary conduction mode PFC controller that is optimized for the PFC preregulator up to 300W and fully complies with the IEC1000-3-2 specification. Output-Voltage Regulation The output voltage is sensed at FB through a resistor divider from the output voltage to ground. The on-chip reference voltage and the highperformance error amplifier regulate the output voltage accurately. Over-Voltage Protection (OVP) The MP44014-A offers two stages of overvoltage protection: dynamic over-voltage protection and static over-voltage protection. With two-stage protection, the circuit operates reliably. starter will be re-enabled and allow the switching to re-start. When the load is very light, the output voltage tends to stay steadily above the nominal value. In this condition, the error amplifier output will saturate low. When the error amplifier output is lower than 2.25V, the static OVP is triggered. Consequently, the gate driver is blocked to turn off the external power MOSFET, and the device enters an idle state. Normal operation resumes once the error amplifier output goes back into the regulated region (see Fig. 2). UVLO Driver Vo IR9  VO  VFB V  IR10  FB R9 R10 If there is an abrupt rise on the output (ΔVO), the compensation network connected between FB and COMP takes time to achieve a high-power factor (PF), due to the long RC time constant. The voltage on FB will still be kept at the reference value. The current through R10 remains equal to VFB/R10, but the current through R9 will become: ' IR9  VO  VO  VFB R9 This current has to flow into COMP. At the same time, this current is monitored inside the chip. If the current rises to 25µA, the output voltage of the multiplier will be forced to decrease, and the energy delivering to output will be reduced. If this current continues to rise (to about 27µA), the dynamic OVP could be triggered. Consequently, the gate driver is blocked to turn off the external power MOSFET, and the device enters an idle state. This state is maintained until the current falls below 10µA, the point at which the internal IR9 Over-Voltage Detection R9 FB - Multiplier + The MP44014-A achieves OVP by monitoring the current flow through COMP. During steady-state operation, the current flow through the high-side feedback resistor (R9) and the low-side feedback resistor (R10) is: GATE MULT 2.5V IR10 R10 COMP FIGURE 2. OVP Detector Block Disable/Enable or OLP Function The MP44014-A can be disabled by pulling FB lower than 200mV. This helps reduce quiescent current when the PFC pre-regulator needs to shut down. To enable the IC, the voltage on FB must exceed 0.45V. This function is used mainly as a remote on/off control input that is driven by a PWM controller for power management purposes. Also, FB acts as an open-loop protection for safety purposes. The IC shuts off PWM if the lower resistor of the output divider is shorted to ground or if the upper resistor is missing or fails to open. Boundary Conduction Mode When the current of the boost inductor reaches zero, the voltage on the inductor is reversed. Then ZCS generates the turn-on signal of the MOSFET by sensing the falling edge of the voltage on the auxiliary winding coupled with the inductor. If the voltage of ZCS rises above 1.4V, the comparator waits until the voltage falls MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 11 MP44014-A – BOUNDARY MODE PFC CONTROLLER below 0.7V. Once the voltage falls below 0.7V, the MP44014-A turns on the MOSFET. The 7.8V high clamp protects ZCS. The internal 175µs timer generates a signal to turn on the MOSFET if the driver signal has been low for more than 175µs. This also allows the MOSFET to turn on during the start-up period since no signal is generated from ZCS. Zero-Crossing Compensation The MP44014-A offers a 30mV voltage offset for the multiplier output near the zero-crossing of the line voltage. This forces the circuit to process more energy at the bottom of the line voltage. With this function, the THD of the current is reduced. the sinusoidal-shaped signal, the external power MOSFET begins to turn off, and the diode turns on. Also, the inductor current begins to fall. When the inductor current reaches zero, the power MOSFET begins to turn on again, which causes the inductor current to start rising again. The power circuit works in boundary conduction mode, and the envelope of the inductor current is sinusoidal-shaped. The average input current is half of the peak current, so the average input current is sinusoidal-shaped as well (see Fig. 3). A high-power factor can be achieved through this control method. Multiplier output Inductor current To prevent redundant energy, this offset is reduced as the instantaneous line voltage increases. Therefore, the offset is negligible near the top of the line voltage. Power Factor Correction The MP44014-A senses the inductor current through CS and compares it to the sinusoidalshaped signal (which is generated from the output of the multiplier). When the external power MOSFET turns on, the inductor current rises linearly. When the peak current hits Input average current FIGURE 3. Inductor Current Waveform The control flow chart of the MP44014-A is shown in Fig. 4. FIGURE 4. Control Flow Chart MP44014-A Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 12 MP44014-A – BOUNDARY MODE PFC CONTROLLER PACKAGE INFORMATION SOIC-8 NOTICE: The information in this document is subject to change without notice. Users should warrant and guarantee that third party Intellectual Property rights are not infringed upon when integrating MPS products into any application. MPS will not assume any legal responsibility for any said applications. MP44014-B Rev. 1.01 www.MonolithicPower.com 11/10/2015 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2015 MPS. All Rights Reserved. 13