MP3429GL-P

MP3429 16VOUT, 21A, High-Efficiency, Fully Integrated, Synchronous, Boost Converter DESCRIPTION FEATURES The MP3429 is a 600kHz, fixed-frequency, wide input range, highly integrated, boost converter. The MP3429 starts from an input voltage as low as 2.7V and supports up to 30W of load power from a 1-cell battery with integrated low RDS(ON) power MOSFETs.     The MP3429 adopts constant-off-time (COT) control topology, which provides fast transient response. MODE supports the selection of pulse-skip mode (PSM), forced continuous conduction mode (FCCM), and ultrasonic mode (USM) in light-load condition. The cycle-by-cycle current limit on the low-side MOSFET prevents current runaway, and the high-side MOSFET eliminates the need for an external Schottky diode. Full protection features include programmable input under-voltage lockout (UVLO) and overtemperature protection (OTP). The MP3429 is available (3mmx4mm) package. in a QFN-13           2.7V to 13V Start-Up Voltage 0.8V to 13V Operating Voltage Up to 16V Output Voltage Supports 30W Average Power Load and 40W Peak Power Load from 3.3V 21.5A Internal Switch Current Limit Integrated 6.5mΩ and 10mΩ Power MOSFETs >95% Efficiency for 3.6V VIN to 9V/3A Selectable PSM, >23kHz USM, and FCCM in Light-Load Condition 600kHz Fixed Switching Frequency Adaptive COT for Fast Transient Response External Soft Start and Compensation Pins Programmable UVLO and Hysteresis 150°C Over-Temperature Protection (OTP) Available in a QFN-13 (3mmx4mm) Package APPLICATIONS     Notebooks Bluetooth Speakers Portable POS Systems Quick-Charge Power Banks All MPS parts are lead-free, halogen-free, and adhere to the RoHS directive. For MPS green status, please visit MPS website under Quality Assurance. “MPS” and “The Future of Analog IC Technology” are registered trademarks of Monolithic Power Systems, Inc. TYPICAL APPLICATION L1 1.5μH SW C1 22μFX3 BST VIN On / off V OUT 9V/3.5A VOUT EN R1 750kΩ MODE High/ Middle/ Low MP3429 FTY SS C4 22nF FB COMP VDD C3 4.7μF Efficiency vs. Load Current C5 0.1μF AGND PGND C6 6.8nF R2 93.1kΩ R3 6.8kΩ C2 22μFx3 Efficiency(%) VIN 2.7V-8.4V 100 95 90 85 80 75 70 65 60 55 50 PSM Vin=3V Vin=3.3V Vin=3.6V Vin=4.2V 1 MP3429 Rev. 1.0 6/8/2017 10 100 Load Current(mA) www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 1000 1 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER ORDERING INFORMATION Part Number* MP3429GL Package QFN-13 (3mmx4mm) Top Marking See Below *For Tape & Reel, add suffix –Z (e.g. MP3429GL–Z) TOP MARKING MP: MPS prefix Y: Year code W: Week code 3429: First four digits of the part number LLL: Lot number PACKAGE REFERENCE TOP VIEW SW BST VIN EN MODE FTY 13 12 11 10 9 8 VOUT 7 PGND 1 2 3 4 5 6 VDD SS COMP FB AGND QFN-13 (3mmx4mm) MP3429 Rev. 1.0 6/8/2017 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 2 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER ΘJA ΘJC ABSOLUTE MAXIMUM RATINGS (1) Thermal Resistance SW ................................ -0.3V (-3.5V for 3V and VIN = 3V. MP3429 Rev. 1.0 6/8/2017 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 6 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER TYPICAL CHARACTERISTICS (continued) VIN = VEN = 3.3V, VOUT = 9V, L = 1.5μH, TA = 25°C, unless otherwise noted. EN Threshold vs. Junction Temperature 1.3 1010 1.25 1005 Reference Voltage(mV) EN Threshold(V) IC startup switching 1.2 1.15 1.1 1.05 -50 Switching Frequency(kHz) 1000 995 990 985 980 1 660 Reference Voltage vs. Junction Temperature 0 50 100 Junction Temperature(℃) 150 -50 0 50 100 Junction Temperature(℃) 150 Switching Frequency vs. Junction Temperature 640 620 600 580 560 540 520 500 -50 MP3429 Rev. 1.0 6/8/2017 0 50 100 Junction Temperature(℃) 150 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 7 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER TYPICAL PERFORMANCE CHARACTERISTICS VIN = 3.3V, VOUT = 9V, L = 1.5μH, IOUT = 3.5A, USM, TA = 25°C, unless otherwise noted. Efficiency vs. Load Current PSM 100 95 90 85 80 75 70 65 60 55 50 100 USM 90 Efficiency(%) Efficiency(%) Efficiency vs. Load Current Vin=3V Vin=3.3V Vin=3.6V Vin=4.2V 80 70 60 Vin=3V Vin=3.3V Vin=3.6V Vin=4.2V 50 40 30 1 10 100 Load Current(mA) 1 1000 Regulation(%) Regulation(%) PSM Vin=3V Vin=3.3V Vin=3.6V Vin=4.2V 1 10 100 Load Current(mA) Vin=3V Vin=3.3V Vin=3.6V Vin=4.2V 1 1000 10 100 1000 Load Current(mA) 10000 Line Regulation PSM 1.0 USM 0.8 0.6 Iout=0A Iout=1.75A Iout=3.5A Regulation(%) Regulation(%) 10000 USM 0.5 0.4 0.3 0.2 0.1 0.0 -0.1 -0.2 -0.3 -0.4 -0.5 Line Regulation 0.5 0.4 0.3 0.2 0.1 0 -0.1 -0.2 -0.3 -0.4 -0.5 100 1000 Load Current(mA) Load Regulation Load Regulation 0.5 0.4 0.3 0.2 0.1 0 -0.1 -0.2 -0.3 -0.4 -0.5 10 0.4 Iout=0A 0.2 Iout=1.75A 0.0 Iout=3.5A -0.2 -0.4 -0.6 2 MP3429 Rev. 1.0 6/8/2017 3 4 5 6 7 Input voltage(V) 8 9 2 3 4 5 6 Input Voltage(V) www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 7 8 9 8 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER TYPICAL PERFORMANCE CHARACTERISTICS (continued) VIN = 3.3V, VOUT = 9V, L = 1.5μH, IOUT = 3.5A, USM, TA = 25°C, unless otherwise noted. Case Temperature Rising Bode Plot 120 20 60 0 0 -20 -60 1000 MP3429 Rev. 1.0 6/8/2017 -60 Gain Phase 10000 100000 Frequency(Hz) -120 -180 1000000 Case Temperature Rising(℃) 40 -40 80 180 Phase(deg) Gain(dB) 60 I OUT=3.5A Vin=3V Vin=3.3V Vin=3.6V Vin=4.2V 70 60 50 40 30 20 10 0 0 0.5 1 1.5 2 2.5 Load Current(A) www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 3 3.5 4 9 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER TYPICAL PERFORMANCE CHARACTERISTICS (continued) VIN = 3.3V, VOUT = 9V, L = 1.5μH, IOUT = 3.5A, USM, TA = 25°C, unless otherwise noted. Steady State Steady State IOUT = 0A, USM IOUT = 0A, PSM CH1: CH1: VOUT/AC VOUT/AC 10mV/div. 20mV/div. CH2: VIN 2V/div. CH2: VIN 2V/div. CH3: VSW 5V/div. CH3: VSW 5V/div. CH4: IL 500mA/div. CH4: IL 2A/div. 10µs/div. 4ms/div. Steady State Steady State IOUT = 0A, FCCM IOUT = 3.5A CH1: CH1: VOUT/AC VOUT/AC 10mV/div. 100mV/div. CH2: VIN 2V/div. CH2: VIN 2V/div. CH3: VSW 5V/div. CH3: VSW 5V/div. CH4: IL 2A/div. CH4: IL 10A/div.. 1µs/div. 2µs/div. VIN Start-Up VIN Start-Up IOUT = 0A IOUT =3.5A CH1: VOUT CH1: VOUT 5V/div. 5V/div. CH2: VIN 2V/div. CH2: VIN 2V/div. CH3: VSW 5V/div. CH3: VSW 5V/div. CH4: IL 2A/div. CH4: IL 10A/div. 4ms/div. MP3429 Rev. 1.0 6/8/2017 4ms/div. www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 10 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER TYPICAL PERFORMANCE CHARACTERISTICS (continued) VIN = 3.3V, VOUT = 9V, L = 1.5μH, IOUT = 3.5A, USM, TA = 25°C, unless otherwise noted. VIN Shutdown VIN Shutdown IOUT = 0A IOUT = 3.5A CH1: VOUT CH1: VOUT 5V/div. 5V/div. CH2: VIN 2V/div. CH2: VIN 2V/div. CH3: VSW 5V/div. CH3: VSW 5V/div. CH4: IL 1A/div. CH4: IL 10A/div. 1s/div. 10ms/div. EN Start-Up EN Start-Up IOUT = 0A IOUT = 3.5A CH1: VOUT CH1: VOUT 5V/div. 5V/div. CH2: VEN CH2: VEN 2V/div. 2V/div. CH3: VSW 5V/div. CH3: VSW 5V/div. CH4: IL 2A/div. CH4: IL 10A/div. 2ms/div. 2ms/div. EN Shutdown EN Shutdown IOUT = 0A IOUT = 3.5A CH1: VOUT CH1: VOUT 5V/div. 5V/div. CH2: VEN CH2: VEN 2V/div. 2V/div. CH3: VSW 5V/div. CH3: VSW 5V/div. CH4: IL 2A/div. CH4: IL 10A/div. 1s/div. MP3429 Rev. 1.0 6/8/2017 400µs/div. www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 11 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER TYPICAL PERFORMANCE CHARACTERISTICS (continued) VIN = 3.3V, VOUT = 9V, L = 1.5μH, IOUT = 3.5A, USM, TA = 25°C, unless otherwise noted. Load Transient Load Transient IOUT = 0 - 1.75A, IRAMP = 25mA/µs, USM IOUT = 3.5 - 1.75A, IRAMP = 25mA/µs CH1: CH1: VOUT/AC VOUT/AC 500mV/div. 500mV/div. CH4: IOUT 2A/div. CH4: IOUT 2A/div. 400µs/div. 400µs/div. Load Transient Load Transient IOUT = 0 - 1.75A, IRAMP = 25mA/µs, PSM IOUT = 0 - 1.75A, IRAMP = 25mA/µs, FCCM CH1: CH1: VOUT/AC VOUT/AC 500mV/div. 500mV/div. CH4: ILOAD 2A/div. CH4: ILOAD 2A/div. 400µs/div. MP3429 Rev. 1.0 6/8/2017 400µs/div. www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 12 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER PIN FUNCTIONS Pin # Name 1 SW 2 VDD 3 SS 4 COMP 5 6 7 FB AGND PGND 8 VOUT 9 FTY 10 MODE 11 EN 12 VIN 13 BST MP3429 Rev. 1.0 6/8/2017 Description Converter switch. SW is connected to the drain of the internal low-side power MOSFET and the source of the internal high-side synchronous power MOSFET. Connect the power inductor to SW. Internal bias supply. Decouple VDD with a 4.7μF ceramic capacitor placed as close to VDD as possible. When VIN is higher than 3.4V, VDD is powered by VIN. Otherwise, VDD is powered by the higher voltage of either VIN or VOUT. If the bias voltage connected to VDD is higher than 3.4V, the regulator from VIN and VOUT is disabled. The VDD regulator starts working when VIN is higher than about 0.9V if EN is high. Supply VIN with a power source higher than 2.7V during VIN start-up to provide enough VDD power voltage. Soft-start programming. Place a capacitor from SS to AGND to set the VOUT rising slew rate. Internal error amplifier output. Connect a capacitor and resistor in series from COMP to AGND for loop compensation. Feedback input. Connect a resistor divider from VOUT to FB. Analog ground. Power ground. Output. VOUT is connected to the drain of the high-side MOSFET. VOUT powers VDD when VOUT is higher than VIN and VIN is lower than 3.4V. Factory use only. FTY must be connected to GND in the application. MODE selection. If MODE is floating, the MP3429 works in ultrasonic mode (USM). If MODE is high, the MP3429 works in forced continuous conduction mode (FCCM). If MODE is low, the MP3429 works in pulse-skip mode (PSM). MODE must always be higher than 0.2V in the application, even if in PSM. Place a 130kΩ + 20kΩ resistor divider from VDD to MODE to set the MP3429 in PSM. Chip enable control. When not in use, connect EN to VIN for automatic start-up. EN can program the VIN UVLO. Do not leave EN floating. Input supply. VIN must be bypassed locally. Supply VIN with a power source higher than 2.7V during VIN start-up to provide enough VDD power voltage. Bootstrap. A capacitor between BST and SW powers the synchronous HS-FET. www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 13 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER BLOCK DIAGRAM L1 C1 VIN EN Regulator and UVLO Enable Circuit VDD BST VOUT VDD C5 SW BST Circuit VOUT Q2 C2 C3 MODE SS C4 VDD VOUT R1 FB R2 SW VIN Off Time VREF Control Logic Q1 PWM Comparator GM PGND Current Limit Current Sense Amplifier FTY AGND COMP C6 R3 Figure 1: Functional Block Diagram MP3429 Rev. 1.0 6/8/2017 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 14 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER OPERATION The MP3429 is a 600kHz, fixed-frequency, highefficiency, wide input range, boost converter. Its fully integrated low RDS(ON) MOSFETs provide small size and high efficiency for high-power step-up applicationS. CONSTANT-off-time (COT) control provides fast transient response, while MODE selection provides flexible lightload performance design. Boost Operation The MP3429 uses COT control to regulate the output voltage. At the beginning of each cycle, the low-side N-channel MOSFET (LS-FET) Q1 is turned on, forcing the inductor current to rise. The current through the LS-FET is sensed. If the current signal rises above the COMP voltage (VCOMP), which is an amplifier output comparing the feedback voltage (VFB) against the internal reference voltage, the pulse-width modulation (PWM) comparator flips and turns the LS-FET off. Then the inductor current flows to the output capacitor through the high-side switch MOSFET (HS-FET), causing the inductor current to decrease. After a fixed off-time, the LS-FET turns on again and the cycle is repeated. In each cycle, the LS-FET off-time is determined by the VIN/VOUT ratio, and the on-time is controlled by VCOMP, so the inductor peak current is controlled by COMP, which itself is controlled by the output voltage. Therefore, the inductor current regulates the output voltage. Operation Mode The MP3429 works with a 600kHz quasiconstant frequency with PWM control in heavyload condition. When the load current decreases, the MP3429 can work in forced continuous conduction mode (FCCM), pulseskip mode (PSM), or ultrasonic mode (USM) based on the MODE setting. Forced Continuous Conduction Mode (FCCM ) The MP3429 works in a fixed-frequency PWM mode for any load condition if MODE is set high (>1.6V). In this condition, the off time is determined by the internal circuit to achieve the 600kHz frequency based on the VIN/VOUT ratio. When the load decreases, the average input current drops, and the inductor current from VOUT to VIN may become negative during the MP3429 Rev. 1.0 6/8/2017 off-time (LS-FET is off and HS-FET is on). This forces the inductor current to work in continuous conduction mode (FCCM) with a fixed frequency, producing a lower VOUT ripple than in PSM. Pulse-Skip Mode (PSM) The MP3429 works in PSM in light-load condition if the MODE voltage is low (0.2V < VMODE < 0.7V). In this condition, once the inductor current drops to 0A, the HS-FET turns off to stop current flowing from VOUT to VIN, forcing the inductor current to work in discontinuous conduction mode (DCM). At the same time, the internal off time becomes longer once the MP3429 enters DCM. The off time is inversely proportional to the HS-FET on period in each cycle. In deep DCM conditions, the MP3429 slows down the switching frequency and saves power loss. If VCOMP drops to 0.5V of the PSM threshold, the MP3429 stops switching to decrease the switching power loss further. Switching resumes once VCOMP rises above 0.5V. The switching pulse skips based on VCOMP in very light-load conditions. PSM has much higher efficiency than FCCM in light load, but the VOUT ripple may be higher, and the frequency may go down and produce audible noise. In DCM, frequency is low, and the LS-FET will not turn on in the prolonged off time. If the load increases and COMP runs higher, the off time shortens, and the MP3429 returns to the 600kHz fixed-frequency regularly, so the loop can respond to a high load current. Ultrasonic Mode (USM) To prevent audible noise with a switching frequency lower than 20kHz in PSM, the MP3429 implements USM by floating MODE or setting MODE in the USM range (0.9V < VMODE < 1.2V). In USM, the inductor current works in DCM, and the frequency stretches as if in PSM when the load decreases to a moderate level. However, the switching does not stop when COMP drops to the 0.5V PSM threshold. The LS-FET on time is controlled by COMP, even if VCOMP is lower than the PSM threshold, unless it triggers the minimum on time. The MP3429 continues decreasing the switching frequency if the load is still decreasing. Once the MP3429 detects that the LS-FET is off for 30µs, www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 15 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER it forces the LS-FET on. This limits the frequency, avoiding audible frequency in lightload or no-load condition. USM may convert more energy to the output than the required load due to the minimum 23kHz frequency, which causes VOUT to rise above the normal voltage setting. When VOUT rises and VCOMP drops, the inductor peak current may drop as well. If VCOMP drops below one internal clamped level, the HS-FET zero-current detection (ZCD) threshold is regulated to one negative level gradually, so the energy in the inductor can flow back to VIN in each cycle. This keeps the output at the setting voltage with a >23kHz frequency. The MP3429 also works with a 600kHz frequency if VCOMP rises again. USM has the same efficiency as in PSM if the frequency is higher than the typical 33kHz. USM has more power loss than PSM if the frequency is clamped at the typical 33kHz, but USM does not introduce audible noise caused by the group pulse in PSM. Minimum On Time and Minimum Off Time The MP3429 blanks the LS-FET on state with 80ns in each cycle to enhance noise immunity. This 80ns minimum on time restricts applications with a high VIN/VOUT ratio. The MP3429 also blanks the LS-FET off state with a minimum off time in each cycle. During the minimum off time, the LS-FET cannot turn on, and the minimum off time is short enough to convert the 0.8V input to 16V. LS-FET and HS-FET Maximum On Time If the inductor current cannot trigger VCOMP with an on time of 7.5µs, the MP3429 shuts down the LS-FET. After the LS-FET is shut down, the inductor current goes through the HS-FET and charges VOUT in the off-time period. This helps refresh VOUT with a minimum frequency of about 133kHz in heavy-load transient conditions. During CCM condition, the HS-FET on time is limited below 8µs. This helps limit the maximum LS-FET off time when VOUT is close to VIN in USM. In USM or heavy-load PSM, if VIN is too close to VOUT, the HS-FET may be turned off by the 8µs HS-FET maximum on time because the inductor current cannot ramp down within this 8µs limit. After the HS-FET turns off, the LS-FET turns on immediately with one pulse control by MP3429 Rev. 1.0 6/8/2017 VCOMP, and the HS-FET turn on again. This makes the LS-FET work in a quasi-constant minimum duty cycle. If VIN is high enough, VOUT is higher than the setting voltage with this duty cycle ratio. In PSM and light load, the IC works with normal PSM logic. The IC stops working when VOUT is higher than the setting voltage and resumes switching when VOUT drops below the setting voltage. VDD Power The MP3429 internal circuit is powered by VDD. A ceramic capacitor no less than 4.7μF is required on VDD. When VIN is lower than 3.4V, VDD is powered from the higher value of either VIN or VOUT. This allows the MP3429 to maintain a low RDS(ON) and high efficiency, even with a low input voltage. When VIN is higher than 3.4V, VDD is always powered by VIN. This decreases the VOUT to VDD regulator loss, because VOUT is always higher than VIN. If VDD is powered by an external supply, and the voltage is higher than 3.4V, the regulators from VIN and VOUT are disabled. In this condition, the MP3429 starts once the external VDD power supply is higher than VDDUVLO, even if VIN is as low as 0.9V. When VDD is powered by the external power supply, the MP3429 continues working, even if both VIN and VOUT are dropping but are higher than 0.8V. The external VDD power source should be limited within 3.6V. There is a reverse-blocking circuit to limit the current flowing between VIN and VOUT. If the external VDD power is higher than the VDD regulation voltage, the current is supplied from the external power, and there is no path for the current from VDD to VIN or from VDD to VOUT. VDD is charged when VIN is higher than about 0.9V and EN is higher than the micro-power threshold. If EN is low, VDD is disconnected from VIN and VOUT. Supply VIN with a power source higher than 2.7V during VIN start-up to provide enough VDD power voltage. www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2017 MPS. All Rights Reserved. 16 MP3429 – 21A, HIGH-EFFICIENCY, FULLY INTEGRATED, SYNC, BOOST CONVERTER Start-Up When the MP3429 input is powered, it starts charging VDD from VIN. Once VDD rises above its UVLO threshold and EN is high, the MP3429 starts switching with closed loop control. If VDD is powered by an additional supply, the MP3429 starts switching once VDD rises above its undervoltage lockout (UVLO) threshold. After the IC is enabled, the MP3429 starts up with a soft-start (SS) control. The SS signal is controlled by charging SS from 0V and compared with the internal reference voltage. The lower value is fed to the error amplifier to control the output voltage. After the SS signal rises above the reference voltage, soft start is completed, and the internal reference takes charge of the feedback loop regulation. functions and starts boost operation. Boost switching is disabled when the EN voltage falls below its turn-on threshold (1.23V). To completely shut down the MP3429, a