MP28167GQ-A-Z

MP28167-A 2.8V to 22V VIN, 3A IOUT, 4-Switch, Integrated Buck-Boost Converter with FB Pin DESCRIPTION FEATURES The MP28167-A is a synchronous, four-switch, integrated buck-boost converter capable of regulating the output voltage across a wide 2.8V to 22V input voltage range with high efficiency. The integrated output voltage scaling and adjustable output current limit functions meet USB power delivery (PD) requirements.   The MP28167-A uses constant-on-time (COT) control in buck mode and constant-off-time control in boost mode, providing fast load transient response and smooth buck-boost mode transient. The MP28167-A provides autoPFM/PWM or forced PWM switching modes. It also provides configurable output constant current (CC) current limit, which supports flexible design for different applications.        Full protection features include over-current protection (OCP), over-voltage protection (OVP), under-voltage protection (UVP), configurable soft start, and thermal shutdown.    The MP28167-A is available in a QFN-16 (3mmx3mm) package.     Configurable Output Voltage via FB Pin Wide 2.8V to 22V Operating Input Voltage Range 0.08V to 1.637V Reference Voltage Range with 0.8mV Resolution through I2C (1) (Default 1V Reference Voltage) 3A Output Current or 4A Input Current Four Low RDS(ON) Internal Buck Power MOSFETs Adjustable Accurate CC Output Current Limit with Internal Sensing MOSFET via I2C 500kHz/750kHz Selectable Switching Frequency Output Over-Voltage Protection (OVP) with Hiccup Output Short-Circuit Protection (SCP) with Hiccup Over-Temperature Warning and Shutdown I2C Interface with ALT Pin One-Time Programmable (OTP) NonVolatile Memory I2C-Configurable Line Drop Compensation, PFM/PWM Mode, Soft Start, OCP, and OVP Configurable EN Shutdown Discharge Available in a QFN-16 (3mmx3mm) Package The MPL-AL Inductor Series Matches the Best Performance APPLICATIONS   USB PD Sourcing Ports Buck-Boost Bus Supplies 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”, the MPS logo, and “Simple, Easy Solutions” are registered trademarks of Monolithic Power Systems, Inc. or its subsidiaries. Note: 1) For applications where VOUT is below 3V, the switching frequency decreases. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 1 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION TYPICAL APPLICATION Efficiency vs. Output Current C4 100nF L1 IN C1 100µF C1A 22µF BST2 C5 VOUT 5V OUT EN MP28167-A Rt 806kΩ ALT SCL I2C slave SDA AGND R1 430kΩ FB R2 107kΩ VCC C3 1µF 95 100nF SW2 R3 499kΩ C7 22nF 100 4.7µH SW1 BST1 GND R5 21.5kΩ OC Cout 22µFx5 EFFICIENCY (%) VIN 12V + VIN = 12V, VOUT = 5V to 20V, L = 4.7µH, fSW = 500kHz, RDC = 16.5mΩ, forced PWM mode 90 85 80 75 70 65 C6 22nF 60 0.01 Vout=12V Vout=5V Vout=9V Vout=15V Vout=20V 0.1 1 OUTPUT CURRENT (A) MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 10 2 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION ORDERING INFORMATION Part Number* MP28167GQ-A EVKT-MP28167-A Package QFN-16 (3mmx3mm) Evaluation kit Top Marking MSL Rating See below 1 * For Tape & Reel, add suffix –Z (e.g. MP28167GQ-A–Z). TOP MARKING BKN: Product code of MP28167GQ-A Y: Year code LLL: Lot number EVALUATION KIT EVKT-MP28167-A EVKT-MP28167-A kit contents (items below can be ordered separately, and the GUI installation file and supplemental documents can be downloaded from the MPS website): # Part Number Item Quantity 1 EV28167-A-Q-00A 2 EVKT-USBI2C-02 MP28167-A evaluation board Includes one USB to I2C communication interface, one USB cable, and one ribbon cable 1 1 Order directly from MonolithicPower.com or our distributors. Input Power Supply Input USB Cable GUI Ribbon Cable Evaluation Board USB to I2C Communication Interface (EVKT-USBI2C-02) Output Load Load Figure 1: EVKT-MP28167-A Evaluation Kit Set-Up MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 3 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION PACKAGE REFERENCE TOP VIEW QFN-16 (3mmx3mm) MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 4 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION PIN FUNCTIONS Pin # Name Description Supply voltage. IN is the drain of the internal power device, and provides power to the entire chip. The MP28167-A operates from a 2.8V to 22V input voltage. A capacitor (CIN) is required to prevent large voltage spikes from appearing at the input. Place CIN as close to the IC as possible. Power ground. GND is the reference ground of the regulated output voltage. GND requires extra consideration during PCB layout. Connect GND with copper traces and vias. 1 IN 2, 11 GND 3 EN 4 ALT 5 SCL 6 SDA Data pin of the I2C interface. If not used, SDA should be pulled up to VCC. 7 OC Output constant current limit set pin. 8 FB Feedback. Sets the output voltage when connected to the tap of an external resistor divider that is connected between output and GND. 9 VCC 10 AGND 12 OUT Output power pin. Place the output capacitor close to OUT and GND. 13 BST2 Bootstrap. Connect a 0.1µF capacitor between SW2 and BST2 to form a floating supply across the high-side switch driver. 14 SW2 Switching node of the second half bridge. Connect one end of the inductor to SW2 for the current to run through the bridge. 15 SW1 Switching node of the first half bridge. Connect one end of the inductor to SW1 for the current to run through the bridge. 16 BST1 Bootstrap. Connect a 0.1µF capacitor between SW1 and BST1 to form a floating supply across the high-side switch driver. On/off control for entire chip. Drive EN high to turn the device on. Drive EN low or float EN to turn it off. EN has an internal 2MΩ pull-down resistor to ground. Alert output. If ALT pulls to logic low, a fault or warning has occurred. Clock pin of the I2C interface. SCL can support an I2C clock up to 3.4MHz. If not used, SCL should be pulled up to VCC. Internal 3.65V LDO regulator output. Decouple VCC with a 1µF capacitor. Analog ground. Connect AGND to GND. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 5 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION θJA θJC ABSOLUTE MAXIMUM RATINGS (2) Thermal Resistance Supply voltage (VIN) ..................................... 26V VOUT .............................................................. 24V VSW1, SW2 (DC) ................................-0.3V to +24.3V VSW1, SW2 (10ns) ....................................-7V to +26V VBST1, BST2 ............................................. VSWx + 4V VEN ................................................-0.3V to +26V VALT ..............................................-0.3V to +5.5V All other pins ...................................-0.3V to +4V Continuous power dissipation (TA = 25°C) (3) (6) ................................................................... 4.8W Junction temperature ................................150°C Lead temperature .....................................260°C Storage temperature ................ -65°C to +150°C QFN-16 (3mmx3mm) EV28167-A-Q-00A (6) ............. 26 ........ 3.... °C/W JESD51-7 (7) .......................... 50 ....... 12 ... °C/W Notes: 2) 3) 4) ESD Rating (4) All pins (HBM) ........................................... ±2kV All pins (CDM).............................................±2kV Recommended Operating Conditions (5) 5) Operation input voltage range ......... 2.8V to 22V Output voltage range ..................... 1V to 20.47V Output current .................. 3A continuous current or 4A input current Operating junction temp (TJ) .... -40°C to +125°C 6) 7) Exceeding these ratings may damage the device. 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 PD (MAX) = (TJ (MAX) - TA) / θJA. Exceeding the maximum allowable power dissipation produces an excessive die temperature, and the regulator goes into thermal shutdown. Internal thermal shutdown circuitry protects the device from permanent damage. HBM, per JEDEC specification JESD22-A114; CDM, per JEDEC specification JESD22-C101. JEDEC document JEP155 states that 500V HBM allows safe manufacturing with a standard ESD control process. JEDEC document JEP157 states that 250V CDM allows safe manufacturing with a standard ESD control process. The device is not guaranteed to function outside of its operating conditions. Measured on EV28167-A-Q-00A, 4-layer PCB, 64mmx64mm. Measured on JESD51-7, 4-layer PCB. The value of θJA given in this table is only valid for comparison with other packages and cannot be used for design purposes. These values were calculated in accordance with JESD51-7 and simulated on a specified JEDEC board. They do not represent the performance obtained in an actual application. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 6 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION ELECTRICAL CHARACTERISTICS VIN = 12V, VEN = 5V, TJ = -40°C to +125°C noted. Parameter Symbol (8), typical value is tested at TJ = 25°C, unless otherwise Condition Min Typ Max Units 3 μA Shutdown supply current IIN VEN = 0V 0 Quiescent supply current IQ Non-switching, I2C sets PFM mode 1 EN rising threshold EN hysteresis EN to ground resistance EN on to VOUT > 90% delay VCC regulator VCC load regulation VIN under-voltage lockout rising threshold VIN under-voltage lockout threshold hysteresis VEN_RISING 1.00 VEN_HYS REN tDELAY VEN = 2V See Figure 7 on page 19 VCC VCC_LOG 3.3 ICC = 10mA 1.10 mA 1.20 110 mV 2 MΩ 3.6 ms 3.65 4 1 VIN_UVLO 2.50 VUVLO_HYS V 2.65 V % 2.8 160 V mV Power Converter HS switch on resistance RDSON_HS Switch A, D 25 40 mΩ LS switch on resistance RDSON_LSB Switch B, C 21 35 mΩ -1% 1000 +1% mV -1.5% 1000 +1.5% mV Feedback voltage VFB Feedback current IFB Output discharge resistance RDIS Switch leakage Oscillator frequency SWLKG fS1 fS2 TJ = 25°C TJ = -40°C to +125°C VFB = 1.05V 10 60 nA 100 VEN = 0V, VSW1, SW2 = 22V, TJ = 25°C 1 VEN = 0V, VSW1, SW2 = 22V, TJ = -40°C to +125°C 5 Set FREQ = 500kHz by I2C, TJ = 25°C -20% 2 520 +20% Ω μA kHz Set FREQ = 750kHz by I C, TJ = 25°C 750 kHz Switch A, B, C, D 160 ns Minimum on time (9) tON_MIN1 Maximum duty cycle DMAX Buck mode, FREQ = 500kHz 85 % Minimum duty cycle (9) DMIN Boost mode, FREQ = 500kHz 15 % Can be changed by I2C, VREF from 0V to 1V, default SS time 3.5 ms Soft-start time tSS Protection Output over-voltage protection VOVP_R 150% 160% 170% VREF Output OVP recovery VOVP_F 130% 140% 150% VREF Low-side B valley limit ILIMIT2 Switch B 6 8 10 A Low-side C peak current limit ILIMIT3 Switch C 10 MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. A 7 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION ELECTRICAL CHARACTERISTICS (continued) VIN = 12V, VEN = 5V, TJ = -40°C to +125°C noted. Parameter Output average current typical value is tested at TJ = 25°C, unless otherwise Symbol Condition Min Typ Max Units IOUT_LIM1 VOUT = 5V, across 0°C to 125°C temp range 0.85 1 1.15 A IOUT_LIM2 VOUT = 5V, across 0°C to 125°C temp range -5% 3.5 +5% A 20µs deglitch, UV falling 45% 50% 55% VREF 0.2 0.4 V 1 μA (9) Output UV threshold (8), VUVP ALT sink current capability ALT_LOW Sink 4mA ALT leakage ALT_LKG VPULL = 5V Thermal shutdown rising threshold (9) Thermal hysteresis (9) TSTD 150 °C TSTD_HYS 20 °C I2C Specification (9) I2C pull-up VDD can be 1.8V to 5V Input logic high VIH Input logic low VIL 0.4 V VOUT_L 0.4 V 3400 kHz Output voltage logic low 1.4 V SCL clock frequency fSCL SCL high time tHIGH 60 ns SCL low time tLOW 160 ns Data set-up time tSU_DAT 10 ns Data hold time tHD_DAT 0 tSU_STA 160 ns tHD_STA 160 ns tBUF 160 ns tSU_STO 160 ns SCL and SDA rising time tR 10 300 ns SCL and SDA falling time tF 10 300 ns tSP 0 50 ns 400 pF Set-up time for (repeated) start condition Hold time for (repeated) start condition Bus free time between a start and a stop condition Set-up time for stop condition Pulse width of suppressed spike Capacitance for each bus line 400 60 CB ns Notes: 8) 9) All min/max parameters are tested at TJ = 25°C. Over-temperature limits are guaranteed by design, characterization, and correlation. Guaranteed by engineering sample characterization. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 8 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION TYPICAL CHARACTERISTICS VIN = 12V, VOUT = 5V, L = 4.7µH, fSW = 500kHz, TA = 25°C, unless otherwise noted. Load Regulation Line Regulation vs. Input Voltage VOUT = 5V 0.3 0.3 0.2 0.2 LINE REGULATION (%) LOAD REGULATION (%) VIN = 12V, VOUT = 5V/9V/12V/20V, IOUT = 0A to 3A, no line drop compensation 0.1 0 -0.1 Vo=5V Vo=9V Vo=12V Vo=20V -0.2 -0.3 0 1 2 0.1 0 -0.1 Io=0A Io=1.5A Io=3A -0.2 -0.3 3 2 4 6 INPUT VOLTAGE (V) Line Regulation vs. Input Voltage Line Regulation vs. Input Voltage VOUT = 9V VOUT = 12V 0.3 0.3 0.2 0.2 0.1 0 -0.1 Io=0A Io=1.5A Io=3A -0.2 LINE REGULATION (%) LINE REGULATION (%) OUTPUT CURRENT (A) -0.3 0.1 0 -0.1 Io=0A Io=1.5A Io=3A -0.2 -0.3 2 4 6 8 10 12 14 16 18 20 22 24 2 INPUT VOLTAGE (V) 4 6 8 10 12 14 16 18 20 22 24 INPUT VOLTAGE (V) Line Regulation vs. Input Voltage Thermal Rise vs. Output Current VOUT = 20V VIN = 12V, VOUT = 5V to 20V, IOUT = 0A to 3A 0.3 40 0.2 35 0.1 0 -0.1 -0.2 Io=0A Io=1A Io=2A -0.3 -0.4 2 4 6 8 10 12 14 16 18 20 22 24 INPUT VOLTAGE (V) THERMAL RISE (℃） LINE REGULATION (%) 8 10 12 14 16 18 20 22 24 30 25 20 15 Vo=5V Vo=9V Vo=12V Vo=20V 10 5 0 0 1 2 OUTPUT CURRENT (A) MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 3 9 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION TYPICAL CHARACTERISTICS (continued) VIN = 12V, VOUT = 5V, L = 4.7µH, fSW = 500kHz, TA = 25°C, unless otherwise noted. Efficiency vs. Output Current Efficiency vs. Output Current VOUT = 5V to 20V, RDC = 16.5mΩ, forced PWM mode VOUT = 5V to 20V, RDC = 16.5mΩ, PFM mode 95 95 90 90 85 EFFICIENCY (%) 100 EFFICIENCY (%) 100 Vout=12V 80 Vout=5V 75 Vout=9V 70 Vout=15V 65 0.1 1 OUTPUT CURRENT (A) Vout=9V 75 Vout=12V 70 Vout=20V 60 0.01 10 Recommended VIN, VOUT, IOUT Operation Range 0.1 1 OUTPUT CURRENT (A) 3.5 6 5.8 OUTPUT VOLTAGE (V) 3 2.5 Vo=5V 2 Vo=9V 1.5 Vo=12V 1 Vo=15V 0.5 Vo=20V 0 2 4 6 5.6 5.4 5.2 5 4.8 4.6 4.4 4.2 0 4 8 10 12 14 16 18 20 22 24 -60 -40 INPUT VOLTAGE (V) -20 0 20 40 60 80 100 TEMPERATURE (°C) VIN UVLO Rising and Falling Threshold vs. Temperature EN Rising and Falling Threshold vs. Temperature 2 EN RISING AND FALLING THRESHOLD (V) 3 VIN UVLO RISING AND FALLING THRESHOLD (V) 10 Output Voltage vs. Temperature 22μF x 5 ceramic COUT capacitor IO_MAX(A) Vout=5V 80 65 Vout=20V 60 0.01 85 2.5 2 1.5 1 0.5 Rising Falling 0 1.5 1 0.5 Rising Falling 0 -60 -40 -20 0 20 40 60 TEMPERATURE (°C) 80 100 -60 -40 -20 0 20 40 60 80 100 TEMPERATURE (°C) MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 10 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION TYPICAL CHARACTERISTICS (continued) VIN = 12V, VOUT = 5V, L = 4.7µH, fSW = 500kHz, TA = 25°C, unless otherwise noted. Output Voltage UVP Threshold vs. Temperature Buck Current Limit vs. Temperature 100 90 OUTPUT VOLTAGE UVP THRESHOLD (%) BUCK CURRENT LIMIT (A) 10 8 6 4 2 0 -60 -40 -20 0 20 40 60 TEMPERATURE (°C) 80 100 80 70 60 50 40 30 20 Falling Rising 10 0 -60 -40 -20 0 20 40 60 80 100 TEMPERATURE (°C) MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 11 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION TYPICAL PERFORMANCE CHARACTERISTICS VIN = 12V, VOUT = 5V, L = 4.7µH, fSW = 500kHz, TA = 25°C, test waveform is based on Figure 17, unless otherwise noted. EN Bit Enabled through I2C Command EN Bit Enabled through I2C Command Load = 0A Load = 3A CH1: VOUT 5V/div. CH1: VOUT 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH4: IL 2A/div. CH4: IL 2A/div. 2ms/div. 2ms/div. EN Bit Shutdown through I2C Command EN Bit Shutdown through I2C Command Load = 0A Load = 3A CH1: VOUT 5V/div. CH1: VOUT 5V/div. CH2: VSW1 10V/div. CH3: VSW2 10V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH4: IL 2A/div. CH4: IL 2A/div. 2ms/div. 100μs/div. EN Pin Enabled EN Pin Enabled Load = 0A Load = 3A CH1: VOUT 5V/div. CH1: VOUT 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH4: IL 2A/div. CH4: IL 2A/div. 2ms/div. 1ms/div. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 12 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION TYPICAL PERFORMANCE CHARACTERISTICS (continued) VIN = 12V, VOUT = 5V, L = 4.7µH, fSW = 500kHz, TA = 25°C, test waveform is based on Figure 17, unless otherwise noted. EN Pin Disabled EN Pin Disabled Load = 0A Load = 3A CH1: VOUT 5V/div. CH1: VOUT 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH2: VSW1 10V/div. CH3: VSW2 10V/div. CH4: IL 2A/div. CH4: IL 2A/div. 10ms/div. 50μs/div. VIN Start-Up VIN Start-Up Load = 0A Load = 3A CH1: VOUT 5V/div. CH1: VOUT 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH2: VSW1 10V/div. CH3: VSW2 10V/div. CH4: IL 2A/div. CH4: IL 2A/div. 2ms/div. 2ms/div. VIN Shutdown VIN Shutdown Load = 0A Load = 3A CH1: VOUT 5V/div. CH1: VOUT 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH4: IL 2A/div. CH4: IL 5A/div. 10ms/div. 500μs/div. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 13 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION TYPICAL PERFORMANCE CHARACTERISTICS (continued) VIN = 12V, VOUT = 5V, L = 4.7µH, fSW = 500kHz, TA = 25°C, test waveform is based on Figure 17, unless otherwise noted. Steady State Steady State VOUT = 5V, load = 0A, fSW = 500kHz VOUT = 5V, load = 3A, fSW = 500kHz CH1: VOUT 20mV/div. CH1: VOUT 20mV/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH4: IL 2A/div. CH4: IL 5A/div. 2μs/div. 2μs/div. Steady State Steady State VOUT = 5V, load = 0A, fSW = 750kHz VOUT = 5V, load = 3A, fSW = 750kHz CH1: VOUT/AC 10mV/div. CH1: VOUT/AC 10mV/div. CH2: VSW1 5V/div. CH3: VSW2 5V/div. CH2: VSW1 5V/div. CH3: VSW2 5V/div. CH4: IL 2A/div. CH4: IL 2A/div. 1μs/div. 1μs/div. I2C VID I2C VID VOUT = 5V to 12V, IOUT = 0A, R1 = 430kΩ, R2 = 53.6kΩ VOUT = 12V to 5V, IOUT = 0A, R1 = 430kΩ, R2 = 53.6kΩ CH1: VOUT 5V/div. CH1: VOUT 5V/div. CH2: VSW1 10V/div. CH3: VSW2 10V/div. CH2: VSW1 10V/div. CH3: VSW2 10V/div. CH4: IL 2A/div. CH4: IL 2A/div. 2ms/div. 2ms/div. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 14 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION TYPICAL PERFORMANCE CHARACTERISTICS (continued) VIN = 12V, VOUT = 5V, L = 4.7µH, fSW = 500kHz, TA = 25°C, test waveform is based on Figure 17, unless otherwise noted. I2C VID I2C VID VOUT = 5V to 12V, IOUT = 3A, R1 = 430kΩ, R2 = 53.6kΩ VOUT = 12V to 5V, IOUT = 3A, R1 = 430kΩ, R2 = 53.6kΩ CH1: VOUT 5V/div. CH1: VOUT 5V/div. CH2: VSW1 10V/div. CH3: VSW2 10V/div. CH2: VSW1 10V/div. CH3: VSW2 10V/div. CH4: IL 5A/div. CH4: IL 5A/div. 2ms/div. 2ms/div. Load Transient Load Transient VIN = 12V, VOUT = 5V, no line drop compensation, 0A to 1.5A, 150mA/μs VIN = 12V, VOUT = 5V, no line drop compensation, 1.5A to 3A, 150mA/μs CH2: CH2: VOUT/AC 500mV/div. VOUT/AC 500mV/div. CH4: IOUT 1A/div. CH4: IOUT 1A/div. 500μs/div. 500μs/div. Short-Circuit Protection Entry with Latch-Off Mode Short-Circuit Protection Entry with Hiccup Mode CH1: VOUT 5V/div. CH1: VOUT 5V/div. CH2: VSW1 10V/div. CH3: VSW2 10V/div. CH2: VSW1 10V/div. CH3: VSW2 10V/div. CH4: IL 10A/div. CH4: IL 10A/div. 5ms/div. 20ms/div. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 15 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION TYPICAL PERFORMANCE CHARACTERISTICS (continued) VIN = 12V, VOUT = 5V, L = 4.7µH, fSW = 500kHz, TA = 25°C, test waveform is based on Figure 17, unless otherwise noted. Short-Circuit Protection Recovery with Hiccup Mode CC Current Limit Entry (Test with CV mode of electronic load) CH1: VOUT 5V/div. CH1: VOUT 2V/div. CH2: VSW1 10V/div. CH3: VSW2 10V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH4: IL 10A/div. CH4: IL 5A/div. 20ms/div. 100ms/div. CC Current Limit Steady State VOUT OVP with Hiccup Mode CH1: VOUT 5V/div. CH1: VOUT 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH4: IL 5A/div. CH4: IL 2A/div. 1μs/div. 500ms/div. VOUT OVP with Latch-Off Mode CH1: VOUT 5V/div. CH2: VSW1 10V/div. CH3: VSW2 5V/div. CH4: IL 5A/div. 500ms/div. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 16 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION FUNCTIONAL BLOCK DIAGRAM IN OUT VCC Regulator VCC Bootstrap Regulator HS Driver On Timer SCL SDA BST1 A DAC I2C/OTP IF and Register SW1 VCC A, B, C, D FET Sensing ALT LS Driver B GND EN Current Limit Comparator Reference Buck-Boost Control Logic 2MΩ Bootstrap Regulator IN OUT BST2 COMP FB Error Amplifier HS Driver VCC SW2 VCC SS PG and OVP D LS Driver OV C GND OC AGND Figure 1: Functional Block Diagram MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 17 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION OPERATION The MP28167-A is a four-switch, integrated buck-boost converter that can work in constanton-time (COT) control mode with a fixed frequency. This provides fast transient response for the buck, boost, and buck-boost modes. A special buck-boost control strategy provides high efficiency over the full input range, and smooth transient between different modes. Buck-Boost Operation The MP28167-A can regulate the output voltage (VOUT) to be above, equal to, or below the input voltage (VIN). Figure 2 shows a power structure with one inductor and the four switches. SWA works with COT control logic, and SWB turns on as a complement of SWA. In each cycle, SWB turns on to conduct the inductor current. When the inductor current drops to the COMP voltage (VCOMP), SWB turns off and SWA turns on. SWA turns on for a fixed on time before turning off. Then SWB turns on again, and the operation repeats. The COMP signal is the error amplifier (EA) output from the VOUT feedback and internal FB reference voltage (see Figure 4). SW1 SW2 IL tON COMP Control by COMP Figure 4: Buck Waveform Boost Mode When VIN is significantly lower than VOUT, the MP28167-A works in boost mode. In boost mode, SWC and SWD switch for the boost regulation. SWB is off, and SWA remains on to conduct the inductor current. Figure 2: Buck-Boost Topology The MP28167-A can operate in buck mode, boost mode, or buck-boost mode with different VIN inputs (see Figure 3). Boost Buck-Boost SWA On, SWB Off, SWC and SWD Switching All FETs Switching Buck D On, C Off, A and B Switching VO-SET VIN Voltage Boost DMAX Boost DMIN During each period, SWC remains off with COT control, while SWD turns on as a complement of SWC to boost the inductor current to the output. In each cycle, SWC turns on to conduct the inductor current. When the inductor current rises and reaches VCOMP, SWC turns off and SWD turns on. SWC turns off with a fixed off time before turning on again. During this period, SWD turns on for the current freewheel (see Figure 5). Buck DMAX Buck DMIN Figure 3: Buck-Boost Operation Range Buck Mode When VIN is significantly higher than VOUT, the MP28167-A works in buck mode. In buck mode, SWA and SWB switch for buck regulation. SWC is off, and SWD remains on to conduct the inductor current. SW1 SW2 COMP IL Control by COMP tOFF Figure 5: Boost Waveform MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 18 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION Buck-Boost Mode When VIN is almost equal to VOUT, the MP28167A cannot provide enough energy to operate in buck mode due to SWA’s minimum off time, or it supplies too much power to VOUT in boost mode due to SWC’s minimum on time. The IC uses buck-boost control to regulate VOUT in these conditions. If VIN drops and the SWA off period is close to the minimum buck off time in buck mode, buckboost mode is engaged. When the next cycle starts after the SWA and SWD on time (the buck high-side MOSFET [HS-FET] on period), the boost starts with SWA and SWC on (boost lowside MOSFET [LS-FET] on). SWA and SWD turn on again for the resting period of boost mode (boost HS-FET on). After the boost period elapses, the buck period starts, and SWB and SWD remain on until the inductor current drops to VCOMP. Then SWA and SWD turn on until the next boost period begins. Buck and boost switching work with a one-interval period. This is called buck-boost mode. If VIN rises, and the SWC on period is close to the boost minimum on time in boost mode, buckboost mode is enabled. After the boost constantoff-time period (SWA and SWD on), SWB and SWD remain on until the inductor current signal drops to VCOMP, just like a buck off-time period control. After the inductor current signal triggers VCOMP, SWA and SWD turn on for the buck on time, which is followed by boost switching (SWA and SWC on). Buck and boost switching work with a one-interval period. Figure 6 shows the buckboost waveform when VIN exceeds VOUT. SW1 tBOOST-MIN SW2 Buck Min Off Time IL COMP Buck Buck-Boost tBUCK-BOOST Figure 6: Buck to Buck-Boost Transient Figure 7 shows the buck-boost waveform when VOUT exceeds VIN. If VIN exceeds 130% of VOUT in buck-boost mode, the MP28167-A switches from buck-boost mode to buck mode. If VIN drops below 20% of VOUT, the MP28167-A switches from buck-boost mode to boost mode. SW1 tBUCK-MIN SW2 Boost Min On Time COMP IL Boost Buck-Boost tBUCK-BOOST Figure 7: Buck-Boost Waveform Working Mode Selection The MP28167-A works with a fixed frequency under heavy-load conditions. When the load current decreases, the MP28167-A can work in forced continuous conduction mode (FCCM) or pulse-skip mode (PSM) based on the MODE register setting. FCCM (or Forced PWM) In forced continuous conduction mode (FCCM), the buck on time and boost off time are determined by the internal circuit. This achieves a fixed frequency based on the VIN / VOUT ratio. When the load decreases, the average input current drops, and the inductor current may go negative from VOUT to VIN during the off time (SWD on). This forces the inductor current to work in continuous mode with a fixed frequency, producing a lower VOUT ripple than in PSM mode. PSM (Auto-PFM/PWM Mode) If the inductor current drops to 0A in PSM, SWD turns off to prevent the current from flowing from VOUT to VIN, forcing the inductor current to work in discontinuous conduction mode (DCM). Meanwhile, the internal off time clock stretches once the MP28167-A enters DCM mode. The frequency drops when the inductor current conduction period decreases, which helps save power loss and reduce the VOUT ripple. If VCOMP drops to the PSM threshold (even if the IC stretches the frequency), the MP28167-A stops switching to further decrease the switching power loss. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 19 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION The MP28167-A recovers switching once VCOMP exceeds the PSM threshold. The switching pulse skips based on VCOMP in very light-load conditions. PSM has a much higher efficiency than FCCM mode in light load, but the VOUT ripple may be higher due to the group switching pulse. Internal VCC Regulator The 3.65V internal regulator powers most of the internal circuitries. This regulator takes VIN and operates in the full VIN range. When VIN exceeds 3.65V, the output of the regulator is in full regulation. If VIN drops below 3.65V, the output decreases with VIN. VCC requires an external 1µF ceramic capacitor for decoupling. Enable (EN) Control The MP28167-A has an enable (EN) control pin. Pull EN high to enable the IC. Pull EN low or float EN to disable the IC. If EN is pulled down when the output discharge function is enabled, the MP28167-A shuts down after 55ms. The MP28167-A’s I2C register value is reset to default only after the MP28167-A experiences this type of shutdown. If EN is pulled high within 55ms, the I2C register is not reset, and the MP28167-A enables the output with the previous register setting. If the output discharge function is disabled, the MP28167-A shuts down once EN is pulled down for more than 100µs, and the MP28167-A I2C register is reset after a 100µs delay. VOUT = 12V (I2C Setting) VOUT = 12V (I2C Setting) VOUT = 5V (I2C Reset) EN EN Off < 55ms EN Off > 55ms Figure 8: EN On/Off Logic for I2C Register Reset Under-Voltage Lockout (UVLO) Under-voltage lockout (UVLO) protects the chip from operating at an insufficient supply voltage. The UVLO comparator monitors the input voltage and enables or disables the entire IC. Internal Soft Start (SS) Soft start (SS) prevents the converter output voltage from overshooting during start-up. When the chip starts up, the internal circuitry generates an SS voltage that ramps up from 0V to 3.65V. If the SS voltage (VSS) is below VREF, the error amplifier uses VSS as the reference. If VSS exceeds VREF, the error amplifier uses VREF as the reference. If the output of the MP28167-A is pre-biased to a certain voltage during start-up, the IC disables the switching of both the HS-FET and LS-FET until the voltage on the internal SS capacitor exceeds the internal feedback voltage (see Figure 8). EN VOUT 90% tDELAY Figure 9: EN On to VOUT > 90% Delay Over-Current Protection (OCP) The MP28167-A has a constant-current limit control loop to limit the output average current. The current information is sensed from switches A, B, C, and D. Then an average algorithm calculates the output current. When the output current exceeds the currentlimit threshold, the output voltage starts to drop. There are two conditions that activate this condition: 1. The first is if VOUT exceeds 3V, VFB drops below 50% of VREF, and VOUT drops below 3V. The MP28167-A then enters hiccup mode or latch off mode according to the I2C setting. 2. The second is if VOUT is set below or equal to 3V, and VOUT drops below the under-voltage (UV) threshold (typically 50% below VREF). The MP28167-A then enters hiccup mode or latch-off mode according to the I2C setting. In hiccup mode, the MP28167-A stops switching and recovers automatically with 12.5% duty cycles. In latch-off mode, the MP28167-A stops switching until the IC restarts (power cycling on VIN or EN, or EN bit toggling). Over-Voltage Protection (OVP) The MP28167-A monitors a resistor-divided feedback voltage to detect output over-voltage (OV) conditions. When the feedback voltage exceeds 160% of the target voltage, the overvoltage protection (OVP) comparator output MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 20 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION goes high. The output-to-ground discharge resistor turns on. The OUT pin has an absolute OVP function. Once VOUT exceeds the absolute OVP threshold (23V), the MP28167-A stops switching and turns on the OUT-to-ground discharge resistor. Start-Up and Shutdown If both VIN and EN exceed their respective thresholds, the chip is enabled. The reference block starts first, generating a stable reference voltage and current, and then the internal regulator is enabled. The regulator provides a stable supply for the remaining circuitries. Three events can shut down the chip: EN going low, VIN going low, and thermal shutdown. During shutdown, the signaling path is blocked to avoid fault triggers. Then VCOMP and the internal supply rail are pulled down. The floating driver is not subject to this shutdown command. Output Discharge The MP28167-A has an output discharge function that provides a resistive discharge path for the external output capacitor. The function is active when the part is disabled (input voltage is under UVLO or enable off), the discharge path is turned off when VOUT < 50mV or waits for the 50ms maximum timer to pass. This function can also be disabled via the I2C. Thermal Warning (TSW) and Shutdown (TSD) Thermal warning and thermal shutdown prevent the part from operating at exceedingly high temperatures. When the silicon die temperature exceeds 120°C, the MP28167-A sets the OTW bit [D5] to 1. When the temperature falls below its lower threshold (typically 100°C), the OTW bit [D5] is set to 0. When the silicon die temperature exceeds 150°C, the entire chip shuts down. When the temperature falls below its lower threshold (typically 130°C), the chip is enabled. This is a non-latch protection. 2 I C INTERFACE I2C Serial Interface Description The I2C is a two-wire, bidirectional, interface consisting of a data line (SDA) clock line (SCL). The lines are pulled to voltage externally when they are idle. serial and a a bus When connecting to the line, a master device generates the SCL signal and device address, and arranges the communication sequence. The MP28167-A interface is an I2C slave that supports fast mode (400kHz) and high-speed mode (3.4MHz). The I2C interface adds flexibility to the power supply solution. The output voltage, transition slew rate, and other parameters can be controlled instantaneously via the I2C interface. When the master sends the address as an 8-bit value, the 7-bit address should be followed by a 0 to indicate a write operation, or 1 to indicate a read operation. Start and Stop Conditions The start and stop conditions are signaled by the master device, which signifies the beginning and end of an I2C transfer. The start (S) condition is defined as the SDA signal transitioning from high to low while the SCL is high. The stop (P) condition is defined as the SDA signal transitioning from low to high while the SCL is high (see Figure 9). The master then generates the SCL clocks and transmits the device address and the read/write direction bit (R/W) on the SDA line. Transfer Data Data is transferred in 8-bit bytes by an SDA line. Each byte of data should be followed by an acknowledge (ACK) bit. I2C Update Sequence The MP28167-A requires a start condition, a valid I2C address, a register address byte, and a data byte for a single data update. The MP28167-A acknowledges that it has received each byte by pulling the SDA line low during the high period of a single clock pulse. A valid I2C address selects the MP28167-A. The MP28167A performs an update on the falling edge of the LSB byte. See Figure 11, Figure 12, and Figure 13 for examples I2C write and read sequences. I2C Start-Up Timing I2C functionality is enabled once EN is active and VIN exceeds the under-voltage lockout (UVLO) threshold. The I2C works during over-current protection (OCP), over-voltage protection (OVP), and thermal shutdown. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 21 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION SDA SCL S P Stop Condition Start Condition Figure 10: Start and Stop Conditions 8 Bits S 8 Bits Slave Address WR A 8 Bits Register Address K A Write Data A P Master to Slave A = Acknowledge (SDA = Low) S = Start Condition WR Write = 0 Slave to Master NA = Not Acknowledge (SDA = High) P = Stop Condition RD Read = 1 Figure 11: I2C Write Example (Write Single Register) S Slave Address 8 Bits 8 Bits 8 Bits WR A Register Address K A Write Data K A Write Data K + 1 A Write Data K + N A P Multi-byte write executed from current register location (the read-only register is skipped) Master to Slave A = Acknowledge (SDA = Low) S = Start Condition WR Write = 0 Slave to Master NA = Not Acknowledge (SDA = High) P = Stop Condition RD Read = 1 Figure 12: I2C Write Example (Write Multi-Register) 8 Bits S Slave Address 8 Bits WR A Register Address K 8 Bits 8 Bits A Sr Register address to read specified Slave Address RD A Read Data K NA P Read register data from current register location Master to Slave A = Acknowledge (SDA = Low) S = Start Condition Slave to Master NA = Not Acknowledge (SDA = High) P = Stop Condition Sr = Repeat Start Condition WR Write = 0 RD Read = 1 Figure 13: I2C Read Example (Read Single Register) MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 22 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION I2C REGISTER MAP Add (Hex) Name R/W 00 VREF_L R/W 01 VREF_H R/W 02 VREF_GO R/W 03 IOUT_LIM R/W RESERVED 04 CTL1 R/W EN (10) 05 06 07 08 09 CTL2 RESERVED RESERVED RESERVED Status R/W R R R R 0A INTERRUPT W1C 0B MASK R/W 0C 27 28 29 ID1 MFR_ID DEV_ID IC_REV R R R R D7 D6 D5 D4 D3 D2 D1 D0 VREF DATA BIT LOW [2:0] (10) RESERVED VREF DATA BIT HIGH [10:3] (10) PG_ DELAY_ EN (10) RESERVED Output current limit threshold (0A to 6.35A/50mA step for 21.5kΩ OC resistor) (10) HICCUP OCP_OVP (10) LINE DROP COMP (10) PG OTEMPP_ ENTER GO_ BIT OTP OT WARNING_ ENTER DISCHG _EN (10) MODE (10) FREQ (10) (10) SS RESERVED, ALL “0” RESERVED RESERVED OTW CC_CV OC_ ENTER OC_ RECOVER RESERVED RESERVED RESERVED RESERVED UVP_ FALLING OTEMPP _EXIT OC_ MSK (10) OTP Configure Code. “0x00” means the standard MP28167-A Manufacturer ID: b ‘0000 1001’ Device ID: b ‘0101 1000’ IC revision: b ‘0000 0001’ RESERVED OTPMSK OTWMSK (10) (10) OT WARNING _EXIT PG_ RISING UVP_ MSK (10) PG_ MSK (10) Note: 10) These items have one-time programmable (OTP) non-volatile memory. The OTP is reloaded to the I2C register when VIN exceeds the under-voltage lockout (UVLO) threshold, or during EN shutdown. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 23 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION REGISTER DESCRIPTION I2C Bus Slave Address The MP28167-A I2C slave address is fixed as 60H. Output Reference Voltage Setting The registers VREF_L and VREF_H set the reference voltage and follow 11-bit direct format. Name VREF Format Register Name Bit Direct, unsigned binary integer N/A 15 14 13 Access N/A Function Default Value (1000mV) N/A VREF_H D[7:0] 12 11 VREF_L D[2:0] 10 9 8 7 6 5 4 3 2 1 0 R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W Data bit high N/A Data bit low 1250 integer The reference voltage can be calculated with Equation (1): VREF (mV) = V x 0.8 (1) Where V is an 11-bit unsigned binary integer of VREF[10:0] that ranges from 0 to 2047. The VREF resolution is 0.8mV/LSB. The reference voltage changing slew rate is fixed at 1mV/µs. See the GO_BIT section below to change the reference voltage. VREF_GO Register GO_BIT D[0] The MP28167-A can be controlled when VREF begins to change. Set GO_BIT to 1 to start the output reference change based on the VREF register. When the VREF change is complete (internal VREF reaches its target value), GO_BIT auto-resets to 0. This prevents a false operation of VREF scaling. Write the reference voltage (0x00 and 0x01 registers) first, and then write GO_BIT = 1. VREF changes based on the new register setting. GO_BIT resets to 0 when VREF reaches a new value. The host can read GO_BIT to determine whether VREF scaling has completed. The VOUT-to-ground discharge function is enabled when GO_BIT = 1. This can ramp VOUT from high to low under light-load conditions. When GO_BIT = 0, VREF does not change. When GO_BIT = 1, VREF changes based on the VREF register setting. After VREF scaling finishes, GO_BIT is automatically reset to 0. PG_DELAY_EN D[1] When PG_DELAY_EN D[1] = 0, there is no delay on PG. When PG_DELAY_EN D[1] = 1, PG experiences a 100µs rising delay. The default value is 0. IOUT_LIM Register Sets the output current limit threshold. Name IOUT_LIM Format Direct, unsigned binary integer Bit 7 6 5 4 3 2 1 0 Access N/A R/W R/W R/W R/W R/W R/W R/W Default Value (3.5A) N/A 70 integer MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 24 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION IOUT_OC can be calculated with Equation (2): IOUT_OC (A) = IOUT_LIM x 0.05 (2) Where IOUT_LIM is a 7-bit unsigned binary integer of IOUT_LIM D[6:0], and the IOUT_OC resolution is 50mA/LSB (maximum value is 6.35A). The resistor connected from the OC pin to ground should be 21.5kΩ when using the IOUT_LIM register. Add a 22nF (C6) filter capacitor on OC to keep the CC loop stable. The MP28167-A allows IOUT_LIM to be directly changed using the I2C. If the CC threshold must be changed after the MP28167-A has already entered the CC limit operation state, it is recommended to change the CC threshold step by step (e.g. 50mA per step) instead of changing the current value to the final value. CTL1 Register Bits Bit Name Default D[7] EN 1 D[6] HICCUP OCP_OVP 1 D[5] DISCHG_EN 1 D[4] MODE 1 Description I2C-controlled bit to turn the part on and off. When the external EN pin is low, the converter is off, and the I2C shuts down. When EN is high, the EN bit takes over. 1: Enable the part 0: Disable the part Over-current (OC) and over-voltage protection (OVP) mode selection. 1: Hiccup mode 0: Latch-off mode Output discharge enable bit. 1: Output discharge occurs during EN or VIN shutdown 0: No output discharge occurs during shutdown Enable PFM/PWM mode bit. The default is PWM mode under light-load conditions. 0: Enables auto-PFM/PWM mode 1: Sets forced PWM mode Sets the switching frequency. D[3:2] FREQ 00 00: 500kHz 01: 750kHz 10: Reserved 11: Reserved CTL2 Register Bits D[7:6] Bit Name LINE DROP COMP Default 00 Description Sets the output voltage compensation (VLINE vs. the load feature). 00: No compensation 01: VOUT compensates 60mV when IOUT = 3A 10: VOUT compensates 120mV when IOUT = 3A 11: VOUT compensates 200mV when IOUT = 3A VOUT compensation is based on R1 and R2. VLINE = (1 + R1 / R2) x VREFLINE. Where VREFLINE is 0mV/12mV/24mV/40mV when the D[7:6] bits are 00/01/10/11, respectively. VLINE is the compensated voltage. Sets the output start-up soft-start timer (from 0% to 100%). If the reference voltage is 1V: D[5:4] SS 10 00: 1.1ms 01: 2.2ms 10: 3.5ms 11: 4.4ms The SS slew rate is constant, but SS time changes with different VREF values. For example, the SS time = 3.5ms for 1V VREF, and the SS time = 5.25ms for 1.5V VREF. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 25 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION Status Register Bit Bit Name Default Description Output power good indication. D[7] PG N/A D[6] OTP N/A 0: OTP has not occurred 1: OTP has occurred Over-temperature warning (OTW) indication. D[5] OTW N/A D[4] CC_CV N/A 0: OTW has not occurred 1: OTW has occurred Enable bit for constant-current (CC) output mode or constant-voltage (CV) output mode. Notes 0: Output power is not good 1: Output power is good Over temperature protection (OTP) indication. These status bits indicate instantaneous values. 0: CV mode 1: CC mode Interrupt Register Bits Bit Name Description D[7] OTEMPP_ ENTER Over-temperature protection entry indication. When this bit is high, the IC enters thermal shutdown. This bit is not masked, even if OTPMSK = 1. Setting OTPMSK to 1 only masks the interrupt pin’s output (ALT). D[6] OTWARNING_ ENTER Die temperature early warning enter bit. When this bit is high, the die temperature exceeds 120°C. This bit is not masked, even if OTWMSK = 1. Setting OTWMSK to 1 only masks the interrupt pin’s output (ALT). D[5] OC_ENTER Entry of over-current (OC) or constant-current (CC) current-limit mode. THE OC_MSK bit can enable or disable the OC_ENTER and OC_RECOVER ALERT outputs. This bit is latched once triggered. D[4] OC_RECOVER Recovery from constant-current (CC) current-limit mode. If the device recovers from a hiccup, it does not trigger this interrupt signal. D[3] UVP_FALLING Reference voltage is in under-voltage protection (UVP) threshold. D[2] OTEMPP_EXIT Over-temperature protection (OTP) ends. OTPMSK can mask off the ALT signals of this bit. Write 0xFF to this register to reset the interrupt and ALT pin’s state. D[1] OTWARNING_ EXIT Die temperature early warning exit bit. When the die temperature is below 100°C, this bit is set to 1. This bit is not masked, even if OTWMSK = 1. Setting OTWMSK to 1 only masks the interrupt pin’s output (ALT). D[0] PG_RISING Output power good rising edge. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. Notes 26 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION MSK Register Bit Bit Name Default Description D[4] OTPMSK 0 Set OTPMSK to 1 to mask off the over-temperature protection (OTP) alert. Setting OTPMSK to 1 only masks the interrupt pin’s output (ALT). This is not the interrupt register, but it is similar for other mask bits. D[3] OTWMSK 0 Masks off the over-temperature warning. D[2] OC_MSK 0 Masks off both over-current (OC) and constant current (CC) entry and recovery. D[1] UVP_MSK 0 Masks off the output under-voltage protection (UVP) interrupt. Masks off the PG indication function on ALT. D[0] PG_MSK 0 1: The ALT pin does not indicate a PG event 0: The ALT indicates a PG rising event OTEMPP_ENTER, OTWARNING_ENTER, or OC_ENTER Event ALT Pin Active Low Write 0xFF to 0A Reg to OTEMPP_EXIT, ALT pin OTWARNING_EXIT, or OC_RECOVER Event Figure 14: ALT Behavior of OTP, OT Warning, and OC Recovery MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 27 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION APPLICATION INFORMATION Setting the Output Voltage The external resistor divider sets the output voltage. R1 can be calculated with Equation (1): V  VREF R1  OUT  R2 VREF MP28167-A R1 FB Figure 15: Feedback Network Table 1 lists the recommended resistors and inductor values for common output voltages. If the I2C is not used to set the output voltage, it can be set using the resistors below. Table 1: Resistor Selection for Common Output Voltages R2 (kΩ) 107 53.6 39.2 28.7 20.5 RT (kΩ) 806 787 787 402 200 L (μH) 4.7 4.7 4.7 4.7 3.3 Selecting the Inductor The inductor selection is based on which mode the device operates in. The inductance for buck mode (LBUCK) can be estimated with Equation (2): L B UCK  VOUT V  (1  OUT ) f SW  IL VIN (3) In addition to the inductance value, the inductor must support the peak current to avoid saturation. The peak current can be calculated with Equation (4) and Equation (5) for buck and boost mode, respectively: R2 R1 (kΩ) 430 430 430 402 390 VIN  ( VOUT  VIN ) VOUT  f SW  IL Choosing a larger-value inductor reduces the ripple current but increases the physical size of the inductor. A larger-value inductor also reduces the converter’s bandwidth by moving the right half-plane zero to lower frequencies. This tradeoff should be determined based on the application requirements. VOUT VOUT (V) 5 9 12 15 20 L BOOST  (1) Figure 11 shows the feedback circuit. RT The target inductance for boost mode can be estimated with Equation (3): (2) Where ∆IL is the peak-to-peak inductor ripple current, and is 30% to 50% of the maximum load current. In boost mode, the inductor selection is based on limiting the peak-to-peak current ripple (∆IL) between 30% and 50% of the maximum input current. IPEAK BUCK  IOUT  IPEAK BOOST  VOUT  (VIN(MAX)  VOUT ) 2  VIN(MAX)  fREQ  L (4) VOUT  IOUT VIN(MIN)  (VOUT  VIN(MIN) ) (5)   VIN(MIN) 2  VOUT  fREQ  L Where η is the estimated efficiency of the MP28167-A. For most applications, a 4.7µH inductor is recommended for 500kHz switching frequency applications, and a 3.3µH inductor is recommended for 750kHz switching frequency applications. MPS inductors are optimized and tested for use with our complete line of integrated circuits. Table 2 lists recommended power inductors. Table 2: Power Inductor Selection Part Number Inductor Value Select family series (MPL-AL) MPL-AL6050-4R7 MPL-AL6050-3R3 MPL-AL5030-2R2 2.2µH to 4.7µH 4.7μH 3.3μH 2.2μH Manufacturer MPS MPS MPS MPS Visit MonolithicPower.com for more information. MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 28 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION Input and Output Capacitor Selection It is recommended to use ceramic capacitors with an electrolytic capacitor at the input to filter the input ripple current and achieve stable operation. Since the input capacitor absorbs the input switching current, it requires sufficient capacitance. For most applications, a 100µF electrolytic capacitor and a 22µF ceramic capacitor are sufficient. The output capacitor stabilizes the DC output voltage. A sufficient capacitor value is recommended to limit the output voltage ripple. The minimum ceramic COUT should be 22µF x 5. The input and output ceramic capacitors must be placed as close as possible to the device. PCB Layout Guidelines (11) Efficient PCB layout is critical for stable operation and thermal dissipation. For the best results, refer to Figure 16 and follow the guidelines below: Top Layer 1. Place the ceramic CIN and COUT capacitors close to the IC’s VIN-to-GND and OUT-toGND pins, respectively. 2. Use a large copper plane for PGND. 3. Add multiple vias to improve thermal dissipation. 4. Connect AGND to PGND. 5. Use short, direct, and wide traces to connect OUT. 6. Add vias under the IC and route the OUT trace on both PCB layers (highly recommended). 7. Use a large copper plane for SW1 and SW2. Close-Up of Layout Figure 16: Recommended PCB Layout 8. Place the VCC decoupling capacitor as close to VCC as possible. 9. The FB trace requires special consideration. Use a GND copper to cover this trace, and route other signal traces far from FB, such as SWx/BSTx. Note: 11) The recommended layout is based on the Typical Application Circuit (see Figure 17). MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 29 MP28167-A – 22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION TYPICAL APPLICATION CIRCUITS R6, 0Ω C4, 100nF 16 VIN = 2.8V to 22V BST1 1 + C1 100µF IN BST2 C1A 0.1µF C1B 22µF R3 499kΩ SW2 3 R4 10kΩ 4 R7, 0Ω C5 100nF 13 14 VOU T = 5V 12 C2B C2A 0.1µF 22µF MP28167-A ALT FB 8 RT 806kΩ I C Slave VCC AGND 10 C2C 22µF C2D 22µF C2E 22µF C2F 22µF R1 430kΩ R2 107kΩ SCL SDA 9 4.7µH EN 2 5 6 C3 1µF L1 15 OUT C7 22nF VCC SW1 GND 2, 11 R5 21.5kΩ OC 7 C6 22nF Figure 17: Typical Application Circuit for 5V VOUT MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 30 MP28167-A-22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION PACKAGE INFORMATION QFN-16 (3mmx3mm) MP28167-A Rev. 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 31 MP28167-A-22V VIN, 3A IOUT, INTEGRATED BUCK-BOOST WITH FB FUNCTION CARRIER INFORMATION Pin1 1 1 ABCD 1 1 ABCD ABCD ABCD Feed Direction Part Number Package Description Quantity/ Reel Quantity/ Tube Quantity/ Tray Reel Diameter Carrier Tape Width Carrier Tape Pitch MP28167GQ-A–Z QFN-16 (3mmx3mm) 5000 N/A N/A 13in 12mm 8mm Notice: The information in this document is subject to change without notice. Users should warrant and guarantee that thirdparty 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. MP28167-A Rev 1.0 www.MonolithicPower.com 4/15/2020 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2020 MPS. All Rights Reserved. 32