MAX16165ATPH+T

Click here to ask an associate for production status of specific part numbers. Highly Integrated, 4-Channel Sequencer and Supervisor General Description The MAX16165/MAX16166 monitor up to five voltages and sequence up to four voltages. These devices provide an adjustable delay as each supply is turned on as well as monitor each power-supply voltage, including the input voltage VDD. The MAX16165/MAX16166 operate from a supply range of 2.7V to 16V and have an internal regulator output (ABP), power internal circuits, and supply more than 1mA additional current to any external circuitry. The sequencing is enabled by two inputs, ON and OFF. A rising edge on the ON input initiates power-on sequencing of the channels whereas a falling edge on OFF input initiates power-off sequencing. During the power-on sequencing, when all of the voltages reach their final values, a sequencing done output DONE asserts high followed by a Power-OK (POK) output after the reset delay timer has expired, allowing the microcontroller (μC) to operate. If any voltage falls below its threshold, the reset output asserts and all voltage supplies are turned off. When the sequencer initiates a power-off sequencing, the MAX16165/MAX16166 can reverse sequence the outputs. Output options available are open-drain (MAX16165) and push-pull (MAX16166). The MAX16165/MAX16166 can be daisy-chained unlimited amount to time to control any number of voltages in a system. MAX16165/MAX16166 Applications • • • • • • Latch-Up Prevention and Inrush Current Protection in Multi-Supply Systems FPGA/ASIC Power Supply Sequencing Servers and Security Cameras Test Equipment Networking Equipment Industrial Sensors and Motor Controls Benefits and Features • • • • • • • • • • • • • 2.7V to 16.0V Wide Operating Voltage Range Monitor Up to Five Voltages Sequence Up to Four Voltages Power-Off in Reverse Order or Simultaneously Unlimited Daisy-Chain Capacitor-Adjustable Sequencing Delay Capacitor-Adjustable Power-Good Timeout Resistor-Configurable Power-Supply On and Off Thresholds Open-Drain (MAX16165)/Push-Pull (MAX16166) Outputs POK Output for System Microcontroller Reset Bidirectional FAULT Input/Output 4 x 5-Bump WLP and 20L TQFN Package -40°C to +125°C Operating Temperature Range Ordering Information appears at end of data sheet. The MAX16165/MAX16166 feature a bidirectional active low FAULT input/output, which asserts low during any fault condition. FAULT stays low as long as an undervoltage event is present at UVSET Input and it is a one-shot output during all other FAULT conditions. An external signal pulling FAULT low disables all outputs immediately. The MAX16165/MAX16166 are available in a 1.63mm x 2.03mm, 20-bump Wafer-Level Package (WLP) and a 4mm x 4mm, 20L TQFN package. The device is fully specified over the -40°C to +125°C operating temperature range. 19-101178; Rev 0; 11/21 © 2021 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective ow ners. O n e A n al o g Way , W il mi ng ton , MA 0 1 8 87 U.S.A. | T el: 781.329. 4700 | © 2021 A nal og Devic es, I nc. Al l ri ghts reserved. MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Typical Application Circuit 5.0 V UVSET EN 3.6 V 2.5 V 1.8V 1.2V VDD ABP FAULT ON DONE OFF POK SET1 OUT1 MAX16165 MAX16166 SET2 OUT2 SET3 OUT3 OUT4 SET4 IOS PGT DLY RIOS CDLY GND CPGT 5.0 V 1.2V FPGA DSP SoC 1.8V 2.5V 3.6 V www.analog.com DC-DC DC-DC DC-DC DC-DC Analog Devices | 2 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Absolute Maximum Ratings VDD to GND ..........................................................-0.3V to +30V Input/Output Current ......................................................... 20mA OUT_ (Open-drain) to GND ...................................-0.3V to +30V Continuous Power Dissipation, WLP, Multilayer Board (TA = +70°C, derate 18.02mW/°C above +70°C) ................ 1441.7mW OUT_ (Push-pull) to GND ........... -0.3 to Min.(VABP + 0.3V, +6V) DONE, POK (Open-drain) to GND ..........................-0.3V to +6V Continuous Power Dissipation, TQFN, Multilayer Board (TA = +70°C, derate 25.60mW/°C above +70°C) ............. 2051.3mW DONE (Push-pull) to GND .......... -0.3 to Min.(VABP + 0.3V, +6V) Operating Temperature Range ......................... -40°C to +125°C POK (Push-pull) to GND ............. -0.3 to Min.(VABP + 0.3V, +6V) Junction Temperature ..................................................... +150°C SET_, FAULT, ON, OFF to GND .............................-0.3V to +6V Storage Temperature Range ............................. -40°C to +150°C UVSET, ABP, IOS, DLY, PGT to GND ....................-0.3V to +6V Soldering Temperature (reflow) ....................................... +260°C Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Package Information WLP Package Code W201C2+2 Outline Number 21-0779 Land Pattern Number Refer to Application Note 1891 THERMAL RESISTANCE, FOUR-LAYER BOARD Junction-to-Ambient (θJA) 55.49°C/W Junction-to-Case Thermal Resistance (θJC) N/A TQFN Package Code T2044+3C Outline Number 21-0139 Land Pattern Number 90-0037 THERMAL RESISTANCE, FOUR-LAYER BOARD Junction-to-Ambient (θJA) 39°C/W Junction-to-Case Thermal Resistance (θJC) 6°C/W For the latest package outline information and land patterns (footprints), go to www.maximintegrated.com/packages. Note that a “+”, “#”, or “-” in the package code indicates RoHS status only. Package drawings may show a different suffix character, but the drawing pertains to the package regardless of RoHS status. Package thermal resistances were obtained using the method described in JEDEC specification JESD51-7, using a fourlayer board. For detailed information on package thermal considerations, refer to www.maximintegrated.com/thermal-tutorial. www.analog.com Analog Devices | 3 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Electrical Characteristics (VDD = 2.7V to 16.0V, VEN = VABP, TA = -40ºC to +125ºC, unless otherwise noted. Typical values are at TA = +25°C.) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS 2.7 16 V 2.45 3.20 V 2.35 V SUPPLY VOLTAGE Operating Voltage Range Regulated Supply Voltage VDD VABP Undervoltage Lockout VUVLO Undervoltage Lockout Hysteresis VUVLO_HYS Supply Current IDD IABP = +1mA (external sourcing current from ABP) Minimum voltage on ABP, ABP rising 1.7 ABP falling 100 VDD = 5V, all OUT_ = HIGH, No load 105 170 μA mV ON, OFF INPUTS ON Input Threshold VON_TH ON rising 0.496 0.5 0.504 V OFF Input Threshold VOFF_TH OFF falling 0.496 0.5 0.504 V ON, OFF Threshold Tempco ON, OFF Input Current 20 ION_OFF -100 ppm/°C 100 nA 0.504 V MONITORED ANALOG INPUTS (UVSET, SET_) UVSET, SET_ Threshold UVSET, SET_ Threshold Hysteresis UVSET, SET_ Threshold Tempco UVSET, SET_ Input Current VTH UVSET, SET_ falling VHYST UVSET, SET_ rising VUVSET = VSET_ = 0.5V 0.496 0.5 1 %VTH 20 ppm/°C -100 +100 nA 0.5075 V OFFSET CURRENT SETTING INPUT (IOS) Offset Current Voltage Source Offset Current Voltage Source Tempco 0.4925 0.5 30 Offset Current Range Offset Current Error ppm/°C RIOS = 10kΩ to 1MΩ 0.5 50 0.5µA to 5µA -25 +25 5µA to 50µA -5 +5 μA % DELAY TIMER INPUT (DLY) AND POWER-GOOD TIMER INPUT (PGT) Source Current -40°C to +85°C 3.8 4 4.2 -40°C to +125°C 3.8 4 4.4 Voltage Threshold 0.5 μA V SEQUENCER OUTPUTS (OUT_) OUT_ Output Voltage Low VOUTL OUT_ Output Voltage High VOUTH OUT_ Leakage Current IOUT_LKG MAX16165, Open-drain Output, ISINK = 3.2mA MAX16166, Push-pull Output, ISINK = 3.2mA MAX16166, Push-pull Output, ISOURCE = 1mA MAX16165, Open-drain Output, OUT_ = HIGH, VOUT_= 5V 0.3 V 0.3 0.85 x VABP V 1 μA FAULT INPUT/OUTPUT www.analog.com Analog Devices | 4 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor (VDD = 2.7V to 16.0V, VEN = VABP, TA = -40ºC to +125ºC, unless otherwise noted. Typical values are at TA = +25°C.) PARAMETER SYMBOL FAULT Output Voltage Low VFAULTL CONDITIONS MIN TYP ISINK = 3.2mA FAULT Leakage Current IFAULT_LKG FAULT = HIGH, VFAULT = 5V FAULT Input Threshold VFAULT_TH FAULT falling MAX UNITS 0.3 V 1 μA 0.5 V POWER-OK OUTPUT (POK) POK Output Voltage Low VPOKL POK Output Voltage High VPOKH POK Leakage Current IPOK_LKG MAX16165, Open-drain Output, ISINK = 3.2mA MAX16166, Push-pull Output, ISINK = 3.2mA MAX16166, Push-pull Output, ISOURCE = 1mA MAX16165, Open-drain Output, POK = HIGH, VPOK = 5V 0.3 V 0.3 0.85 x VABP V 1 μA DONE OUTPUT (DONE) DONE Output Voltage Low VDONEL DONE Output Voltage High VDONEH DONE Leakage Current IDONE_LKG MAX16165, Open-drain Output, ISINK = 3.2mA MAX16166, Push-pull Output, ISINK = 3.2mA MAX16166, Push-pull Output, ISOURCE = 1mA MAX16165, Open-drain Output, DONE = HIGH, VDONE = 5V 0.3 V 0.3 0.85 x VABP V 1 μA +15 % TIMING POK Reset Timeout Accuracy tPOK_ACC -15 ON Input Pulse Width tON_PW ON rising 6 μs OFF Input Pulse Width tOFF_PW OFF falling 6 μs FAULT falling 6 μs External FAULT Input Pulse Width ON Input, OFF Input, External FAULT Input Transient Immunity FAULT Output Hold Timeout SET_ to FAULT, OUT_ Low Delay Time External FAULT to OUT_ Low Delay Time ON to FAULT, OUT_ low Delay Time OFF to FAULT, OUT_ Low Delay Time www.analog.com tFAULT_PW 68 80 1 μs 92 μs tSET_FAULT SET_ falling below VTH 1 μs tFAULT_OUT FAULT falling below VTH 3 μs ON rising above VTH 3 μs OFF falling below VTH 3 μs Analog Devices | 5 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Typical Operating Characteristics VDD = 5.0V, VEN = VABP, TA = 25°C, unless otherwise noted. www.analog.com Analog Devices | 6 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor VDD = 5.0V, VEN = VABP, TA = 25°C, unless otherwise noted. www.analog.com Analog Devices | 7 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor VDD = 5.0V, VEN = VABP, TA = 25°C, unless otherwise noted. www.analog.com Analog Devices | 8 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Pin Configurations WLP TOP VIEW (BUMP SIDE DOWN) MAX16165 MAX16166 1 2 3 4 5 A UVSET VDD ABP OUT1 OUT2 B SET1 ON POK FAULT OUT3 C SET2 OFF IOS DONE OUT4 D SET3 SET4 DLY PGT GND + 20-Bump WLP (1.63mm x 2.03mm) 17 OUT3 18 OUT4 19 DONE 20 OUT1 ABP VDD UVSET 12 11 MAX16165 MAX16166 *EP + GND 1 2 3 4 5 SET4 FAULT 13 IOS 16 14 DLY POK 15 PGT TOP VIEW OUT2 TQFN 10 ON 9 OFF 8 SET1 7 SET2 6 SET3 20L TQFN (4mm × 4mm) *EP = EXPOSED PAD www.analog.com Analog Devices | 9 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Pin Descriptions PIN NAME 20 WLP TQFN A1 11 UVSET A2 12 VDD A3 13 ABP A4 14 OUT1 A5 15 OUT2 B1 8 SET1 B2 10 ON B3 16 POK B4 17 FAULT B5 18 OUT3 FUNCTION Set Monitored Threshold Input. Monitor a voltage by setting the threshold with an external resistive divider. The threshold is 0.5V. Device Power-Supply Input. Connect to 2.7V to 16V. Bypass VDD to GND with a 0.1μF capacitor. Internal Supply Bypass Input. Connect a 1μF capacitor from ABP to GND. ABP is an internally generated voltage that powers internal circuits, and can supply more than 1mA additional current to any external circuitry. Do not leave ABP unconnected or short to GND. MAX16165: Open-Drain Output 1. Upon power-on sequencing (ON input rises from low to above 0.5V), OUT1 changes from low to high impedance after sequence delay t DLY. During power-off sequencing, when the voltage at the SET2 pin falls below 0.5V, OUT1 goes from high impedance to low after sequence delay tDLY. OUT1 requires an external pullup resistor. MAX16166: Push-Pull Output 1. Upon power-on sequencing (ON input rises from low to above 0.5V), OUT1 changes from low to high after sequence delay tDLY. During power-off sequencing, when the voltage at the SET2 pin falls below 0.5V, OUT1 goes from high to low after sequence delay tDLY. MAX16165: Open-Drain Output 2. During power-on sequencing, when the voltage at SET1 rises above threshold voltage (Rising), OUT2 goes from low to high impedance after sequence delay tDLY. During power-off sequencing, when the voltage at the SET3 pin falls below 0.5V, OUT2 goes from high impedance to low after sequence delay tDLY. OUT2 requires an external pullup resistor. MAX16166: Push-Pull Output 2. During a power-on sequencing, when the voltage at SET1 rises above threshold voltage (Rising), OUT2 goes from low to high after sequence delay tDLY. During a power-off sequencing, when the voltage at SET3 pin falls below 0.5V, OUT2 goes from high to low after sequence delay tDLY. Set Monitored Threshold 1 Input. Monitor a voltage by setting the threshold with an external resistive divider. The SET1 threshold is 0.5V. To disable Channel 1, connect SET1 to ABP. Do not leave SET1 unconnected or short to GND. Connect OUT1 directly to SET1 for sequencing without monitoring Channel 1. Noninverting Comparator Input. A rising voltage above 0.5V on this pin initiates power-on sequencing. MAX16165: Open-Drain Power-OK Output. During power-on sequencing, when SET4 voltage rises above 0.5V, this output changes from low to high impedance after the reset timeout period. This output is driven low if the voltage on any SET_ or UVSET input drops below 0.5V or when FAULT is pulled low by an an external signal. POK requires an external pullup resistor. MAX16166: Push-Pull Power-OK Output. During power-on sequencing, when SET4 voltage rises above 0.5V, this output changes from low to high after the reset timeout period. This output is driven low if the voltage on any SET_ or UVSET input drops below 0.5V or when FAULT is pulled low by an external signal. Bidirectional Input and Active Low Open-Drain Output. When an internal fault is detected, this pin is asserted low. An external signal pulling this pin low disables all outputs and sets the MAX16165/66 to initialization state. MAX16165: Open-Drain Output 3. During power-on sequencing, when the voltage at SET2 rises above threshold voltage (Rising), OUT3 goes from low to high impedance after sequence delay tDLY. During power-off sequencing, when the voltage at SET4 pin falls below 0.5V, OUT3 goes from high impedance to low after sequence delay tDLY. OUT3 requires an external pullup resistor. MAX16166: Push-Pull Output 3. During power-on sequencing, when the voltage at SET2 www.analog.com Analog Devices | 10 MAX16165/MAX16166 C1 7 SET2 C2 9 OFF C3 4 IOS C4 20 DONE C5 19 OUT4 Highly Integrated, 4-Channel Sequencer and Supervisor rises above threshold voltage (Rising), OUT3 goes from low to high after sequence delay tDLY. During power-off sequencing, when the voltage at the SET4 pin falls below 0.5V, OUT3 goes from high to low after sequence delay tDLY. Set Monitored Threshold 2 Input. Monitor a voltage by setting the threshold with an external resistive divider. The SET2 threshold is 0.5V. To disable Channel 2, connect SET2 to ABP. Do not leave SET2 unconnected or short to GND. Connect OUT2 directly to SET2 for sequencing without monitoring Channel 2. Noninverting Comparator Input. A falling voltage below 0.5V on this pin initiates power-off sequencing. Offset Current Setting Input. Connect a resistor (10kΩ to 1MΩ) to GND to set the offset current during power-off sequencing. Do not leave it unconnected or short to GND. MAX16165: Open-Drain Sequencing Done Output. When power-on sequencing is complete, DONE changes from low to high impedance. During power-off sequencing, the pin remains high impedance until SET1 voltage drops below its threshold. When a fault occurs, this pin is asserted low. MAX16166: Push-Pull Sequencing Done Output. When power-on sequencing is complete, DONE changes from low to high. During power-off sequencing, the pin remains high until SET1 voltage drops below its threshold. When a fault occurs, this pin is asserted low. MAX16165: Open-Drain Output 4. During power-on sequencing, when the voltage at SET3 rises above threshold Voltage (Rising), OUT4 goes from low to high impedance after sequence delay tDLY. During power-off sequencing, when the voltage at the OFF pin falls below 0.5V, OUT4 goes from high impedance to low after sequence delay tDLY. OUT4 requires an external pullup resistor. MAX16166: Push-Pull Output 4. During power-on sequencing, when the voltage at SET3 rises above 0.5V, OUT4 goes from low to high after sequence delay t DLY. During power-off sequencing, when the voltage at the OFF pin falls below 0.5V, OUT4 goes from high to low after sequence delay tDLY. Set Monitored Threshold 3 Input. Monitor a voltage by setting the threshold with an external resistive divider. The SET3 threshold is 0.5V. To disable Channel 3, connect SET3 to ABP. Do not leave SET3 unconnected or short to GND. Connect OUT3 directly to SET3 for sequencing without monitoring Channel 3. Set Monitored Threshold 4 Input. Monitor a voltage by setting the threshold with an external resistive divider. The SET4 threshold is 0.5V. To disable channel 4, connect SET4 to ABP. Do not leave SET4 unconnected or short to GND. Connect OUT4 directly to SET4 for sequencing without monitoring the Channel 4. Adjustable Sequence Delay Timing Input. Connect a capacitor from DLY to GND to set the sequence delay between each OUT_. Leave DLY unconnected for a 40μs (typ) delay. Monitored Power-Supply Power-Good Timer Setting Input. The capacitor connected to this input to GND sets the time allowed between OUT_ being enabled and SET_ voltage goes above its threshold voltage (Rising). If SET_ does not rises above its threshold voltage (Rising) before the timer expires, the MAX16165/MAX16166 generates a fault condition and enters initialization state. Leave PGT unconnected for a 5μs (typ) delay. D1 6 SET3 D2 5 SET4 D3 3 DLY D4 2 PGT D5 1 GND Ground. - - EP Exposed Pad. EP is internally connected to GND. Connect EP to the GND plane for improved heat dissipation. Do not use EP as the only ground connection. www.analog.com Analog Devices | 11 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Functional Diagrams VDD MAX16165 MAX16166 ABP ABP LINEAR REGULATOR UVSET UVLO 0.5V ON POK 0.5V FAULT OFF 0.5V SET1 0.5V IOFFSET OUT1 SET2 OUT2 SET3 CONTROL LOGIC SET4 OUT3 OUT4 IOS 0.5V IOFFSET DLY 4µA DONE 0.5V PGT 4µA 0.5V www.analog.com Analog Devices | 12 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Detailed Description The MAX16165/MAX16166 enable four power supplies when the sequencer turns on and disable the four power supplies in reverse order when the sequencer turns off. The MAX16165/MAX16166 monitor each power supply once they are turned on. The device also includes an undervoltage (UV) sensing input (UVSET) that monitors VDD or any other power supply. When the sequencer initiates power-on sequencing, the MAX16165/MAX16166 provide a capacitor-adjustable delay time (tDLY) before the first output is enabled. After the first output is enabled, the MAX16165/MAX16166 monitor the enabled power supply voltage by feeding it back to the voltage sensing input SET1. If the voltage at SET1 reaches its threshold (V TH + VHYST) within a capacitor-adjustable power-good timeout period (tPGT), the sequencer waits for the delay time tDLY and enables the second output. The power-on sequencing repeats until the fourth output is enabled and the voltage at SET4 reaches its threshold. At that time, a sequencing done output DONE asserts high and a POK output asserts high after the reset timeout period (tRP), allowing a system microcontroller (μC) to reset and start to operate. The MAX16165/MAX16166 monitor each sequenced voltage fed back on SET_ after the respective channel is enabled. The MAX16165/MAX16166 also monitor UVSET input for undervoltage condition after power up. If any voltage falls below its threshold, the POK and DONE outputs deassert and all outputs are disabled simultaneously to turn off all sequenced power supplies. During any fault condition except UVSET undervoltage detection, a one-shot pulse of pulse width 80µs (typ) is asserted on the FAULT pin. The device enters into the fault condition and initializes the state machine, waiting for a power-on sequencing command again. If an undervoltage condition is present at UVSET, FAULT stays low as long as the undervoltage condition persists. When the sequencer initiates a power-off sequencing, the MAX16165/MAX16166 provide the delay time t DLY before the fourth output is disabled. At the time the fourth output is disabled, the device injects a resistor-programmable offset current (IOFFSET) to SET4 input and monitors the voltage at SET4. When SET4 voltage drops below its threshold, the MAX16165/MAX16166 wait for another delay time tDLY, and then disable the third output. The power-off sequencing repeats until the first output is disabled. When the power-off sequencing is completed, DONE output asserts low. The MAX16165/MAX16166 can be cascaded to control a higher number of power supplies in a system. FAULT Input/Output FAULT is bidirectional. It is an active low input and active low open-drain output. When an internal fault is detected, this pin is asserted low. An external signal pulling this pin low disables all outputs and sets the MAX16165/MAX16166 to a fault condition. See the State Diagram for all the conditions that assert a FAULT. During any fault condition except UVSET undervoltage detection, a one-shot pulse of pulse width 80µs (typ) is asserted. See the Applications Information section to understand how the FAULT output can be modified to achieve extended assert duration in applications where DC-DC converters having slow powerup are used. For multichip solutions, all of the FAULT input/outputs can be connected together. In case of a fault condition, all outputs on every device are turned off simultaneously. www.analog.com Analog Devices | 13 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor EXERNAL FAULT INPUT RELEASE NORMAL OPERATION INITIALIZATION tFAULT_TIMEOUT ______ FAULT IN WAIT POWER ON SEQUENCING OUT_ tFAULT_OUT DONE POK Note : Typical value of t FAULT_TIMEOUT is 80µs Typical value of tFAULT_OUT is 3us Rising Edge on EN initiates the Power ON Sequencing after Initialization State Figure 1. External Fault Response INITIALIZATION NORMAL OPERATION VUVSET VUVSET > VTH +VHYST WAIT POWER ON SEQUENCING VUVSET < VTH ______ FAULT OUT tFAULT_TIMEOUT OUT_ tUVSET_FAULT DONE POK Note : Typical value of t FAULT_TIMEOUT is 80µs Typical value of tUVSET_FAULT is 1us Rising Edge on EN initiates the Power ON Sequencing after Initialization State Figure 2. UVSET Fault Response www.analog.com Analog Devices | 14 MAX16165/MAX16166 NORMAL OPERATION VOUT_ ______ FAULT OUT Highly Integrated, 4-Channel Sequencer and Supervisor INITIALIZATION WAIT POWER ON SEQUENCING VSET_ < VTH tFAULT_HOLD OUT_ tSET_FAULT DONE POK Note : Typical value of tFAULT_TIMEOUT is 80µs Typical value of tSET_FAULT is 1us Rising Edge on EN initiates the Power ON Sequencing VOUT_ is the LDO output Figure 3. SET Fault Response Skip or Disable Channels If fewer than four channels are required, skip a channel by connecting the SET_ pin to ABP pin. The sequencing is similar with four-channel sequencing, just treat the MAX16165/MAX16166 like fewer channels. For example, if SET2 is connected to ABP, all logic for Channel 2 is removed from the state machine so there is not a delay, timer, UV detection, or fault triggered from this channel. If all channels are skipped, the device asserts DONE and POK immediately after initialization. Channel skipping decision is decided during the initialization phase after every fault condition. The MAX16165/MAX16166 checks for the respective SET_ voltage during the initialization phase. If the voltage at SET_ is above 0.5V, the corresponding channel gets skipped. Therefore, it is important to ensure the voltage at SET_ is below 0.5V after each fault condition. If the power supplies are not properly loaded, it can take a long time to discharge the channel SET_ voltage. This situation is more crucial when VOFF voltage levels are low or the load current of the power supply is less. See the Applications Information section for more information on how to avoid the false skipping of channels in this situation. ON and OFF Inputs The ON and OFF inputs are edge triggered inputs with a threshold of 500mV, which are used to initiate power sequencing. If no FAULT condition persists, a rising edge on the ON input initiates power-on sequencing while a falling edge on OFF initiates a power-down sequencing in the reverse order. A falling edge on ON input and a rising edge on OFF input are ignored. Normally ON and OFF inputs are tied together and used separately in special cases such as daisy-chaining. It is important to ensure a voltage above 0.5V at ON input until the sequencing gets completed. If the ON input voltage falls below 0.5V or another rising edge happens at ON input, a FAULT is asserted resulting in stopping the sequencing and simultaneous power-off of all the outputs. See the Daisy-Chaining the MAX16165/MAX16166 and Typical Application Circuits sections for more information. State Diagram www.analog.com Analog Devices | 15 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor EXIT UVLO F INITIALIZATION OUT1: LOW DONE: LOW OUT2: LOW POK: LOW OUT3: LOW FAULT OUT: LOW OUT4: LOW IOFFSET: OFF VALID CHANNEL DETECTION NOTE: F = FAULT CONDITION FAULT HOLD TIMEOUT and FAULT IN: HIGH and VUVSET > VTH TURN OFF IOS IOFFSET: OFF VSET1 < VTH F F F F F F F FAULT IN: LOW or ON: RISING EDGE or VUVSET < VTH FAULT IN: LOW or ON: RISING EDGE or (VUVSET or VSET1) < VTH FAULT IN: LOW or ON: RISING EDGE or (VUVSET or VSET1) < VTH FAULT IN: LOW or ON: RISING EDGE or (VUVSET or VSET1 or VSET2) < VTH FAULT IN: LOW or ON: RISING EDGE or (VUVSET or VSET1 or VSET2) < VTH FAULT IN: LOW or ON: RISING EDGE or (VUVSET or VSET1 or VSET2 or VSET3) < VTH FAULT IN: LOW or ON: RISING EDGE or (VUVSET or VSET1 or VSET2 or VSET3) < VTH DISABLE OUT1 INJECT IOFFSET ON SET1 OUT1: LOW tDLY EXPIRES DELAY 1 DELAY TIMER STARTS VSET2 < VTH DISABLE OUT2 INJECT IOFFSET ON SET2 OUT2: LOW tDLY EXPIRES DELAY 2 DELAY TIMER STARTS VSET3 < VTH DISABLE OUT3 INJECT IOFFSET ON SET3 OUT3: LOW tDLY EXPIRES DELAY 3 DELAY TIMER STARTS VSET4 < VTH DISABLE OUT4 INJECT IOFFSET ON SET4 OUT4: LOW FAULT IN: LOW or tDLY EXPIRES ON: RISING EDGE or DELAY 4 (VUVSET or VSET1 or VSET2 or VSET3 or VSET4) < VTH DELAY TIMER STARTS F WAIT POWER-ON SEQUENCING OUT1: LOW DONE: LOW OUT2: LOW POK: LOW OUT3: LOW FAULT OUT: HIGH OUT4: LOW IOFFSET: OFF ON: RISING EDGE DELAY 1 DELAY TIMER STARTS tDLY EXPIRES ENALE OUT1 OUT1: HIGH POWER GOOD TIMER STARTS VSET1 > VTH DELAY 2 DELAY TIMER STARTS tDLY EXPIRES ENALE OUT2 OUT2: HIGH POWER GOOD TIMER STARTS VSET2 > VTH DELAY 3 DELAY TIMER STARTS tDLY EXPIRES ENALE OUT3 OUT3: HIGH POWER GOOD TIMER STARTS VSET3 > VTH DELAY 4 DELAY TIMER STARTS tDLY EXPIRES ENALE OUT4 OUT4: HIGH POWER GOOD TIMER STARTS VSET4 > VTH DEASSERT POK POK: LOW IOFFSET: ON OFF: FALLING EDGE www.analog.com POWER-ON SEQUENCING DONE DONE: HIGH POK RESET TIMER STARTS tRP EXPIRES SET POK (NORMAL OPERATION) POK: HIGH FAULT IN: LOW or VUVSET < VTH F FAULT IN: LOW or OFF: FALLING EDGE or VUVSET < VTH F FAULT IN: LOW or OFF: FALLING EDGE or VUVSET < VTH or tPGT EXPIRES F FAULT IN: LOW or OFF: FALLING EDGE or (VUVSET or VSET1) < VTH F FAULT IN: LOW or OFF: FALLING EDGE or (VUVSET or VSET1) < VTH or tPGT EXPIRES F FAULT IN: LOW or OFF: FALLING EDGE or (VUVSET or VSET1 or VSET2) < VTH FAULT IN: LOW or OFF: FALLING EDGE or (VUVSET or VSET1 or VSET2) < VTH or tPGT EXPIRES FAULT IN: LOW or OFF: FALLING EDGE or (VUVSET or VSET1 or VSET2 or VSET3) < VTH FAULT IN: LOW or OFF: FALLING EDGE or (VUVSET or VSET1 or VSET2 or VSET3) < VTH or tPGT EXPIRES FAULT IN: LOW or ON: RISING EDGE or (VUVSET or VSET1 or VSET2 or VSET3 or VSET4) < VTH FAULT IN: LOW or ON: RISING EDGE or (VUVSET or VSET1 or VSET2 or VSET3 or VSET4) < VTH F F F F F F Analog Devices | 16 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Applications Information Selecting SET_ Feedback Resistors and Offset Current For each sequenced power supply, choose a voltage when the power supply is considered to be ON during power-on sequencing (VON) and a voltage when the power supply is considered to be OFF during power-off sequencing (VOFF). During power-off sequencing, an offset current IOFFSET is injected to the SET_ pin so that VOFF is lower than VON (see Figure 4). Calculate resistor values according to the following equations: 𝑉𝑂𝑁 − 𝑉𝑂𝐹𝐹 R1 = ( ) 𝐼𝑂𝐹𝐹𝑆𝐸𝑇 R2 = R1 × ( 0.5𝑉 ) 𝑉𝑂𝑁 Use the formula shown below to calculate the RIOS for an offset current IOFFSET: 0.5𝑉 𝑅𝐼𝑂𝑆 = ( ) 𝐼𝑂𝐹𝐹𝑆𝐸𝑇 For example, if power supply V1 nominal voltage is 1.8V, choose VON = 1.71V and VOFF = 0.8V, offset current IOFFSET = 5μA, R1 = 182kΩ, R2 = 75.21kΩ. 1.71𝑉 − 0.8𝑉 ) = 182𝑘Ω 5µ𝐴 0.5𝑉 R2 = 182kΩ × ( ) = 75.21𝑘Ω 1.71𝑉 − 0.5𝑉 0.5𝑉 𝑅𝐼𝑂𝑆 = ( ) = 10𝑘Ω 5µ𝐴 R1 = ( V1 V1 Nominal = 1.8V VON = 1.71V VOFF = 0.8V I1 IOFFSET R1 SET1 I2 IOFFSET R2 0.5V MAX16165 MAX16166 Figure 4. Design of SET_ Feedback Resistors and Offset Current Connect a resistor with 1% tolerance from 10kΩ to 1MΩ at the IOS pin to achieve an offset current from 0.5µA to 50µA. To ensure correct power-down sequencing, adhere to the calculations provided in this section and calculate the SET_ divider resistors in accordance with the IOFFSET chosen. The resistor connected at IOS decides the IOFFSET of all the channels. www.analog.com Analog Devices | 17 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Sequence Delay Time Input When the power-on sequence starts, the sequence delay time input (DLY) has an internal switch in series with an internal current source of 4µA, which is connected to the CDLY present at the DLY pin. This current charges the CDLY linearly until the voltage reaches the threshold of 0.5V and signal to continue enabling the subsequent channel. Connect a capacitor (CDLY) between DLY and GND to adjust the sequencing delay period (tDLY) that occurs between sequenced channels. Use the following formula to estimate the delay: 𝑡𝐷𝐿𝑌 = 125𝐾𝛺 𝑋 𝐶𝐷𝐿𝑌 where tDLY is in seconds and CDLY is in Farads. Leave DLY unconnected for the minimum 40μs (typ) delay. After each tDLY the DLY capacitor discharges (internal 4Ω) with typical 40µs (tDISCHARRGE) shown in Figure 5. The accuracy of the tDLY is affected by the CDLY capacitor leakage and tolerance. A low leakage ceramic capacitor is recommended. EN (ON/OFF) 0.5V CDLY CDLY discharge First channel Fixed 40µs delay Second channel tDLY CPGT discharge Fixed 40µs delay CPGT tP Note : tP is time between OUT_ high to SET_ > 0.5V, for no fault condition t P < tPGT CDLY and CPGT capacitors are discharged with typical) internal resistor Figure 5. Charging and Discharging of DLY and PGT Capacitor Power-Good Timer (PGT) and Power-Good Time Input The Power Good Timer is used to check the capability of a power supply to reach a set voltage within a capacitor adjustable delay (tPGT). The FAULT output is asserted when any enabled voltage cannot reach its threshold on the SET_ pin within tPGT. The internal state machine should stop the PGT if SET_ voltage reaches 0.5V before the PGT expires. The MAX16165/MAX16166 do not have to wait for tPGT to expire before moving to the next step. The PGT is only for power-on sequencing and not used during power-off sequencing. Like the DLY timer, the PGT circuit is also enabled by a 4μA current source to charge the CPGT capacitor. Connect a capacitor (CPGT) between PGT and GND to adjust the sequencing delay period (t PGT). Use the following formula to estimate the delay: 𝑡𝐷𝐿𝑌 = 5µ𝑠 + 125𝐾𝛺 𝑋 𝐶𝐷𝐿𝑌 where tPGT is in seconds and CPGT is in Farads. Leave PGT unconnected for a minimum 5μs (typ) delay. The accuracy of the delay is affected by the CPGT capacitor leakage and tolerance. A low-leakage ceramic capacitor is recommended. Pullup Resistor Values The exact value of the pullup resistors for the open-drain outputs is not critical, but some consideration should be made to ensure the proper logic levels when the device is sinking current. For example, if V DD = 3.3V and the pullup voltage is 5V, keep the sink current less than 3.2mA as shown in the Electrical Characteristics table. As a result, the pullup resistor should be greater than 1.6kΩ. For a 12V pullup, the resistor should be larger than 3.74kΩ. www.analog.com Analog Devices | 18 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Daisy-Chaining the MAX16165/MAX16166 Multiple MAX16165/MAX16166 devices can be daisy-chained to sequence and monitor a large number of voltages. When a fault occurs on any of the monitored inputs, FAULT goes low which signals a fast power-down. Connect all FAULT pins of the MAX16165/MAX16166 together to ensure that all power supplies are turned off during a fault. Figure 13 shows an example of two daisy-chained devices. Selector Guide MAX1616_ _ __ _+T SUF OUTPUT SUF TEMPERATURE RANGE SUF PACKAGE 5 OPENDRAIN A -40°C TO +125°C WP WLP 6 PUSHPULL TP TQFN SUF A B C D E F G H I J K L M POK RESET TIMEOUT (NOM) 20us 1ms 5ms 10ms 20ms 30ms 50ms 100ms 200ms 300ms 500ms 1000ms 2000ms Layout and Bypassing For better noise immunity, bypass VDD to GND with a 0.1μF capacitor installed as close to the device as possible. Bypass ABP to GND with a 1μF capacitor installed as close to the device as possible. Minimize stray capacitance on the SET_ inputs. The layout of the divider resistors should be as close to the MAX16165/MAX16166 as possible. Connect the exposed pad (EP) to the ground plane for improved heat dissipation. Do not use EP as the only ground connection for the device. www.analog.com Analog Devices | 19 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Typical Application Circuits Sequence Four Power Supplies, Monitor VDD, and Power-Good/Power-OK Outputs 5V MAX16165 ONLY UVSET EN VDD ABP FAULT POK SYSTEM RESET DONE NEXT MAX16165/6 ON OFF SET1 SET1 OUT1 PG2 SET2 PG3 SET3 OUT3 PG4 SET4 OUT4 MAX16165 MAX16166 IOS DLY PGT SET1 EN IN 3.3V OUT OUT2 EN IN OUT PG 2.5V PG2 EN GND IN OUT PG 1.8V PG3 EN IN OUT PG 1.2V PG4 Figure 6. Sequence Four Power Supplies, Monitor VDD, V1 = 3.3V, and Power-Good Signals of the Other Three Power Supplies. Monitor VDD and Sequence Four Power Supplies, without Monitoring 5V MAX16165 ONLY UVSET EN VDD ABP FAULT ON POK OFF DONE OUT1 SET1 OUT1 OUT2 SET2 OUT3 SET3 OUT3 OUT4 SET4 OUT4 MAX16165 MAX16166 IOS DLY PGT OUT2 SYSTEM RESET OUT1 NEXT MAX16165/6 EN IN 3.3V OUT OUT2 OUT3 EN IN 2.5V OUT OUT4 GND EN IN 1.8V OUT EN IN OUT 1.2V Figure 7. Sequence Four Power Supplies, without Monitoring. Only Monitor V DD. www.analog.com Analog Devices | 20 MAX16165/MAX16166 EN (ON/OFF ) Highly Integrated, 4-Channel Sequencer and Supervisor tDISCHARGE tDLY OUT1 tP tDISCHARGE OUT2 tP tDLY tDLY OUT3 tP tDLY OUT4 tP DONE tRP POK Note : 1.Typical value of t DISCHARGE is 40µs 2. tP is time between OUT_ high to SET_ > 0.5V, for no fault condition t P < tPGT Figure 8. Power-Up Sequencing Timing Diagram. See the Typical Application Circuit (Figure 3). EN (ON/OFF ) tDISCHARGE OUT4 tDLY OUT3 tDLY OUT2 tDLY OUT1 tDLY DONE POK OFF to POK Delay Note : Typical value of t DISCHARGE is 43µs Typical value of OFF to POK delay is 1-2us Figure 9. Power-Down Sequencing Timing Diagram. See the Typical Application Circuit (Figure 3). www.analog.com Analog Devices | 21 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Sequence and Monitor Four Power Supplies and Monitor VDD 5V MAX16165 ONLY UVSET EN 1.2V 1.8V 2.5V 3.6V VDD ABP VDD FAULT ON POK OFF DONE SET1 OUT3 SET4 OUT4 DLY PGT EN OUT2 SET3 IOS NEXT MAX16165/6 OUT1 MAX16165 MAX16166 SET2 RESET EN EN GND EN IN IN IN IN OUT OUT OUT OUT 3.6V 2.5V FPGA DSP SoC 1.8V 1.2V DC-DC CONVERTERS Figure 10. Sequence Four Power Supplies and Monitor VDD and the Four Power Supplies. EN (ON/OFF ) VOUT1 VOUT2 VOUT3 VOUT4 tP tDLY SET1 > 0.5V tDISCHARGE tP tDLY SET2 > 0.5V tP tDLY SET3 > 0.5V tP tDLY SET4 > 0.5V DONE tRP POK Note : 1.Typical value of t DISCHARGE is 40µs 2. tP is time between OUT_ high to SET_ > 0.5V, for no fault condition t P < tPGT 3 VOUT_ is the LDO output Figure 11. Power-Up Monitoring Timing Diagram. See the Typical Application Circuit (Figure 6). www.analog.com Analog Devices | 22 MAX16165/MAX16166 EN (ON/OFF ) Highly Integrated, 4-Channel Sequencer and Supervisor tDISCHARGE VOUT4 SET4 < 0.5V tDLY SET3 < 0.5V VOUT3 tDLY VOUT2 SET2 < 0.5V tDLY VOUT1 SET1 < 0.5V tDLY DONE POK OFF to POK Delay Note : 1 Typical value of t DISCHARGE is 43µs 2 Typical value of OFF to POK delay is 1-2u 3 VOUT_ is the LDO output Figure 12. Power-Down Monitoring Timing Diagram. See the Typical Application Circuit (Figure 6). Daisy-Chaining Using MAX16165/MAX16166 EN VDD MAX16165 ONLY UVSET VDD ABP FAULT FAULT GND OFF V1 SET1 OUT1 V2 SET2 V3 V4 FAULT DONE ON MAX16165 MAX16166 OUT2 OUT3 SET3 SET4 OUT4 ABP OFF DONE GND V5 SET1 OUT1 V6 SET2 OUT4 V7 SET3 V8 OUT2 OUT3 SET4 OUT4 PGT POK DCDC DLY OUT7 OUT8 DCDC IOS VDD OUT6 DCDC V1 V2 V3 V4 MAX16165 MAX16166 MAX16165 ONLY OUT5 DCDC DCDC POK OUT3 DCDC PGT OUT2 DCDC DLY VDD MAX16165 ONLY VDD OUT1 DCDC IOS UVSET ON V5 V6 V7 V8 POK Figure 13. Sequence and Monitor Eight Power Supplies and Monitor V DD. www.analog.com Analog Devices | 23 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Ordering Information PART NUMBER TEMP. RANGE MAX16166AWPH+T -40°C to +125°C MAX16166A---+T* -40°C to +125°C MAX16165A---+T* -40°C to +125°C PIN-PACKAGE 20 WLP See Selector Guide for information See Selector Guide for information OUTPUTS POK RESET TIMEOUT Push-pull 100ms Push-pull See Selector Guide for information Open-drain See Selector Guide for information +Denotes a lead(Pb)-free/RoHS-compliant package. T = Tape and reel. *Future product—contact factory for availability. www.analog.com Analog Devices | 24 MAX16165/MAX16166 Highly Integrated, 4-Channel Sequencer and Supervisor Revision History REVISION NUMBER 0 REVISION DATE 11/21 DESCRIPTION Release for Market Intro PAGES CHANGED — Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective owners. w w w . a n a l o g . c o m Analog Devices | 25