Energy Harvesting PMIC
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Cypress Roadmap: Energy Harvesting PMIC Q3 2016 001-99429 Rev *C Owner: KESE BUM: KINA Cypress Roadmap: Energy Harvesting PMIC 1 Energy Harvesting PMIC1 Portfolio Series Solar Cell by Panasonic (AM-1801) Wearable Residential Building Industrial Activity Monitor WSNs2 for HVAC3, Level of Light Emitted, Temperature, Humidity, Motion WSNs2 for HVAC3, Level of Light Emitted, Temperature, Humidity, Motion, BLE4 Beacon5 WSNs2 for Infrastructure, Agriculture, Transportation, Factory Automation, Animal Monitoring Indoor/Outdoor Single Solar Cell by Ningbo Hebe Solar (HSC125155) NEW Light Piezoelectric Device by Thrive (K7520BS3) Electromagnetic Device by Perpetuum (PMG-FSH) S6AE101A Linear, Power Gating6, Multiplexer7, 10-pin QFN Series Solar Cell NEW S6AE102A Linear, Power Gating6, Multiplexer7, LDO8, Comparator, 20-pin QFN S6AE103A Linear, Power Gating6, Multiplexer7, LDO8, Timer, Comparator, 24-pin QFN MB39C811 Buck DC/DC, Dual-Bridge Rectifier, Power Good, 40-pin QFN MB39C811 Buck DC/DC, Dual-Bridge Rectifier, Power Good, 40-pin QFN MB39C811 Buck DC/DC, Dual-Bridge Rectifier, Power Good, 40-pin QFN S6AE101A Linear, Power Gating6, Multiplexer7, 10-pin QFN NEW MB39C831 Boost DC/DC, MPPT9, Li-ion Protection, 40-pin QFN Single Solar Cell MB39C811 Buck DC/DC, Dual-Bridge Rectifier, Power Good, 40-pin QFN Piezoelectric, Electromagnetic MB39C811 Buck DC/DC, Dual-Bridge Rectifier, Power Good, 40-pin QFN MB39C831 Boost DC/DC, MPPT9, Li-ion Protection, 40-pin QFN Heat Thermoelectric Generator (TEG) 1 Power Management IC 2 Wireless Sensor Nodes 3 Heating, ventilation, air conditioning 4 Bluetooth Low Energy 5 A wireless device that transmits data (e.g., signal strength and ID) over a periodic radio signal from a known location 001-99429 Owner: KESE Rev *C BUM: KINA Outdoor NEW Light Vibration TEG by Micropelt (TGP-651) Indoor 6 Output Market Segment power control circuit that controls power provided to the system load 7 Power source switch circuit for primary battery or Energy Harvesting Device 8 Low drop out regulator 9 Maximum Power Point Tracking Cypress Roadmap: Energy Harvesting PMIC Concept Development Sampling Production QQYY QQYY Status Availability Roadmap 2 Energy Harvesting PMIC1 (S6AE101A) Applications Block Diagram Series solar cell energy harvesting2 and wireless sensor nodes3 Primary Battery (Optional) Features Ultra-low power: Enables 1 cm2 minimum solar cell size for startup operation4 Input voltage range: Series solar cell: 2.0-5.5 V Primary battery: 2.0-5.5 V Output voltage range: 1.1-5.2 V Quiescent current5: 250 nA Startup power: 1.2 µW Power gating6 switch circuit Storage control circuit Multiplexer7 circuit (battery vs. solar cell) Overvoltage protection Packages: 10-pin SON (3.0 x 3.0 mm) S6AE101A System Load Power Gating6 Switch + Multiplexer7 Storage Control Series Solar Cell Overvoltage Protection Vref8 Control Block Collateral Datasheet: S6AE101A Datasheet Development Kits: Solar-Powered IoT Device Kit S6AE10xA Evaluation Board Software: Easy DesignSim™ Software Availability Sampling: Production: 1 Power 4 2 The 5 Management IC process of capturing and converting tiny amounts of energy (e.g., from light, vibration or heat) into electricity 3 A sensor-based device that monitors conditions such as temperature, humidity and pressure and wirelessly transmits that data to a control unit, such as a PC or a mobile device 001-99429 Rev *C Owner: KESE BUM: KINA Now Now Estimate based on solar cell power = 2 µW/cm2 at 100 lx Current consumed at no load condition 6 Output power control circuit that controls power provided to the system load 7 Power source switch circuit for primary battery and Energy Harvesting Device 8 Voltage reference circuit for internal block Cypress Roadmap: Energy Harvesting PMIC Product Overview 3 Energy Harvesting PMIC1 (S6AE102A) Applications Block Diagram Series solar cell energy harvesting2 and wireless sensor nodes3 Primary Battery (Optional) Features S6AE102A Power Gating6 Switch + Ultra-low power: Enables 1 cm2 minimum solar cell size for startup operation4 Input voltage range: Series solar cell: 2.0-5.5 V Primary battery: 2.0-5.5 V Output voltage range: 1.1-5.2 V Quiescent current5: 280 nA Startup power: 1.2 µW Low quiescent current5 low drop out regulator (LDO): 400 nA Dual channel power gating6 switch circuit with IRQ7 control Signal output circuit of power gating switch control Multiplexer8 circuit (battery vs. solar cell) Hybrid storage control circuit9 and overvoltage protection Packages: 20-pin QFN (4.0 x 4.0 mm) Multiplexer8 Hybrid Storage Control9 Series Solar Cell Overvoltage Protection VIN_LDO LDO + Control Block ENA_LDO STBY_LDO IRQ7 for Power Gating Switch Control INT Vref10 Datasheet: S6AE102A Datasheet Development Kits: S6AE10xA Evaluation Board Software: Easy DesignSim™ Software Availability Sampling: Production: 1 Power 5 2 The 6 Management IC process of capturing and converting tiny amounts of energy (e.g., from light, vibration or heat) into electricity 3 A sensor-based device that monitors conditions such as temperature, humidity and pressure and wirelessly transmits that data to a control unit, such as a PC or a mobile device 4 Estimate based on solar cell power = 2 µW/cm2 at 100 lx Owner: KESE BUM: KINA System Load2 SW_CONT VOUT_LDO Collateral 001-99429 Rev *C Power Gating6 Switch System Load1 Now Now Current consumed at no load condition Output power control circuit that controls power provided to the system load 7 Interrupt request control function for power management 8 Power source switch circuit for primary battery or series solar cell 9 Uses a small and large capacitor to automatically store excess power for backup 10 Voltage reference circuit for internal block Cypress Roadmap: Energy Harvesting PMIC Product Overview 4 Energy Harvesting PMIC1 (S6AE103A) Applications Block Diagram Series solar cell energy harvesting2 and wireless sensor nodes3 Primary Battery (Optional) Features S6AE103A Gating7 Power Switch + Ultra-low power: Enables 1 cm2 minimum solar cell size for startup operation4 Input voltage range: Series solar cell: 2.0-5.5 V Primary battery: 2.0-5.5 V Output voltage range: 1.1-5.2 V Quiescent current5: 280 nA Startup power: 1.2 µW Low quiescent current5 low drop out regulator (LDO): 400 nA Low consumption current CR timer6: 30 nA General-purpose low consumption current comparator: 20 nA Dual channel power gating7 switch circuit with CR timer6 and IRQ6 control Signal output circuit of power gating switch control Multiplexer8 circuit (battery vs. solar cell) Hybrid storage control circuit9 and overvoltage protection Packages: 24-pin QFN (4.0 x 4.0 mm) Multiplexer8 Power Gating7 Switch Hybrid Storage Control9 Series Solar Cell VIN_LDO System Load1 System Load2 + Overvoltage Protection SW_CONT/ COMPOUT LDO ENA_COMP ENA_LDO STBY_LDO VOUT_LDO Control Block Vref10 COMPP Comparator COMPM CR Timer6 & IRQ6 for Power Gating Switch Control INT Collateral Availability Datasheet: S6AE103A Datasheet Development Kits: S6AE10xA Evaluation Board Software: Easy DesignSim™ Software Sampling: Production: 1 Power 5 2 The 6 Management IC process of capturing and converting tiny amounts of energy (e.g., from light, vibration or heat) into electricity 3 A sensor-based device that monitors conditions such as temperature, humidity and pressure and wirelessly transmits that data to a control unit, such as a PC or a mobile device 4 Estimate based on solar cell power = 2 µW/cm2 at 100 lx 001-99429 Rev *C Owner: KESE BUM: KINA Now Now Current consumed at no load condition Time (or IRQ: Interrupt request) control function for power management 7 Output power control circuit that controls power provided to the system load 8 Power source switch circuit for primary battery or series solar cell 9 Uses a small and large capacitor to automatically store excess power for backup 10 Voltage reference circuit for internal block Cypress Roadmap: Energy Harvesting PMIC Product Overview 5 Energy Harvesting PMIC1 (MB39C811) Applications Block Diagram Series solar cell energy harvesting2, Piezoelectric3 energy harvesting and wireless sensor nodes (WSN)4 MB39C811 VIN Series Solar cell Features Ultralow-power buck DC/DC converter dual-bridge rectifiers Quiescent current5: 1.5 µA Input voltage range: 2.6 V-23 V Output voltage: 1.5 V, 1.8 V, 2.5 V, 3.3 V, 3.6 V, 4.1 V, 4.5 V and 5.0 V Output current: 100 mAmax Overcurrent protection Low-loss full-wave bridge rectifier: VF6 = 0.28 V (IF = 10 µA), IR7 = 20 nAmax (Vreverse = 18 V) Shunt for input protection: VIN ≥21 V, up to 100-mA pulldown Input and output power good monitoring Package: 40-pin QFN (6.0 x 6.0 mm) Shunt Bridge Rectifier Piezoelectric VOUT Bridge Rectifier VB Reg8 S2 S1 S0 VOUT Setting Buck DC/DC Converter BGR9 ERR CMP10 Collateral Datasheet: MB39C811 Datasheet Development Kits: Energy Harvesting Starter Kit MB39C811 Evaluation Board Software: Easy DesignSim™ Software Availability Sampling: Production: 1 Power 5 2 The 6 Management IC process of capturing and converting tiny amounts of energy (e.g., from light, vibration or heat) into electricity 3 Power generation device using vibration 4 A sensor-based device that monitors conditions such as temperature, humidity and pressure and wirelessly transmits that data to a control unit, such as a PC or a mobile device 001-99429 Rev *C Owner: KESE BUM: KINA Power Good VIN Power Good VOUT Power Good Now Now Current consumed at no load condition Bridge rectifier reverse breakdown voltage 7 Bridge rectifier reverse bias leak current 8 Regulator for internal block 9 Band Gap Reference 10 Error Comparator Cypress Roadmap: Energy Harvesting PMIC Product Overview 6 Energy Harvesting PMIC1 (MB39C831) Applications Single solar cell energy harvesting2, thermoelectric generator3 energy harvesting and wireless sensor nodes4 Block Diagram VIN MB39C831 Features Ultralow-voltage startup boost DC/DC converter Input voltage range: 0.3 V-4.75 V Startup voltage: 0.35 V Output voltage: 3.0 V, 3.3 V, 3.6 V, 4.1 V, 4.5 V, 5.0 V (Constant voltage mode only) Quiescent current5: 32 µA Output current: 8 mA (VDD = 0.6 V, VOUT = 3.3 V) and 80 mA (VDD = 3.0 V, VOUT = 3.3 V) Input peak current limit: 200 mA Built-in Maximum Power Point Tracking (MPPT)6 function Built-in Li-ion charge function Input and output power good monitoring Package: 40-pin QFN (6.0 x 6.0 mm) VDD Voltage Detector (UVLO7) Startup VCC Voltage Detector VOUT Voltage Detector MPPT6 Enable Enable S2 S1 S0 VOUT-VDD Voltage Inversion Detector BGR8 VOUT Boost DC/DC Converter Energy Storage Device MPPT6 Controller Collateral Datasheet: MB39C831 Datasheet Development Kits: MB39C831 Evaluation Board Software: Easy DesignSim™ Software VIN & VOUT Power Good Availability Sampling: Production: Now Now 1 Power 5 Current consumed at no load condition Management IC 6 Maximum Power Point Tracking maximizes the Energy Harvest by adjusting process of capturing and converting tiny amounts of energy (e.g., from light, vibration or heat) into electricity current drawn from a solar panel 3 Power Generation Device using heat 7 Undervoltage lockout 4 A sensor-based device that monitors conditions such as temperature, humidity and pressure 8 Band Gap Reference and wirelessly transmits that data to a control unit, such as a PC or a mobile device 001-99429 Owner: KESE Cypress Roadmap: Energy Harvesting PMIC Product Overview Rev *C BUM: KINA 2 The 7
