Datasheet AEM10330 (E-peas) - 2
| Hersteller | E-peas |
| Beschreibung | Highly Versatile, Regulated Single-Output, Buck-Boost Ambient Energy Manager for Up to 7-cell Solar Panels with Optional Primary |
| Seiten / Seite | 33 / 2 — DATASHEET. AEM10330. Table of Contents. 1. Introduction. 2. Absolute … |
| Dateiformat / Größe | PDF / 3.9 Mb |
| Dokumentensprache | Englisch |
DATASHEET. AEM10330. Table of Contents. 1. Introduction. 2. Absolute Maximum Ratings. 3. Thermal Resistance
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DATASHEET AEM10330 Table of Contents 1. Introduction 5 2. Absolute Maximum Ratings 8 3. Thermal Resistance 8 4. Typical Electrical Characteristics at 25 °C 9 5. Recommended Operation Conditions 9 6. Functional Block Diagram 11 7. Theory of Operation 12
7.1. DCDC Converter . 12 7.2. Reset, Wake Up and Start States . 13 7.3. Supply State . 14 7.4. Shutdown State . 14 7.5. Sleep State . 15 7.6. Primary Battery State . 15 7.7. Maximum Power Point Tracking . 15 7.8. Balancing for Dual-Cel Supercapacitor . 15
8. System Configuration 16
8.1. High Power / Low Power Mode . 16 8.2. Storage Element Configuration . 17 8.3. Load Configuration . 18 8.4. Custom Mode Configuration . 18 8.5. Disable Storage Element Charging . 18 8.6. MPPT Configuration . 19 8.7. ZMPP Configuration . 19 8.8. Source to Storage Element Feed-Through . 19 8.9. Primary Battery Configuration . 20 8.10. External Components . 21
9. Typical Application Circuits 22
9.1. Example Circuit 1 . 22 9.2. Example Circuit 2 . 23 9.3. Circuit Behaviour . 25
10. Performance Data 27
10.1. DCDC Conversion Efficiency From SRC to STO in Low Power Mode . 27 10.2. DCDC Conversion Efficiency From SRC to STO in High Power Mode . 27 10.3. DCDC Conversion Efficiency From STO to LOAD in Low Power Mode . 28 10.4. DCDC Conversion Efficiency From STO to LOAD in High Power Mode . 28 10.5. Quiescent Current . 29
11. Schematic 30 12. Layout 31 13. Package Information 32
13.1. Plastic Quad Flatpack No-Lead (QFN 40-pin 5x5mm) . 32 13.2. Board Layout . 33
14. Revision History 33
DS_AEM10330_Rev1.0 Copyright © 2021 e-peas SA 2 Document Outline 1. Introduction 2. Absolute Maximum Ratings 3. Thermal Resistance 4. Typical Electrical Characteristics at 25 °C 5. Recommended Operation Conditions 6. Functional Block Diagram 7. Theory of Operation 7.1. DCDC Converter 7.2. Reset, Wake Up and Start States 7.2.1. Storage Element Priority Supercapacitor as a Storage Element Battery as a Storage Element 7.2.2. Load Priority 7.3. Supply State 7.4. Shutdown State 7.5. Sleep State 7.6. Primary Battery State 7.7. Maximum Power Point Tracking 7.8. Balancing for Dual-Cell Supercapacitor 8. System Configuration 8.1. High Power / Low Power Mode 8.2. Storage Element Configuration 8.3. Load Configuration 8.4. Custom Mode Configuration 8.5. Disable Storage Element Charging 8.6. MPPT Configuration 8.7. ZMPP Configuration 8.8. Source to Storage Element Feed- Through 8.9. Primary Battery Configuration 8.10. External Components 8.10.1. Storage element information 8.10.2. External inductor information 8.10.3. External capacitors information CSRC CINT CLOAD 9. Typical Application Circuits 9.1. Example Circuit 1 9.2. Example Circuit 2 9.3. Circuit Behaviour 10. Performance Data 10.1. DCDC Conversion Efficiency From SRC to STO in Low Power Mode 10.2. DCDC Conversion Efficiency From SRC to STO in High Power Mode 10.3. DCDC Conversion Efficiency From STO to LOAD in Low Power Mode 10.4. DCDC Conversion Efficiency From STO to LOAD in High Power Mode 10.5. Quiescent Current 11. Schematic 12. Layout 13. Package Information 13.1. Plastic Quad Flatpack No-Lead (QFN 40-pin 5x5mm) 13.2. Board Layout 14. Revision History
DATASHEET AEM10330 Table of Contents 1. Introduction 5 2. Absolute Maximum Ratings 8 3. Thermal Resistance 8 4. Typical Electrical Characteristics at 25 °C 9 5. Recommended Operation Conditions 9 6. Functional Block Diagram 11 7. Theory of Operation 12
7.1. DCDC Converter . 12 7.2. Reset, Wake Up and Start States . 13 7.3. Supply State . 14 7.4. Shutdown State . 14 7.5. Sleep State . 15 7.6. Primary Battery State . 15 7.7. Maximum Power Point Tracking . 15 7.8. Balancing for Dual-Cel Supercapacitor . 15
8. System Configuration 16
8.1. High Power / Low Power Mode . 16 8.2. Storage Element Configuration . 17 8.3. Load Configuration . 18 8.4. Custom Mode Configuration . 18 8.5. Disable Storage Element Charging . 18 8.6. MPPT Configuration . 19 8.7. ZMPP Configuration . 19 8.8. Source to Storage Element Feed-Through . 19 8.9. Primary Battery Configuration . 20 8.10. External Components . 21
9. Typical Application Circuits 22
9.1. Example Circuit 1 . 22 9.2. Example Circuit 2 . 23 9.3. Circuit Behaviour . 25
10. Performance Data 27
10.1. DCDC Conversion Efficiency From SRC to STO in Low Power Mode . 27 10.2. DCDC Conversion Efficiency From SRC to STO in High Power Mode . 27 10.3. DCDC Conversion Efficiency From STO to LOAD in Low Power Mode . 28 10.4. DCDC Conversion Efficiency From STO to LOAD in High Power Mode . 28 10.5. Quiescent Current . 29
11. Schematic 30 12. Layout 31 13. Package Information 32
13.1. Plastic Quad Flatpack No-Lead (QFN 40-pin 5x5mm) . 32 13.2. Board Layout . 33
14. Revision History 33
DS_AEM10330_Rev1.0 Copyright © 2021 e-peas SA 2 Document Outline 1. Introduction 2. Absolute Maximum Ratings 3. Thermal Resistance 4. Typical Electrical Characteristics at 25 °C 5. Recommended Operation Conditions 6. Functional Block Diagram 7. Theory of Operation 7.1. DCDC Converter 7.2. Reset, Wake Up and Start States 7.2.1. Storage Element Priority Supercapacitor as a Storage Element Battery as a Storage Element 7.2.2. Load Priority 7.3. Supply State 7.4. Shutdown State 7.5. Sleep State 7.6. Primary Battery State 7.7. Maximum Power Point Tracking 7.8. Balancing for Dual-Cell Supercapacitor 8. System Configuration 8.1. High Power / Low Power Mode 8.2. Storage Element Configuration 8.3. Load Configuration 8.4. Custom Mode Configuration 8.5. Disable Storage Element Charging 8.6. MPPT Configuration 8.7. ZMPP Configuration 8.8. Source to Storage Element Feed- Through 8.9. Primary Battery Configuration 8.10. External Components 8.10.1. Storage element information 8.10.2. External inductor information 8.10.3. External capacitors information CSRC CINT CLOAD 9. Typical Application Circuits 9.1. Example Circuit 1 9.2. Example Circuit 2 9.3. Circuit Behaviour 10. Performance Data 10.1. DCDC Conversion Efficiency From SRC to STO in Low Power Mode 10.2. DCDC Conversion Efficiency From SRC to STO in High Power Mode 10.3. DCDC Conversion Efficiency From STO to LOAD in Low Power Mode 10.4. DCDC Conversion Efficiency From STO to LOAD in High Power Mode 10.5. Quiescent Current 11. Schematic 12. Layout 13. Package Information 13.1. Plastic Quad Flatpack No-Lead (QFN 40-pin 5x5mm) 13.2. Board Layout 14. Revision History