Datasheet AEM10330 (E-peas) - 6
Fabricante | E-peas |
Descripción | Highly Versatile, Regulated Single-Output, Buck-Boost Ambient Energy Manager for Up to 7-cell Solar Panels with Optional Primary |
Páginas / Página | 33 / 6 — DATASHEET. AEM10330 |
Formato / tamaño de archivo | PDF / 3.9 Mb |
Idioma del documento | Inglés |
DATASHEET. AEM10330
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DATASHEET AEM10330
Y VDIS D G[2] G[1] G[0] O O_O O_RD O_FT T T T ST LOA _ _ O_CF O_CF O_CF T_S T_S T T T ST EN_SLEEP S S ST S S S T_MPP[1] EN_S 40 39 38 37 36 35 34 33 32 31 CS_IN 1 30 T_MPP[0] ZMPP 2 29 STO_PRIO SRC 3 28 EN_HP PRIM 4 27 STO_CFG[3] PRIM_CUT 5 26 LOAD_CFG[2] PRIM_FB QFN40 6 25 LOAD_CFG[1] Top view BUFSRC 7 24 LOAD_CFG[0] LIN 8 23 STO_OVCH LOUT 9 22 STO_RDY GND 10 21 STO_OVDIS 11 12 13 14 15 16 17 18 19 20 L D O A BA ST VINT GND GND LO O_CH T R_MPP[2] R_MPP[1] R_MPP[0] EN_S Figure 2: Pinout Diagram QFN 40-pin PIN NUMBER NAME FUNCTION QFN40 Power pins CS_IN 1 Input for the cold start circuit. ZMPP 2 Used for the configuration of the ZMPP (optional). Must be left floating if not used. SRC 3 Connection to the harvested energy source. PRIM 4 Input for primary battery. Must be connected to GND if not used. BUFSRC 7 Connection to an external capacitor buffering the DCDC converter input. LIN 8 DCDC inductance connection. LOUT 9 DCDC inductance connection. VINT 13 Internal voltage supply. LOAD 17 Output voltage to supply on application load. BAL 18 Connection to mid-point of a dual-cel supercapacitor (optional). Must be connected to GND if not used. Connection to the energy storage element - battery or (super-)capacitor. STO 19 Cannot be left floating. Must be connected to a minimum capacitance of 100 μF or to a rechargeable battery. Status pins ST_LOAD 36 Logic output. Asserted when the LOAD voltage VLOAD rises above the VLOAD,TYP threshold. Reset when VLOAD drops below VLOAD,MIN threshold. High level is VLOAD. ST_STO_RDY 37 Logic output. Asserted when VSTO is above VCHRDY, reset when VSTO drops below VCHRDY. High level is VLOAD. ST_STO_OVDIS 38 Logic output. Asserted when the AEM10330 state is SHUTDOWN STATE or PRIMARY BATTERY STATE, reset when in any other state. High level is VLOAD. ST_STO 40 Logic output. Asserted when the storage device voltage VSTO rises above the VCHRDY threshold, reset when VSTO drops below the VOVDIS threshold. High level is VSTO. Table 1: Power and Status Pins DS D _A _ E A M1 M 033 3 0_Rev e 1.0. 0 0 C o p y Cri o g p h y tr i© g h2t 02 © 12 e 0 -2p1e a e s - pS e A as SA Confidential 6 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