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Part Manufacturer Description PDF & SAMPLES
ISL94212INZ-T Intersil Corporation Multi-Cell Li-Ion Battery Manager; TQFP64; Temp Range: -40° to 85°C
ISL94212INZ Intersil Corporation Multi-Cell Li-Ion Battery Manager; TQFP64; Temp Range: -40° to 85°C
ISL94208IRZ-T Intersil Corporation 4- to 6-Cell Li-ion Battery Management Analog Front-End; QFN32; Temp Range: -40° to 85°C
ISL94208IRZ Intersil Corporation 4- to 6-Cell Li-ion Battery Management Analog Front-End; QFN32; Temp Range: -40° to 85°C
ISL78610ANZ Intersil Corporation Multi-Cell Li-Ion Battery Manager; TQFP64; Temp Range: -40° to 105°C
ISL78610ANZ-T Intersil Corporation Multi-Cell Li-Ion Battery Manager; TQFP64; Temp Range: -40° to 105°C

"battery management" cells

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: Cells bq2002 bq2004 bq24400 1 Cell bq24030 bq24100 2 Cells b24103 3 Cells bq24105 Multiple Cells (2-4) bq24703 Multiple Cells bq2013 Multiple Cells bq2000 bq24703 Battery Fuel Gauges Multiple Cells bq2014H bq2016 1 Cell bq27000 Multiple Cells (2-4) bq20z80 Lithium Battery Protection Battery Authentication bq26150 1 Cell bq26150 UCC3952 2 Cells UCC3911 Multiple Cells (2-4) bq29312A bq29400 Multiple Cells bq26150 bq2013H Multiple Cells bq26150 Texas Instruments
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bq2016 battery protection Texas Instruments Lead Acid Battery Charger Switchmode bq2013 bq2004 BQ2002 lead acid SLYB118
Abstract: fact ideal for electric or hybrid vehicles. to monitor the individual cells in Li- coupled , cells can be moni- cally rising, with a price rise of nearly properties have immense relevance , in electric or hybrid and 96 cells can be connected in which have resulted in the research , ing or deep discharging they have a ment of all cells. The digital result battery. tendency , , between 90 and 150 help of the cell balancing function of of these batteries. A new genera- cells Atmel
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lithium ion battery for electric cars motor electric cars hybrid
Abstract: ® Safety Circuit V NEG (-) Sense Resistor Li Ion Cells Features: · Customizable battery , Chemistry Configuration Description PS501 Li Ion/Li Poly or NiMH/NiCD 2-4 cells in series or 6-12 cells in series IC Single Chip Battery Manager PS5100 NiMH or NiCD 6-12 cells in series Battery Management Module without Safety PS5162 Li Ion/Li Poly 2 cells in series Battery Management Module w/ Safety PS5163 Li Ion/Li Poly 3 cells in series Battery Management Microchip Technology
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PIC18F IC 8870 datasheet pickit 2 pic18F PS5164 Microchip EEPROM Information Guide Microchip EEPROM IC PIC18F USB DS21888A
Abstract: range of microcontrollers dedicated to Li-Ion battery management supporting from 1 to 4 cells in , the cost down. The AVR Battery Management offering 2-4 Cells Number of cells Typical , Power Banks ATmega8HVA ATmega16HVA 1-2 Cells 1-2 Cell requiring gas gauging DSC, Camcorder , ) 1-2 16KB EEPROM (Bytes) Flash (KB) ATmega8HVA 8KB Li-ion cells Product 4KB , Requests www.atmel.com/literature Website www.atmel.com Reference designs Device #cells Atmel
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tssop44 ATmega32hvb LGA36 ATMEGA406 ATmega16hvb ATmega16hva
Abstract: /Polymer Cells? No 3 or more Li-Ion/Polymer Cells? Yes Yes MCP73826/7/8 Max VIN = 5.5V , and Fuel Gauges No NiMH or NiCd? Yes No 1 Li-Ion/Polymer Cell? 2 Li-Ion/Polymer Cells? No 3 or 4-Li-Ion/Polymer Cells? Yes PS501 Is the Cell a series between 6-12? Yes , Manager Module with LED SOC Display, (DS21903) PS700 - Battery Monitor for 1 or 2 cells in Series Microchip Technology
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MCP738XX MCP1630 MCP73862 DS21818 DS21760 12v lithium ion battery 12v battery monitor DS21705 PS200 MCP73853/5 MCP73842/4
Abstract: Technology DESCRIPTION FEATURES The MP2612 is a monolithic switching charger for 2 or 3 cells , 2-3 Cells Li-Ion Battery Packs Wide Operating Input Range Up to 2 A Programmable Charging Current , 9 COMPI 5 EXPOSED PAD ON BACKSIDE 6 7 8 COMPV GND CELLS 12 EN 1 , CHARGER ELECTRICAL CHARACTERISTICS (6) VIN = 19V, TA = +25°C, CELLS=0V, unless otherwise noted. Parameters Symbol Condition Terminal Battery Voltage VBATT CELLS=0V CELLS Float Min Typ Monolithic Power Systems
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MP8110 7.4v battery charger 2612ER 12695 MP2612ER JESD51-7 QFN16 MO-220
Abstract: 13 12 11 10 9 GND CSP BATT COMPI 6 EN 7 CELLS 8 COMPV EXPOSED PAD ON BACKSIDE , (6) VIN = 19V, TA = +25°C, CELLS=0V, unless otherwise noted. Parameters Terminal Battery Voltage , RNTC=NCP18X103, 0°C RNTC=NCP18X103, 50°C VIN-VBATT IBF fSW CELLS=0V, VBATT =4.5V VBATT =0V 90 VSENSE tON CELLS , =0.1F 5 30 1 4.0 100 73 30 180 0.4 1.8 3.4 1000 230 5% CC (6) Symbol Condition VBATT CELLS=0V CELLS , CHARACTERISTICS (continued) VIN = 19V, TA = +25°C, CELLS=0V, unless otherwise noted. Parameters Symbol Condition Monolithic Power Systems
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mp26
Abstract: - taneously at any number of cells in superimposed with noise or spikes, ages, approximately 50-200 cells the ATA6870. which are unavoidable with the high with a typical cell voltage of approx , , over- allows all cells to be measured at age of the signal that is present at voltage , management IC such as ment, the ATA6870 also features charge balancing between the individual cells. The capacity of bat- 0 0 -15 tery cells varies due to the manufacturing process, self-discharging Atmel
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ata6871 one cell battery protection ic diagram Microcontroller 6500 load cell interface WITH ADC hybrid lithium ion battery Cell Balancing ATA6871
Abstract: 13 12 11 10 9 GND CSP BATT COMPI 6 EN 7 CELLS 8 COMPV EXPOSED PAD ON BACKSIDE , (6) VIN = 19V, TA = +25°C, CELLS=0V, unless otherwise noted. Parameters Terminal Battery Voltage , RNTC=NCP18XH103, 0°C RNTC=NCP18XH103, 50°C VIN-VBATT IBF fSW CELLS=0V, VBATT =4.5V VBATT =0V 90 VSENSE tON CELLS , =0.1F 5 30 1 4.0 100 73 30 180 0.4 1.8 3.4 1000 230 5% CC (6) Symbol Condition VBATT CELLS=0V CELLS , CHARACTERISTICS (continued) VIN = 19V, TA = +25°C, CELLS=0V, unless otherwise noted. Parameters Symbol Condition Monolithic Power Systems
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battery charger 12 E 24V
Abstract: 10uF C7 0.1uF MP2618 VREF25 D1 VBAT C9 22uF 2/3 cells battery RGS1 280 CSP BATT RGS2 280 NTC RNTC 10k RS1 110m BST CELLS R3 10k L 4.7uF RG2 SW AIN , 19 BATT VREF33 5 18 COMPI VREF25 6 17 CELLS EN 7 16 COMPV , +25°C, CELLS=0V, unless otherwise noted. Parameters Symbol Condition Terminal Battery Voltage VBATT CSP, BATT Current Switch On Resistance ICSP,IBATT RDS(ON) Switch Leakage CELLS Monolithic Power Systems
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QFN28 2618EV MP2618EV
Abstract: measures only 1.0 x 1.0 in (25 x 25 mm) Supports 1 or 2 Li-Ion cells and 300mA of charging current , Maximum number of cells: 1 with bq2056 and 2 with bq2056T 11 1 R4 2.0k 100, 1% Maximum , 15 1 U1 No. of Cells Part No. Min. Input Max. Input Regulated Output 1 , Cells Part No. Min. Input Setting AutoComp (optional): Max. Input Regulated Output , battery pack integration, these ICs protect Li-Ion cells from excessive charge or discharge, and short Benchmarq
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Lithium-ion battery diagram schematic bq2056 Li-Ion battery charger circuit diagram FZT788B FMMT3906 fmmt3904 BD2056H 2056/T/V 2058T
Abstract: MP2612 2A,24V Input, 600kHz 2-3 Cells Switching Li-Ion Battery Charger The Future of Analog IC Technology DESCRIPTION The MP2612 is a monolithic switching charger for 2-3 cells series Li-Ion cells , available in 16-pin 4mm x 4mm QFN package. FEATURES Charges 2-3 Cells Series Li-Ion , VREF33 C3 1uF R1 R2 SW BST CSP BATT C7 0.1uF D2 4.7uH VREF25 CHGOK 2-3 cells battery MP2612 R3 10k ACOK CELLS NTC R5 750 COMPI COMPV R4 2.5k RNTC 10k EN ON OFF GND Monolithic Power Systems
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MP2612ER-LF-Z RS1100 NTC 110 10k MP261
Abstract: 25 mm) Supports 1 or 2 Li-Ion cells and 300mA of charging current Dual-stage algorithm reduces , 2.0k 11 Maximum charging current: 300 mA 1 10 Maximum number of cells: 1 with bq2056 and 2 with bq2056T No. of Cells Item Quantity 1 R1 0.33, 1% 1 U1 bq2056SN or , : Voltage regulation level is set by the IC and no adjustments are required: No. of Cells Part No , protect Li-Ion cells from excessive charge or discharge, and short circuits. These functions are critical Benchmarq
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benchmarq zetex fzt788b li-ion battery protect IC li-ion battery pack diagram schematic bq2056TSN ZHCS1000 2056T BD2056L
Abstract: battery protection solution Battery protection IC for two Li-Ion cells four Li-Ion cells , Pre-charge qualification for detecting shorted, damaged or overheated cells Fast-charge termination by , user-selectable minimum current and maximum time Pre-charge qualification detects shorted or damaged cells , source Pre-charge qualification for detecting shorted, damaged or overheated cells Fast-charge , FET control Protector circuit EEPROM bq2063 Battery cells Protector/GG interface Texas Instruments
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fire alarm using IC 555 and thermistor PIC lead acid battery charger lead acid battery charger schematic pic battery charger circuit using 555 timer 2057W burglar alarm ic 555 2057C
Abstract: measures only 1.0 x 1.0 in (25 x 25 mm) Supports 1 or 2 Li-Ion cells and 300mA of charging current , Maximum number of cells: 1 with bq2056 and 2 with bq2056T 11 1 R4 2.0k 100, 1% Maximum , 15 1 U1 No. of Cells Part No. Min. Input Max. Input Regulated Output 1 , Cells Part No. Min. Input Setting AutoComp (optional): Max. Input Regulated Output , battery pack integration, these ICs protect Li-Ion cells from excessive charge or discharge, and short Texas Instruments
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FZT788 schematic diagram of phone charger li-ion management ICs li-ion battery charger schematic
Abstract: : Alkaline Alkaline cells are nonrechargeable (notwithstanding claims of late-night TV ads), but excel due , "sleep" current. Even 10s of uA of wasted current can drain cells so that intermittently used products , rechargeable battery as unobtrusive as possible. The best start for this is to pick cells that complement (or , product's normal usage pattern is not unhealthy for the cells. This consideration is particularly , NiMH cells prefer full charge/discharge cycles. This makes most types of NiMH batteries suitable for Maxim Integrated Products
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APP2989 eneloop uniross uniross hybrio Alkaline Batteries charger ni-mh AN2989
Abstract: 25 mm) Supports 1 or 2 Li-Ion cells and 300mA of charging current Dual-stage algorithm reduces , 2.0k 11 Maximum charging current: 300 mA 1 10 Maximum number of cells: 1 with bq2056 and 2 with bq2056T No. of Cells Item Quantity 1 R1 0.33, 1% 1 U1 bq2056SN or , : Voltage regulation level is set by the IC and no adjustments are required: No. of Cells Part No , protect Li-Ion cells from excessive charge or discharge, and short circuits. These functions are critical Texas Instruments
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benchmarq gas gauge DM2156TH
Abstract: , designs based on the ATtiny43U can drain cells down to 0.7 V while operating high current LEDs and small , , cells can drop below 1 V while still possessing a substantial amount of usable energy. Even MCUs with a 1.8 V power supply require at least two cells in series to operate and some applications, such as , POWER EFFICIENCY FOR ULTRA LOW POWER DESIGNS voltages, require as many as four cells. In order to , support rechargeable cells. Rechargeable cells have significantly different thresholds than their Atmel
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ATTINY43U PicoPower atmel PicoPower 8223A STK600
Abstract: up to 4 Li-Ion cells and 1.25A of charging current Dual-stage algorithm reduces charging time Safe , Input 1 29 Number of Cells BAV70 13 Input requirements: B130DI D4 12 Maximum charging current: 1.2A D2, D3 1 11 Maximum number of cells: 4 2 10 Battery , Maximum Time-Out (MTO): MTO is calculated by the following equation: where N is the number of cells and , for this circuit (maximum input ripple of 10% allowed): Number of Cells Minimum Unregulated Texas Instruments
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BD12954 bq2954 resistor 1k 20W FZT789ACT ELJ-FA100KF2 thermistor 103AT ntc
Abstract: charger for nickel, lithium-ion (Li-ion) and lead-acid cells requires special considerations for proper , chemistries There are fundamental differences in how cells of different chemistries are charged. Nickel-metal-hydride (NiMH) cells require constant current throughout the charging cycle. Li-ion cells require , . Lead-acid cells also require a constant current followed by a constant-voltage stage, but a final float-charge stage must be added. Each of these will be discussed in turn. NiMH cells The accepted method Texas Instruments
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msp430F2012 application note multi cell liion charger lifepo4 LiMn2O4 msp430F2012 lithium phosphate E093008 SLYT357
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