The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LTC1730-4.2 Linear Technology IC 1 A BATTERY CHARGE CONTROLLER, PDSO8, SO-8, Switching Regulator or Controller
LTC1730-4.2#TR Linear Technology IC 1 A BATTERY CHARGE CONTROLLER, PDSO8, SO-8, Switching Regulator or Controller
LTC1730-4#TR Linear Technology IC 1 A BATTERY CHARGE CONTROLLER, PDSO16, SSOP-16, Switching Regulator or Controller
LTC1730-4 Linear Technology IC 1 A BATTERY CHARGE CONTROLLER, PDSO16, SSOP-16, Switching Regulator or Controller
LTC4080EMSE Linear Technology IC 0.8 A BATTERY CHARGE CONTROLLER, 2750 kHz SWITCHING FREQ-MAX, PDSO10, PLASTIC, MSOP-10, Switching Regulator or Controller
LT1513IR-2#PBF Linear Technology IC 5.4 A BATTERY CHARGE CONTROLLER, 580 kHz SWITCHING FREQ-MAX, PSSO7, PLASTIC, D2PAK-7, Switching Regulator or Controller

6v BATTERY CHARGING CIRCUIT Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1995 - 6v BATTERY CHARGING CIRCUIT lm317

Abstract: 6v BATTERY CHARGING CIRCUIT Battery charger lm317 charging circuit lm317 LM317 lm317 6v charger LM317 regulator INTRODUCTION voltage regulator with lm317 BATTERY CHARGING CIRCUIT lm317 cost of LM317
Text: -terminal adjustable regulator it becomes relatively easy to design high-performance low-cost battery charging systems , battery charging applications Batteries are most quickly charged by ``constant-voltage'' charging , also be used to limit the peak charging current to a partially charged battery at a value other than , For example with a 6V gelled electrolyte battery the regulator can be set to give a 6 9V output Nominally the battery is discharged to about 5V making R1 0 4X output impedance and limiting the charging


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PDF LM317 6v BATTERY CHARGING CIRCUIT lm317 6v BATTERY CHARGING CIRCUIT Battery charger lm317 charging circuit lm317 lm317 6v charger LM317 regulator INTRODUCTION voltage regulator with lm317 BATTERY CHARGING CIRCUIT lm317 cost of LM317
1994 - RS 261-491

Abstract: 12v 150Ah battery charger dryfit a300 dryfit charger 593-394 K1881 593-394 12v 100Ah battery charger Yuasa Uxh dryfit a500 cyclic dryfit charger
Text: charge information 2 stage Charge rate Charge rate Charge 1A 5A 15A charging Battery type Charge , (continued) 2 stage Charge rate Charge rate Charge 1A 5A 15A charging Battery type Charge continuous , constant *For a fully discharged battery to achieve 90% full voltage source. See Table 2 for charging , e g 2.5 a charging voltage of 2.45V/cell (A500) is permissible t l o provided that the battery never , is stated Figure 3 Series/Parallel charging circuit for a discharge current of I 20 and for A300 for


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PDF K18815 RS 261-491 12v 150Ah battery charger dryfit a300 dryfit charger 593-394 K1881 593-394 12v 100Ah battery charger Yuasa Uxh dryfit a500 cyclic dryfit charger
2003 - MAX1551

Abstract: MAX1555EZK-T MAX1555 MAX1551-MAX1555 POK LED MAX1551EZK MAX1551EZK-T MAX1555EZK MAX1555EZ
Text: Open-Drain Charge Status Indicator. CHG pulls low when the battery is charging . CHG goes to a high-impedance , < 3.52V AND 3.95V < VUSB < 6V 100mA (max) charging from USB VDC AND VUSB < 3.52V Undervoltage , 1-Cell Li+ Battery Chargers Precharge Current not shut down, but progressively reduce charging , : BiCMOS Typical Application Circuit AC ADAPTER 3.7V TO 7V C1 1µF USB 3.7V TO 6V C2 1µF DC , 19-2902; Rev 0; 7/03 SOT23 Dual-Input USB/AC Adapter 1-Cell Li+ Battery Chargers Features o


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PDF MAX1551EZK-T OT23-5 MAX1555EZK-T MAX1551/MAX1555 MAX1555EZK MAX1551EZK MAX1551 MAX1555EZK-T MAX1555 MAX1551-MAX1555 POK LED MAX1551EZK MAX1551EZK-T MAX1555EZK MAX1555EZ
MAX1555

Abstract: MAX1551-MAX1555
Text: Active-Low Open-Drain Charge Status Indicator. CHG pulls low when the battery is charging . CHG goes to a , status indicator. CHG pulls low when the battery is charging (whenever USB or DC are powered) and charge , DON'T CARE 280mA (typ) charging from DC VDC < 3.52V AND 3.95V < VUSB < 6V 100mA (max) charging from USB , allows charging rates to be optimized without the limits imposed by worst-case battery and input voltages , MAX1551/MAX1555 SOT23 Dual-Input USB/AC Adapter 1-Cell Li+ Battery Chargers AVAILAB LE General


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PDF MAX1551/MAX1555 MAX1551 MAX1555 MAX1551-MAX1555
2003 - Not Available

Abstract: No abstract text available
Text: charging . CHG goes to a high-impedance state, indicating the battery is fully charged, when the charger is , optimum charging rate without the thermal limits imposed by worst-case battery and input voltage. When , . CHG pulls low when the battery is charging (whenever USB or DC are powered) and charge current is , VUSB DON’T CARE 280mA (typ) charging from DC VDC < 3.52V AND 3.95V < VUSB < 6V 100mA (max , + Battery Chargers Precharge Current not shut down, but progressively reduce charging current by 17mA


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PDF MAX1551/MAX1555 MAX1551/MAX1555 MAX1551 MAX155
2003 - MAX1555EZK-T

Abstract: MAX1555 MAX1555EZK MAX1551 MAX1551EZK MAX1551EZK-T MAX1551-MAX1555
Text: Open-Drain Charge Status Indicator. CHG pulls low when the battery is charging . CHG goes to a high-impedance , < 3.52V AND 3.95V < VUSB < 6V 100mA (max) charging from USB VDC AND VUSB < 3.52V Undervoltage , 1-Cell Li+ Battery Chargers Precharge Current not shut down, but progressively reduce charging , : BiCMOS Typical Application Circuit AC ADAPTER 3.7V TO 7V C1 1µF USB 3.7V TO 6V C2 1µF DC , 19-2902; Rev 0; 7/03 SOT23 Dual-Input USB/AC Adapter 1-Cell Li+ Battery Chargers The MAX1551


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PDF MAX1551/MAX1555 MAX1551 MAX1555 MAX1555EZK-T MAX1555EZK MAX1551EZK MAX1551EZK-T MAX1551-MAX1555
2003 - Not Available

Abstract: No abstract text available
Text: charging . CHG goes to a high-impedance state, indicating the battery is fully charged, when the charger is , optimum charging rate without the thermal limits imposed by worst-case battery and input voltage. When , . CHG pulls low when the battery is charging (whenever USB or DC are powered) and charge current is , VUSB DON’T CARE 280mA (typ) charging from DC VDC < 3.52V AND 3.95V < VUSB < 6V 100mA (max , + Battery Chargers Precharge Current not shut down, but progressively reduce charging current by 17mA


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PDF MAX1551/MAX1555 MAX1551/MAX1555 MAX1551 MAX155ct
2001 - fenwal

Abstract: MAX1758 Philips 2322-640-63103 T101D103-CA MBRS340 MAX1758EVKIT MAX1758EAI MAX1757 MAX1737 T101D1
Text: -to-4 by pin strapping. Battery temperature is monitored by an external thermistor to prevent charging , Ordering Information PART TEMP. RANGE 28 SSOP Typical Operating Circuit VIN 6V TO 28V DCIN , Stand-Alone, Switch-Mode Li+ Battery Charger with Internal 28V Switch ( Circuit of Figure 1, VDCIN = VHSD = , VVL V Stand-Alone, Switch-Mode Li+ Battery Charger with Internal 28V Switch ( Circuit , threshold, FULLCHG output switches high. Battery charging continues until top-off timeout occurs. See Table


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PDF MAX1758 MAX1758 fenwal Philips 2322-640-63103 T101D103-CA MBRS340 MAX1758EVKIT MAX1758EAI MAX1757 MAX1737 T101D1
2001 - Not Available

Abstract: No abstract text available
Text: -to-4 by pin strapping. Battery temperature is monitored by an external thermistor to prevent charging , Information PART TEMP. RANGE 28 SSOP Typical Operating Circuit VIN 6V TO 28V DCIN CSSP CSSN , , Switch-Mode Li+ Battery Charger with Internal 28V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of , , Switch-Mode Li+ Battery Charger with Internal 28V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of , , Switch-Mode Li+ Battery Charger with Internal 28V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of


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PDF MAX1758 MAX1758
2001 - Not Available

Abstract: No abstract text available
Text: -to-4 by pin strapping. Battery temperature is monitored by an external thermistor to prevent charging , TEMP. RANGE 28 SSOP Typical Operating Circuit VIN 6V TO 28V DCIN , Stand-Alone, Switch-Mode Li+ Battery Charger with Internal 28V Switch ( Circuit of Figure 1 , Li+ Battery Charger with Internal 28V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of , VVL V Stand-Alone, Switch-Mode Li+ Battery Charger with Internal 28V Switch ( Circuit of


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PDF MAX1758 MAX1758
2001 - Not Available

Abstract: No abstract text available
Text: -to-4 by pin strapping. Battery temperature is monitored by an external thermistor to prevent charging , Information PART TEMP. RANGE 28 SSOP Typical Operating Circuit VIN 6V TO 28V DCIN CSSP CSSN , , Switch-Mode Li+ Battery Charger with Internal 28V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of , , Switch-Mode Li+ Battery Charger with Internal 28V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of , , Switch-Mode Li+ Battery Charger with Internal 28V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of


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PDF MAX1758 MAX1758
2000 - MBR5340

Abstract: MOSFET 4166 cell phone charger 5.7 V circuit diagram T101D103-CA MAX1758 MAX1757EVKIT MAX1757EAI MAX1757 MBR5340 diode PWM SWITCH MODE
Text: to +85°C MAX1757EAI 28 SSOP Typical Operating Circuit VIN 6V to 14V DCIN CSSP CSSN , the battery . The built-in safety timer automatically terminates charging once the adjustable time , Stand-Alone, Switch-Mode Li+ Battery Charger with Internal 14V Switch ( Circuit of Figure 1 , Li+ Battery Charger with Internal 14V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of , V Stand-Alone, Switch-Mode Li+ Battery Charger with Internal 14V Switch ( Circuit of


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PDF 28-Pin 300kHz MAX1757EAI MBR5340 MOSFET 4166 cell phone charger 5.7 V circuit diagram T101D103-CA MAX1758 MAX1757EVKIT MAX1757EAI MAX1757 MBR5340 diode PWM SWITCH MODE
1995 - 2N2222 application note emitter follower

Abstract: LM311 application notes 2N2907 TRANSISTOR lm311 application note zener 4.7v lm311 equivalent LM311 free download 2N2222 circuit TRANSISTOR 2N2907 DATA SHEET 2N2222 transistor
Text: either 5V or 6V may be used, and battery voltages as high as 4.7V (3.7V for 5V supplies) are allowed , . These provide for a simple component solution to several battery charging tasks, which users may stock , battery packs available, there are situations which require charging currents higher than 100 mA. This application note examines some circuit alternatives that allow the DS1633 to be used with battery packs that have more than three cells, or in applications which require higher charging currents. Other circuit


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PDF DS1633 DS1633. DS1633, DS1633 2N2222 application note emitter follower LM311 application notes 2N2907 TRANSISTOR lm311 application note zener 4.7v lm311 equivalent LM311 free download 2N2222 circuit TRANSISTOR 2N2907 DATA SHEET 2N2222 transistor
2013 - Philips 2322-640-63103

Abstract: No abstract text available
Text: . Battery temperature is monitored by an external thermistor to prevent charging outside the acceptable , PART MAX1757EAI TEMP. RANGE -40°C to +85°C PIN-PACKAGE 28 SSOP Typical Operating Circuit VIN 6V to , , Switch-Mode Li+ Battery Charger with Internal 14V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of , , Switch-Mode Li+ Battery Charger with Internal 14V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of , . Battery charging continues until top-off timeout occurs. See Table 1. Note 6: After charging is complete


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PDF MAX1757 Philips 2322-640-63103
2000 - T101D103-CA

Abstract: MBR5340 cell phone charger 5.7 V circuit diagram MBR5340 diode
Text: +) battery charger that charges one to three cells. It provides a regulated charging current accurate to ±10% , PIN-PACKAGE 28 SSOP Typical Operating Circuit VIN 6V to 14V DCIN REF CSSP CSSN HSD LX MAX1757 ISETOUT BST , output switches high. Battery charging continues until top-off timeout occurs. See Table 1. Note 6: After , = VREF, see Figure 1, TA = +25°C, unless otherwise noted.) BATTERY VOLTAGE vs. CHARGING CURRENT , the voltage between 0 and VREF. See Input Current Regulator section. Battery Charging Current Adjust


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PDF 28-Pin 300kHz MAX1757 MAX1757 T101D103-CA MBR5340 cell phone charger 5.7 V circuit diagram MBR5340 diode
2007 - ltc 4078 DATASHEET

Abstract: ic 4078 4205 BD TRANSISTOR application for lcyp LTC4078 cable usb to idc 6 pin LTC4075HVX
Text: charging a battery . If this input is left floating, an internal pull-up resistor will disable charging , > BAT + 50mV HIGH LOW or No Connect 22V > VUSBIN > 6V HIGH LOW or No Connect No Charging . VDCIN < 4.15V or VDCIN < BAT + 50mV PWR: Hi-Z CHRG: Hi-Z No Charging . PWR: Hi-Z CHRG: Hi-Z 6V , > VDCIN > 6V No Charging . PWR: Hi-Z CHRG: Hi-Z No Charging . PWR: Hi-Z CHRG: Hi-Z No Charging , Dissipation When designing the battery charger circuit , it is not necessary to design for worst-case power


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PDF LTC4078/LTC4078X 4078/LTC4078X LTC4078/LTC4078X LTC4089) LTC4089-5) DFN-14 LTC4411/LTC4412 4078xfb ltc 4078 DATASHEET ic 4078 4205 BD TRANSISTOR application for lcyp LTC4078 cable usb to idc 6 pin LTC4075HVX
2000 - Not Available

Abstract: No abstract text available
Text: to +85°C MAX1757EAI 28 SSOP Typical Operating Circuit VIN 6V to 14V DCIN CSSP CSSN , the battery . The built-in safety timer automatically terminates charging once the adjustable time , Stand-Alone, Switch-Mode Li+ Battery Charger with Internal 14V Switch ( Circuit of Figure 1 , Li+ Battery Charger with Internal 14V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of , V Stand-Alone, Switch-Mode Li+ Battery Charger with Internal 14V Switch ( Circuit of Figure


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PDF 28-Pin 300kHz MAX1757EAI
2001 - T101D1

Abstract: Philips 2322-640-63103 Philips BC T101D103-CA
Text: to +85°C PIN-PACKAGE 28 SSOP Typical Operating Circuit VIN 6V TO 28V DCIN REF CSSP CSSN HSD LX , , FULLCHG output switches high. Battery charging continues until top-off timeout occurs. See Table 1. Note 6 , , VISETIN = VISETOUT = VREF, TA = +25°C, unless otherwise noted.) BATTERY VOLTAGE vs. CHARGING CURRENT , the voltage between 0 and VREF. See Input Current Regulator section. Battery Charging Current Adjust , 4 Li+ battery cells in series. It includes a step-down DC-DC converter that controls charging


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PDF MAX1758 MAX1758 T101D1 Philips 2322-640-63103 Philips BC T101D103-CA
1998 - 6v BATTERY CHARGING CIRCUIT

Abstract: LT1510 6 cell battery charging cc charger circuit LTC1541 LT1511 FZT2907A 2N3906 1N5817 signal path designer
Text: often frustrated when attempting to design precision charging circuitry that meets battery manufacturers , . Most battery manufacturers recommend that charging be terminated roughly one hour after the current , ) charging from an inexpensive, unregulated 6V wall adapter. The charger is built around a single LTC®1541 , battery charging current. Q1's base current is controlled by the op amp output (Pin 1) and buffered by , increase dissipation and additional heat sinking will be needed. Battery charging current is sensed by R11


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PDF LT1511 1-800-4-LINEAR. dn188f 6v BATTERY CHARGING CIRCUIT LT1510 6 cell battery charging cc charger circuit LTC1541 FZT2907A 2N3906 1N5817 signal path designer
2013 - Not Available

Abstract: No abstract text available
Text: by pin strapping. Battery temperature is monitored by an external thermistor to prevent charging , -40°C to +85°C MAX1757EAI PIN-PACKAGE 28 SSOP Typical Operating Circuit VIN 6V to 14V DCIN , , Switch-Mode Li+ Battery Charger with Internal 14V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of , , Switch-Mode Li+ Battery Charger with Internal 14V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of , + Battery Charger with Internal 14V Switch ELECTRICAL CHARACTERISTICS (continued) ( Circuit of Figure 1


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PDF MAX1757 MAX1757
2000 - T101D103-CA

Abstract: No abstract text available
Text: -to-4 by pin strapping. Battery temperature is monitored by an external thermistor to prevent charging , . RANGE -40°C to +85°C PIN-PACKAGE 28 SSOP Typical Operating Circuit VIN 6V TO 28V DCIN REF CSSP CSSN , , FULLCHG output switches high. Battery charging continues until top-off timeout occurs. See Table 1. Note 6 , , VISETIN = VISETOUT = VREF, TA = +25°C, unless otherwise noted.) BATTERY VOLTAGE vs. CHARGING CURRENT , the voltage between 0 and VREF. See Input Current Regulator section. Battery Charging Current Adjust


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PDF 28-Pin MAX1758 MAX1758 T101D103-CA
2014 - solar charger schematic 12V

Abstract: LT1636 equivalent
Text: Powered Battery Chargers Multiple Types of Lead-Acid Battery Charging Li-Ion Battery Charger Battery , battery charger that implements a constant-current constantvoltage (CCCV) charging profile used for most , Characteristics 17.5 Solar Powered Charging Lead Acid Battery "B” 17.5 PARTLY CLOUDY 15.0 IBAT , DAY BACK PAGE APPLICATION Power Supply Mode Charging Lead Acid Battery "B” STAGE 1 26 , Lithium Ion Battery VBAT (V) Solar Powered Charging Lead Acid Battery "A” TA = 25°C, unless


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PDF LT8490 100kHz 400kHz 64-Lead 12063C105KAT2A LT3652/LT3652HV LT3652) LTC4000-1 LTC4020 com/LT8490 solar charger schematic 12V LT1636 equivalent
2007 - DD10

Abstract: LTC3455 LTC4075HVX
Text: manage charging of a single-cell lithium-ion battery from two separate power sources: a wall adapter and , or No Connect 22V > VUSBIN > 6V HIGH LOW or No Connect VDCIN < 4.15V or No Charging , USBPWR: LOW CHRG: Hi-Z 6V > VDCIN > 4.15V and VDCIN > BAT + 50mV No Charging . PWR: Hi-Z USBPWR , : LOW 22V > VDCIN > 6V No Charging . PWR: Hi-Z USBPWR: LOW CHRG: Hi-Z No Charging . PWR: Hi-Z , the battery charger circuit , it is not necessary to design for worst-case power dissipation scenarios


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PDF LTC4075HVX 950mA LTC4089) LTC4089-5) DFN-14 LTC4410 LTC4411/LTC4412 4075hvxf DD10 LTC3455 LTC4075HVX
2007 - Li-Ion Battery Charger dual

Abstract: DFN-10 package switching regulator LTC4078X LTC4075HVX
Text: capable of charging a single-cell Li-Ion/Polymer battery from both wall adapter and USB inputs. The , pin falls below VBDET (typically 1.75V), the charger is on and ready for charging a battery . If this , : ITERMINATE = 100V RITERM When the battery current, IBAT, falls below the termination threshold, charging , Status Output. When the LTC4078/LTC4078X are charging , the CHGR pin is pulled BAT (Pin 9): Battery , charging of a single-cell lithium-ion battery from two separate power sources: a wall adapter and USB power


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PDF LTC4078/LTC4078X 4078/LTC4078X LTC4075/ LTC4075HVX LTC4076 LTC4077 LTC4085 LTC4089/ LTC4089-5 Li-Ion Battery Charger dual DFN-10 package switching regulator LTC4078X
2007 - LTC4075HVX

Abstract: No abstract text available
Text: standalone linear chargers that are capable of charging a single-cell Li-Ion/Polymer battery from both wall , falls below VBDET (typically 1.75V), the charger is on and ready for charging a battery . If this input , , ( charging from USBsupply) RIUSB Battery Detection Programming Charge Termination The charge cycle , Charging . VDCIN < BAT + 50mV PWR: Hi-Z CHRG: Hi-Z No Charging . PWR: Hi-Z CHRG: Hi-Z 6V > VDCIN , > 6V No Charging . PWR: Hi-Z CHRG: Hi-Z No Charging . PWR: Hi-Z CHRG: Hi-Z No Charging . PWR


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PDF LTC4078/LTC4078X 950mA LTC4089) LTC4089-5) DFN-14 LTC4411/LTC4412 4078xfb LTC4075HVX
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