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BATTERY_CHARGERS_SELECTION_TOOL Texas Instruments Quick Search Selection Tool for Battery Chargers
EP0300AC48TEZ GE Critical Power EP0300AC48TEZ, Compact, Ssingle Phase, Hotpluggable, Fan-cooled Rectifier and Battery Charger 300W Output at 48-58Vdc

"battery discharge curve" 9V

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: conditions are met. The input voltage must not drop below its 9V minimum operating range, and the input , transient suppressor circuitry. Associated narrow negative transients could extend below the minimum 9V , to discharge to the backplane through Q1's RDS(ON). The back-charging current creates a voltage drop , transient would appear across Q1 as the transient attempts to discharge the bulk capacitor. Even if Maxim Integrated Products
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MAX5900 an1881 IRF530 LIMITING INRUSH CURRENT mosfet MAX5900NNEUT MAX5900/MAX5901 MAX5901 AN1881 APP1881
Abstract: 8 9 10 Discharge Time (Hour) 2: MCP3421 ADC MCP3421 18 - ADC (b , MPLAB® ICD2 In-Circuit Menu Selection Switch 2x16 LCD Test Pins for Battery Charger 9V Battery Connector (TP11) (See Note 1) Battery Under Test ­ 9V Power Supply (See Note 1) + Current , Microchip Technology Inc. DS01156A_JP - 11 9V 1 9V AN1156 10: MCP3421 DS01156A_JP Microchip Technology
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pic18F4550 configuration DS22003 microchip 2 channel ADC microchip 16 channel ADC PIC18F4550 load cell interface WITH ADC
Abstract: DURACELI. SIZE 9V Alkaline Manganese Dioxide Battery MN1604/6LR61 Time to End Voltage Typical 96 Discharge Characteristics Voltage Voltage Voltage 4 6 8 10 Hours of Service at 20°C 20 30 Hours of Service at 20°C Typical Time to End Voltage curve showing on and off periods Curves above show only the on periods Hours of Service at 20°C DURACELI- Batteries Issue 6I To be read in conjunction with the General Information module In line with its continuing development programme, Duraceli -
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MN1604 6LR61 6LR61 MN1604 Battery duracell
Abstract: . 4 Electrostatic Discharge , 25W at +85°C (See Figure 11. Power Supply Derating Curve on page 17.) Input Voltage Range: +9V to , ELECTROSTATIC DISCHARGE Electrostatic discharge (ESD) can damage board components. The circuit board must only , range from 9V to 40V. Table 3: Main Power Input Connector Pinout J3 Pin 1 2 Signal Name VersaLogic
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PC/104-P PC/104
Abstract: Discharged FIGURE 1: 60 % Battery Discharge Characteris- tics. 4.0 Cell Voltage (V) 3.5 , 2 3 4 5 6 7 8 9 Discharge Time (Hour) FIGURE 2: LI-Ion Battery Discharge Characteristics vs. Temperature. 10 · Programmable ADC resolution: - 12 bits, 14 bits, 16 , I2C bus line. Figure 4 shows the discharge curve of a 3.7V Li-Polymer battery (3.7V, 170 mAH). The , Battery Charger 9V Battery Connector (TP11) (See Note 1) Battery Under Test ­ 9V Power Supply Microchip Technology
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mcp3421 example codes PIC18f4550 example codes MCP73831 PIC18F4550 examples PICkit 2 Low Pin Count Demo Board PIC18f4550 board DS01156A-
Abstract: string. S1's 0.5Hz square wave switching drive comes from the CD4040 frequency 9V IN LTC1798 2.5V REFERENCE 2.5V OUT 9V 237k 1% 10k 1% 1k 1% SWITCHED CURRENT SINK divider , 2.7k 9V SYNCHRONOUS DEMODULATOR 1 Q1 IRLR-024 5 SENSE S2 0.001uF A2 LT1150 CLK ­1 V ­ 4 + 10k 1uF BATTERY UNDER TEST 1kHz Square Wave ­ 9V 0.1 1 , CD4040 ÷ 2048 R ÷2 FREQUENCY DIVIDER AND CHARGE PUMP 9V 13 9V 1uF = MYLAR SINGLE POINT Linear Technology
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16f73 74ACH14 cd4040 application note 16f73 rs232 LSK389 equivalent 74ACH74 AN113-18 AN113-19 AN113-20
Abstract: Side Board B Efficiency 95 80 75 VIN = 9V VOUT = 5V 70 IPGM = VIN 80 75 70 VIN = 9V VOUT = 3.3V 65 65 60 1 10 100 LOAD CURRENT (mA) 500 DC059 · G01 1 , 7mV Typical Load Regulation 20mA < ILOAD < 350mA, IPGM = VIN, VIN = 9V 20mA < ILOAD < 125mA. IPGM = 0V, VIN = 9V ALL ALL 10mV 8mV ALL 1.25V VLBTRIP Low-Battery Trip Point , turning the switch off. The timing capacitor, CTIME, begins to discharge until its voltage goes below Linear Technology
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LTC1174 step up DC DC converter in 6v out 9V Cj32-000-t 0-10v ramp ic beckman 80mVPP cj32000t PCB01
Abstract: Sample 1 Both samples were discharged at the 1-hour rate to an end of discharge voltage of 9V, then , constant-current discharge performance 5 Charging characteristics & requirements 6 Constant-voltage (CV) regime , Self discharge 9 Open circuit voltage (OCV) and state of charge (SOC) 10 Procedure to recover , 13 13 13 13 13 14 14 14 14 14 14 14 Appendix A: Genesis XE Discharge Characteristics Appendix B: Genesis EP Discharge Characteristics 2 www.enersys.com 15-21 22-28 Publication No EnerSys
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AF 1507 Performance Data genesis led 12v 5050 hours genesis enersys enersys Performance Data dbbp EN-GPL-AM-002
Abstract: charging technique. The device can also be configured to discharge before charging. Throughout the charging , operational modes s Ni-MH/Ni-Cd charge mode, Li-Ion charge mode or discharge mode can be selected manually s , user selectable. Discharge before charge: Is user selectable. Ni-Cd Charging Curve: Voltage be , charge time-outs. This RC-network is also connected to the output LED1. Time Discharge Soft , Discharge Soft Start Fast Charge Topping Charge Maintenance Charge RCIN is a high-speed National Semiconductor
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LM3647
Abstract: charging technique. The device can also be configured to discharge before charging. Throughout the , , Li-Ion charge mode or discharge mode can be selected manually s PWM switching controller Applications , Fast Charge rate. Discharge before charge is user selectable. Ni-Cd Charging Curve: Voltage Soft , unconnected (Li-lon). Time Discharge next phase on timeout (~ 1 minute). Error termination will be , time-outs. This RC-network is also connected to the output LED1. Time Discharge Soft Start Fast National Semiconductor
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3.7V Li-Ion battery charge controller ACTIVE buzzer li-ion battery pack 14.8V nicd 3.6v battery LM3647IM buzzer 5V DC
Abstract: cells are the correct choice. They are cheaper to install initially, and their low self discharge rates , , AA, C and D) and a few higher voltage multiple cell designs (the small 9v PP3 is the most common , discharge current lithium manganese dioxide or lithium polycarbon monoflouride (intended primarily for memory backup supplies) and the more useful, higher discharge current lithium thionyl chloride parts , discharge rates, of less than 1% per year), high terminal voltage (3.5 to 3.7v, reasonably constant Radiometrix
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tag 8542 cell phone camera module Energy Lithium Thionyl Chloride battery of 9v pp3 batteries SR44 hearing aid device specification
Abstract: intensity discharge auto headlight 3250 150W halogen projector bulb 5000 180W low pressure , Confidential 2009 Boost Example · Vin: 9V · Need: 180 lumens · Solution: ­ 4 LEDs in series, 45 lumens , Vin=9V 30 © National Semiconductor 2009 FET Selection: AC Loss · PswAC = ½ * Vdsoff * Idson , , Charts 59 © National Semiconductor 2009 Design Tradeoffs · Boost design: ­ 9V, 180 lumens ­ National Semiconductor
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Led driver 100W schematic Schematic LED panel display tv triac spice model low voltage ac led dimmer schematic spice dimmer SCHEMATIC simple dimmer LM3445
Abstract: AVX TPSE227K010 AVX TPSE686K020 LTC1265-FO1 VIN = 6V VIN = 9V EFFICIENCY (%) VIN 5.4V TO , Voltage LTC1265C VIN = 9V, LTC1265I VOUT Regulator Output Voltage LTC1265-3.3: ILOAD = 800mA , Resistance of Switch LTC1265C LTC1265I I5 CT Pin Discharge Current Switch Off Time (Note 4) CT , ) Efficiency vs Load Current 100 100 100 VIN = 9V VIN = 12V 80 LTC1265-3.3 VOUT = 3.3V , 12V 4.5 4.0 3.5 VIN = 9V 3.0 2.5 2.0 VIN = 6V 1.5 1.0 0.5 0 3 4 5 6 Linear Technology
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LTC1265 VN2222L CTX33-4 LTC1265-5 mbrs0520lt1 MBRS130LT3 LTC1265/LTC1265-3 3/LTC1265-5 LTC1143 LTC1147 LTC1148HV
Abstract: in the 9V to 24V automotive and industrial range. Each driver works with either logic-level or , clamp diodes when the supply range exceeds 9V as shown in Figure 3. APPLICATIONS Powering Large , by many volts! >9V DS1 STANDARD N-CHANNEL MOSFET VS G1 LTC1155 12V* STANDARD , 12V* P-CHANNEL SWITCH >9V LOAD IN1 GND ON/OFF OUT >9V LOAD IN2 + ON/OFF , 12V VGS Clamps when VS > 9V Table 1. MOSFET/Driver Selector Guide DEVICE DESCRIPTION LTC1153 Linear Technology
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LT1121 AN5314 MTP3055EL mosfet switch circuit diagram LTC1255 LTC1157 MTD3055EL 1N5817 1N4148 LT1117-2 AN53-16
Abstract: device can also be configured to discharge before charging. Throughout the charging sequence the LM3647 , s Ni-MH/Ni-Cd charge mode, Li-Ion charge mode or discharge mode can be selected manually s Supports , , discharge/maintenance charge select Tri-level input, battery type select (NiCd, NiMH, Li-Ion) I O O O I I , Maintenance Charge: Is user selectable and is a fixed percentage of the Fast Charge rate. Discharge before , SEL1 is a selection pin to control the LM3647 discharge and maintencccance charge modes. The pin has National Semiconductor
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4.2v charger transistor 431 3.7v battery charger circuit diagram 7.4v battery charger LM3647-EVAL LM3647EVAL
Abstract: discharge the delay capacitor, which guarantees a full reset pulse even when triggered by a relatively short , Regulation l0 = 5 mA, 9V , Indication 9V Battery "ïl-I 1/iF â'"Iâ'" V|N Rl=100Û CO=10MF :d.ta y = ° SV0 rr , battery operated systems when the battery reaches the end of its discharge cycle. Under this condition -
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LM2926 LM2927 L4947 TLE4260 LM2925 LM3909 LM3909 equivalent battery charging circuit using scr T05A lm2927t LM2926/LM2927
Abstract: 6V VIN = 9V EFFICIENCY (%) VIN 5.4V TO 12V 75 70 0.01 L = 33ÂuH VOUT = 5V RSENSE = , LTC1265C VIN = 9V, LTC1265I VOUT Regulator Output Voltage LTC1265-3.3: ILOAD = 800mA LTC1265 , (Forced) RON ON Resistance of Switch LTC1265C LTC1265I I5 CT Pin Discharge Current Switch , Efficiency vs Input Voltage (VOUT = 5V) Efficiency vs Load Current 100 100 100 VIN = 9V 85 , SWITCHING CURRENT (mA) 2.1 6 5 4 3 2 1 12 14 0 VIN = 12V 4.5 4.0 3.5 VIN = 9V Linear Technology
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LTC1474/LTC1475 LTC1574 LTC1622 LTC1627 LTC1772
Abstract: charging technique. The device can also be configured to discharge before charging. Throughout the charging , mode or discharge mode can be selected manually Supports control of current feedback power supply and , Output Buzzer Output Charge Control Output Tri-Level Input, Discharge/Maintenance Charge Select Tri-Level , a fixed percentage of the Fast Charge rate. Discharge before charge is user selectable. Ni-Cd , SEL1 is a selection pin to control the LM3647 discharge and maintenance charge modes. The pin has three National Semiconductor
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circuit Buzzer 12v li-ion 11.1v
Abstract: technique. The device can also be configured to discharge before charging. Throughout the charging , discharge mode can be selected manually n Supports control of current feedback power supply and constant , Input, Discharge/Maintenance Charge Select 20 SEL2 I Tri-Level Input, Battery Type Select , . Discharge before charge is user selectable. Ni-Cd Charging Curve: · Fast Charge Constant Current , to control the LM3647 discharge and maintenance charge modes. The pin has three states: tied to VCC National Semiconductor
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3.6v nicd battery ni-mh battery charge controller LM4040A Ni-mh li-ion charge charge indicator
Abstract: charging technique. The device can also be configured to discharge before charging. Throughout the , discharge mode can be selected manually n Supports control of current feedback power supply and constant , Input, Discharge/Maintenance Charge Select 20 SEL2 I Tri-Level Input, Battery Type Select , the Fast Charge rate. Discharge before charge is user selectable. Ni-Cd Charging Curve , -5 4.2 ADVANCED PIN DESCRIPTIONS SEL1 is a selection pin to control the LM3647 discharge and National Semiconductor
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single cell NI-MH charger Ni-Mh Charger 24v
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