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SN100KT5542DW Texas Instruments OCTAL TTL-TO-ECL TRANSLATORS WITH OUTPUT ENABLE 24-SOIC 0 to 70
SN100KT5542NT Texas Instruments OCTAL TTL-TO-ECL TRANSLATORS WITH OUTPUT ENABLE 24-PDIP 0 to 70
SN100KT5542DWR Texas Instruments OCTAL TTL TO ECL TRANSLATOR, INVERTED OUTPUT, PDSO24, SO-24
SN100KT5543NT Texas Instruments OCTAL TTL-TO-ECL TRANSLATORS WITH OUTPUT ENABLE 24-PDIP 0 to 70
SN100KT5543DW Texas Instruments OCTAL TTL-TO-ECL TRANSLATORS WITH OUTPUT ENABLE 24-SOIC 0 to 70
SN100KT5543DWR Texas Instruments OCTAL TTL TO ECL TRANSLATOR, TRUE OUTPUT, PDSO24, SO-24

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HP100 100k

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: Clarostat 10K CTS (HP100) 100K CTS (HP130) 130K Copal (CRV-16) 5K NEI Sensorcube 5K NEI Sensorcube 10K CH Products
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clarostat POTENTIOMETER 5k potentiometer nei clarostat Potentiometer - HP100, 100K potentiometer nei "crv-16" 5k 2 axis joystick 5k potentiometer
Abstract: trim Below panel trim Unassembled Clarostat 5K Clarostat 10K CTS (HP100) 100K CTS (HP130) 130K CH Products
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clarostat type j clarostat clarostat POTENTIOMETER type g joystick led panel bezel joystick switch
Abstract: REVISION HISTORY ECO REV _ VOUT 5V/500mA DESCRIPTION REBUILD WITH CHANGES 1 DATE MOLLY Z. 06-18-10 L1 10uH VOUT E1 C1 10uF 10V 0805 GND E2 CDRH4D22/HP-100 U1 LT3502AEDC VIN VIN 7V - 40V 1 VIN SW BD BOOST 8 E3 VOUT + C4 10uF 50V opt. APPROVED C3 1uF 50V 2 3 C5 22pF R1 52.3K 4 FB SHDN GND EXPOSED PAD GND DA GND C2 0.1uF 16V 7 D1 MBR0540T1 6 5 9 E4 R2 10.0K Linear Technology
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CDRH4D22/HP-100 1089B
Abstract: 10uH, 0.85A inductor Sumida CDRH2D18/HP-100 TOKO A960AW-100M R1­R6, R14, R15 0 Not , - 1 VFB1 where: R12 = 100k VCC_I/O = desired I/O voltage VFB1 = 1.25V Adjusting the MEM , calculate resistor values: VCC _ MEM R11 = R13 x - 1 VFB2 where: R13 = 100k VCC_MEM = desired , dead-battery detection voltage R9 = 100k Note: The following conditions must be met. VinL LBI (1.0V) VinD Maxim Integrated Products
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MAX1586A MAX1586AEVSYS MAX1586AEVKIT MAX1586B 98/2000/XP
Abstract: ±10%, 50V X7R ceramic capacitor (0402) TDK C1005X7R1H152K 10uH, 0.85A inductor Sumida CDRH2D18/HP-100 , ), JU6 (1-2) VCC _ I / O R10 = R12 x - 1 VFB1 where: R12 = 100k VCC_I/O = desired I/O , MEM R11 = R13 x - 1 VFB2 where: R13 = 100k VCC_MEM = desired MEM voltage VFB2 = 1.25V , dead-battery detection voltage R9 = 100k Note: The following conditions must be met: VinL LBI (1.0V) VinD Maxim Integrated Products
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MAX1586AEVCMAXQU A915AY-3R3M 1586A CMSD4448 C1608C0G1H331J C1608C0G1H271J 98SE/2000/XP
Abstract: CDRH2D18/HP-100 TOKO A960AW-100M R1, R2, R3, R6, R17, R18 0 Not installed, resistors (0402 , MEM R2 = R6 × - 1 VFB2 where R6 = 100k, VCC_MEM = desired MEM voltage, and VFB2 = 1.25V , values: VCC _ I / O R1 = R3 × - 1 VFB1 where R3 = 100k, VCC_I/O = desired I/O voltage, and Maxim Integrated Products
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MAX1587A 1587A MAX1587AEVKIT 98SE/2000/XP- MAX1587AEVCMAXQU
Abstract: DESIGNATION L3 1 10uH, 0.85A inductor Sumida CDRH2D18/HP-100 TOKO A960AW-100M R1, R2, R3, R6 , VFB1 where R3 = 100k, VCC_I/O = desired I/O voltage, and VFB1 = 1.25V. Table 1. Shunts Settings , Selection (JU1) SHUNT POSITION VCC _ MEM R2 = R6 × - 1 VFB2 where R6 = 100k, VCC_MEM = Maxim Integrated Products
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MAX1587AEVSYS
Abstract: 100k VIN = 3.3V 80 7 8 C4 2.2F C1 4.7F U1 AAT2505 70 60 0.1 1 10 100 , 100k 8 1 C1 4.7F U1 AAT2505 C4 4.7F R3 100k 8 C8 100pF R2 59k C1 4.7F U1 , 10uF GND C4 4.7uF LDO Enable GND VOUTLDO R3 100k 1 POK Figure 5: AAT2505 , Coiltronics Part Number CDRH3D16-4R7 CDRH3D16/HP100 LQH32CN4R7M23 LQH32CN4R7M33 LQH32CN4R7M53 LPO6610 Skyworks Solutions
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TDFN33
Abstract: VOUT (TYP) VBAT + 0.3V 5V 5V VBAT 2k GND PROG LTC4090-5 60 50 40 100k , , VBAT = 3.7V, RPROG = 100k, RCLPROG = 2k and SUSP = 0V, unless otherwise noted. SYMBOL PARAMETER , °C. HVIN = HVEN = 12V, BOOST = 17V, VIN = HPWR = 5V, VBAT = 3.7V, RPROG = 100k, RCLPROG = 2k and SUSP = 0V , ; 0 TA 85°C ICHG Constant-Current Mode Charge Current, RPROG = 100k No Load RPROG = 50k, 0 TA 85°C Maximum Charge Current l VPROG PROG Pin Servo Voltage RPROG = 100k RPROG = 50k Linear Technology
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hp 530 charging CIRCUIT diagram 12v to 3.7v converter 2a 12V, 20A automatic charger schematic 3.7v 1500mA battery high voltage regulator LTC4090/LTC4090-5 4090/LTC4090-5 LTC4090 LTC4067 DFN-14 LTC4085
Abstract: ; L = 6.8uH) 3 5 3.3V at 300mA 9 6 R3 100k 7 8 C4 2.2uF VP VCC VLDO EN , 150us is achieved across the operating range. R3 100k 8 VP VLDO VCC EN ENLDO LX , 10 C1 4.7uF C4 4.7uF R3 100k 8 VP VCC VLDO EN ENLDO LX OUT FB , 100k VOUTLDO 1 POK Figure 5: AAT2505 Evaluation Board Schematic. Thermal Calculations , ) Max DC Current (A) DCR () Size (mm) LxWxH Type CDRH3D16-4R7 CDRH3D16/HP100 Advanced Analogic Technologies
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3A LDO step down regulator CDRH3D16 GRM219R61A475KE19 GRM21BR60J106KE19
Abstract: 100k VIN = 3.3V 80 7 8 C4 2.2F C1 4.7F U1 AAT2505 70 60 0.1 1 10 100 , 100k 8 1 C1 4.7F U1 AAT2505 C4 4.7F R3 100k 8 C8 100pF R2 59k C1 4.7F U1 , Input C3 10uF GND C4 4.7uF LDO Enable GND VOUTLDO R3 100k 1 POK Figure 5 , Coiltronics Part Number CDRH3D16-4R7 CDRH3D16/HP100 LQH32CN4R7M23 LQH32CN4R7M33 LQH32CN4R7M53 LPO6610 Skyworks Solutions
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202018B
Abstract: RT 25k 270pF 0.1F 40.2k CLPROG 2k GND LTC4090 OUT BAT PROG 100k HVIN 1F HVOUT HVPR 1k 4.7F LOAD BOOST , specifications are at TA = 25°C. HVIN = HVEN = 12V, BOOST = 17V, VIN = HPWR = 5V, VBAT = 3.7V, RPROG = 100k , specifications are at TA = 25°C. HVIN = HVEN = 12V, BOOST = 17V, VIN = HPWR = 5V, VBAT = 3.7V, RPROG = 100k , Mode Charge Current, RPROG = 100k No Load RPROG = 50k, 0 TA 85°C Maximum Charge Current PROG Pin , Charge Threshold Voltage Charge Enable Threshold Voltage Recharge Battery Threshold Voltage RPROG = 100k Linear Technology
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QFN24 DFN14 LTC4089 LTC4089-5 LTC4411/LTC4412 LTC4412HV
Abstract: ) 5V WALL ADAPTER 100k + Li-Ion BATTERY HVIN = 8V HVIN = 12V HVIN = 24V HVIN = 36V , , VBAT = 3.7V, RPROG = 100k, RCLPROG = 2k and SUSP = 0V, unless otherwise noted. SYMBOL PARAMETER , 100k No Load RPROG = 50k, 0 ≤ TA ≤ 85°C ICHG(MAX) Maximum Charge Current VPROG PROG Pin Servo Voltage RPROG = 100k RPROG = 50k l l 0.98 0.98 1.00 1.00 1.02 1.02 V , HVEN = 12V, BOOST = 17V, VIN = HPWR = 5V, VBAT = 3.7V, RPROG = 100k, RCLPROG = 2k and SUSP = 0V Linear Technology
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LTC4090-3 LTC4089/ DFN-22
Abstract: 6.8uH) 5 3.3V at 300mA 9 6 R3 100k 7 8 C4 2.2F VP VCC VLDO EN ENLDO , 5 9 VOUTLDO 6 7 C4 4.7F R3 100k 8 VP VCC VLDO EN ENLDO LX , 4.7F R3 100k 8 VP VCC VLDO EN ENLDO LX OUT FB POK SGND GND , 2 1 Buck Enable 3 2 1 LDO Enable GND GND R3 100k VOUTLDO 1 POK , Coiltronics Coiltronics Coiltronics CDRH3D16-4R7 CDRH3D16/HP100 LQH32CN4R7M23 LQH32CN4R7M33 Advanced Analogic Technologies
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TDFN33-12
Abstract: 40.2k CLPROG 2k GND LTC4090 OUT 4.7F BAT PROG 100k HVIN 1F HVOUT HVPR 1k BOOST SW 22F 6.8H LTC4090 , at TA = 25°C. HVIN = HVEN = 12V, BOOST = 17V, VIN = HPWR = 5V, VBAT = 3.7V, RPROG = 100k, RCLPROG = , , VBAT = 3.7V, RPROG = 100k, RCLPROG = 2k and SUSP = 0V, unless otherwise noted. CONDITIONS (VIN - VOUT , VBAT Regulated Output Voltage Constant-Current Mode Charge Current, RPROG = 100k No Load RPROG = 50k , Voltage Recharge Battery Threshold Voltage RPROG = 100k RPROG = 50k VBAT = VFLOAT (4.2V) BAT = 2V BAT Linear Technology
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Abstract: 40.2k 2k GND PROG 100k + Li-Ion BATTERY 70 LTC4090-5 60 50 40 HVIN = 8V HVIN = , , VBAT = 3.7V, RPROG = 100k, RCLPROG = 2k and SUSP = 0V, unless otherwise noted. SYMBOL PARAMETER , are at TA = 25°C. HVIN = HVEN = 12V, BOOST = 17V, VIN = HPWR = 5V, VBAT = 3.7V, RPROG = 100k, RCLPROG , 85°C ICHG Constant-Current Mode Charge Current, RPROG = 100k No Load RPROG = 50k, 0 TA 85 , 100k RPROG = 50k kEOC Ratio of End-of-Charge Indication Current to Charge Current VBAT Linear Technology
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schematic diagram 12v ac/dc regulator 3 phase AC servo drive schematic schematic diagram ac voltage regulator thermistor 10k 25c NTC 10-15 12v to 3.7v converter data sheet 1,5a
Abstract: LTC4090-5 60 50 40 100k AVAILABLE INPUT HV INPUT (LTC4090) HV INPUT (LTC4090-5) USB ONLY , , BOOST = 17V, VIN = HPWR = 5V, VBAT = 3.7V, RPROG = 100k, RCLPROG = 2k and SUSP = 0V, unless otherwise , 5V, VBAT = 3.7V, RPROG = 100k, RCLPROG = 2k and SUSP = 0V, unless otherwise noted. SYMBOL , ‰¤ 85°C ICHG l ICHG(MAX) Constant-Current Mode Charge Current, RPROG = 100k No Load RPROG = 50k, 0 ≤ TA ≤ 85°C Maximum Charge Current VPROG PROG Pin Servo Voltage RPROG = 100k Linear Technology
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Abstract: EFFICIENCY (%) 5V WALL ADAPTER 100k + Li-Ion BATTERY HVIN = 8V HVIN = 12V HVIN = 24V HVIN , , VBAT = 3.7V, RPROG = 100k, RCLPROG = 2k and SUSP = 0V, unless otherwise noted. SYMBOL PARAMETER , 100k No Load RPROG = 50k, 0 ≤ TA ≤ 85°C ICHG(MAX) Maximum Charge Current VPROG PROG Pin Servo Voltage RPROG = 100k RPROG = 50k l l 0.98 0.98 1.00 1.00 1.02 1.02 V , HVEN = 12V, BOOST = 17V, VIN = HPWR = 5V, VBAT = 3.7V, RPROG = 100k, RCLPROG = 2k and SUSP = 0V Linear Technology
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