No. |
Part Name |
Description |
Manufacturer |
2011 |
MAX8515AEXK-T |
Wide-Input 0.6V Shunt Regulators for Isolated DC-to-DC Converters |
MAXIM - Dallas Semiconductor |
2012 |
MAX8515AEZK |
Wide-Input 0.6V Shunt Regulators for Isolated DC-DC Converters |
MAXIM - Dallas Semiconductor |
2013 |
MAX8515AEZK+ |
Wide-Input 0.6V Shunt Regulators for Isolated DC-DC Converters |
MAXIM - Dallas Semiconductor |
2014 |
MAX8515AEZK+T |
Wide-Input 0.6V Shunt Regulators for Isolated DC-DC Converters |
MAXIM - Dallas Semiconductor |
2015 |
MAX8515AEZK-T |
Wide-Input 0.6V Shunt Regulators for Isolated DC-to-DC Converters |
MAXIM - Dallas Semiconductor |
2016 |
MAX8515AE_K |
Wide-Input 0.6V Shunt Regulators for Isolated DC-to-DC Converters |
MAXIM - Dallas Semiconductor |
2017 |
MAX8515EXK+ |
Wide-Input 0.6V Shunt Regulators for Isolated DC-DC Converters |
MAXIM - Dallas Semiconductor |
2018 |
MAX8515EXK+T |
Wide-Input 0.6V Shunt Regulators for Isolated DC-DC Converters |
MAXIM - Dallas Semiconductor |
2019 |
MAX8515EXK-T |
Wide-Input 0.6V Shunt Regulators for Isolated DC-to-DC Converters |
MAXIM - Dallas Semiconductor |
2020 |
MAX8515EZK |
Wide-Input 0.6V Shunt Regulators for Isolated DC-DC Converters |
MAXIM - Dallas Semiconductor |
2021 |
MAX8515EZK+ |
Wide-Input 0.6V Shunt Regulators for Isolated DC-DC Converters |
MAXIM - Dallas Semiconductor |
2022 |
MAX8515EZK-T |
Wide-Input 0.6V Shunt Regulators for Isolated DC-to-DC Converters |
MAXIM - Dallas Semiconductor |
2023 |
MAX8515E_K |
Wide-Input 0.6V Shunt Regulators for Isolated DC-to-DC Converters |
MAXIM - Dallas Semiconductor |
2024 |
MC1466L |
Precision wide-range voltage and current regulator |
Motorola |
2025 |
MC1466L |
PRECISION WIDE RANGE VOLTAGE AND CURRENT REGULATOR |
Motorola |
2026 |
MC1566L |
Precision wide-range voltage and current regulator |
Motorola |
2027 |
MCP73841 |
The MCP73841 combines high accuracy constant-voltage (0.5% max), constant-current regulation, cell preconditioning, cell temperature monitoring, advanced safety timers, automatic charge termination, and charge status indication in a space |
Microchip |
2028 |
MCP73842 |
The MCP73842 combines high accuracy constant-voltage (0.5% max), constant-current regulation, cell preconditioning, cell temperature monitoring, advanced safety timers, automatic charge termination, and charge status indication in a space |
Microchip |
2029 |
MCP73843 |
The MCP73843 combines high accuracy constant-voltage (0.5% max), constant-current regulation, cell preconditioning, advanced safety timers, automatic charge termination, and charge status indication in a space saving MSOP-8 package. The de |
Microchip |
2030 |
MCP73844 |
The MCP73844 combines high accuracy constant-voltage (0.5% max), constant-current regulation, cell preconditioning, advanced safety timers, automatic charge termination, and charge status indication in a space saving MSOP-8 package. The de |
Microchip |
2031 |
MIC4043 |
Low-Voltage Secondary-Side Shunt Regulator |
Micrel Semiconductor |
2032 |
MIC4043BM4 |
Low-Voltage Secondary-Side Shunt Regulator |
Micrel Semiconductor |
2033 |
NCP100 |
Sub 1V Precision Adjustable Shunt Regulator |
ON Semiconductor |
2034 |
NCP100 |
Sub 1V Precision Adjustable Shunt Regulator |
ON Semiconductor |
2035 |
NCP100 |
Sub 1V Precision Adjustable Shunt Regulator |
ON Semiconductor |
2036 |
NCP100-D |
Sub 1.0 V Precision Adjustable Shunt Regulator |
ON Semiconductor |
2037 |
NCP100SNT1 |
Sub 1V Precision Adjustable Shunt Regulator |
ON Semiconductor |
2038 |
NCP100SNT1 |
Sub 1V Precision Adjustable Shunt Regulator |
ON Semiconductor |
2039 |
NCP100SNT1 |
Sub 1V Precision Adjustable Shunt Regulator |
ON Semiconductor |
2040 |
NCP100SNT1G |
Sub 1.0 V Precision Adjustable Shunt Regulator |
ON Semiconductor |
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