MCP3301-B - The MCP3301 13-bit Analog to Digital Converter (ADC) FeaturesA Full Differential Input and Low Power Consumption inA Small Package That is Ideal For Battery Powered Systems and Remote Data Acquisition Applications
MCP3301-C - The MCP3301 13-bit Analog to Digital Converter (ADC) FeaturesA Full Differential Input and Low Power Consumption inA Small Package That is Ideal For Battery Powered Systems and Remote Data Acquisition Applications
MCP3301-CI-SN - 13-Bit Differential Input, Low Power A/D Converter with SPI Serial Interface
MCP3302 - 13-bit Differential Input, Low Power A/d Converter With Spi Serial Interface
MCP3302/04 - The MCP3302 13-bit Analog to Digital Converter (ADC) Features Full Differential Inputs and Low Power Consumption inA Small Package That is Ideal For Battery Powered Systems and Remote Data Acquisition Applications
MCP3302/04-B - The MCP3302 13-bit Analog to Digital Converter (ADC) Features Full Differential Inputs and Low Power Consumption inA Small Package That is Ideal For Battery Powered Systems and Remote Data Acquisition Applications
MCP3302/04-C - The MCP3302 13-bit Analog to Digital Converter (ADC) Features Full Differential Inputs and Low Power Consumption inA Small Package That is Ideal For Battery Powered Systems and Remote Data Acquisition Applications
MCP3302-B - The MCP3302 13-bit Analog to Digital Converter (ADC) Features Full Differential Inputs and Low Power Consumption inA Small Package That is Ideal For Battery Powered Systems and Remote Data Acquisition Applications
MCP3304 - 13-bit Differential Input, Low Power A/d Converter With Spi Serial Interface
MCP3304-B - The MCP3304 13-bit Analog to Digital Converter (ADC) Features Full Differential Inputs and Low Power Consumption inA Small Package That is Ideal For Battery Powered Systems and Remote Data Acquisition Applications
MCP3304-BI/P - The MCP3304 13-bit Analog to Digital Converter (ADC) Features Full Differential Inputs and Low Power Consumption inA Small Package That is Ideal For Battery Powered Systems and Remote Data Acquisition Applications
MCP4011 - Low-Cost 64-Step Volatile Digital POTFeatures Volatile Digital Potentiometer in SOT-23, SOIC,MSOP and DFN packages 64 Taps: 63 Resistors with Taps to terminalA andterminal B Simple Up/Down (U/D) Protocol Power-on Recall of Default Wiper Setting- Custom POR wiper settings available(contact factory) Resistance Values: 2.1 kΩ, 5 kΩ, 10 kΩ or 50 kΩ Low Tempco:- Absolute (Rheostat): 50 ppm (0°C to 70°C typ.)- Ratiometric (Potentiometer): 10 ppm (typ.)
MCP4021 - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4021104E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4021504E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4021T104E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4021T203E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4021T504E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4022 - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4022T104E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4022T203E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4022T503E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4022T504E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4023 - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4023T104E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4023T203E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4023T503E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4023T504E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4024 - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4024T104E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4024T203E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4024T503E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP4024T504E - LowCost NV Digital POT in SOT23 with the WiperLock™ TechnologyThe MCP4021/2/3/4 devices are nonvolatile, 6Bitdigital potentiometers that are programmed through asimple Up/Down (U/D) serial interface.The MCP4021 device offersA voltage divider(potentiometer) with all terminals available on pins. TheMCP4022 isA true rheostat, with both nodes of thevariable resistor available on pins. The MCP4023device offersA voltage divider (potentiometer) with oneterminal connected to ground. The MCP4024 device isa Rheost
MCP41010 - Single/dual Digital Potentiometer With Spi Interface
MCP41010-E/P - The MCP41010 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP41010-I/SN - The MCP41010 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP41010T - Single/Dual Digital Potentiometer with SPI Interface
MCP41050 - Single/Dual Digital Potentiometer with SPI Interface
MCP41050-E/SN - The MCP41050 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP41050-I/P - The MCP41050 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP41050T - Single/Dual Digital Potentiometer with SPI Interface
MCP41100 - Single/Dual Digital Potentiometer with SPI Interface
MCP41100-E/P - The MCP41100 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP41100-I/SN - The MCP41100 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP41100T - Single/Dual Digital Potentiometer with SPI Interface
MCP41XXX - Single/Dual Digital Potentiometer with SPI Interface
MCP42010 - Single/Dual Digital Potentiometer with SPI Interface
MCP42010-E/P - The MCP42010 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP42010-E/ST - The MCP42010 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP42010-I/SL - The MCP42010 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP42010T - Single/Dual Digital Potentiometer with SPI Interface
MCP42010T-I/ST - The MCP42010 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP42050 - Single/Dual Digital Potentiometer with SPI Interface
MCP42050-E/P - The MCP42050 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP42050-E/SL - The MCP42050 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP42050-I/ST - The MCP42050 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP42050T - Single/Dual Digital Potentiometer with SPI Interface
MCP42050T-I/ST - The MCP42050 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP42100 - Single/Dual Digital Potentiometer with SPI Interface
MCP42100-E/P - The MCP42100 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP42100-E/ST - The MCP42100 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP42100-I/SL - The MCP42100 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP42100T - Single/Dual Digital Potentiometer with SPI Interface
MCP42100T-I/ST - The MCP42100 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI Serial Interface
MCP6041 - 600 Na, Rail-to-rail Input/output Op Amps
MCP6041-I/P - The MCP6041 Operational Amplifier (op Amp) HasA Gain Bandwidth Product of 14 KHZ WithA Low Typical Operating Current of 600 na and an Offset Voltage That is Less Than 3 MV
MCP6041T - 600 nA, Rail-to-Rail Input/Output Op Amps
MCP6042 - 600 nA, Rail-to-Rail Input/Output Op Amps
MCP6042-I/SN - The MCP6042 Dual Operational Amplifier (op Amp) HasA Gain Bandwidth Product of 14 KHZ WithA Low Typical Operating Current of 600 na and an Offset Voltage That is Less Than 3 MV
MCP6042T - 600 nA, Rail-to-Rail Input/Output Op Amps
MCP6043 - 600 nA, Rail-to-Rail Input/Output Op Amps
MCP6043-I/MS - The MCP6043 Operational Amplifier (op Amp) HasA Gain Bandwidth Product of 14 KHZ WithA Low Typical Operating Current of 600 na and an Offset Voltage That is Less Than 3 MV
MCP6043T - 600 nA, Rail-to-Rail Input/Output Op Amps
MCP6044 - 600 nA, Rail-to-Rail Input/Output Op Amps
MCP6044-I/P - The MCP6044 Quad Operational Amplifier (op Amp) HasA Gain Bandwidth Product of 14 KHZ WithA Low Typical Operating Current of 600 na and an Offset Voltage That is Less Than 3 MV
MCP6044-I/SL - The MCP6044 Quad Operational Amplifier (op Amp) HasA Gain Bandwidth Product of 14 KHZ WithA Low Typical Operating Current of 600 na and an Offset Voltage That is Less Than 3 MV
MCP6044-I/ST - The MCP6044 Quad Operational Amplifier (op Amp) HasA Gain Bandwidth Product of 14 KHZ WithA Low Typical Operating Current of 600 na and an Offset Voltage That is Less Than 3 MV
MCP6044T - 600 nA, Rail-to-Rail Input/Output Op Amps
MCP604-I - 2.7V to 5.5V Single Supply CMOS Op Amps
MCP604-IOT - 2.7V to 5.5V Single Supply CMOS Op Amps
MCP604-IP - 2.7V to 5.5V Single Supply CMOS Op Amps
MCP604-ISL - 2.7V to 5.5V Single Supply CMOS Op Amps
MCP604-ISN - 2.7V to 5.5V Single Supply CMOS Op Amps
MCP604-IST - 2.7V to 5.5V Single Supply CMOS Op Amps
MCP6231-E/P - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6231-E/SN - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6231R - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6231RT-E/LT - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231 Operationalamplifier (op Amp) Provides Wide Bandwidth For Thequiescent Current. The MCP6231 HasA 300 KHZ Gainbandwidth Product (GBWP) and 65 (typ.) Phasemargin. This op Amp Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 20 µA (typ.)quiescent Current. In Addition, The MCP6231 Supportsrail-to-rail Input and Output Swing, WithA Common Modeinput Voltage Range of VDD + 300 MV to VSS - 300 Mv.this op Amp is Designed in O
MCP6231RT-E/MS - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231 Operationalamplifier (op Amp) Provides Wide Bandwidth For Thequiescent Current. The MCP6231 HasA 300 KHZ Gainbandwidth Product (GBWP) and 65 (typ.) Phasemargin. This op Amp Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 20 µA (typ.)quiescent Current. In Addition, The MCP6231 Supportsrail-to-rail Input and Output Swing, WithA Common Modeinput Voltage Range of VDD + 300 MV to VSS - 300 Mv.this op Amp is Designed in O
MCP6231RT-E/OT - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6231RT-E/P - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231 Operationalamplifier (op Amp) Provides Wide Bandwidth For Thequiescent Current. The MCP6231 HasA 300 KHZ Gainbandwidth Product (GBWP) and 65 (typ.) Phasemargin. This op Amp Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 20 µA (typ.)quiescent Current. In Addition, The MCP6231 Supportsrail-to-rail Input and Output Swing, WithA Common Modeinput Voltage Range of VDD + 300 MV to VSS - 300 Mv.this op Amp is Designed in O
MCP6231RT-E/SN - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231 Operationalamplifier (op Amp) Provides Wide Bandwidth For Thequiescent Current. The MCP6231 HasA 300 KHZ Gainbandwidth Product (GBWP) and 65 (typ.) Phasemargin. This op Amp Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 20 µA (typ.)quiescent Current. In Addition, The MCP6231 Supportsrail-to-rail Input and Output Swing, WithA Common Modeinput Voltage Range of VDD + 300 MV to VSS - 300 Mv.this op Amp is Designed in O
MCP6231T-E/LT - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231 Operationalamplifier (op Amp) Provides Wide Bandwidth For Thequiescent Current. The MCP6231 HasA 300 KHZ Gainbandwidth Product (GBWP) and 65 (typ.) Phasemargin. This op Amp Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 20 µA (typ.)quiescent Current. In Addition, The MCP6231 Supportsrail-to-rail Input and Output Swing, WithA Common Modeinput Voltage Range of VDD + 300 MV to VSS - 300 Mv.this op Amp is Designed in O
MCP6231T-E/MS - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231 Operationalamplifier (op Amp) Provides Wide Bandwidth For Thequiescent Current. The MCP6231 HasA 300 KHZ Gainbandwidth Product (GBWP) and 65 (typ.) Phasemargin. This op Amp Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 20 µA (typ.)quiescent Current. In Addition, The MCP6231 Supportsrail-to-rail Input and Output Swing, WithA Common Modeinput Voltage Range of VDD + 300 MV to VSS - 300 Mv.this op Amp is Designed in O
MCP6231T-E/OT - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6231T-E/P - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231 Operationalamplifier (op Amp) Provides Wide Bandwidth For Thequiescent Current. The MCP6231 HasA 300 KHZ Gainbandwidth Product (GBWP) and 65 (typ.) Phasemargin. This op Amp Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 20 µA (typ.)quiescent Current. In Addition, The MCP6231 Supportsrail-to-rail Input and Output Swing, WithA Common Modeinput Voltage Range of VDD + 300 MV to VSS - 300 Mv.this op Amp is Designed in O
MCP6231T-E/SN - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231 Operationalamplifier (op Amp) Provides Wide Bandwidth For Thequiescent Current. The MCP6231 HasA 300 KHZ Gainbandwidth Product (GBWP) and 65 (typ.) Phasemargin. This op Amp Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 20 µA (typ.)quiescent Current. In Addition, The MCP6231 Supportsrail-to-rail Input and Output Swing, WithA Common Modeinput Voltage Range of VDD + 300 MV to VSS - 300 Mv.this op Amp is Designed in O
MCP6231U - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6231UT-E/LT - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6231UT-E/MS - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231 Operationalamplifier (op Amp) Provides Wide Bandwidth For Thequiescent Current. The MCP6231 HasA 300 KHZ Gainbandwidth Product (GBWP) and 65 (typ.) Phasemargin. This op Amp Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 20 µA (typ.)quiescent Current. In Addition, The MCP6231 Supportsrail-to-rail Input and Output Swing, WithA Common Modeinput Voltage Range of VDD + 300 MV to VSS - 300 Mv.this op Amp is Designed in O
MCP6231UT-E/OT - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6231UT-E/P - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231 Operationalamplifier (op Amp) Provides Wide Bandwidth For Thequiescent Current. The MCP6231 HasA 300 KHZ Gainbandwidth Product (GBWP) and 65 (typ.) Phasemargin. This op Amp Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 20 µA (typ.)quiescent Current. In Addition, The MCP6231 Supportsrail-to-rail Input and Output Swing, WithA Common Modeinput Voltage Range of VDD + 300 MV to VSS - 300 Mv.this op Amp is Designed in O
MCP6231UT-E/SN - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231 Operationalamplifier (op Amp) Provides Wide Bandwidth For Thequiescent Current. The MCP6231 HasA 300 KHZ Gainbandwidth Product (GBWP) and 65 (typ.) Phasemargin. This op Amp Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 20 µA (typ.)quiescent Current. In Addition, The MCP6231 Supportsrail-to-rail Input and Output Swing, WithA Common Modeinput Voltage Range of VDD + 300 MV to VSS - 300 Mv.this op Amp is Designed in O
MCP6232-E/MS - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6232-E/P - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6232-E/SN - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6232T-E/SN - 20 µA, 300 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6231/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth Forthe Quiescent Current. The MCP6231/2 Family Has A300 KHZ Gain Bandwidth Product (GBWP) and 65 (typ.) Phase Margin. This Family Operates FromA Singlesupply Voltage as Low as 1.8V, While Drawing 20 µA(typ.) Quiescent Current. In Addition, The MCP6231/2family Supports Rail-to-rail Input and Output Swing, Witha Common Mode Input Voltage Range of VDD + 300 Mvto VSS 300 MV. These op
MCP6241 - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6241-E/MS - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6241-E/P - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6241-E/SN - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6241RT-E/OT - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6241T-E/OT - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6241UT-E/LT - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6241UT-E/OT - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6242 - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6242-E/MS - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6242-E/P - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6242-E/SN - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP6242T-E/SN - 50 µA, 650 KHZ Rail-to-rail op Ampthe Microchip Technology Inc. MCP6241/2 Operationalamplifiers (op Amps) Provide Wide Bandwidth For Thequiescent Current. The MCP6241/2 HasA 650 KHZ Gainbandwidth Product (GBWP) and 77 (typ.) Phasemargin. This Family Operates FromA Single Supplyvoltage as Low as 1.8V, While Drawing 50 µA (typ.)quiescent Current. In Addition, The MCP6241/2 Familysupports Rail-to-rail Input and Output Swing, With Acommon Mode Input Voltage Range of VDD + 300mV Tovss 300 MV. These op Amps Are
MCP73826 - Single Cell Lithium-ion Charge Management Controller
MCP73826-4.1 - The MCP73826 isA Battery Charger Controller For Single Cell Li-ion Batteries
MCP73826-4.1VCH - The MCP73826 isA Battery Charger Controller For Single Cell Li-ion Batteries
MCP73826-4.2 - The MCP73826 isA Battery Charger Controller For Single Cell Li-ion Batteries
MCP73826-4.2VCH - The MCP73826 isA Battery Charger Controller For Single Cell Li-ion Batteries
MCP73827 - The MCP73827 isA Battery Charger Controller For Single Cell Li-ion Batteries
MCP73827-4.1 - The MCP73827 isA Battery Charger Controller For Single Cell Li-ion Batteries
MCP73827-4.1VUA - The MCP73827 isA Battery Charger Controller For Single Cell Li-ion Batteries
MCP73827-4.2 - The MCP73827 isA Battery Charger Controller For Single Cell Li-ion Batteries
MCP73827-4.2VUA - The MCP73827 isA Battery Charger Controller For Single Cell Li-ion Batteries
MCP73828 - Single Cell Lithium-ion Charge Management Controller With Charge Complete Indicator and Temperature Monitor
MCP73828-4.1 - The MCP73828 isA Battery Charger Controller For Single Cell Lithium-ion (Li-Ion) Batteries
MCP73828-4.1VUA - The MCP73828 isA Battery Charger Controller For Single Cell Lithium-ion (Li-Ion) Batteries
MCP73828-4.2 - The MCP73828 isA Battery Charger Controller For Single Cell Lithium-ion (Li-Ion) Batteries
MCP73828-4.2VUA - The MCP73828 isA Battery Charger Controller For Single Cell Lithium-ion (Li-Ion) Batteries
MCP73831 - Charge Management ControllerTiny 500mA linear charge management controller. Includes integrated pass transostor, integrated current sensing, and reverse discharge protection in 5-pin SOT-23 and thermally-efficient 8-pin 2mm x 3mm DFN packagesHigh accuracy preset output voltage regulation (+/-0.75%)Output voltage options include 4.2V, 4.35V, 4.4V and 4.5VUser-programmable charge currentCharge status output can directly drive LEDsOn-chip thermal regulationPreconditioning and end-of-charge ratio optionsUnder-v
MCP73841 - Advanced Single Or Dual Cell Lithium-ion/ Lithium-polymer Charge Management Controllers
MCP73841-410I/UN - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73841-420I/UN - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73841T - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73841T-410I/UN - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73841T-420I/UN - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73842 - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management Controllers
MCP73842-820I/UN - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73842-840I/UN - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73842T - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73842T-820I/UN - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73842T-840I/UN - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73843 - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management Controllers
MCP73843-410I/MS - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73843-420I/MS - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73843T - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73843T-410I/MS - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73843T-420I/MS - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73844 - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management Controllers
MCP73844-820I/MS - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73844-840I/MS - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73844T - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73844T-820I/MS - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73844T-840I/MS - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management ControllersThe MCP7384X family of devices are highly advancedlinear charge management controllers for use inspace-limited, cost-sensitive applications. TheMCP73841 and MCP73842 combine high accuracy,constant-voltage, constant-current regulation, cell preconditioning,cell temperature monitoring, advancedsafety timers, automatic charge termination andcharge status indication in space-saving, 10-pinMSOP packages. The MCP73841 and MCP73
MCP73853 - USB Compatible Li-Ion/Li-Polymer Charge Management Controllers
MCP73853T - USB Compatible Li-Ion/Li-Polymer Charge Management Controllers
MCP73855 - USB Compatible Li-Ion/Li-Polymer Charge Management Controllers
MCP73855T - USB Compatible Li-Ion/Li-Polymer Charge Management Controllers
MCP73861 - Advanced Single Or Dual Cell, Fully Integrated Li-ion / Li-polymer Charge Management Controllers
MCP73862 - Advanced Single or Dual Cell, Fully Integrated Li-Ion / Li-Polymer Charge Management Controllers
MCP809/810 - The MCP809 isA Voltage Supervisory Device Designed to KeepA Microcontroller in Reset Until The System Voltage Has Reached The Proper Level and Stabilized
MCP9700 - Low-power Voltage Output Temperature Sensor
MCP9701 - Low-Power Voltage Output Temperature Sensor
MCP9800A0T-M/OTG - 2-Wire High-Accuracy Temperature SensorMicrochip Technology Inc.’s MCP9800/1/2/3 family ofdigital temperature sensors converts temperaturesbetween -55°C and +125°C toA digital word. Theyprovide an accuracy of ±1°C (max.) from -10°C to+85°C.The MCP9800/1/2/3 family comes with user-programmableregisters that provide flexibility for temperaturesensing applications. The register settings allow userselectable9-bit to 12-bit temperature measurementresolution, configuration of the power-saving Shutdownand One-sho
MCP9800A5T-M/OTG - 2-Wire High-Accuracy Temperature SensorMicrochip Technology Inc.’s MCP9800/1/2/3 family ofdigital temperature sensors converts temperaturesbetween -55°C and +125°C toA digital word. Theyprovide an accuracy of ±1°C (max.) from -10°C to+85°C.The MCP9800/1/2/3 family comes with user-programmableregisters that provide flexibility for temperaturesensing applications. The register settings allow userselectable9-bit to 12-bit temperature measurementresolution, configuration of the power-saving Shutdownand One-sho
MCP9802A0T-M/OTG - 2-Wire High-Accuracy Temperature SensorMicrochip Technology Inc.’s MCP9800/1/2/3 family ofdigital temperature sensors converts temperaturesbetween -55°C and +125°C toA digital word. Theyprovide an accuracy of ±1°C (max.) from -10°C to+85°C.The MCP9800/1/2/3 family comes with user-programmableregisters that provide flexibility for temperaturesensing applications. The register settings allow userselectable9-bit to 12-bit temperature measurementresolution, configuration of the power-saving Shutdownand One-sho
MCP9802A5T-M/OTG - 2-Wire High-Accuracy Temperature SensorMicrochip Technology Inc.’s MCP9800/1/2/3 family ofdigital temperature sensors converts temperaturesbetween -55°C and +125°C toA digital word. Theyprovide an accuracy of ±1°C (max.) from -10°C to+85°C.The MCP9800/1/2/3 family comes with user-programmableregisters that provide flexibility for temperaturesensing applications. The register settings allow userselectable9-bit to 12-bit temperature measurementresolution, configuration of the power-saving Shutdownand One-sho
MCRF200IWQ23 - 125 kHz microID Passive RFID Device
MCRF202 - 125 Khz Passive Rfid Device With Sensor Input
MCRF202-I/WQ99 - The MCRF202 isA Passive Radio Frequency Identification (RFID) ic Device With an External Sensor Input That Provides an RF Interface For Reading The Contents ofA User Memory Array
MCRF250 - 125 Khz Microid Passive Rfid Device With Anti-collision
MCRF250-I/W40A - The MCRF250 is One Time Contactlessly Programmable Passive Radio Frequency Identification (RFID) ic Device With Advanced Anti-collision Features
MCRF355 - 13.56 Mhz Passive Rfid Device With Anti-collision Feature
MCRF355/360 - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
MCRF355/6C - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
MCRF355/7M - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
MCRF355COB - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
MCRF355/P - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
MCRF355/W - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
MCRF360 - 13.56 MHz Passive RFID Device with Anti-Collision Feature
MCRF450 - 13.56 Mhz Read/write Passive Rfid Device
MCRF450/W - The MCRF45x Family isA Contactless Read/write Passive Radio Frequency Identification (RFID) ic Device That is Optimized For 13
MCRF451 - 13.56 MHz Read/Write Passive RFID Device
PIC10F202I/PG - 6-Pin, 8-Bit Flash Microcontrollersfeatures 6-pin SOT-23 Packaging Precision 4 MHZ Internal Oscillator Baseline Core With 33 Instructions, 2 Stack Levels All Single-cycle Instructions Except For Program Branches Which Are Two Cycles 12-bit Wide Instructions 8-bit Wide Data Path 25 ma Source/sink Current I/o Low Power (100nA) Sleep Current One 8-bit Timer (TMR0) Watchdog Timer (WDT) in Circuit Serial Programming (ICSP) Capability In-circuit Debugging Support Programmable Code Protection