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Electronic components list Microchip, page 8



  1. Microchip Technology

    Site: www.microchip.com
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    Manufacturers


    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
  2. 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
  3. MCP3301-CI-SN - 13-Bit Differential Input, Low Power A/D Converter with SPI Serial Interface
  4. MCP3302 - 13-bit Differential Input, Low Power A/d Converter With Spi Serial Interface
  5. 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
  6. 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
  7. 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
  8. 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
  9. MCP3304 - 13-bit Differential Input, Low Power A/d Converter With Spi Serial Interface
  10. 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
  11. 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
  12. MCP3551 - Low-power, Single-channel 22-bit Delta-sigma Adcs
  13. MCP3551E - Low-Power, Single-Channel 22-Bit Delta-Sigma ADCs
  14. MCP3553 - Low-Power, Single-Channel 22-Bit Delta-Sigma ADCs
  15. MCP3553E - Low-Power, Single-Channel 22-Bit Delta-Sigma ADCs
  16. 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.)•
  17. 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
  18. 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
  19. 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
  20. 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
  21. 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
  22. 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
  23. 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
  24. 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
  25. 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
  26. 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
  27. 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
  28. 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
  29. 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
  30. 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
  31. 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
  32. 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
  33. 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
  34. 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
  35. 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
  36. 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
  37. 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
  38. MCP41010 - Single/dual Digital Potentiometer With Spi Interface
  39. MCP41010-E/P - The MCP41010 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  40. MCP41010-I/SN - The MCP41010 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  41. MCP41010T - Single/Dual Digital Potentiometer with SPI Interface
  42. MCP41050 - Single/Dual Digital Potentiometer with SPI Interface
  43. MCP41050-E/SN - The MCP41050 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  44. MCP41050-I/P - The MCP41050 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  45. MCP41050T - Single/Dual Digital Potentiometer with SPI Interface
  46. MCP41100 - Single/Dual Digital Potentiometer with SPI Interface
  47. MCP41100-E/P - The MCP41100 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  48. MCP41100-I/SN - The MCP41100 Single-channel Digital Potentiometer Features 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  49. MCP41100T - Single/Dual Digital Potentiometer with SPI Interface
  50. MCP41XXX - Single/Dual Digital Potentiometer with SPI Interface
  51. MCP42010 - Single/Dual Digital Potentiometer with SPI Interface
  52. MCP42010-E/P - The MCP42010 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  53. MCP42010-E/ST - The MCP42010 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  54. MCP42010-I/SL - The MCP42010 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  55. MCP42010T - Single/Dual Digital Potentiometer with SPI Interface
  56. MCP42010T-I/ST - The MCP42010 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  57. MCP42050 - Single/Dual Digital Potentiometer with SPI Interface
  58. MCP42050-E/P - The MCP42050 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  59. MCP42050-E/SL - The MCP42050 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  60. MCP42050-I/ST - The MCP42050 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  61. MCP42050T - Single/Dual Digital Potentiometer with SPI Interface
  62. MCP42050T-I/ST - The MCP42050 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  63. MCP42100 - Single/Dual Digital Potentiometer with SPI Interface
  64. MCP42100-E/P - The MCP42100 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  65. MCP42100-E/ST - The MCP42100 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  66. MCP42100-I/SL - The MCP42100 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  67. MCP42100T - Single/Dual Digital Potentiometer with SPI Interface
  68. MCP42100T-I/ST - The MCP42100 Digital Potentiometer Features Two Independent Channels, 8-bit Resolution (256 Wiper Steps), and an Industry-standard SPI™ Serial Interface
  69. MCP450 - 13.56 MHz Read/Write Passive RFID Device
  70. MCP450P - 13.56 MHz Read/Write Passive RFID Device
  71. MCP450S - 13.56 MHz Read/Write Passive RFID Device
  72. MCP450SB - 13.56 MHz Read/Write Passive RFID Device
  73. MCP450SN - 13.56 MHz Read/Write Passive RFID Device
  74. MCP450W - 13.56 MHz Read/Write Passive RFID Device
  75. MCP450WB - 13.56 MHz Read/Write Passive RFID Device
  76. MCP450WF - 13.56 MHz Read/Write Passive RFID Device
  77. MCP450WFB - 13.56 MHz Read/Write Passive RFID Device
  78. MCP450X - 13.56 MHz Read/Write Passive RFID Device
  79. MCP451 - 13.56 MHz Read/Write Passive RFID Device
  80. MCP451P - 13.56 MHz Read/Write Passive RFID Device
  81. MCP451S - 13.56 MHz Read/Write Passive RFID Device
  82. MCP451SB - 13.56 MHz Read/Write Passive RFID Device
  83. MCP451SN - 13.56 MHz Read/Write Passive RFID Device
  84. MCP451W - 13.56 MHz Read/Write Passive RFID Device
  85. MCP451WB - 13.56 MHz Read/Write Passive RFID Device
  86. MCP451WF - 13.56 MHz Read/Write Passive RFID Device
  87. MCP451WFB - 13.56 MHz Read/Write Passive RFID Device
  88. MCP451X - 13.56 MHz Read/Write Passive RFID Device
  89. MCP452 - 13.56 MHz Read/Write Passive RFID Device
  90. MCP452P - 13.56 MHz Read/Write Passive RFID Device
  91. MCP452S - 13.56 MHz Read/Write Passive RFID Device
  92. MCP452SB - 13.56 MHz Read/Write Passive RFID Device
  93. MCP452SN - 13.56 MHz Read/Write Passive RFID Device
  94. MCP452W - 13.56 MHz Read/Write Passive RFID Device
  95. MCP452WB - 13.56 MHz Read/Write Passive RFID Device
  96. MCP452WF - 13.56 MHz Read/Write Passive RFID Device
  97. MCP452WFB - 13.56 MHz Read/Write Passive RFID Device
  98. MCP452X - 13.56 MHz Read/Write Passive RFID Device
  99. MCP455 - 13.56 MHz Read/Write Passive RFID Device
  100. MCP455P - 13.56 MHz Read/Write Passive RFID Device
  101. MCP455S - 13.56 MHz Read/Write Passive RFID Device
  102. MCP455SB - 13.56 MHz Read/Write Passive RFID Device
  103. MCP455SN - 13.56 MHz Read/Write Passive RFID Device
  104. MCP455W - 13.56 MHz Read/Write Passive RFID Device
  105. MCP455WB - 13.56 MHz Read/Write Passive RFID Device
  106. MCP455WF - 13.56 MHz Read/Write Passive RFID Device
  107. MCP455WFB - 13.56 MHz Read/Write Passive RFID Device
  108. MCP455X - 13.56 MHz Read/Write Passive RFID Device
  109. MCP4921 - 12-bit Dac With Spi Interface
  110. MCP4921-EMS - 12-Bit DAC with SPI Interface
  111. MCP4921-EP - 12-Bit DAC with SPI Interface
  112. MCP4921-ESL - 12-Bit DAC with SPI Interface
  113. MCP4921-ESN - 12-Bit DAC with SPI Interface
  114. MCP4921-EST - 12-Bit DAC with SPI Interface
  115. MCP4921T-EMS - 12-Bit DAC with SPI Interface
  116. MCP4921T-EP - 12-Bit DAC with SPI Interface
  117. MCP4921T-ESL - 12-Bit DAC with SPI Interface
  118. MCP4921T-ESN - 12-Bit DAC with SPI Interface
  119. MCP4921T-EST - 12-Bit DAC with SPI Interface
  120. MCP4922 - 12-Bit DAC with SPI Interface
  121. MCP4922-EMS - 12-Bit DAC with SPI Interface
  122. MCP4922-EP - 12-Bit DAC with SPI Interface
  123. MCP4922-ESL - 12-Bit DAC with SPI Interface
  124. MCP4922-ESN - 12-Bit DAC with SPI Interface
  125. MCP4922-EST - 12-Bit DAC with SPI Interface
  126. MCP4922T-EMS - 12-Bit DAC with SPI Interface
  127. MCP4922T-EP - 12-Bit DAC with SPI Interface
  128. MCP4922T-ESL - 12-Bit DAC with SPI Interface
  129. MCP4922T-ESN - 12-Bit DAC with SPI Interface
  130. MCP4922T-EST - 12-Bit DAC with SPI Interface
  131. MCP6001 - 1 Mhz Bandwidth Low Power Op Amp
  132. MCP6001E - 1 MHz Bandwidth Low Power Op Amp
  133. MCP6001ELT - 1 MHz Bandwidth Low Power Op Amp
  134. MCP6001EMS - 1 MHz Bandwidth Low Power Op Amp
  135. MCP6001EOT - 1 MHz Bandwidth Low Power Op Amp
  136. MCP6001EP - 1 MHz Bandwidth Low Power Op Amp
  137. MCP6001ESL - 1 MHz Bandwidth Low Power Op Amp
  138. MCP6001ESN - 1 MHz Bandwidth Low Power Op Amp
  139. MCP6001EST - 1 MHz Bandwidth Low Power Op Amp
  140. MCP6001I - 1 MHz Bandwidth Low Power Op Amp
  141. MCP6001ILT - 1 MHz Bandwidth Low Power Op Amp
  142. MCP6001IMS - 1 MHz Bandwidth Low Power Op Amp
  143. MCP6001IOT - 1 MHz Bandwidth Low Power Op Amp
  144. MCP6001IP - 1 MHz Bandwidth Low Power Op Amp
  145. MCP6001ISL - 1 MHz Bandwidth Low Power Op Amp
  146. MCP6001ISN - 1 MHz Bandwidth Low Power Op Amp
  147. MCP6001IST - 1 MHz Bandwidth Low Power Op Amp
  148. MCP6001R - The MCP6001 isA Single General Purpose op Amp Offering Rail to Rail Input & Output Over The 1
  149. MCP6001RT - The MCP6001 isA Single General Purpose op Amp Offering Rail to Rail Input & Output Over The 1
  150. MCP6001T - The MCP6001 isA Single General Purpose op Amp Offering Rail to Rail Input & Output Over The 1
  151. MCP6001T-I/LT - The MCP6001 isA Single General Purpose op Amp Offering Rail to Rail Input & Output Over The 1
  152. MCP6001U - The MCP6001 isA Single General Purpose op Amp Offering Rail to Rail Input & Output Over The 1
  153. MCP6001UT - The MCP6001 isA Single General Purpose op Amp Offering Rail to Rail Input & Output Over The 1
  154. MCP6002 - 1 MHz Bandwidth Low Power Op Amp
  155. MCP6002E - 1 MHz Bandwidth Low Power Op Amp
  156. MCP6002ELT - 1 MHz Bandwidth Low Power Op Amp
  157. MCP6002EMS - 1 MHz Bandwidth Low Power Op Amp
  158. MCP6002EOT - 1 MHz Bandwidth Low Power Op Amp
  159. MCP6002EP - 1 MHz Bandwidth Low Power Op Amp
  160. MCP6002ESL - 1 MHz Bandwidth Low Power Op Amp
  161. MCP6002ESN - 1 MHz Bandwidth Low Power Op Amp
  162. MCP6002EST - 1 MHz Bandwidth Low Power Op Amp
  163. MCP6002I - 1 MHz Bandwidth Low Power Op Amp
  164. MCP6002ILT - 1 MHz Bandwidth Low Power Op Amp
  165. MCP6002IMS - 1 MHz Bandwidth Low Power Op Amp
  166. MCP6002IOT - 1 MHz Bandwidth Low Power Op Amp
  167. MCP6002IP - 1 MHz Bandwidth Low Power Op Amp
  168. MCP6002ISL - 1 MHz Bandwidth Low Power Op Amp
  169. MCP6002ISN - 1 MHz Bandwidth Low Power Op Amp
  170. MCP6002IST - 1 MHz Bandwidth Low Power Op Amp
  171. MCP6002T - The MCP6002 isA Dual General Purpose op Amp Offering Rail to Rail Input & Output Over The 1
  172. MCP6004 - 1 MHz Bandwidth Low Power Op Amp
  173. MCP6004E - 1 MHz Bandwidth Low Power Op Amp
  174. MCP6004ELT - 1 MHz Bandwidth Low Power Op Amp
  175. MCP6004EMS - 1 MHz Bandwidth Low Power Op Amp
  176. MCP6004EOT - 1 MHz Bandwidth Low Power Op Amp
  177. MCP6004EP - 1 MHz Bandwidth Low Power Op Amp
  178. MCP6004ESL - 1 MHz Bandwidth Low Power Op Amp
  179. MCP6004ESN - 1 MHz Bandwidth Low Power Op Amp
  180. MCP6004EST - 1 MHz Bandwidth Low Power Op Amp
  181. MCP6004I - 1 MHz Bandwidth Low Power Op Amp
  182. MCP6004ILT - 1 MHz Bandwidth Low Power Op Amp
  183. MCP6004IMS - 1 MHz Bandwidth Low Power Op Amp
  184. MCP6004IOT - 1 MHz Bandwidth Low Power Op Amp
  185. MCP6004IP - 1 MHz Bandwidth Low Power Op Amp
  186. MCP6004ISL - 1 MHz Bandwidth Low Power Op Amp
  187. MCP6004ISN - 1 MHz Bandwidth Low Power Op Amp
  188. MCP6004IST - 1 MHz Bandwidth Low Power Op Amp
  189. MCP6004T - The MCP6004 isA Quad General Purpose op Amp Offering Rail-to-rail Input and Output Over The 1
  190. MCP601 - 2.7v To 5.5v Single Supply Cmos Op Amps
  191. MCP601-I - 2.7V to 5.5V Single Supply CMOS Op Amps
  192. MCP601-IOT - 2.7V to 5.5V Single Supply CMOS Op Amps
  193. MCP601-IP - 2.7V to 5.5V Single Supply CMOS Op Amps
  194. MCP601-ISL - 2.7V to 5.5V Single Supply CMOS Op Amps
  195. MCP601-ISN - 2.7V to 5.5V Single Supply CMOS Op Amps
  196. MCP601-IST - 2.7V to 5.5V Single Supply CMOS Op Amps
  197. MCP602 - 2.7V to 5.5V Single Supply CMOS Op Amps
  198. MCP6021 - Rail-to-rail Input/output, 10 Mhz Op Amps
  199. MCP6022 - Rail-to-Rail Input/Output, 10 MHz Op Amps
  200. MCP6023 - Rail-to-Rail Input/Output, 10 MHz Op Amps
  201. MCP6024 - Rail-to-Rail Input/Output, 10 MHz Op Amps
  202. MCP6024-I/P - The MCP6024 Quad Operational Amplifier (op Amp) HasA Gain Bandwidth Product of 10 MHZ WithA Low Typical Operating Current of 1
  203. MCP6024ISL - The MCP6024 Quad Operational Amplifier (op Amp) HasA Gain Bandwidth Product of 10 MHZ WithA Low Typical Operating Current of 1
  204. MCP602-I - 2.7V to 5.5V Single Supply CMOS Op Amps
  205. MCP602-IOT - 2.7V to 5.5V Single Supply CMOS Op Amps
  206. MCP602-IP - 2.7V to 5.5V Single Supply CMOS Op Amps
  207. MCP602-ISL - 2.7V to 5.5V Single Supply CMOS Op Amps
  208. MCP602-ISN - 2.7V to 5.5V Single Supply CMOS Op Amps
  209. MCP602-IST - 2.7V to 5.5V Single Supply CMOS Op Amps
  210. MCP603 - 2.7V to 5.5V Single Supply CMOS Op Amps
  211. MCP603-I - 2.7V to 5.5V Single Supply CMOS Op Amps
  212. MCP603-IOT - 2.7V to 5.5V Single Supply CMOS Op Amps
  213. MCP603-IP - 2.7V to 5.5V Single Supply CMOS Op Amps
  214. MCP603-ISL - 2.7V to 5.5V Single Supply CMOS Op Amps
  215. MCP603-ISN - 2.7V to 5.5V Single Supply CMOS Op Amps
  216. MCP603-IST - 2.7V to 5.5V Single Supply CMOS Op Amps
  217. MCP604 - 2.7V to 5.5V Single Supply CMOS Op Amps
  218. MCP6041 - 600 Na, Rail-to-rail Input/output Op Amps
  219. 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
  220. MCP6041T - 600 nA, Rail-to-Rail Input/Output Op Amps
  221. MCP6042 - 600 nA, Rail-to-Rail Input/Output Op Amps
  222. 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
  223. MCP6042T - 600 nA, Rail-to-Rail Input/Output Op Amps
  224. MCP6043 - 600 nA, Rail-to-Rail Input/Output Op Amps
  225. 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
  226. MCP6043T - 600 nA, Rail-to-Rail Input/Output Op Amps
  227. MCP6044 - 600 nA, Rail-to-Rail Input/Output Op Amps
  228. 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
  229. 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
  230. 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
  231. MCP6044T - 600 nA, Rail-to-Rail Input/Output Op Amps
  232. MCP604-I - 2.7V to 5.5V Single Supply CMOS Op Amps
  233. MCP604-IOT - 2.7V to 5.5V Single Supply CMOS Op Amps
  234. MCP604-IP - 2.7V to 5.5V Single Supply CMOS Op Amps
  235. MCP604-ISL - 2.7V to 5.5V Single Supply CMOS Op Amps
  236. MCP604-ISN - 2.7V to 5.5V Single Supply CMOS Op Amps
  237. MCP604-IST - 2.7V to 5.5V Single Supply CMOS Op Amps
  238. MCP606 - 2.5v To 5.5v Micropower Cmos Op Amps
  239. MCP607 - 2.5V TO 5.5V MICROPOWER CMOS OP AMPS
  240. MCP608 - 2.5V TO 5.5V MICROPOWER CMOS OP AMPS
  241. MCP609 - 2.5V TO 5.5V MICROPOWER CMOS OP AMPS
  242. MCP6091SL - The MCP609 Quad Operational Amplifier (op Amp) HasA Gain Bandwidth Product of 155 KHZ WithA Low Typical Operating Current of 18
  243. MCP609-I/P - The MCP609 Quad Operational Amplifier (op Amp) HasA Gain Bandwidth Product of 155 KHZ WithA Low Typical Operating Current of 18
  244. MCP6141 - 600 Na, Non-unity Gain Rail-to-rail Input/output Op Amps
  245. MCP6141-I/P - The MCP6141 isA Single 600nA op Amp Offering Rail to Rail Input & Output Over The 1
  246. MCP6142 - 600 nA, Non-Unity Gain Rail-to-Rail Input/Output Op Amps
  247. MCP6142-I/MS - The MCP6142 isA Dual 600nA op Amp Offering Rail to Rail Input & Output Over The 1
  248. MCP6142-I/SN - The MCP6142 isA Dual 600nA op Amp Offering Rail to Rail Input & Output Over The 1
  249. MCP6142T - The MCP6142 isA Dual 600nA op Amp Offering Rail to Rail Input & Output Over The 1
  250. MCP6143 - 600 nA, Non-Unity Gain Rail-to-Rail Input/Output Op Amps
  251. MCP6143-I/MS - The MCP6143 isA Single With Chip Select 600nA op Amp Offering Rail to Rail Input & Outp...
  252. MCP6143-I/P - The MCP6143 isA Single With Chip Select 600nA op Amp Offering Rail to Rail Input & Outp...
  253. MCP6144 - 600 nA, Non-Unity Gain Rail-to-Rail Input/Output Op Amps
  254. MCP6144-I/P - The MCP6144 isA Quad 600nA op Amp Offering Rail to Rail Input & Output Over The 1
  255. MCP6144-I/SL - The MCP6144 isA Quad 600nA op Amp Offering Rail to Rail Input & Output Over The 1
  256. MCP616 - 2.3v To 5.5v Micropower Bi - Cmos Op Amps
  257. MCP617 - 2.3V TO 5.5V MICROPOWER BI - CMOS OP AMPS
  258. MCP618 - 2.3V TO 5.5V MICROPOWER BI - CMOS OP AMPS
  259. MCP619 - 2.3V TO 5.5V MICROPOWER BI - CMOS OP AMPS
  260. MCP6231 - 20 UA, 300 kHz Rail-to-Rail Op Amp
  261. MCP6231-E/LT - 20 UA, 300 kHz Rail-to-Rail Op Amp
  262. MCP6231-E/MS - 20 UA, 300 kHz Rail-to-Rail Op Amp
  263. 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
  264. 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
  265. 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
  266. 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
  267. 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
  268. 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
  269. 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
  270. 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
  271. 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
  272. 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
  273. 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
  274. 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
  275. 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
  276. 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
  277. 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
  278. 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
  279. 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
  280. 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
  281. 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
  282. MCP6232 - 20 UA, 300 kHz Rail-to-Rail Op Amp
  283. 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
  284. 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
  285. 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
  286. 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
  287. 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
  288. 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
  289. 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
  290. 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
  291. 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
  292. 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
  293. 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
  294. 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
  295. 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
  296. 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
  297. 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
  298. 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
  299. 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
  300. MCP6271 - 170 Ua, 2 Mhz Rail-to-rail Op Amp
  301. MCP6271T -
  302. MCP6272 - 170 UA, 2 MHz Rail-to-Rail Op Amp
  303. MCP6272T -
  304. MCP6273 - 170 UA, 2 MHz Rail-to-Rail Op Amp
  305. MCP6273T -
  306. MCP6274 - 170 UA, 2 MHz Rail-to-Rail Op Amp
  307. MCP6274-E/P -
  308. MCP6274ESL -
  309. MCP6274T -
  310. MCP6275 - 170 UA, 2 MHz Rail-to-Rail Op Amp
  311. MCP6281 - 450 Ua, 5 Mhz Rail-to-rail Op Amp
  312. MCP6282 - 450 UA, 5 MHz Rail-to-Rail Op Amp
  313. MCP6283 - 450 UA, 5 MHz Rail-to-Rail Op Amp
  314. MCP6284 - 450 UA, 5 MHz Rail-to-Rail Op Amp
  315. MCP6284ESL -
  316. MCP6285 - 450 UA, 5 MHz Rail-to-Rail Op Amp
  317. MCP6291 - 1.0 Ma, 10 Mhz Rail-to-rail Op Amp
  318. MCP6291RT - 1.0 mA, 10 MHz Rail-to-Rail Op Amp
  319. MCP6291T - 1.0 mA, 10 MHz Rail-to-Rail Op Amp
  320. MCP6292 - 1.0 mA, 10 MHz Rail-to-Rail Op Amp
  321. MCP6292T - 1.0 mA, 10 MHz Rail-to-Rail Op Amp
  322. MCP6293 - 1.0 mA, 10 MHz Rail-to-Rail Op Amp
  323. MCP6293T - 1.0 mA, 10 MHz Rail-to-Rail Op Amp
  324. MCP6294 - 1.0 mA, 10 MHz Rail-to-Rail Op Amp
  325. MCP6294-E/P -
  326. MCP6294ESL -
  327. MCP6294T - 1.0 mA, 10 MHz Rail-to-Rail Op Amp
  328. MCP6295 - 1.0 mA, 10 MHz Rail-to-Rail Op Amp
  329. MCP6295T - 1.0 mA, 10 MHz Rail-to-Rail Op Amp
  330. MCP6541 - Push-pull Output Sub-microamp Comparators
  331. MCP6541-I/P - The MCP6541 isA Push-pull, Single Comparator
  332. MCP6541RT - Push-Pull Output Sub-Microamp Comparators
  333. MCP6541T - Push-Pull Output Sub-Microamp Comparators
  334. MCP6541T-I/LT - The MCP6541 isA Push-pull, Single Comparator
  335. MCP6542 - Push-Pull Output Sub-Microamp Comparators
  336. MCP6542-I/MS - The MCP6542 isA Push-pull, Dual Comparator
  337. MCP6542-I/P - The MCP6542 isA Push-pull, Dual Comparator
  338. MCP6542T - Push-Pull Output Sub-Microamp Comparators
  339. MCP6543 - Push-Pull Output Sub-Microamp Comparators
  340. MCP6543-I/P - The MCP6543 isA Push-pull, Single Comparator
  341. MCP6543-I/SN - The MCP6543 isA Push-pull, Single Comparator
  342. MCP6543T - Push-Pull Output Sub-Microamp Comparators
  343. MCP6544 - Push-Pull Output Sub-Microamp Comparators
  344. MCP6544I - The MCP6544 isA Push-pull, Quad Comparator
  345. MCP6544-I/P - The MCP6544 isA Push-pull, Quad Comparator
  346. MCP6544ISL - The MCP6544 isA Push-pull, Quad Comparator
  347. MCP6544T - Push-Pull Output Sub-Microamp Comparators
  348. MCP6544T-I/SL - The MCP6544 isA Push-pull, Quad Comparator
  349. MCP6546 - Open-drain Output Sub-microamp Comparators
  350. MCP6546-I/P - The MCP6546 is an Open-Drain, Single Comparator
  351. MCP6547 - Open-Drain Output Sub-Microamp Comparators
  352. MCP6547-I/MS - The MCP6547 is an Open Drain, Dual Comparator
  353. MCP6547-I/P - The MCP6547 is an Open Drain, Dual Comparator
  354. MCP6548 - Open-Drain Output Sub-Microamp Comparators
  355. MCP6548-I/P - The MCP6548 is an Open Drain, Single Comparator
  356. MCP6548-I/SN - The MCP6548 is an Open Drain, Single Comparator
  357. MCP6549 - Open-Drain Output Sub-Microamp Comparators
  358. MCP6549I - The MCP6549 is an Open Drain, Quad Comparator
  359. MCP6549-I/P - The MCP6549 is an Open Drain, Quad Comparator
  360. MCP6549ISL - The MCP6549 is an Open Drain, Quad Comparator
  361. MCP6G01 - 110 ҐмA Selectable Gain Amplifier
  362. MCP6G02 - 110 ҐмA Selectable Gain Amplifier
  363. MCP6G03 - 110 ҐмA Selectable Gain Amplifier
  364. MCP6G04 - 110 ҐмA Selectable Gain Amplifier
  365. MCP6S21 - Single-ended, Rail-to-rail I/o, Low Gain Pga
  366. MCP6S21I -
  367. MCP6S22 - Single-Ended, Rail-to-Rail I/O, Low Gain PGA
  368. MCP6S26 - Single-Ended, Rail-to-Rail I/O, Low Gain PGA
  369. MCP6S26-I/P -
  370. MCP6S26ISL -
  371. MCP6S26IST -
  372. MCP6S28 - Single-Ended, Rail-to-Rail I/O, Low Gain PGA
  373. MCP6S28-I/P -
  374. MCP6S28-I/SL -
  375. MCP6S91 - Single-Ended, Rail-to-Rail I/O, Low-Gain PGA
  376. MCP6S92 - Single-Ended, Rail-to-Rail I/O, Low-Gain PGA
  377. MCP6S93 - Single-Ended, Rail-to-Rail I/O, Low-Gain PGA
  378. MCP73826 - Single Cell Lithium-ion Charge Management Controller
  379. MCP73826-4.1 - The MCP73826 isA Battery Charger Controller For Single Cell Li-ion Batteries
  380. MCP73826-4.1VCH - The MCP73826 isA Battery Charger Controller For Single Cell Li-ion Batteries
  381. MCP73826-4.2 - The MCP73826 isA Battery Charger Controller For Single Cell Li-ion Batteries
  382. MCP73826-4.2VCH - The MCP73826 isA Battery Charger Controller For Single Cell Li-ion Batteries
  383. MCP73827 - The MCP73827 isA Battery Charger Controller For Single Cell Li-ion Batteries
  384. MCP73827-4.1 - The MCP73827 isA Battery Charger Controller For Single Cell Li-ion Batteries
  385. MCP73827-4.1VUA - The MCP73827 isA Battery Charger Controller For Single Cell Li-ion Batteries
  386. MCP73827-4.2 - The MCP73827 isA Battery Charger Controller For Single Cell Li-ion Batteries
  387. MCP73827-4.2VUA - The MCP73827 isA Battery Charger Controller For Single Cell Li-ion Batteries
  388. MCP73828 - Single Cell Lithium-ion Charge Management Controller With Charge Complete Indicator and Temperature Monitor
  389. MCP73828-4.1 - The MCP73828 isA Battery Charger Controller For Single Cell Lithium-ion (Li-Ion) Batteries
  390. MCP73828-4.1VUA - The MCP73828 isA Battery Charger Controller For Single Cell Lithium-ion (Li-Ion) Batteries
  391. MCP73828-4.2 - The MCP73828 isA Battery Charger Controller For Single Cell Lithium-ion (Li-Ion) Batteries
  392. MCP73828-4.2VUA - The MCP73828 isA Battery Charger Controller For Single Cell Lithium-ion (Li-Ion) Batteries
  393. 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
  394. MCP73841 - Advanced Single Or Dual Cell Lithium-ion/ Lithium-polymer Charge Management Controllers
  395. 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
  396. 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
  397. 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
  398. 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
  399. 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
  400. MCP73842 - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management Controllers
  401. 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
  402. 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
  403. 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
  404. 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
  405. 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
  406. MCP73843 - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management Controllers
  407. 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
  408. 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
  409. 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
  410. 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
  411. 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
  412. MCP73844 - Advanced Single or Dual Cell Lithium-Ion/ Lithium-Polymer Charge Management Controllers
  413. 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
  414. 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
  415. 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
  416. 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
  417. 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
  418. MCP73853 - USB Compatible Li-Ion/Li-Polymer Charge Management Controllers
  419. MCP73853T - USB Compatible Li-Ion/Li-Polymer Charge Management Controllers
  420. MCP73855 - USB Compatible Li-Ion/Li-Polymer Charge Management Controllers
  421. MCP73855T - USB Compatible Li-Ion/Li-Polymer Charge Management Controllers
  422. MCP73861 - Advanced Single Or Dual Cell, Fully Integrated Li-ion / Li-polymer Charge Management Controllers
  423. MCP73862 - Advanced Single or Dual Cell, Fully Integrated Li-Ion / Li-Polymer Charge Management Controllers
  424. 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
  425. MCP9700 - Low-power Voltage Output Temperature Sensor
  426. MCP9701 - Low-Power Voltage Output Temperature Sensor
  427. MCP9800 - 2-Wire High-Accuracy Temperature Sensor
  428. 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
  429. 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
  430. MCP9801 - 2-Wire High-Accuracy Temperature Sensor
  431. MCP9802 - 2-Wire High-Accuracy Temperature Sensor
  432. 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
  433. 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
  434. MCP9803 - 2-Wire High-Accuracy Temperature Sensor
  435. MCRF200 - 125 Khz Microid Passive Rfid Device
  436. MCRF200I1M00A - 125 kHz microID Passive RFID Device
  437. MCRF200I1M08D - 125 kHz microID Passive RFID Device
  438. MCRF200I1M14D - 125 kHz microID Passive RFID Device
  439. MCRF200I1MQ23 - 125 kHz microID Passive RFID Device
  440. MCRF200I3M00A - 125 kHz microID Passive RFID Device
  441. MCRF200I3M08D - 125 kHz microID Passive RFID Device
  442. MCRF200I3M14D - 125 kHz microID Passive RFID Device
  443. MCRF200I3MQ23 - 125 kHz microID Passive RFID Device
  444. MCRF200IP00A - 125 kHz microID Passive RFID Device
  445. MCRF200IP08D - 125 kHz microID Passive RFID Device
  446. MCRF200IP14D - 125 kHz microID Passive RFID Device
  447. MCRF200IPQ23 - 125 kHz microID Passive RFID Device
  448. MCRF200IS00A - 125 kHz microID Passive RFID Device
  449. MCRF200IS08D - 125 kHz microID Passive RFID Device
  450. MCRF200IS14D - 125 kHz microID Passive RFID Device
  451. MCRF200ISN00A - 125 kHz microID Passive RFID Device
  452. MCRF200ISN08D - 125 kHz microID Passive RFID Device
  453. MCRF200ISN14D - 125 kHz microID Passive RFID Device
  454. MCRF200ISNQ23 - 125 kHz microID Passive RFID Device
  455. MCRF200ISQ23 - 125 kHz microID Passive RFID Device
  456. MCRF200IW00A - 125 kHz microID Passive RFID Device
  457. MCRF200IW08D - 125 kHz microID Passive RFID Device
  458. MCRF200IW14D - 125 kHz microID Passive RFID Device
  459. MCRF200IWF00A - 125 kHz microID Passive RFID Device
  460. MCRF200IWF08D - 125 kHz microID Passive RFID Device
  461. MCRF200IWF14D - 125 kHz microID Passive RFID Device
  462. MCRF200IWFQ23 - 125 kHz microID Passive RFID Device
  463. MCRF200IWQ23 - 125 kHz microID Passive RFID Device
  464. MCRF202 - 125 Khz Passive Rfid Device With Sensor Input
  465. 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
  466. MCRF250 - 125 Khz Microid Passive Rfid Device With Anti-collision
  467. MCRF250-I/W40A - The MCRF250 is One Time Contactlessly Programmable Passive Radio Frequency Identification (RFID) ic Device With Advanced Anti-collision Features
  468. MCRF355 - 13.56 Mhz Passive Rfid Device With Anti-collision Feature
  469. MCRF355/360 - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
  470. MCRF355/6C - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
  471. MCRF355/7M - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
  472. MCRF355COB - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
  473. MCRF355/P - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
  474. MCRF355/W - The MCRF355 isA Uniquely Designed Read-only Passive Radio Frequency Identification (RFID) ic Device With Advanced Anticollision Features Optimized at 13
  475. MCRF360 - 13.56 MHz Passive RFID Device with Anti-Collision Feature
  476. MCRF450 - 13.56 Mhz Read/write Passive Rfid Device
  477. MCRF450/W - The MCRF45x Family isA Contactless Read/write Passive Radio Frequency Identification (RFID) ic Device That is Optimized For 13
  478. MCRF451 - 13.56 MHz Read/Write Passive RFID Device
  479. MCRF451/S -
  480. MCRF452 - 13.56 MHz Read/Write Passive RFID Device
  481. MCRF455 - 13.56 MHz Read/Write Passive RFID Device
  482. MTE1122 - Energy Management Controller Ic
  483. MTE1122IP - Energy Management Controller IC
  484. MTE1122ISO - Energy Management Controller IC
  485. MTE1122-P - Energy Management Controller IC
  486. MTE1122-SO - Energy Management Controller IC
  487. MTG-12864A -
  488. MTG-12864D -
  489. MTG-32240A -
  490. P12C508 - 8-pin, 8-bit Cmos Microcontroller
  491. P16F877 - 28/40-pin 8-bit Cmos Flash Microcontrollers
  492. PIC10F200 - 6-pin, 8-bit Flash Microcontrollers
  493. PIC10F200T - 6-Pin, 8-Bit Flash Microcontrollers
  494. PIC10F202 - 6-Pin, 8-Bit Flash Microcontrollers
  495. 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
  496. PIC10F202T - 6-Pin, 8-Bit Flash Microcontrollers
  497. PIC10F204 - 6-Pin, 8-Bit Flash Microcontrollers
  498. PIC10F204T - 6-Pin, 8-Bit Flash Microcontrollers
  499. PIC10F206 - 6-Pin, 8-Bit Flash Microcontrollers
  500. PIC10F206T - 6-Pin, 8-Bit Flash Microcontrollers