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Image Part Number D.S Description Package Category Prices / Stock Model Action
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DLC2/6SGD Kingbright
1 Kingbright DLC2/6SGD, Round Series 6 Green LED, 20 mm, Round Lens Through Hole Package Other DLC2/6SGD
3D model available
Symbol and footprint available
 3
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R5F564MFDDLC#21 Renesas Electronics
1 The RX64M Group 32-bit microcontrollers are capable of operating at up to 120 MHz, providing a leading edge performance of 5.06 CoreMark/MHz. The RX64M employs the powerfully evolved RXv2 core, which is backward compatible with the RX core employed in existing RX products.The RXv2 core enables 1.48 times the CoreMark/MHz performance and a 40% reduction in power consumption compared to existing RX products, and even higher code efficiency, allowing the realization of high-speed, low consumption systems. The Other R5F564MFDDLC#21
3D model available
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R5F571MJCDLC#20 Renesas Electronics
1 32-bit microcontroller capable of up to 240 MHz operation. Employs the RXv2 core, a more powerful evolved form of the RX core that was used in previous RX devices, while maintaining compatibility. Realizes 1160 CoreMark, the top performance among microcontrollers with built-in flash. Cache optimized for flash memory (AFU) can realize equivalent of 240-MHz zero wait flash memory access. The wait time for the CPU is a mere 1 cycle thanks to the 120-MHz zero wait access flash memory. This extremely high-speed BGA R5F571MJCDLC#20
3D model available
Symbol and footprint available
 3
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ESDLC2504P8-TP MCC
1 ESD Protection Devices ,IPP :25A ,PPK :375 w ,TSTG :-55°C to +150°C,DFN2626-10. Other ESDLC2504P8-TP
3D model available
Symbol and footprint available
 3
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PJDLC24 PANJIT
1 ESD Protection - PJDLC24 , UNI, 2 lines, 2415, 1µA, SOT-23 SOT23 (3-Pin) PJDLC24
3D model available
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R5F571MFDDLC#20 Renesas Electronics
1 32-bit microcontroller capable of up to 240 MHz operation. Employs the RXv2 core, a more powerful evolved form of the RX core that was used in previous RX devices, while maintaining compatibility. Realizes 1160 CoreMark, the top performance among microcontrollers with built-in flash. Cache optimized for flash memory (AFU) can realize equivalent of 240-MHz zero wait flash memory access. The wait time for the CPU is a mere 1 cycle thanks to the 120-MHz zero wait access flash memory. This extremely high-speed BGA R5F571MFDDLC#20
3D model not available
Symbol and footprint available
 2
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R5F571MJDDLC#20 Renesas Electronics
1 32-bit microcontroller capable of up to 240 MHz operation. Employs the RXv2 core, a more powerful evolved form of the RX core that was used in previous RX devices, while maintaining compatibility. Realizes 1160 CoreMark, the top performance among microcontrollers with built-in flash. Cache optimized for flash memory (AFU) can realize equivalent of 240-MHz zero wait flash memory access. The wait time for the CPU is a mere 1 cycle thanks to the 120-MHz zero wait access flash memory. This extremely high-speed BGA R5F571MJDDLC#20
3D model available
Symbol and footprint available
 3
1 Download Model
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R5F564MFCDLC#21 Renesas Electronics
1 The RX64M Group 32-bit microcontrollers are capable of operating at up to 120 MHz, providing a leading edge performance of 5.06 CoreMark/MHz. The RX64M employs the powerfully evolved RXv2 core, which is backward compatible with the RX core employed in existing RX products.The RXv2 core enables 1.48 times the CoreMark/MHz performance and a 40% reduction in power consumption compared to existing RX products, and even higher code efficiency, allowing the realization of high-speed, low consumption systems. The Other R5F564MFCDLC#21
3D model available
Symbol and footprint available
 3
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R5F571MLHDLC#20 Renesas Electronics
1 32-bit microcontroller capable of up to 240 MHz operation. Employs the RXv2 core, a more powerful evolved form of the RX core that was used in previous RX devices, while maintaining compatibility. Realizes 1160 CoreMark, the top performance among microcontrollers with built-in flash. Cache optimized for flash memory (AFU) can realize equivalent of 240-MHz zero wait flash memory access. The wait time for the CPU is a mere 1 cycle thanks to the 120-MHz zero wait access flash memory. This extremely high-speed BGA R5F571MLHDLC#20
3D model available
Symbol and footprint available
 3
1 Download Model
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R5F564MLGDLC#21 Renesas Electronics
1 The RX64M Group 32-bit microcontrollers are capable of operating at up to 120 MHz, providing a leading edge performance of 5.06 CoreMark/MHz. The RX64M employs the powerfully evolved RXv2 core, which is backward compatible with the RX core employed in existing RX products.The RXv2 core enables 1.48 times the CoreMark/MHz performance and a 40% reduction in power consumption compared to existing RX products, and even higher code efficiency, allowing the realization of high-speed, low consumption systems. The Other R5F564MLGDLC#21
3D model available
Symbol and footprint available
 3
1 Download Model
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DLC2/6ID Kingbright
1 Kingbright DLC2/6ID, Round Series 6 Red LED, 20 mm, Round Lens Through Hole Package Other DLC2/6ID
3D model available
Symbol and footprint available
 3
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DLC2/6GD Kingbright
1 Kingbright DLC2/6GD, Round Series 6 Green LED, 20 mm, Round Lens Through Hole Package Other DLC2/6GD
3D model available
Symbol and footprint available
 3
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R5F564MLDDLC#21 Renesas Electronics
1 The RX64M Group 32-bit microcontrollers are capable of operating at up to 120 MHz, providing a leading edge performance of 5.06 CoreMark/MHz. The RX64M employs the powerfully evolved RXv2 core, which is backward compatible with the RX core employed in existing RX products.The RXv2 core enables 1.48 times the CoreMark/MHz performance and a 40% reduction in power consumption compared to existing RX products, and even higher code efficiency, allowing the realization of high-speed, low consumption systems. The Other R5F564MLDDLC#21
3D model available
Symbol and footprint available
 3
1 Download Model
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ESDLC24VT2BHE3-TP-A9019 MCC
1 ESD Protection Device ,5A ,180 w ,SOT-23 SOT23 (3-Pin) ESDLC24VT2BHE3-TP-A9019
3D model available
Symbol and footprint available
 3
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R5F571MFGDLC#20 Renesas Electronics
1 32-bit microcontroller capable of up to 240 MHz operation. Employs the RXv2 core, a more powerful evolved form of the RX core that was used in previous RX devices, while maintaining compatibility. Realizes 1160 CoreMark, the top performance among microcontrollers with built-in flash. Cache optimized for flash memory (AFU) can realize equivalent of 240-MHz zero wait flash memory access. The wait time for the CPU is a mere 1 cycle thanks to the 120-MHz zero wait access flash memory. This extremely high-speed BGA R5F571MFGDLC#20
3D model available
Symbol and footprint available
 3
1 Download Model
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R5F571MFHDLC#20 Renesas Electronics
1 32-bit microcontroller capable of up to 240 MHz operation. Employs the RXv2 core, a more powerful evolved form of the RX core that was used in previous RX devices, while maintaining compatibility. Realizes 1160 CoreMark, the top performance among microcontrollers with built-in flash. Cache optimized for flash memory (AFU) can realize equivalent of 240-MHz zero wait flash memory access. The wait time for the CPU is a mere 1 cycle thanks to the 120-MHz zero wait access flash memory. This extremely high-speed BGA R5F571MFHDLC#20
3D model available
Symbol and footprint available
 3
1 Download Model
Part Image Part Image
R5F564MGCDLC#21 Renesas Electronics
1 The RX64M Group 32-bit microcontrollers are capable of operating at up to 120 MHz, providing a leading edge performance of 5.06 CoreMark/MHz. The RX64M employs the powerfully evolved RXv2 core, which is backward compatible with the RX core employed in existing RX products.The RXv2 core enables 1.48 times the CoreMark/MHz performance and a 40% reduction in power consumption compared to existing RX products, and even higher code efficiency, allowing the realization of high-speed, low consumption systems. The Other R5F564MGCDLC#21
3D model available
Symbol and footprint available
 3
1 Download Model
Part Image Part Image
R5F564MGHDLC#21 Renesas Electronics
1 The RX64M Group 32-bit microcontrollers are capable of operating at up to 120 MHz, providing a leading edge performance of 5.06 CoreMark/MHz. The RX64M employs the powerfully evolved RXv2 core, which is backward compatible with the RX core employed in existing RX products.The RXv2 core enables 1.48 times the CoreMark/MHz performance and a 40% reduction in power consumption compared to existing RX products, and even higher code efficiency, allowing the realization of high-speed, low consumption systems. The Other R5F564MGHDLC#21
3D model available
Symbol and footprint available
 3
1 Download Model
Part Image Part Image
R5F564MFHDLC#21 Renesas Electronics
1 The RX64M Group 32-bit microcontrollers are capable of operating at up to 120 MHz, providing a leading edge performance of 5.06 CoreMark/MHz. The RX64M employs the powerfully evolved RXv2 core, which is backward compatible with the RX core employed in existing RX products.The RXv2 core enables 1.48 times the CoreMark/MHz performance and a 40% reduction in power consumption compared to existing RX products, and even higher code efficiency, allowing the realization of high-speed, low consumption systems. The Other R5F564MFHDLC#21
3D model available
Symbol and footprint available
 3
1 Download Model
Part Image Part Image
R5F571MLCDLC#20 Renesas Electronics
1 32-bit microcontroller capable of up to 240 MHz operation. Employs the RXv2 core, a more powerful evolved form of the RX core that was used in previous RX devices, while maintaining compatibility. Realizes 1160 CoreMark, the top performance among microcontrollers with built-in flash. Cache optimized for flash memory (AFU) can realize equivalent of 240-MHz zero wait flash memory access. The wait time for the CPU is a mere 1 cycle thanks to the 120-MHz zero wait access flash memory. This extremely high-speed BGA R5F571MLCDLC#20
3D model available
Symbol and footprint available
 3
1 Download Model
Part Image Part Image
R5F5651CDDLC#20 Renesas Electronics
1 The Renesas RX651 is mainstream RX microcontrollers with RXv2 core, large-capacity RAM, and enhanced security, connectivity and human machine interface (HMI) capabilities. BGA R5F5651CDDLC#20
3D model available
Symbol and footprint available
 3
1 Download Model
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ESDLC24VT2BHE3-TP MCC
1 ESD Protection Device SOT-23 SOT23 (3-Pin) ESDLC24VT2BHE3-TP
3D model available
Symbol and footprint available
 3
1 Download Model
Part Image Part Image
R5F571MGGDLC#20 Renesas Electronics
1 32-bit microcontroller capable of up to 240 MHz operation. Employs the RXv2 core, a more powerful evolved form of the RX core that was used in previous RX devices, while maintaining compatibility. Realizes 1160 CoreMark, the top performance among microcontrollers with built-in flash. Cache optimized for flash memory (AFU) can realize equivalent of 240-MHz zero wait flash memory access. The wait time for the CPU is a mere 1 cycle thanks to the 120-MHz zero wait access flash memory. This extremely high-speed BGA R5F571MGGDLC#20
3D model available
Symbol and footprint available
 3
1 Download Model
Part Image Part Image
R5F571MFCDLC#20 Renesas Electronics
1 32-bit microcontroller capable of up to 240 MHz operation. Employs the RXv2 core, a more powerful evolved form of the RX core that was used in previous RX devices, while maintaining compatibility. Realizes 1160 CoreMark, the top performance among microcontrollers with built-in flash. Cache optimized for flash memory (AFU) can realize equivalent of 240-MHz zero wait flash memory access. The wait time for the CPU is a mere 1 cycle thanks to the 120-MHz zero wait access flash memory. This extremely high-speed BGA R5F571MFCDLC#20
3D model available
Symbol and footprint available
 3
1 Download Model
Part Image Part Image
R5F564MJHDLC#21 Renesas Electronics
1 The RX64M Group 32-bit microcontrollers are capable of operating at up to 120 MHz, providing a leading edge performance of 5.06 CoreMark/MHz. The RX64M employs the powerfully evolved RXv2 core, which is backward compatible with the RX core employed in existing RX products.The RXv2 core enables 1.48 times the CoreMark/MHz performance and a 40% reduction in power consumption compared to existing RX products, and even higher code efficiency, allowing the realization of high-speed, low consumption systems. The Other R5F564MJHDLC#21
3D model available
Symbol and footprint available
 3
1 Download Model
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