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LTC3588EMSE-1#TRPBF Analog Devices
1 Power Management Specialized - PMIC Nanopower Energy Harvesting Pwr S Small Outline Packages LTC3588EMSE-1#TRPBF
3D model available
Symbol and footprint available
 3
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MAX31855SASA+T Analog Devices
1 Sensor Interface Cold-Junction Compensated Thermocouple-to-Digital Convert S TYPE Small Outline Packages MAX31855SASA+T
3D model available
Symbol and footprint available
 3
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MSSA3350 TE Connectivity
1 MSSA3350=SW SLIDE 3POLE/3POS S Other MSSA3350
3D model available
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2SD601A Panasonic
1 Transistor 2SD601A Silicon NPN epitaxia l planer type For general amplification Complementary to 2SB709A 2. 8 –0. 3 +0 . 2 Unit: mm s Features q q q 0. 65±0 . SOT23 (3-Pin) 2SD601A
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72831L25TFI8 Renesas Electronics
1 The 72831 is a 2K x 9 dual synchronous (clocked) FIFO. The device is functionally equivalent to two 72231 FIFOs in a single package with all associated control, data, and flag lines assigned to separate pins. Each of the two FIFOs has a 9-bit input data port and a 9-bit output data port. The Read Clock can be tied to the Write Clock for single clock operation or the two clocks can run asynchronous of one another for dual clock operation. The 72831 architecture lends itself to many flexible configurations s Quad Flat Packages 72831L25TFI8
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72851L15TFI8 Renesas Electronics
1 The 72851 is a 8K x 9 dual synchronous (clocked) FIFO. The device is functionally equivalent to two 72251 FIFOs in a single package with all associated control, data, and flag lines assigned to separate pins. Each of the two FIFOs has a 9-bit input data port and a 9-bit output data port. The Read Clock can be tied to the Write Clock for single clock operation or the two clocks can run asynchronous of one another for dual clock operation. The 72851 architecture lends itself to many flexible configurations s Quad Flat Packages 72851L15TFI8
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72821L25TF8 Renesas Electronics
1 The 72821 is a 1K x 9 dual synchronous (clocked) FIFO. The device is functionally equivalent to two 72221 FIFOs in a single package with all associated control, data, and flag lines assigned to separate pins. Each of the two FIFOs has a 9-bit input data port and a 9-bit output data port. The Read Clock can be tied to the Write Clock for single clock operation or the two clocks can run asynchronous of one another for dual clock operation. The 72821 architecture lends itself to many flexible configurations s Quad Flat Packages 72821L25TF8
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72851L10TF8 Renesas Electronics
1 The 72851 is a 8K x 9 dual synchronous (clocked) FIFO. The device is functionally equivalent to two 72251 FIFOs in a single package with all associated control, data, and flag lines assigned to separate pins. Each of the two FIFOs has a 9-bit input data port and a 9-bit output data port. The Read Clock can be tied to the Write Clock for single clock operation or the two clocks can run asynchronous of one another for dual clock operation. The 72851 architecture lends itself to many flexible configurations s Quad Flat Packages 72851L10TF8
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72841L15TF8 Renesas Electronics
1 The 72841 is a 4K x 9 dual synchronous (clocked) FIFO. The device is functionally equivalent to two 72241 FIFOs in a single package with all associated control, data, and flag lines assigned to separate pins. Each of the two FIFOs has a 9-bit input data port and a 9-bit output data port. The Read Clock can be tied to the Write Clock for single clock operation or the two clocks can run asynchronous of one another for dual clock operation. The 72841 architecture lends itself to many flexible configurations s Quad Flat Packages 72841L15TF8
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72821L15PFI Renesas Electronics
1 The 72821 is a 1K x 9 dual synchronous (clocked) FIFO. The device is functionally equivalent to two 72221 FIFOs in a single package with all associated control, data, and flag lines assigned to separate pins. Each of the two FIFOs has a 9-bit input data port and a 9-bit output data port. The Read Clock can be tied to the Write Clock for single clock operation or the two clocks can run asynchronous of one another for dual clock operation. The 72821 architecture lends itself to many flexible configurations s Quad Flat Packages 72821L15PFI
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1004795 Kyocera AVX
1 Antennas EVB for 1004795 Other 1004795
3D model available
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TBPMANN005PGUCV Honeywell
1 Honeywell for Gas Gauge Other TBPMANN005PGUCV
3D model available
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SWW0CD10A SEOUL SEMICONDUCTOR
1 High-Power LED for Automotive Other SWW0CD10A
3D model available
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R5F10RLCANB#00 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat No-Lead R5F10RLCANB#00
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R5F10RGCAFB#V0 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat Packages R5F10RGCAFB#V0
3D model available
Symbol and footprint available
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R5F10RJCGFA#10 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat Packages R5F10RJCGFA#10
3D model available
Symbol and footprint available
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R5F10RLAAFA#10 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat Packages R5F10RLAAFA#10
3D model available
Symbol and footprint available
 3
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R5F10RLAGFA#10 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat Packages R5F10RLAGFA#10
3D model available
Symbol and footprint available
 3
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R5F10RGAAFB#10 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat Packages R5F10RGAAFB#10
3D model available
Symbol and footprint available
 3
1 Download Model
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R5F10RFCAFP#10 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat Packages R5F10RFCAFP#10
3D model available
Symbol and footprint available
 3
1 Download Model
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R5F10RBCAFP#30 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat Packages R5F10RBCAFP#30
3D model available
Symbol and footprint available
 3
1 Download Model
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R5F10RLAGFB#V0 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat Packages R5F10RLAGFB#V0
3D model available
Symbol and footprint available
 3
1 Download Model
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R5F10RGCGFB#V0 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat Packages R5F10RGCGFB#V0
3D model available
Symbol and footprint available
 3
1 Download Model
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R5F10RLCGNB#00 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat No-Lead R5F10RLCGNB#00
3D model available
Symbol and footprint available
 3
1 Download Model
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R5F10RGCAFB#70 Renesas Electronics
1 RL78/L12 microcontrollers have a built-in segment LCD driver. Three LCD driving voltage generation methods (external resistance division, capacitive split, and internal voltage boost) are supported, corresponding to a variety of segment LCD panels. They realize low current consumptionNote 1: external resistance division: 1.60 μANote 2, internal voltage boost: 1.19 μA, and capacitive split: 0.68 µA. With a lineup of 32 to 64-pin products supporting up to 280 segments, these microcontrollers are perfect for s Quad Flat Packages R5F10RGCAFB#70
3D model available
Symbol and footprint available
 3
1 Download Model
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