No. | Partie # | Fabricant | Description | Fiche Technique |
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NXP |
PCA82C251 and benefits Fully compatible with the “ISO 11898-24 V” standard Slope control to reduce Radio Frequency Interference (RFI) Thermally protected Short-circuit proof to battery and ground in 24 V powered systems Low-current Standby mo |
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NXP |
PCA82C250 • Fully compatible with the “ISO 11898” standard • High speed (up to 1 Mbaud) • Bus lines protected against transients in an automotive environment • Slope control to reduce Radio Frequency Interference (RFI) www.DataSheet4U.com • Differential receiv |
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NXP |
PCA82C251 and benefits Fully compatible with the “ISO 11898-24 V” standard Slope control to reduce Radio Frequency Interference (RFI) Thermally protected Short-circuit proof to battery and ground in 24 V powered systems Low-current Standby mode An |
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NXP |
CAN controller interface and benefits Fully compatible with the “ISO 11898” standard High speed (up to 1 MBd) Bus lines protected against transients in an automotive environment Slope control to reduce Radio Frequency Interference (RFI) Differential receiver with w |
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NXP |
Fault-tolerant CAN transceiver Optimized for in-car low-speed communication • Baud rate up to 125 kBaud • Up to 15 nodes can be connected • Supports unshielded bus wires • Low RFI due to built-in slope control function • Fully integrated receiver filters. Bus failure management • |
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NXP |
CAN transceiver for 24 V systems • Fully compatible with the “ISO 11898-24 V” standard • Slope control to reduce RFI • Thermally protected • Short-circuit proof to battery and ground in 24 V powered systems • Low-current standby mode • An unpowered node does not disturb the bus line |
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NXP |
CAN controller interface and benefits Fully compatible with the “ISO 11898” standard High speed (up to 1 MBd) Bus lines protected against transients in an automotive environment Slope control to reduce Radio Frequency Interference (RFI) Differential receiver with w |
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NXP |
Low power / low price dual fan manager a Turn-on Delay for a second fan when both fans have to turn-on. This reduces the in-rush current and suppresses acoustic noise. The P82CF201 also features fan fault sensing for enhancing system protection and reliability. It detects the presence of |
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NXP |
CAN Serial Linked I/O device SLIO with digital and analog port functions GENERAL DESCRIPTION ORDERING INFORMATION BLOCK DIAGRAM FUNCTIONAL DIAGRAM PINNING INFORMATION Pinning Pin description FUNCTIONAL DESCRIPTION I/O functions I/O registers CAN functions Initialization P82C150 operation after RESET or change of bus mode |
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NXP |
CAN Serial Linked I/O device SLIO with digital and analog port functions GENERAL DESCRIPTION ORDERING INFORMATION BLOCK DIAGRAM FUNCTIONAL DIAGRAM PINNING INFORMATION Pinning Pin description FUNCTIONAL DESCRIPTION I/O functions I/O registers CAN functions Initialization P82C150 operation after RESET or change of bus mode |
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NXP |
STAND-ALONE CAN-CONTROLLER |
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NXP Semiconductors |
ESD protection I ‘Pass-thru’ signal line routing I Pb-free, RoHS compliant and free of Halogen and Antimony (Dark Green compliant) I All TMDS lines with integrated rail-to-rail clamping diodes for downstream ESD protection of ±8 kV according to IEC 61000-4-2, level |
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NXP |
CAN Serial Linked I/O device SLIO with digital and analog port functions GENERAL DESCRIPTION ORDERING INFORMATION BLOCK DIAGRAM FUNCTIONAL DIAGRAM PINNING INFORMATION Pinning Pin description FUNCTIONAL DESCRIPTION I/O functions I/O registers CAN functions Initialization P82C150 operation after RESET or change of bus mode |
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NXP |
System Cache Controller |
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NXP |
Stand alone CAN Controller |
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NXP |
256 x 8-bit CMOS EEPROMS dramatically increases the reliability compared to conventional EEPROMs. Power consumption is low due to the full CMOS technology used. The programming voltage is generated on-chip, using a voltage multiplier. Data bytes are received and transmitted |
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