IC, CAN TRANSCEIVER, DIP8, 2551
IC Interface Type: CAN, Serial
No. of TX Buffers: 1
No. of RX Buffers: 1
Supply Voltage Min: 4.5V
Supply Voltage Max: 5.5V
Digital IC Case Style: DIP
No. of Pins: 8
No. of Filters: 0
No. of Masks: 0
No. of Interrupts: 0
Operating Temperature Min: -40°C
Operating Temperature Max: 85°C
Packaging: Each
Base Number: 2551
Communication Function: CAN Transceiver
Control Interface: CAN
Data Rate Max: 1Mbps
IC Function: High Speed CAN Transceiver
Line / Bus Driver / Receiver / Transceiver Type: CAN Transceiver
MSL: -
No. of Drivers: 1
No. of I/O's: 4
No. of Receivers: 1
No. of Transceivers: 1
Operating Temperature Range: -40°C to +85°C
SVHC: No SVHC (16-Dec-2013)
Supply Current: 75mA
Supply Voltage Range: 4.5V to 5.5V
Termination Type: Through Hole
High Speed CAN Transceiver in an 8 Pin DIP Package
The MCP2551-I/P is a high speed CAN, fault tolerant device that serves as the interface between a CAN protocol controller and the physical bus. The MCP2551-I/P device provides differential transmit and receive capability for the CAN protocol controller, and is fully compatible with the ISO-11898 standard, including 24V requirements. It will operate at speeds of up to 1Mb/s. Typically, each node in a CAN system must have a device to convert the digital signals generated by a CAN controller to signals suitable for transmission over the bus cabling (differential output). It also provides a buffer between the CAN controller and the high voltage spikes that can be generated on the CAN bus by outside sources (EMI, ESD, electrical transients, etc.).
Supports 1Mb/s operation
Implements ISO-11898 standard physical layer requirements
Suitable for 12V and 24V systems
Externally controlled slope for reduced RFI emissions
Detection of ground fault (permanent Dominant) on TXD input
Power-on Reset and voltage brown-out protection
An unpowered node or brown-out event will not disturb the CAN bus
Low current standby operation
Protection against damage due to short-circuit conditions (positive or negative battery voltage)
Protection against high voltage transients
Automatic thermal shutdown protection
Up to 112 nodes can be connected
High noise immunity due to differential bus implementation
Automotive
Communications & Networking
Consumer Electronics
Embedded Design & Development