CAN FD TRANSCEIVER Network Interfaces 347

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Part	Manufacturer	Telecom IC Type	Temperature Grade	Terminal Form	No. of Terminals	Package Code	Package Shape	Package Body Material	Surface Mount	No. of Functions	No. of Channels	Technology	Screening Level	No. of Transceivers	Maximum Supply Current	Nominal Supply Voltage	Package Style (Meter)	Package Equivalence Code	Terminal Pitch	Maximum Operating Temperature	Minimum Operating Temperature	Terminal Finish	Terminal Position	Data Rate	JESD-30 Code	Moisture Sensitivity Level (MSL)	Maximum Seated Height	Width	JESD-609 Code	Maximum Time At Peak Reflow Temperature (s)	Peak Reflow Temperature (C)	Length
TCAN1146DRQ1	Texas Instruments	CAN FD TRANSCEIVER	AUTOMOTIVE	GULL WING	14	SOP	RECTANGULAR	PLASTIC/EPOXY	YES	1	1		AEC-Q100	1	120 mA	5 V	SMALL OUTLINE	SOP14,.25	1.27 mm	150 Cel	-40 Cel	NICKEL PALLADIUM GOLD	DUAL	5 Mbps	S-PDSO-G14	2	1.75 mm	3.9 mm	e4	30	260	8.65 mm
TCAN1144DYYRQ1	Texas Instruments	CAN FD TRANSCEIVER	AUTOMOTIVE	GULL WING	14	TSSOP	RECTANGULAR	PLASTIC/EPOXY	YES	1	1		AEC-Q100	1	120 mA	5 V	SMALL OUTLINE, THIN PROFILE, SHRINK PITCH	TSSOP14,.13,20	.5 mm	150 Cel	-40 Cel	NICKEL PALLADIUM GOLD	DUAL	5 Mbps	R-PDSO-G14	1	1.1 mm	2 mm	e4	30	260	4.2 mm
PTCAN1463DMTRQ1	Texas Instruments	CAN FD TRANSCEIVER	AUTOMOTIVE	NO LEAD	14		RECTANGULAR	PLASTIC/EPOXY	YES	1	1		AEC-Q100	1						165 Cel	-40 Cel		DUAL	8 Mbps	R-PDSO-N14
TCAN1145DMTRQ1	Texas Instruments	CAN FD TRANSCEIVER	AUTOMOTIVE	NO LEAD	14	HVSON	RECTANGULAR	PLASTIC/EPOXY	YES	1	1		AEC-Q100	1	120 mA	5 V	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE	SOLCC14,.12,25	.65 mm	150 Cel	-40 Cel	NICKEL PALLADIUM GOLD	DUAL	5 Mbps	S-PDSO-N14	2	1 mm	3 mm	e4	30	260	4.5 mm
PTCAN1057DDFRQ1	Texas Instruments	CAN FD TRANSCEIVER	AUTOMOTIVE	GULL WING	8	TSSOP	RECTANGULAR	PLASTIC/EPOXY	YES	1	1		AEC-Q100	1			SMALL OUTLINE, THIN PROFILE, SHRINK PITCH	TSSOP8,.11	.65 mm	125 Cel	-40 Cel		DUAL	8 Mbps	R-PDSO-G8		1.1 mm	1.6 mm				2.9 mm
TCAN1046AVDYYRQ1	Texas Instruments	CAN FD TRANSCEIVER		GULL WING	14	TSSOP	RECTANGULAR	PLASTIC/EPOXY	YES	1	2		AEC-Q100	2	260 mA	5 V	SMALL OUTLINE, THIN PROFILE, SHRINK PITCH	TSSOP14,.13,20	.5 mm	150 Cel	-40 Cel	NICKEL PALLADIUM GOLD	DUAL	8 Mbps	R-PDSO-G14	1	1.1 mm	2 mm	e4		260	4.2 mm
TCAN1046ADMTRQ1	Texas Instruments	CAN FD TRANSCEIVER		NO LEAD	14	HVSON	RECTANGULAR	PLASTIC/EPOXY	YES	1	2		AEC-Q100	2	260 mA	5 V	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE	SOLCC14,.12,25	.65 mm	150 Cel	-40 Cel	NICKEL PALLADIUM GOLD	DUAL	8 Mbps	R-PDSO-N14	2	1 mm	4.5 mm	e4		260	3 mm
PTCAN1057ADDFRQ1	Texas Instruments	CAN FD TRANSCEIVER	AUTOMOTIVE	GULL WING	8	TSSOP	RECTANGULAR	PLASTIC/EPOXY	YES	1	1		AEC-Q100	1		5 V	SMALL OUTLINE, THIN PROFILE, SHRINK PITCH	TSSOP8,.11	.65 mm	150 Cel	-40 Cel		DUAL	8 Mbps	R-PDSO-G8		1.1 mm	1.6 mm				2.9 mm
NCV7446MW0R2G	Onsemi	CAN FD TRANSCEIVER	AUTOMOTIVE	NO LEAD	14	HVSSON	RECTANGULAR	PLASTIC/EPOXY	YES	2		CMOS	AEC-Q100	2	105 mA	5 V	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE, SHRINK PITCH	SOLCC14,.12,25	.65 mm	150 Cel	-40 Cel	MATTE TIN	DUAL	5 Mbps	R-PDSO-N14	1	.9 mm	3 mm	e3	30	260	4.5 mm
NCV7357MW3R2G	Onsemi	CAN FD TRANSCEIVER	AUTOMOTIVE	NO LEAD	8	HVSON	SQUARE	UNSPECIFIED	YES	1			AEC-Q100	1	105 mA	5 V	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE	SOLCC8,.12,25	.65 mm	150 Cel	-40 Cel	MATTE TIN	DUAL	5 Mbps	S-XDSO-N8	1	.9 mm	3 mm	e3	30	260	3 mm
NCV7450DB0R2G	Onsemi	CAN FD TRANSCEIVER	AUTOMOTIVE	GULL WING	16	HTSSOP	RECTANGULAR	PLASTIC/EPOXY	YES	1		CMOS	AEC-Q100	1		6 V	SMALL OUTLINE, HEAT SINK/SLUG, THIN PROFILE, SHRINK PITCH	TSSOP16,.25	.65 mm	125 Cel	-40 Cel	MATTE TIN	DUAL	5 Mbps	R-PDSO-G16	2	1.1 mm	4.4 mm	e3	30	260	5 mm
935360434557	NXP Semiconductors	CAN FD TRANSCEIVER		GULL WING	48	HLFQFP	SQUARE	PLASTIC/EPOXY	YES	1			AEC-Q100	1			FLATPACK, HEAT SINK/SLUG, LOW PROFILE, FINE PITCH	QFP48,.35SQ,20	.5 mm	150 Cel	-40 Cel		QUAD		S-PQFP-G48		1.6 mm	7 mm				7 mm
MC35FS6515CAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4508NAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6506CAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4508NAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4505NAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6515NAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4505CAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6518CAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4507NAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6505NAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6507CAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4507CAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4505CAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4506CAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6515NAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6517NAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6508CAER2	NXP Semiconductors	CAN FD TRANSCEIVER																								3				40	260
MC35FS6505CAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4506NAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6518NAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4506CAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4507CAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6508CAE	NXP Semiconductors	CAN FD TRANSCEIVER																								3				40	260
MC35FS6505CAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6506CAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6506NAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6518CAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6517CAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6508NAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6508NAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6516NAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6517CAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6517NAER2	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS6516CAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
MC35FS4506NAE	NXP Semiconductors	CAN FD TRANSCEIVER											AEC-Q100													3				40	260
935324989557	NXP Semiconductors	CAN FD TRANSCEIVER	AUTOMOTIVE	GULL WING	48	HLFQFP	SQUARE	PLASTIC/EPOXY	YES	1							FLATPACK, HEAT SINK/SLUG, LOW PROFILE, FINE PITCH		.5 mm	125 Cel	-40 Cel	TIN	QUAD		S-PQFP-G48	3	1.6 mm	7 mm	e3	40	260	7 mm

Network Interfaces

A network interface is an electronic component that connects a device to a network, enabling it to communicate with other devices and access shared resources. Network interfaces are essential for modern communication systems, providing a means of transmitting and receiving data over a variety of communication channels and protocols.

Some common types of network interfaces include Ethernet, Wi-Fi, Bluetooth, and cellular network interfaces. Ethernet is a wired network interface that uses twisted-pair cables to transmit data over local area networks (LANs). Wi-Fi is a wireless network interface that uses radio waves to transmit data over wireless local area networks (WLANs). Bluetooth is a short-range wireless network interface that is used for connecting peripheral devices such as keyboards and headphones to computers and mobile devices. Cellular network interfaces are used for mobile communications over cellular networks, providing internet connectivity and voice communication.

Network interfaces use various protocols and standards to ensure reliable and efficient data transmission. These protocols include TCP/IP, which is used for internet communication, and IEEE 802.11, which is used for wireless LANs. Network interfaces also use techniques such as packet framing, error correction, and flow control to ensure that data is transmitted accurately and efficiently.

In addition to providing a means of data transmission, network interfaces also enable devices to access shared resources such as printers and file servers. They also enable devices to communicate with each other, allowing for collaboration and information sharing.