NCV7351D10R2G Datasheet NCV7351FD13R2G, NCV7351D13R2G, NCV7351D1ER2G | P1-P3

June, 2016 − Rev. 3

1 Publication Order Number:

NCV7351/D

NCV7351, NCV7351F

High Speed CAN, CAN FD

Transceiver

The NCV7351 CAN transceiver is the interface between a

controller area network (CAN) protocol controller and the physical

bus and may be used in both 12 V and 24 V systems. The transceiver

provides differential transmit capability to the bus and differential

receive capability to the CAN controller.

The NCV7351 is an addition to the CAN high−speed transceiver

family complementing NCV734x CAN stand−alone transceivers and

previous generations such as AMIS42665, AMIS3066x, etc. The

NCV7351F is an addition to the family based on NCV7351

transceiver with improved bit timing symmetry behavior to cope with

CAN flexible data rate requirements (CAN FD).

Due to the wide common−mode voltage range of the receiver inputs

and other design features, the NCV7351 is able to reach outstanding

levels of electromagnetic susceptibility (EMS). Similarly, extremely

low electromagnetic emission (EME) is achieved by the excellent

matching of the output signals.

Key Features

• Compatible with the ISO 11898−2 Standard

• High Speed (up to 1 Mbps)

• NCV7351F Version Has Specification for Loop Delay Symmetry

(up to 2 Mbps according to ISO11898−2, up to 5 Mbps for

information only)

• V

Pin on NCV7351(F)D13 Version Allowing Direct Interfacing

with 3 V to 5 V Microcontrollers

• EN Pin on NCV7351D1E Version Allowing Switching the

Transceiver to a Very Low Current OFF Mode

• Excellent Electromagnetic Susceptibility (EMS) Level Over Full

Frequency Range. Very Low Electromagnetic Emissions (EME) Low

EME also Without Common Mode (CM) Choke

• Bus Pins Protected Against >15 kV System ESD Pulses

• Transmit Data (TxD) Dominant Time−out Function

• Under all Supply Conditions the Chip Behaves Predictably. No

Disturbance of the Bus Lines with an Unpowered Node

• Bus Pins Short Circuit Proof to Supply Voltage and Ground

• Bus Pins Protected Against Transients in an Automotive

Environment

• Thermal Protection

• These are Pb−Free Devices

Quality

• NCV Prefix for Automotive and Other Applications Requiring

Unique Site and Control Change Requirements; AEC−Q100

Qualified and PPAP Capable

Typical Applications

• Automotive

• Industrial Networks

www.onsemi.com

See detailed ordering and shipping information in the package

dimensions section on page 12 of this data sheet.

ORDERING INFORMATION

PIN ASSIGNMENT

MARKING DIAGRAM

SOIC−8

CASE 751AZ

NV7351−y / NV7351Fy

y = 3, 0, or E

F = Flexible data rate version

(no dash used for CAN FD version)

A = Assembly Location

L = Wafer Lot

Y = Year

W = Work Week

G = Pb−Free Package

NV7351−y

ALYW

NCV7351(F)D13R2G

TxD

RxD

GND

CANL

CANH

NCV7351−3

NCV7351D10R2G

TxD

RxD

GND

CANL

CANH

NCV7351−0

NCV7351D1ER2G

TxD

RxD

GND

CANL

CANH

NCV7351−E

NCV7351, NCV7351F

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Table 1. KEY TECHNICAL CHARACTERISTICS AND OPERATING RANGES

Symbol Parameter Conditions Min Max Unit

Power supply voltage 4.5 5.5 V

Undervoltage detection voltage

on pin V

3.5 4.5 V

CANH

DC voltage at pin CANH 0 < V

< 5.5 V; no time limit −50 +50 V

CANL

DC voltage at pin CANL 0 < V

< 5.5 V; no time limit −50 +50 V

CANH,L

DC voltage between CANH and

CANL pin

0 < V

< 5.5 V −50 +50 V

CANH,Lmax

DC voltage at pin CANH and

CANL during load dump

condition

0 < V

< 5.5 V, less than one second − +58 V

ESD

Electrostatic discharge voltage IEC 61000−4−2 at pins CANH and

CANL

−15 +15 kV

O(dif)(bus_dom)

Differential bus output voltage

in dominant state

45 W < R

< 65 W

1.5 3 V

CM−range Input common−mode range for

comparator

Guaranteed differential receiver thresh-

old and leakage current

−30 +35 V

Supply current Dominant; V

TxD

= 0 V

Recessive; V

TxD

= V

−

2.5

7.5

CCS

Supply current in silent mode 1.4 3.5 mA

Propagation delay TxD to RxD See Figure 5 45 245 ns

Junction temperature −40 +150 °C

Functional operation above the stresses listed in the Recommended Operating Ranges is not implied. Extended exposure to stresses beyond

the Recommended Operating Ranges limits may affect device reliability.

NCV7351, NCV7351F

www.onsemi.com

BLOCK DIAGRAM

Mode control

NCV7351

GND

RxD

COMP

Timer

TxD

Driver

control

Thermal

shutdown

CANH

CANL

EN(1)

Figure 1. Block Diagram of NCV7351

/NC(2)

(3)

(1) Only present in the NCV7351D1E

(2) VIO for version NCV7351D13

NC for version NCV7351D10

(3) Internally connected to V

on versions without V

Table 2. NCV7351: PIN FUNCTION DESCRIPTION

Number

Name

Pin Type Pin Function

1 TxD digital input, internal pull−up

Transmit data input; low input Ù dominant driver

2 GND ground Ground

3 V

supply Supply voltage

4 RxD digital output

Receive data output; dominant bus Ù low output

NC not connected Not connected, NCV7351−0 version only

supply Supply voltage for digital inputs/outputs, NCV7351−3 Version only

EN digital input, internal pull−down Enable control input, NCV7351−E version only

6 CANL high voltage input/output Low−level CAN bus line (low in dominant mode)

7 CANH high voltage input/output High−level CAN bus line (high in dominant mode)

8 S digital input, internal pull−down Silent mode control input

P1-P3 P4-P6 P7-P9 P10-P12 P13-P13

NCV7351D10R2G

Mfr. #:

Buy NCV7351D10R2G

Manufacturer:

ON Semiconductor

Description:

CAN Interface IC High Spd Lo Pwr CAN Transceiver

Lifecycle:

New from this manufacturer.

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NCV7351D10R2G

NCV7351D10R2G

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