NCV7382D (ON) PDF资料下载 Datasheet(3/16 页)

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参数资料

型号：	NCV7382D
厂商：	ON Semiconductor
文件页数：	3/16页
文件大小：	0K
描述：	IC TRANSCEIVER LIN ENH 8-SOIC
产品变化通告：	Product Discontinuation 21/Jun/2007
标准包装：	98
类型：	收发器
驱动器/接收器数：	1/1
规程：	LIN
电源电压：	7 V ~ 18 V
安装类型：	表面贴装
封装/外壳：	8-SOIC（0.154"，3.90mm 宽）
供应商设备封装：	8-SOICN
包装：	管件

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NCV7382

http://onsemi.com

System designs can have an external resistor (1 k) in

series with an external diode to the battery, but short circuit

current from bus to ground can be reduced dramatically by

using the INH pin as termination pin for the master pullup

(See Figure 10 - Application Circuitry).

With this new setup, the controller can detect a short

circuit of the bus to ground (RxD timeout) and the

transceiver can be set into sleep mode. The INH pin will be

floating in this case, and the external master pullup resistor

will be disconnected from the bus line. Additionally, the

internal slave termination resistor is switched off and only

a high impedance termination is applied to the bus (typ.

mA). This will reduce the failure current of the system

by at least an order of magnitude, preventing a fast

discharge of the car battery. If the failure is removed, the

bus level will become recessive again and will wakeup the

system even if no local wakeup is present or possible.

Thermal Overload

The NCV7382 is protected against thermal overloads. If

the chip temperature exceeds the thermal shutdown

threshold, the transmitter is switched off until thermal

recovery. The receiver continues to work during thermal

shutdown.

Undervoltage VCC

The VCC undervoltage lockout feature disables the

transmitter until it is above the undervoltage lockout

threshold to prevent undesirable bus traffic.

Application Hints

LIN System Parameter

Bus Loading Requirements

Parameter

Symbol

Min

Typ

Max

Unit

Operating Voltage Range

VBAT

8.0

Voltage Drop of Reverse Protection Diode

VDrop_rev

0.4

0.7

1.0

Voltage Drop at the Serial Diode in Pullup Path

VSerDiode

0.4

0.7

1.0

Battery Shift Voltage

VShift_BAT

0.1

VBAT

Ground Shift Voltage

VShift_GND

0.1

VBAT

Master Termination Resistor

Rmaster

900

1000

1100

Slave Termination Resistor

Rslave

Number of System Nodes

2.0

Total Length of Bus Line

LENBUS

Line Capacitance

CLINE

100

150

pF/m

Capacitance of Master Node

CMaster

220

Capacitance of Slave Node

CSlave

220

250

Total Capacitance of the Bus including Slave and Master

Capacitance

CBUS

1.0

4.0

Network Total Resistance

RNetwork

537

863

Time Constant of Overall System

1.0

5.0

Recommendations for System Design

The goal of the LIN physical layer standard is to have a

universal definition of the LIN system for plug and play

solutions in LIN networks up to 20 kbd bus speeds.

In case of small and medium LIN networks, it's

recommended to adjust the total network capacitance to at

least 4.0 nF for good EMC and EMI behavior. This can be

done by setting only the master node capacitance. The

slave node capacitance should have a unit load of typically

220 pF for good EMC/EMI behavior.

In large networks with long bus lines and the maximum

number of nodes, some system parameters can exceed the

defined limits and of the LIN system designer must

intervene.

The whole capacitance of a slave node is not only the unit

load capacitor itself. Additionally, there is the capacitance

of wires and connectors, and the internal capacitance of the

LIN transmitter. This internal capacitance is strongly

dependent on the technology of the IC manufacturer and

should be in the range of 30 pF to 150 pF. If the bus lines

have a total length of nearly 40 m, the total bus capacitance

can exceed the LIN system limit of 10 nF.

A second parameter of concern is the integrated slave

termination resistor tolerance. If most of the slave nodes

have a slave termination resistance at the allowed

maximum of 60 k

W, the total network resistance is more

than 700

W. Even if the total network capacitance is below

or equal to the maximum specified value of 10 nF, the

network time constant is higher than 7.0

ms.

This problem can be solved only by adjusting the master

termination resistor to the required maximum network time

constant of 5.0

ms (max).

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