MAX13020 Datasheet, PDF(12/15 Page) Maxim Integrated Products – ±60V Fault-Protected LIN Transceivers

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MAX13020 Datasheet, PDF (12/15 Pages) Maxim Integrated Products – ±60V Fault-Protected LIN Transceivers

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Â±60V Fault-Protected LIN Transceivers

10ÂµA pullup. In applications where local wake-up capa-

bility is not required, connect NWAKE to BAT. For

improved EMI performance, connect NWAKE to BAT

through a 5kâ¦ resistance.

A remote wake-up event is generated when a reces-

sive-dominant-recessive sequence is detected on LIN.

The dominant state must be asserted longer than tBUS

to generate a remote wake-up (Figure 3).

Wake-Up Source Recognition

When a wake-up event is detected, the MAX13020/

MAX13021 enter standby mode and present the wake-up

interrupt on RXD as a logic-low. The wake-up source flag

is presented on TXD as a strong pulldown in the case of a

local wake-up. In the case of a remote wake-up, TXD is

pulled low by the internal 330kâ¦ resistor only. To read the

wake-up source flag, pull TXD high with an external

pullup resistor (see Reading the Wake-Up Source Flag

section.) The wake-up interrupt and wake-up source flag

are cleared when the MAX13020/MAX13021 transition to

normal slope mode or low slope mode. The thermal-shut-

down circuit forces the driver outputs into high-imped-

ance state if the die temperature exceeds +160Â°C.

Normal operation resumes when the die temperature

cools to +140Â°C.

Fail-Safe Features

The MAX13020/MAX13021 include a number of fail-

safe features to handle fault conditions. Internal pull-

downs are provided on control inputs TXD and NSLP to

force the device into a known state in the event that

these inputs are disconnected.

LIN Short-Circuit Protection

The LIN transmitter is current-limited to prevent dam-

age from LIN-to-BAT shorts.

TXD Dominant Timeout

If TXD is shorted to GND or is otherwise held low, the

resulting dominant LIN state blocks traffic on the LIN

bus. In normal slope and low slope modes, the LIN

transmitter is disabled if TXD is held at logic-low for

longer than tTXD(DOM)(DIS). The transmitter is re-

enabled on the next rising edge on TXD.

Loss of Power

If BAT or GND are disconnected, interrupting power to

the MAX13020/MAX13021, LIN remains high imped-

ance to avoid loading the LIN bus. Additionally, RXD is

high impedance when BAT is disconnected, preventing

current flow from a connected microcontroller.

LIN RECESSIVE

VLIN 0.4 x VBAT

tBUS

0.6 x VBAT

LIN DOMINANT

SLEEP MODE

Figure 3. Remote Wake-Up Timing

STANDBY

MODE

LIN Bus Dominant Management (MAX13021)

The MAX13021 provides LIN bus dominant manage-

ment protection to reduce current consumption during

a LIN-to-GND short condition. When the LIN-to-GND

short is cleared, and a recessive LIN state is detected,

the MAX13021 returns to standby or sleep mode.

ESD Protection

As with all Maxim devices, ESD-protection structures

are incorporated on all pins to protect against ESDs

encountered during handling and assembly. The LIN,

NWAKE, and BAT pins are protected up to Â±4kV as

measured by the IEC61000-4-4 Contact Discharge

Model. LIN is protected to Â±12kV Human Body Model.

Protection structures prevent damage caused by ESD

events in all operating modes and when the device is

unpowered.

ESD Test Conditions

ESD performance depends on a variety of conditions.

Contact Maxim for a reliability report documenting test

setup, methodology, and results.

Applications Information

Master LIN Nodes

Configure the MAX13020/MAX13021 as a master LIN

node by connecting a 1kâ¦ resistor from LIN to INH with

a blocking diode (see the Typical Operating Circuit.)

INH is held at a logic-high level in normal slope, low

slope, standby, and fault (MAX13021) modes. INH is

high impedance in sleep mode and disable mode

(MAX13021) to reduce power consumption.

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