AMIS-42671 Datasheet, PDF(6/13 Page) AMI SEMICONDUCTOR

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AMIS-42671 Datasheet, PDF (6/13 Pages) AMI SEMICONDUCTOR – High-Speed CAN Transceiver

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AMISâ42671

FUNCTIONAL DESCRIPTION

Operating Modes

The behavior of AMISâ42671 under various conditions is

illustrated in Table 5 below. In case the device is powered,

one of two operating modes can be selected through

Pin AUTB.

Table 5. FUNCTIONAL TABLE OF AMISâ42671 WHEN NOT CONNECTED TO THE BUS; x = donât care

VCC

Pin TxD

Pin AUTB

Pin CANH

Pin CANL

Bus State

4.75 to 5.25 V

High

(or floating)

Low

Dominant

4.75 to 5.25 V

(or floating)

VCC/2

Recessive

4.75 to 5.25 V

(or floating)

VCC/2

Recessive

VCC < PORL

(unpowered)

PORL < VCC < 4.75 V

>2 V

0 V < CANH <

0V < CANL <

Recessive

VCC

0 V < CANH <

0V < CANL <

Recessive

VCC

Pin RxD

HighâSpeed Mode

If pin AUTB is pulled low (or left floating), the transceiver

is in its highâspeed mode and is able to communicate via the

bus lines. The signals are transmitted and received to the

CAN controller via the pins TxD and RxD. The slopes on the

bus line outputs are optimized to give extremely low

electromagnetic emissions.

Autobaud Mode

If Pin AUTB is pulled high, AMISâ42671 is in Autobaud

mode. The transmitter is disabled while the receiver remains

active. All other IC functions also continue to operate.

Normal bus activity can be monitored at the RxD pin and

transmit data on TxD is looped back to RxD without

influencing the CAN communication.

TxD

CANH

CANL

RxD

AUTB

PC20071002.4

Figure 3. Simplified Schematic Diagram of Autobaud Function

In Autobaud mode the local CAN controller is able to

detect the used communication speed of other transmitting

network nodes. Bus communication is received and via the

RxD pin sent to the CAN controller. If the CAN controller

operates at the wrong baud rate, it will transmit an error

frame. This message will be looped back to the CAN

controller which will increment its error counter. The CAN

controller will be reset with another baud rate. When an

errorâfree message is received, the correct baud rate is

detected. A logic low may now be applied to Pin AUTB,

returning to the highâspeed mode.

Overtemperature Detection

A thermal protection circuit protects the IC from damage

by switching off the transmitter if the junction temperature

exceeds a value of approximately 160Â°C. Because the

transmitter dissipates most of the power, the power

dissipation and temperature of the IC is reduced. All other

IC functions continue to operate. The transmitter offâstate

resets when pin TxD goes high. The thermal protection

circuit is particularly necessary when a bus line

shortâcircuits.

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