TJA1042T Datasheet, PDF(6/22 Page) NXP Semiconductors – High-speed CAN transceiver with Standby mode

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TJA1042T Datasheet, PDF (6/22 Pages) NXP Semiconductors – High-speed CAN transceiver with Standby mode

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NXP Semiconductors

TJA1042

High-speed CAN transceiver with Standby mode

7.2 Fail-safe features

7.2.1 TXD dominant time-out function

A âTXD dominant time-outâ timer is started when pin TXD is set LOW. If the LOW state on

pin TXD persists for longer than tto(dom)TXD, the transmitter is disabled, releasing the bus

lines to recessive state. This function prevents a hardware and/or software application

failure from driving the bus lines to a permanent dominant state (blocking all network

communications). The TXD dominant time-out timer is reset when pin TXD is set to HIGH.

The TXD dominant time-out time also defines the minimum possible bit rate of 40 kbit/s.

7.2.2 Bus dominant time-out function

In Standby mode a 'bus dominant time-out' timer is started when the CAN bus changes

from recessive to dominant state. If the dominant state on the bus persists for longer than

tto(dom)bus, the RXD pin is reset to HIGH. This function prevents a clamped dominant bus

(due to a bus short-circuit or a failure in one of the other nodes on the network) from

generating a permanent wake-up request. The bus dominant time-out timer is reset when

the CAN bus changes from dominant to recessive state.

7.2.3 Internal biasing of TXD and STB input pins

Pins TXD and STB have internal pull-ups to VIO to ensure a safe, defined state in case

one or both of these pins are left floating. Pull-up currents flow in these pins in all states;

both pins should be held HIGH in Standby mode to minimize standby current.

7.2.4

Undervoltage detection on pins VCC and VIO

Should VCC drop below the VCC undervoltage detection level, Vuvd(VCC), the transceiver

will switch to Standby mode. The logic state of pin STB will be ignored until VCC has

recovered.

Should VIO drop below the VIO undervoltage detection level, Vuvd(VIO), the transceiver will

switch off and disengage from the bus (zero load) until VIO has recovered.

7.2.5 Overtemperature protection

The output drivers are protected against overtemperature conditions. If the virtual junction

temperature exceeds the shutdown junction temperature, Tj(sd), the output drivers will be

disabled until the virtual junction temperature falls below Tj(sd) and TXD becomes

recessive again. Including the TXD condition ensures that output driver oscillation due to

temperature drift is avoided.

7.3 SPLIT output pin and VIO supply pin

Two versions of the TJA1042 are available, only differing in the function of a single pin.

Pin 5 is either a SPLIT output pin or a VIO supply pin.

7.3.1 SPLIT pin

Using the SPLIT pin on the TJA1042T in conjunction with a split termination network (see

Figure 3 and Figure 6) can help to stabilize the recessive voltage level on the bus. This

will reduce EME in networks with DC leakage to ground (e.g. from deactivated nodes with

poor bus leakage performance). In Normal mode, pin SPLIT delivers a DC output voltage

of 0.5VCC. In Standby mode or when VCC is off, pin SPLIT is floating.

TJA1042

Product data sheet

All information provided in this document is subject to legal disclaimers.

Rev. 7 â 8 May 2012

6 of 22

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