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TCAN1042-Q1 Datasheet, PDF (19/32 Pages) Texas Instruments – Automotive Fault Protected CAN Tranceiver
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TCAN1042-Q1, TCAN1042V-Q1, TCAN1042H-Q1
TCAN1042HV-Q1, TCAN1042G-Q1, TCAN1042GV-Q1
TCAN1042HG-Q1, TCAN1042HGV-Q1
SLLSES9 – FEBRUARY 2016
9.4.2 Normal Mode
Select the normal mode of device operation by setting STB low. The CAN driver and receiver are fully
operational and CAN communication is bi-directional. The driver is translating a digital input on TXD to a
differential output on CANH and CANL. The receiver is translating the differential signal from CANH and CANL to
a digital output on RXD.
9.4.3 Standby Mode
Activate low power standby mode by setting STB high. The CAN driver and high speed receiver are turned off to
save system power. A low power receiver remains active to monitor the bus for a valid wake up pattern (WUP).
The RXD output will remain high until a valid WUP has been received.
9.4.3.1 Remote Wake Request via Wake Up Pattern (WUP) in Standby Mode
The TCAN1042 family offers a remote wake request feature that is used to indicate to the host micrcontroller that
the bus is active and the node should return to normal operation.
These devices use the multiple filtered dominant wake up pattern (WUP) from the ISO11898-2 (2016) to qualify
bus activity. Once a valid WUP has been received the wake request will be indicated to the micrcontroller by a
falling edge and low corresponding to a "filtered" dominant on the RXD output terminal.
The WUP consists of a filtered dominant pulse, followed by a filtered recessive pulse, and finally by a second
filtered dominant pulse. These filtered dominant, recessive, dominant pulses do not need to occur in immediate
succession. There is no timeout that will occur between filtered bits of the WUP. Once a full WUP has been
detected the device will continue to drive the RXD output low every time an additional filtered dominant signal is
received from the bus.
For a dominant or recessive signal to be considered "filtered", the bus must continually remain in that state for
more than tWK_FILTER. Due to variability in the tWK_FILTER, the following three scenarios can exist:
1. Bus signals that last less than tWK_FILTER(MIN) will never be detected as part of a valid WUP
2. Bus signals that last more than tWK_FILTER(MIN) but less than tWK_FILTER(MAX) may be detected as part of a valid
WUP
3. Bus signals that last more than tWK_FILTER(MAX) will always be detected as part of a valid WUP
Once the first filtered dominant signal is received, the device is now waiting on a filtered recessive signal, other
bus traffic will not reset the bus monitor. Once the filtered recessive signal is received, the monitor is now waiting
on a second filtered dominant signal, and again other bus traffic will not reset the monitor. After reception of the
full WUP, the device will transition to driving the RXD output pin low for the remainder of any dominant signal
that remains on the bus for longer than tWK_FILTER.
Figure 15. Wake Up Pattern (WUP)
Copyright © 2016, Texas Instruments Incorporated
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Product Folder Links: TCAN1042-Q1 TCAN1042V-Q1 TCAN1042H-Q1 TCAN1042HV-Q1 TCAN1042G-Q1
TCAN1042GV-Q1 TCAN1042HG-Q1 TCAN1042HGV-Q1