MAX13050/MAX13052/MAX13053/MAX13054
Industry-Standard High-Speed CAN
Transceivers with ±80V Fault Protection
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Detailed Description
The MAX13050/MAX13052/MAX13053/MAX13054
±80V fault-protected CAN transceivers are ideal for
automotive and industrial network applications where
overvoltage protection is required. These devices pro-
vide a link between the CAN protocol controller and the
physical wires of the bus lines in a control area network
(CAN). These devices can be used for +12V and +42V
battery automotive and DeviceNet applications, requir-
ing data rates up to 1Mbps.
The MAX13050/MAX13052/MAX13053/MAX13054
dominant timeout prevents the bus from being blocked
by a hungup microcontroller. If the TXD input is held
low for greater than 1ms, the transmitter becomes dis-
abled, driving the bus line to a recessive state. The
MAX13054 +3.3V logic input allows the device to com-
municate with +3.3V logic, while operating from a +5V
supply. The MAX13050 and MAX13052 provide a split
DC-stabilized voltage. The MAX13053 has a reference
output that can be used to bias the input of a CAN con-
troller’s differential comparator.
All devices can operate up to 1Mbps (high-speed
mode). The MAX13052 slope-control feature allows the
user to program the slew rate of the transmitter for data
Pin Description
PIN
MAX13050
MAX13052
MAX13053
MAX13054
NAME
FUNCTION
1 1 1 1 TXD
Transmit Data Input. TXD is a CMOS/TTL-compatible input from a CAN controller
with a 25kΩ pullup to V
CC
. For the MAX13054, TXD is pulled to V
CC
2.
2 2 2 2 GND Ground
33 3 3 V
CC
Supply Voltage. Bypass V
CC
to GND with a 0.1μF capacitor.
4 4 4 4 RXD
Receive Data Output. RXD is a CMOS/TTL-compatible output from the physical
bus lines CANH and CANL. For the MAX13054, RXD output voltage is referenced
to the V
CC
2 supply voltage.
5 5 — — SPLIT
Common-Mode Stabilization Output. Output equaled to 0.5 x V
CC
. SPLIT goes
high impedance in standby mode .
6 6 6 6 CANL CAN Bus-Line Low
7 7 7 7 CANH CAN Bus-Line High
8 — — 8 STBY
Standby Input. Drive STBY low for high-speed operation. Drive STBY high to
place the device in low-current standby mode.
—8 —— RS
Mode-Select Input. Drive RS low or connect to GND for high-speed operation.
Connect a resistor between RS and GND to control output slope. Drive RS high to
put into standby mode.
— — 5 — REF Reference Output Voltage. Always on reference output voltage, set to 0.5 x V
CC.
—— 8 — S
Silent-Mode Input. Drive S low to enable TXD and to operate in high-speed
mode. Drive S high to disable the transmitter.
—— — 5 V
CC
2
Logic-Supply Input. V
CC
2 is the logic supply voltage for the input/output between
the CAN transceiver and microprocessor. V
CC
2 allows fully compatible +3.3V
logic on all digital lines. Bypass to GND with a 0.1μF capacitor. Connect V
CC
2 to
V
CC
for 5V logic compatibility.
