XR33032 Datasheet, PDF(15/19 Page) Exar Corporation – WIDE SUPPLY 18V TOLERANT RS-485/RS-422 TRANSCEIVERS

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XR33032 Datasheet, PDF (15/19 Pages) Exar Corporation – WIDE SUPPLY 18V TOLERANT RS-485/RS-422 TRANSCEIVERS

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REV. 1.0.0

PRODUCT DESCRIPTION

XR33032/35/38

WIDE SUPPLY 18V TOLERANT RS-485/RS-422 TRANSCEIVERS

The XR33032/35/38 RS-485/422 devices are part of Exarâs high performance serial interface product line. The

analog bus pins can survive direct shorts up to Â±18V, and are protected against ESD events up to Â±15kV.

ENHANCED FAILSAFE

Standard RS-485 differential receivers will be in an indeterminate state whenever the analog bus pins are not

being driven. The enhanced failsafe feature of the XR33032/35/38 family guarantees a logic-high receiver

output when the receiver inputs are open, shorted, or when they are connected to a terminated transmission

line with all drivers disabled. In a terminated bus with all transmitters disabled, the receiversâ differential input

voltage is pulled to 0V by the termination. The XR33032/35/38 family interprets 0V differential as a logic high

with a minimum 50mV noise margin while maintaining compliance with the EIA/TIA-485 standard of Â±200mV.

Although the XR33032/35/38 family does not need failsafe biasing resistors, it can operate without issue if

biasing is used.

RECEIVER INPUT FILTERING

XR33032 and XR33035 receivers incorporate internal filtering in addition to input hysteresis. This filtering

enhances noise immunity by ignoring signals that do not meet a minimum pulse width of 30ns. Receiver

propagation delay increases slightly due to this filtering. The high speed XR33038 device does not have this

input filtering.

HOT-SWAP CAPABILITY

When VCC is first applied the driver enable and receiver enable (DE and RE) are held inactive for

approximately 10 microseconds. During power ramp-up other system ICs may drive unpredictable values, or

tristated lines may be influenced by stray capacitance. The hot-swap feature prevents these devices from

driving any output signal until power has stabilized. After the initial 10Âµs, the driver and receiver enable pins are

weakly pulled to their disabled states (low for DE, high for RE) until the first transition. After the first transition,

the DE and RE pins operate as high impedance inputs.

If circuit boards are inserted into an energized backplane (commonly called "live insertion" or "hot-swap")

power may suddenly be applied to all circuits. Without the hot-swap capability, this situation could improperly

enable the transceiverâs driver or receiver, driving invalid data onto shared busses and possibly causing driver

contention or device damage.

DRIVER OUTPUT PROTECTION

Two mechanisms prevent excessive output current and power dissipation caused by faults or by bus

contention. First, a driver current limit on the output stage provides immediate protection against short circuits

over the whole common-mode voltage range. Second, a thermal-shutdown circuit forces the driver outputs into

a high-impedance state if junction temperature becomes excessive.

LINE LENGTH and TERMINATIONS

The RS-485/RS-422 standard covers line lengths up to 4000ft. Maximum achievable line length is a function of

the data rate, cable characteristics and environmental noise. Termination prevents signal reflections by

eliminating the impedance mismatches on a transmission line. Line termination is generally used if rise and fall

times are shorter than the round-trip signal propagation time. Higher supply voltage will allow longer cables to

be used.

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