LTC1484 Linear Technology, LTC1484 Datasheet - Page 12

LTC1484

Manufacturer Part Number

LTC1484

Description

Low Power RS485 Transceiver with Receiver Fail-Safe

Manufacturer

Linear Technology

Datasheet

1.LTC1484.pdf (16 pages)

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APPLICATIONS

LTC1484

Shutdown Mode

The receiver output (RO) and the driver outputs (A, B) can

be three-stated by taking the RE and DE pins high and low

respectively. Taking RE high and DE low at the same time

puts the LTC1484 into shutdown mode and I

20 A max.

In some applications (see CDMA), the A and B lines are

pulled to V

the line to a high or low state when all connected drivers

are disabled. In shutdown, the supply current will be

higher than 20 A due to the additional current drawn

through the external pull-up and the 22k input resistance

of the LTC1484.

ESD Protection

The ESD performance of the LTC1484 A and B pins is

characterized to meet 15kV using the Human Body

Model (100pF, 1.5k ), IEC-1000-4-2 level ( 8kV) contact

mode and IEC-1000-4-2 level 3 ( 8kV) air discharge

mode.

This means that external voltage suppressors are not

required in many applications when compared with parts

that are only protected to 2kV. Pins other than the A and

B pins are protected to 4.5kV typical per the Human Body

Model.

When powered up, the LTC1484 does not latch up or

sustain damage when the A and B pins are tested using any

of the three conditions listed. The data during the ESD

event may be corrupted, but after the event the LTC1484

continues to operate normally. The additional ESD protec-

tion at the A and B pins is important in applications where

these pins are exposed to the external world via connec-

tions to sockets.

Fault Protection

When shorted to –7V or 10V at room temperature, the

short-circuit current in the driver pins is limited by

internal resistance or protection circuitry to 250mA. Over

the industrial temperature range, the absolute maximum

positive voltage at any driver pin should be limited to 10V

to avoid damage to the driver pins. At higher ambient

or GND through external resistors to force

INFORMATION

drops to

temperatures, the rise in die temperature due to the

short-circuit current may trip the thermal shutdown

circuit.

When the driver is disabled, the receiver inputs can

withstand the entire – 7V to 12V RS485 common mode

range without damage.

The LTC1484 includes a thermal shutdown circuit which

protects the part against prolonged shorts at the driver

outputs. If a driver output is shorted to another output or

to V

temperature rises above 150 C, the thermal shutdown

circuit three-states the driver outputs to open the current

path. When the die cools down to about 130 C, the driver

outputs are taken out of three-state. If the short persists,

the part will heat again and the cycle will repeat. This

thermal oscillation occurs at about 10Hz and protects the

part from excessive power dissipation. The average fault

current drops as the driver cycles between active and

three-state. When the short is removed, the part will return

to normal operation.

Carrier Detect Multiple Access (CDMA) Application

In normal half-duplex RS485 systems, only one node can

transmit at a time. If an idle node suddenly needs to gain

access to the twisted pair while other communications are

in progress, it must wait its turn. This delay is unaccept-

able in safety-related applications. A scheme known as

Carrier Detect Multiple Access (CDMA) solves this prob-

lem by allowing any node to interrupt on-going communi-

cations.

Figure 11 shows four nodes in a typical CDMA communi-

cations system. In the absence of any active drivers, bias

resistors (1.2k) force a “1” across the twisted pair. All

drivers in the system are connected so that when enabled,

they transmit a “0”. This is accomplished by tying DI low

and using DE as the driver data input. A “1” is transmitted

by disabling the driver’s “0” output and allowing the bias

resistors to reestablish a “1” on the twisted pair.

Control over communications is achieved by asserting a

“0” during the time an active transmitter is sending a “1”.

Any node that is transmitting data watches its own

, the current will be limited to 250mA. If the die

LTC1484 Linear Technology, LTC1484 Datasheet - Page 12

LTC1484

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