LTC1481IS8 View Datasheet(PDF) - Linear Technology

Part Name

Description

Manufacturer

LTC1481IS8

Ultra-Low Power RS485 Transceiver with Shutdown

Linear Technology 

UU W U

APPLICATIO S I FOR ATIO

VCC

SD3

P1

LOGIC

D1

OUTPUT

SD4

N1

D2 ESD

LTC1481 • F09

Figure 9. LTC1481 Output Stage

LOGIC

VCC

P1

D1

OUTPUT

N1

D2

LTC1481 • F10

Figure 10. Conventional CMOS Output Stage

The LTC1481 output stage will maintain a high impedance

state until the breakdown of the N-channel or P-channel is

reached when going positive or negative respectively. The

output will be clamped to either VCC or ground by a Zener

voltage plus a Schottky diode drop, but this voltage is well

beyond the RS485 operating range. Because the ESD

injected current in the N-well or substrate consists of

majority carriers, latch-up is prevented by careful layout

techniques. An ESD cell protects output against multiple

10kV human body model ESD strikes.

LTC1481

Low Power Operation

The LTC1481 is designed to operate with a quiescent

current of 120µA max. With the driver in three-state,ICC

will drop to this 120µA level. With the driver enabled there

will be additional current drawn by the internal 12k resis-

tor. Under normal operating conditions this additional

current is overshadowed by the current drawn by the

external bus impedance.

Shutdown Mode

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

can be placed in three-state mode by bringing RE high and

DE low respectively. In addition, the LTC1481 will enter

shutdown mode when RE is high and DE is low.

In shutdown the LTC1481 typically draws only 1µA of

supply current. In order to guarantee that the part goes

into shutdown, DE must be low and RE must be high for

at least 600ns simultaneously. If this time duration is less

than 50ns the part will not enter shutdown mode. Toggling

either RE or DE will wake the LTC1481 back up within

3.5µs.

Propagation Delay

Many digital encoding schemes are dependent upon the

difference in the propagation delay times of the driver and

receiver. Figure 11 shows the test circuit for the LTC1481

propagation delay.

The receiver delay times are:

tPLH – tPHL = 13ns Typ, VCC = 5V

The drivers skew times are:

Skew = 5ns Typ, VCC = 5V

10ns Max, VCC = 5V, TA = – 40°C to 85°C

TTL IN D

tr, tf < 6ns

100pF

R

54Ω

100pF

R

RECEIVER

OUT

LTC1481 • F11

Figure 11. Receiver Propagation Delay Test Circuit

Information furnished by Linear Technology Corporation is believed to be accurate and reliable.

However, no responsibility is assumed for its use. Linear Technology Corporation makes no represen-

tation that the interconnection of circuits as described herein will not infringe on existing patent rights.

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