LTC490CS8#PBF Linear Technology, LTC490CS8#PBF Datasheet - Page 7

LTC490CS8#PBF

Manufacturer Part Number

LTC490CS8#PBF

Description

IC TXRX RS485 LOW POWER 8-SOIC

Manufacturer

Linear Technology

Type

Transceiverr

Datasheet

1.LTC490CN8PBF.pdf (12 pages)

Specifications of LTC490CS8#PBF

Number Of Drivers/receivers

1/1

Protocol

RS422, RS485

Voltage - Supply

4.75 V ~ 5.25 V

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

No. Of Drivers

Supply Voltage Range

4.75V To 5.25V

Driver Case Style

SOIC

No. Of Pins

Operating Temperature Range

0Â°C To +70Â°C

Msl

MSL 1 - Unlimited

Termination Type

SMD

Rohs Compliant

Yes

Filter Terminals

SMD

Ic Interface Type

RS422, RS485

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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APPLICATIO S I FOR ATIO

less flexible, more bulky, and more costly than twisted

pairs. Many cable manufacturers offer a broad range of

120 cables designed for RS485 applications.

Losses in a transmission line are a complex combination

of DC conductor loss, AC losses (skin effect), leakage and

AC losses in the dielectric. In good polyethylene cables

such as the Belden 9841, the conductor losses and

dielectric losses are of the same order of magnitude,

leading to relatively low overall loss (Figure 7).

When using low loss cables, Figure 8 can be used as a

guideline for choosing the maximum line length for a given

data rate. With lower quality PVC cables, the dielectric loss

factor can be 1000 times worse. PVC twisted pairs have

Figure 8. RS485 Cable Length Specification. Applies for 24

Gauge, Polyethylene Dielectric Twisted Pair

Figure 7. Attenuation vs Frequency for Belden 9841

0.1

1.0

10k

100

0.1

10k

FREQUENCY (MHz)

1.0

100k

DATA RATE (bps)

2.5M

LTC490 • F07

LTC490 • F08

100

10M

terrible losses at high data rates (>100kbs), and greatly

reduce the maximum cable length. At low data rates

however, they are acceptable and much more economical.

Cable Termination

The proper termination of the cable is very important.

If the cable is not terminated with its characteristic

impedance, distorted waveforms will result. In severe

cases, distorted (false) data and nulls will occur.

A quick look at the output of the driver will tell how well the

cable is terminated. It is best to look at a driver connected

to the end of the cable, since this eliminates the possibility

of getting reflections from two directions. Simply look at

the driver output while transmitting square wave data. If

the cable is terminated properly, the waveform will look

like a square wave (Figure 9). If the cable is loaded

excessively (47 ), the signal initially sees the surge

impedance of the cable and jumps to an initial amplitude.

The signal travels down the cable and is reflected back out

of phase because of the mistermination. When the re-

flected signal returns to the driver, the amplitude will be

lowered. The width of the pedestal is equal to twice the

electrical length of the cable (about 1.5ns/foot). If the

Rt = 120

Rt = 470

Rt = 47

DRIVER

Figure 9. Termination Effects

PROBE HERE

RECEIVER

LTC490

LTC490 • F09

490fb

LTC490CS8#PBF Linear Technology, LTC490CS8#PBF Datasheet - Page 7

LTC490CS8#PBF

Specifications of LTC490CS8#PBF

Available stocks

Related parts for LTC490CS8#PBF