LTC489ISW#TR Linear Technology, LTC489ISW#TR Datasheet - Page 7
LTC489ISW#TR
Manufacturer Part Number
LTC489ISW#TR
Description
IC DRIVER RS485 QUAD LP 16SOIC
Manufacturer
Linear Technology
Type
Line Receiverr
Datasheet
1.LTC488CNPBF.pdf
(12 pages)
Specifications of LTC489ISW#TR
Number Of Drivers/receivers
0/4
Protocol
RS422, RS485
Voltage - Supply
4.75 V ~ 5.25 V
Mounting Type
Surface Mount
Package / Case
16-SOIC (0.300", 7.5mm Width)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
APPLICATIONS INFORMATION
Typical Application
A typical connection of the LTC488/LTC489 is shown in
Figure 5. Two twisted-pair wires connect up to 32 driver/
receiver pairs for half-duplex data transmission. There are
no restrictions on where the chips are connected to the
wires, and it isn’t necessary to have the chips connected
at the ends. However, the wires must be terminated only
at the ends with a resistor equal to their characteristic
impedance, typically 120Ω. The input impedance of a
receiver is typically 20k to GND, or 0.5 unit RS485 load,
so in practice 50 to 60 transceivers can be connected to
the same wires. The optional shields around the twisted-
pair help reduce unwanted noise, and are connected to
GND at one end.
Figure 6. Attenuation vs Frequency for Belden 9841
0.1
10
1
0.1
DX
1
DX
1/4 LTC486
FREQUENCY (MHz)
EN
EN
1
12
4
3
120Ω
10
EN
4889 F06
12
100
SHIELD
2
1/4 LTC486
Figure 5. Typical Connection
DX
DX
1
3
4
EN
Cables and Data Rate
The transmission line of choice for RS485 applications is a
twisted-pair. There are coaxial cables (twinaxial) made for
this purpose that contain straight-pairs, but these are less
fl exible, more bulky, and more costly than twisted-pairs.
Many cable manufacturers offer a broad range of 120Ω
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 cable 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 6).
When using low loss cables, Figure 7 can be used as a
guideline for choosing the maximum line length for a given
1/4 LTC488 OR
1/4 LTC489
SHIELD
1
RX
RX
3
10k
100
2
10
1k
Figure 7. Cable Length vs Data Rate
10k
120Ω
100k
1
DATA RATE (bps)
2
LTC488/LTC489
RX
1/4 LTC488 OR
1/4 LTC489
1M
2.5M
3
4889 F05
4889 F07
RX
10M
4889fb
7
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