LTC487CSW#TR Linear Technology, LTC487CSW#TR Datasheet - Page 8
LTC487CSW#TR
Manufacturer Part Number
LTC487CSW#TR
Description
IC DRIVER RS485 QUAD LP 16SOIC
Manufacturer
Linear Technology
Type
Driverr
Datasheet
1.LTC487CNPBF.pdf
(12 pages)
Specifications of LTC487CSW#TR
Number Of Drivers/receivers
4/0
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
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Part Number
Manufacturer
Quantity
Price
LTC487
applicaTions inForMaTion
AC Cable Termination
Cable termination resistors are necessary to prevent un-
wanted reflections, but they consume power. The typical
differential output voltage of the driver is 2V when the
cable is terminated with two 120Ω resistors, causing
33mA of DC current to flow in the cable when no data is
being sent. This DC current is about 220 times greater than
the supply current of the LTC487. One way to eliminate
the unwanted current is by AC coupling the termination
resistors as shown in Figure 10.
The coupling capacitor must allow high-frequency energy
to flow to the termination, but block DC and low frequen-
cies. The dividing line between high and low frequency
depends on the length of the cable. The coupling ca-
pacitor must pass frequencies above the point where the
line represents an electrical one-tenth wavelength. The
value of the coupling capacitor should therefore be set at
16.3pF per foot of cable length for 120Ω cables. With the
coupling capacitors in place, power is consumed only
on the signal edges, and not when the driver output is
idling at a 1 or 0 state. A 100nF capacitor is adequate for
lines up to 4000 feet in length. Be aware that the power
savings start to decrease once the data rate surpasses
1/(120Ω • C).
Receiver Open-Circuit Fail-Safe
Some data encoding schemes require that the output of
the receiver maintains a known state (usually a logic 1)
when the data is finished transmitting and all drivers on
the line are forced into three-state. All LTC RS485 receivers
have a fail-safe feature which guarantees the output to be
in a logic 1 state when the receiver inputs are left floating
(open-circuit). However, when the cable is terminated with
120Ω, the differential inputs to the receiver are shorted
Figure 10. AC-Coupled Termination
C = LINE LENGTH (FT) 16.3pF
C
120
RECEIVER
LTC487 TA11
RX
together, not left floating. Because the receiver has about
70mV of hysteresis, the receiver output will maintain the
last data bit received.
If the receiver output must be forced to a known state, the
circuits of Figure 11 can be used.
The termination resistors are used to generate a DC
bias which forces the receiver output to a known state,
in this case a logic 0. The first method consumes about
208mW and the second about 8mW. The lowest power
solution is to use an AC termination with a pull-up resis-
tor. Simply swap the receiver inputs for data protocols
ending in logic 1.
Fault Protection
All of LTC’s RS485 products are protected against ESD
transients up to 2kV using the human body model
(100pF , 1.5kΩ). However, some applications need more
protection. The best protection method is to connect a
bidirectional TransZorb from each line side pin to ground
(Figure 12).
5V
Figure 11. Forcing ‘0’ When All Drivers Are Off
5V
110
100k
5V
130
1.5k
140
C
130
120
110
1.5k
RECEIVER
RECEIVER
RECEIVER
LTC487 TA12
RX
RX
RX
487fc
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