INTERSIL ISL32470E-78E

Application Note 1593
Author: Jeff Lies
Add a Loss of Signal (LOS) Indicator to Your RS-485 or
RS-422 Transceiver
Introduction
Rx Failsafe
A desirable feature on any network may be a Loss of Signal
(LOS) indicator. Such an indicator alerts a monitoring controller
that a potentially serious network error has occurred, thereby
allowing for notification and/or intervention. In an RS-485/
RS-422 network, a LOS may occur if a connector disconnects
from a board, if a cable fails, or if the network driver fails or
loses power. When this occurs, bus activity ceases - as shown
in Figure 1 - and an LOS detector would assert its output. This
application note discusses the RS-485/RS-422 receiver (Rx)
operation, explains how the Rx interprets the differential bus
voltages, and introduces a method for generating the desired
LOS indicator.
In RS-485/RS-422 terminology, “failsafe” is used to indicate
Rx functionality that drives the Rx output to a known state
when common bus faults occur. The logic high state typically
represents the idle (no transmission in progress) state, so
driving the Rx output to a logic high under fault conditions is
the usual failsafe implementation. Without the failsafe
function, an Rx output’s inadvertant logic low, or oscillation,
might be interpreted as a message start bit. This could cause a
processor to waste valuable time attempting to service
phantom messages.
5
LOS
VOLTAGE (V)
3
1
The most common form of failsafe is failsafe open, with
“open” referring to the condition where the Rx inputs are
floating. This can occur when a network bus is cut, or if the bus
connector separates from the networked device containing the
Rx. Most RS-485 Rx available today incorporate this function,
and it is typically accomplished via an internal pull-up resistor
on the noninverting (A) input. The pull-up is sized to ensure that
if the Rx inputs float, then the Rx input circuitry creates enough
of a positive offset so that the Rx comparator interprets the
input condition as a logic high.
The “Full-Failsafe” RS-485 Receiver
0
-1
VBUS
-3
-5
TIME (1µs/DIV)
FIGURE 1. TYPICAL LOS OPERATION
RS-485 Receiver (Rx) Basics
The RS-485/RS-422 Rx is a differential circuit (comparator)
that compares voltages at the noninverting and inverting
inputs (A and B), and outputs a corresponding logic level. Per
the Standards, if A-B (i.e., the differential input voltage) is
greater than +200mV, then the Rx outputs a logic high; if
A-B < -200mV, then the Rx outputs a logic low. Any differential
voltage between -200mV and +200mV is undefined, and the
Rx might output a logic high, a logic low, or may even oscillate.
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An improved differential Rx includes all the features
mentioned previously, plus the addition of circuitry to ensure
that the Rx is failsafe if the differential input voltage (VID) is 0V
(failsafe “shorted”). This condition may occur due to a cable
error (e.g., crimped), a connector error (shorted pins), or in
normally operating networks where multiple drivers operate
on a terminated bus (multi-point network). Multi-point
operation requires that all drivers be tri-statable, and there are
periods of time when all drivers are simultaneously tri-stated.
When this occurs, the differential termination resistor(s)
causes the bus voltage to collapse to the VID =0V condition. As
mentioned before, VID =0V is an undefined RS-485 level, so an
Rx with only failsafe open functionality may generate
erroneous start bits.
The full-failsafe Rx solves this problem by ensuring that the
VID =0V condition is recognized as a logic high input, so the Rx
output remains in the idle state. Full-failsafe functionality is
accomplished by designing the Rx so that the minimum input
high level is slightly negative (-10mV to -25mV), rather than the
+200mV used for standard RS-485 and RS-422 Rx. Note that
this new threshold definition remains RS-422 and RS-485
compliant.
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Application Note 1593
This full-failsafe feature can be exploited to detect the LOS bus
condition. The advantage of using full failsafe receivers for LOS
detection is that the VID =0V condition is now a valid input
condition. If the network is set up so that a LOS causes the
VID =0V condition, then the full-failsafe function can be utilized to
detect the LOS.
Adding an Additional Full-Failsafe Rx Allows
LOS Detection
Figure 2 illustrates circuitry that can implement an LOS detection
function. The transceiver block can be any RS-422 or RS-485 IC
with a full-failsafe Rx (see Table 1 for a list of Intersil full-failsafe
Rx devices), and at least one termination resistor (RT) is required
to collapse the bus voltage when the bus is not actively driven.
Adding a second full-failsafe Rx - with its inputs connected
opposite to those of the primary Rx - enables the LOS circuit to
distinguish between the VID =0V bus state and the normal Data =
1 bus state. When the bus is actively driven, RXD and RXD will be
in opposite states (see Figure 3). The only time that RXD and RXD
are in the same state is when the bus voltage is 0V, because both
Rx interpret this as a logic high input. ANDing the two Rx outputs
yields an active high LOS signal (see Figure 4). Propagation delay
differences (skews) between the transceiver Rx and the
secondary Rx may cause glitches on the LOS signal. Adding a low
pass filter (RF and CF in Figure 2) filters out these glitches.
DI
A/Y
D
RT
RO
RXD
+
VBUS
-
B/Z
R
ISL3280E
RF
LOS
CF
RO
RXD
B
R
A
VOLTAGE (V)
FIGURE 2. LOS DETECTION CIRCUIT
5
4
3
2
1
0
RXD
RXD
4
2
A good choice for the secondary Rx is the ISL3280E. It is a single
Rx in a micro package (5 Ld SOT-23), has the required
full-failsafe function, operates up to 20Mbps, and features
IEC61000-4-2 ESD levels. Additionally, the 3V-5V supply range,
and the -40°C to 125°C operating temperature range allow for
the ISL3280Es use in most RS-485 and RS-422 applications.
VOLTAGE (V)
Using Full-Failsafe Receivers for
LOS Detection
5
4
3
2
1
0
5
4
3
2
1
0
RXD
RXD
LOS
AND
TIME (1µs/DIV)
FIGURE 4. AND GATE OUTPUT AND FILTERED LOS INDICATOR
SIGNAL
Los Detect May Not Work For All Rx
Even if present at each full-failsafe Rx node, the LOS detect
circuit may not properly indicate all the possible LOS conditions.
As previously mentioned, a termination resistor is required to
force the VID =0V condition that indicates a LOS. Unfortunately,
the RS-422 Standard allows only one termination resistor on the
bus, and the RS-485 Standard allows only two. Thus, only one or
two of the LOS detectors can have the termination resistors. This
is fine for the case where a multi-drop (only one driver on network
with multiple receivers) network loses power to the driver, as the
one termination resistor forces the VID =0V on the whole bus, and
thus on each Rx input. But if an Rx without the termination
resistor becomes disconnected from the bus, its VID may not be
0V, so the LOS circuit may not indicate the LOS condition. A
possible solution is to include a larger value (e.g., 1kΩ) resistor
across the inputs of the all Rx that don’t have termination
resistors. Whether or not this is acceptable depends on the
transceiver family used, the criticality of the termination
resistance value (slow, slew rate limited transceivers aren’t as
termination sensitive), and the number of nodes on the network.
Multi-point systems offer another challenge. As mentioned
previously, there are multiple drivers on the bus, so there are
periods of inactivity when one driver disables before another
enables. If the idle period is long enough, the bus voltage might
collapse to 0V, causing the LOS to momentarily activate. If this is
a problem, then the user might have to implement a timing
circuit to ensure that the LOS signal has been active long enough
to indicate a real LOS condition.
VBUS
0
-2
-4
TIME (1µs/DIV)
FIGURE 3. Rx OUTPUT VOLTAGES RELATIVE TO THE BUS VOLTAGE
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Application Note 1593
Intersil Full-Failsafe Transceiver
Families
Intersil offers a wide range of full-failsafe RS-485/RS-422
transceiver families, and receiver only ICs, as shown in Table 1.
Most of the transceiver families include half and full duplex
configurations, and a variety of data rates including slew rate
limited versions for low data rate applications.
Conclusion
A Loss-of-Signal (LOS) indicator may be useful for
communication systems, but a standard RS-485 transceiver is ill
suited to detect the LOS condition. If the RS-485 network utilizes
transceivers with full-failsafe receivers, then additional circuitry
can be added to implement the LOS detector.
TABLE 1. INTERSIL RS-422/RS-485 FULL-FAILSAFE RECEIVER FAMILIES
PART NUMBER
TYPE
VCC
(V)
ESD LEVEL
ISL83080E-88E
Transceivers
5
15kV HBM
ISL83070E-78E
Transceivers
3.3
15kV HBM
ISL3150E-59E
Transceivers
5
15kV IEC
ISL3170E-79E
Transceivers
3.3
15kV IEC
ISL32470E-78E
ISL32490E-98E
±60V Fault Protected
Transceivers
5
16.5kV HBM
ISL3280E-84E
Receiver Only
3.3, 5
16.5kV IEC
ISL32173E-77E
ISL32273E-77E
Quad Receivers
3.3, 5
16.5kV IEC
Intersil Corporation reserves the right to make changes in circuit design, software and/or specifications at any time without notice. Accordingly, the reader is
cautioned to verify that the Application Note or Technical Brief is current before proceeding.
For information regarding Intersil Corporation and its products, see www.intersil.com
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