Network Router User Manual
A-2 VersaMax™ System Genius® Network Interface Unit User's Manual – November 2000 GFK-1535A
A
Electrical Interface
All stations must receive in order to track the present token value and take their
appropriate turn on the bus, regardless whether the data is to be used locally. The
transmit sequence is the same as the serial bus address (SBA) set into each location
during configuration. A simplified interface circuit is shown below:
L
OCAL
S
UPPLY
CHASSIS
GROUND
C
OMP
C
OMP
R
R
R
X+
R
X-
T
X+
T
X-
I
NTERFACE
LOGIC
+
REF
-
REF
L
OCAL
C
OMMON
I
SOLATION
SHIELD
IN
SHIELD
OUT
SER1
S
ER2
+
5 to 10 V
SER1
SER2
SER2
W
iring Terminals
Signal coupling to the bus is via a high frequency, high isolation pulse transformer.
The pulse waveforms are bipolar to reduce DC baseline offsets in the waveform.
The daisy-chained bus is shown on the left above. The SER 1 and SER 2 lines are
tapped at the intermediate locations along the bus. These connections must be
consistent since the signal is polarized. The shield of the cable is broken into
segments at each location. Each shield segment is DC grounded at one end
(SHIELD OUT), and terminated with a small capacitor at the other (SHIELD IN).
The segmenting breaks up long ground loop paths. The capacitor termination
reduces common mode noise from high frequency pickup, while preventing large
ground loop currents in the shield at low frequencies.
The alternately switching transistors produce a negative pulse followed by a
positive pulse across SERIAL 1 relative to SERIAL 2. The bit waveform is a series
of these pulses. The transformer provides isolation (2500 volts test) between the
bus and the local logic, permitting these to be at different voltages. The internal
resistors in each line provide current limit and some termination during
transmission.
The balanced (differential) signals on the twisted pair provide high noise immunity
due to the magnetic (H field) cancellation effect of the twisting, as well as electric
(E field) reduction by the shielding. Most remaining noise pickup is common mode:
the transformer provides a high common mode noise rejection by looking only at
the differential signal across the SER 1-2 lines. The two input comparators detect
the positive polarity input pulses separately from the negative; these are sent to a
custom interface logic chip which digitally filters these for timing and sequence,
then reconstructs the NRZ digital data. Voltages between the two thresholds are
ignored. This filtering and the high input threshold of the comparators are highly
effective in rejecting both random impulse noise and low-level line reflections.
Finally a CRC-6 checksum check is performed before the data is sent to the local
processor (not shown).