Page 8 • MN06150 ║ Issue/Rev. 0.7 (9/18)
Section II – Pre-Installation Considerations
An important pre-installation consideration is the se-
lection of the ancillary equipment to be used with the
microLoad.net and how that equipment is interfaced.
This manual contains an I/O Configuration Worksheet
(Table 6, page 16) which will assist in the assignment
of devices to the microLoad.net’s various I/O positions.
The Worksheet lists the available I/O points versus
possible devices or functions which may be applied.
By checking the appropriate boxes on the Worksheet
I/O map of your application is established. A sample
application starts on page 40.
Mechanical
In addition to the following, all previous warnings and
cautions should be reviewed before installation.
1. A solid vertical or slanted surface should be used
for mounting the explosion-proof microLoad.net
housing.
Weight: = 15 lb. (2.3 kg)
2. The location and the height of microLoad.net should
be selected to permit easy viewing of the display
and to provide convenient access to the keypad
by all users. See Figure 2 for dimensions of the
microLoad.net.
3. Access for servicing microLoad.net is through the front
cover. For service, wiring and removal of parts the cover
must removed.
4. Conduit entry to the explosion-proof microLoad.net
is both through the bottom and sides. There are two
3/4" NPT conduit entrances in the bottom of the unit
and one 1/2" NPT conduit entrances in each side of
the unit.
5. In warm climates, microLoad.net should be shaded from
direct sunlight. The maximum external temperature
of the microLoad.net housing must not exceed 140
°
F
(60
°
C) to ensure that the internal temperature limit is not
exceeded.
Electrical
Note:
See Appendix A for information regarding ATEX electrical
installation.
1. All DC wiring must be routed into microLoad.net
through the conduit entries located in the bottom of
the housing. Do not route DC and AC wiring through
the same conduit entry.
2. The DC signal wires must be multi-conductor
shielded cable of 18 to 24 AWG minimum stranded
copper.
3. Ethernet cable must meet the requirements of CAT5
at a minimum. Direct Ethernet connections between
computer and microLoad.net require a crossover
cable configuration. Standard direct cable configu
-
ration is used where the microLoad.net units are
networked through a hub or switch.
Note:
The following recommendations are based on our knowledge
of the electrical codes. The local electrical codes should be reviewed
to ensure that these recommendations follow the local code. Also
installation manuals of all the equipment being wired into the micro-
Load.net should be reviewed for transmission distances and wire
recommendations.
Table 1. Typical Wire Sizes
Equipment Number & Gauge
of Wire
Belden
Number or
Equivalent
Transmitters
4 / 18 Ga.
4 / 20 Ga.
9418
8404
Temp. Probes
Density and
Pressure
ransmitters
4 / 22 Ga.
8729
OR
9940
EIA-232 Comm
3 / 24 Ga.
9533
EIA-485 Comm
4 / 24 Ga.
9842
Table 2. Maximum Cable Length and Baud Rate (EIA-232)
Baud Rate
Feet
Meters
38,400
250
75
19,200
500
150
9,600
1,000
305
4,800
2,000
610
2,400
4,000
1,220
1,200
4,000
1,220
Table 3. Maximum Cable Length and Baud Rate (EIA-485)
Baud Rates
Feet
Meters
1,200 to 38,400
4,000
1,220
4. All AC wiring must be routed into microLoad.net
through the conduit entries located in the side of
the housing. Connectors sized for a maximum of 14
gauge wire, consult the local electrical codes for the
minimum AC wire size required for your application.
Do not route AC and DC wiring through the same
conduit entry.
5. All AC wiring should be stranded copper and must
comply with federal, state and local codes and
specifications.
6. Two separate AC circuits must be provided from
the breaker panel. One circuit will supply isolated
power to the microLoad.net electronics (instrument
power). The second circuit will supply power to the
external devices.
7. For proper operation, the microLoad.net must be
Summary of Contents for Smith Meter microLoad.net
Page 13: ...Issue Rev 0 7 9 18 MN06150 Page 13 Section IV Diagrams Figure 3 Opening microLoad net ...
Page 29: ...Issue Rev 0 7 9 18 MN06150 Page 29 Section IV Diagrams Figure 16 RS 232 Shared Printing ...
Page 30: ...Page 30 MN06150 Issue Rev 0 7 9 18 Section IV Diagrams Figure 17 RS 485 Shared Printing ...
Page 37: ...Issue Rev 0 7 9 18 MN06150 Page 37 Section IV Diagrams Figure 24 AC Digital Outputs ...
Page 40: ...Page 40 MN06150 Issue Rev 0 7 9 18 Section IV Diagrams Figure 26 Sample Application Worksheet ...
Page 41: ...Issue Rev 0 7 9 18 MN06150 Page 41 Section IV Diagrams Figure 27 Sample Application AC Wiring ...