Information Sheet

Date Code 20191014 Information Sheet SEL-734W and SEL-WCS

Product Overview

Phase identification Settings

The SEL-WCS uses two DIP switches to configure the phase information.

Table 3 shows the phase identification settings.

SEL-734W Settings

The Network ID must match the Network ID setting for the SEL-WCSs used

with this SEL-734W. The other settings on the 734W are explained below.

Voltage Phases

The Voltage Phases setting is used to allow the SEL-734W to calculate power,

VAs, and VARs for all three phases when the SEL-734W is only sensing a single-

phase voltage. This is done by reusing the magnitude of the measured voltage

phase, but rotating by ±120 degrees to get the two missing voltage phases. SW1

of the system setting DIP switches sets this option. When the switch is moved to

the down position, the SEL-734W only has single-phase data available.

Distance to Sensor

The Distance to Sensor setting is used to ensure that an SEL-734W does not hear

data from an SEL-WCS on the system that has reused the Network ID of the

SEL-WCS associated with this SEL-734W. This happens where there are more

SEL-734Ws in a limited area than the 16 available Network IDs. Although

unlikely, under ideal conditions, an SEL-734W can receive data from an

SEL-WCS that is farther than a mile away. This setting reduces the sensitivity of

the SEL-734W radio receiver so it will not receive data from distant SEL-WCSs.

Line Current Range

The Line Current Range setting refers to the maximum current expected to flow

in the line during normal (non-fault) conditions. It is used to increase the resolu-

tion of the current reported to the SEL-734W. When in the > 200 A range, the

resolution is approximately 0.25 A. For the lower range setting, the resolution is

approximately 0.05 A.

Table 3 Phase Identification Configuration

Switch Settings Phase

00 A

01 B

10 C

11 Reserved

Figure 4 SEL-734W DIP Switch Settings