Bestcoms™ for be1-700, graphical user interface, Bestcoms, For be1-700, graphical user interface -5 – Basler Electric BE1-700 User Manual

S SETTINGS. Set all setting parameters that govern the functioning of the relay. Subgroups include:

0,1, for settings in setting groups, A for alarm settings, B for breaker monitoring settings, G for
general settings, and L for logic settings.

MISCELLANEOUS. Miscellaneous commands include ACCESS, EXIT, and HELP.

Examples of object names would be 51N for the neutral inverse time overcurrent function or PIA for the A
phase, peak current demand register.

For example, to check the 51N pickup setting in Setting Group 1, you would enter S1-51N for Setting,
Group 1-51N. The relay would respond with the current pickup, time dial and curve settings for the 51N
function. To edit these settings the same command would be used with an = followed by the new settings
and the ENTER pushbutton. Note that its necessary to use the ACCESS and EXIT commands when
using the write version of these commands.

ASCII Command Operations

Using ASCII commands, settings can be read and changed on a function-by-function basis. The
mnemonic format of the commands helps you interact with the relay. It isn't necessary to remember all of
the object names. Most commands don't require that you specify a complete object name. If the first two
letters of a command are entered, the relay will respond with all applicable object names.

Example 1:

Obtain a breaker operations count by entering RB (Report Breaker). The BE1-700
responds with the operations counter value along with all other breaker report objects. If
you know that the object name for the breaker operations counter is OPCNTR, you can
enter RB-OPCNTR and read only the number of breaker operations.

Partial object names are also supported. This allows multiple objects to be read or reset at the same time.

Example 2:

Read all peak-since-reset demand registers. Entering RD-PI (report demand - peak
current) will return demand values and time stamps for phase A, B, C, neutral and
negative-sequence current. To read only the neutral demand value, the full object name
(RD-PIN) is entered. Entering RD-PI=0 resets all five of the peak-since-reset demand
registers.

Batch Command Text File Operations

With a few exceptions, each function of the relay uses one command to set it and each setting command
operates on all of the parameters required by that function. See the example mentioned previously in the
paragraph titled Command Structure. This format results in a great many commands to fully set the relay.
Also, the process of setting the relay does not use a prompting mode where the relay prompts you for
each parameter in turn until you exit the setting process. For these reasons, a method for setting the relay
using batch text files is recommended.

In batch download type operations, the user creates an ASCII text file of commands and sends it to the
relay. To facilitate this process, the response from a multiple read command is output from the BE1-700 in
command format. So the user need only enter S for Set (with no subgroup) and the relay responds with
all of the setting commands and their associated parameters. If the user enters S1 for Setting Group 1,
the relay responds with all of the setting commands for setting group 1. The user can capture this
response to a file, edit it using any ASCII text editor, and then send the file back to the relay. See Section
11, ASCII Command Interface, for a more detailed discussion of how to use ASCII text files for setting the
relay.

BESTCOMS

™ for BE1-700, Graphical User Interface

Basler Electric's graphical user interface (GUI) software is an alternative method for quickly developing
setting files in a user-friendly, Windows based environment. Using the GUI, you may prepare setting files
off-line (without being connected to the relay) and then upload the settings to the relay at your
convenience. These settings include protection and control, operating and logic, breaker monitoring,
metering, and fault recording. Engineering personnel can develop, test, and replicate the settings before
exporting it to a file and transmitting the file to technical personnel in the field. On the field end, the
technician simply imports the file into the BESTCOMS database and uploads the file to the relay where it
is stored in nonvolatile memory.

The GUI also has the same preprogrammed logic schemes that are stored in the relay. This gives the
engineer the option (off-line) of developing his setting file using a preprogrammed logic scheme,
customizing a preprogrammed logic scheme, or building a scheme from scratch. Files may be exported
from the GUI to a text editor where they can be reviewed or modified. The modified text file may then be
uploaded to the relay. After it is uploaded to the relay, it can be brought into the GUI but it cannot be

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BE1-700 Quick Start

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