5.8.3 Node Link Failure
A Node Link Failure is determined by the polling interval/rate or the out-of-sync timing.
When a Node detects a communications failure with the Gateway and the Node Link Failure flag is set, the output points
are set to the user-defined states and the inputs are frozen. When output points are set to their default states because of
an error condition, only the Gateway can clear the error condition and resume normal operation. The front panel buttons
or the Gateway’s register I/O 15 clear error conditions.
Clearing a lost radio link error does not restore communications. Banner recommends determining and resolving the cause
of the radio link error, then allowing the system to auto-recover the lost communications.
Polling Interval. The global polling interval defines the time interval during which the Node should expect a polling
request from the Gateway.
Out of Sync. An out of sync condition is met when a Node fails to receive the Gateway’s beacon within a factory-set time
period, about 10 seconds. Both the out of sync and polling interval conditions are used to detect a failure because the
Node can remain in sync with the Gateway but be unable to transmit data. If the Gateway drops out of the network, the
Nodes detects the out of sync condition long before the polling interval expires.
5.9 Units Defined
The units parameter defines the range and/or type of data value associated with an input or output.
Selecting Units from within any configuration tool changes the units definition of several parameters, including threshold,
hysteresis, and delta. For example, if the units are 0 to 20 mA, the threshold, hysteresis, and delta values are entered as
milliampere values. Selecting Temp °C changes the threshold, hysteresis, and delta units to degrees Celsius.
Signed values range from
−
32768 to +32767 and allow for the measurement of negative values. Signed values are
typically used for measuring temperatures. Signed values are stored as two's complement values.
Unsigned values range from 0 to 65535 and are used to measure values that do not go below zero, such as 4 to 20 mA,
distance, or a counter.
5.9.1 Input Units
Units
Description
Definition
0
Raw
Displays the raw A/D conversion data with data ranges from 0 to 65535. This units type is typically used only for
factory calibration.
LCD: Raw A/D hex value
1
4 to 20 mA
Analog unit. Modbus register contents are scaled such that 0 represents 4 mA and 65535 represents 20 mA.
LCD: 4.00mA–20.00mA
2
0 to 20 mA
Default analog input unit. Modbus register contents are scaled such that 0 represents 0 mA and 65535 represents 20
mA.
LCD: 0.00mA–20.00mA
3
Discrete (ON/OFF) Default discrete input unit.
LCD: ON/OFF
4
0 to 10 V (Volts)
Analog input using 0 to 10 V instead of current. Modbus register contents are scaled such that 0 represents 0V and
65535 represents 10V.
LCD: 0.00V–10.00V
6
Temp °C
Celsius, high resolution. Analog input for temperature devices such as thermocouples, RTD, and thermistors. In high
resolution mode, temperature = (Modbus register value) ÷ 20.
LCD: 0000.0C
7
Temp °F
Fahrenheit, high resolution. Analog input for temperature devices such as thermocouples, RTD, and thermistors. In high
resolution mode, temperature = (Modbus register value) ÷ 20.
LCD: 0000.0F
8
Temp °C (Low
Res)
Celsuis, low resolution. To measure a greater temperature range, use the low resolution unit. In low resolution mode,
temperature = (Modbus register value) ÷ 2.
LCD: 0000.0C
9
Temp °F (Low
Res)
Fahrenheit, low resolution. To measure a greater temperature range, use the low resolution unit. In low resolution
mode, temperature = (Modbus register value) ÷ 2.
LCD: 0000.0F
10
Asynchronous
Counter, 32-bit
The 32-bit counter value records counts up to 4.29 billion.
LCD: 0000 0000
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