CRT1-OD16TAH Omron, CRT1-OD16TAH Datasheet - Page 28

CRT1-OD16TAH

Manufacturer Part Number

CRT1-OD16TAH

Description

16 Out NPN 3 Tier

Manufacturer

Omron

Datasheet

1.CRT1-ATT03.pdf (675 pages)

Specifications of CRT1-OD16TAH

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Features of CompoNet Slave Units

Expansion Using

Expansion Units

Scaling

Last Maintenance Date

(Maintenance Function)

Cumulated Count

Moving Average

Setting the Number of AD

Conversion Points

Rate of Change

Calculations

Comparator

Peak/Bottom Hold

Top/Valley Hold

One Expansion Unit can be added to a Digital I/O Slave Unit (with 2-tier termi-

nal block and 16 points). This extends the range of possible system configura-

tions by making it possible to expand to a variety of I/O combinations, e.g., 16

inputs and 8 outputs or 24 inputs (16 inputs + 8 inputs).

Converted data can be scaled to any value by the user. Ladder program cal-

culations for the Master Unit are not required if the scaling function is used

with the Slave Unit. The offset compensation function can also be used to off-

set scaled values.

These settings are made by using the CX-Integrator.

The date that maintenance was performed can be written in the Slave Unit by

using the CX-Integrator.

The cumulated count function calculates the integral time for input (or output)

analog values and reads the cumulated value. Monitor values can be set in

Units. If the cumulated counter value exceeds the set monitor value, the

Cumulated Counter Over Flag in general status turns ON.

These values can be set and read by using the CX-Integrator.

An Analog Input Unit or Temperature Input Unit can calculate the moving aver-

age of the last eight inputs and use it as the converted data. Smooth input val-

ues can be obtained by averaging the inputs if there are rapid fluctuations in

the input.

Settings for averaging are made by using the CX-Integrator.

The conversion cycle is 4 ms max. when using all 4 analog inputs. The AD

conversion cycle can be made faster if fewer AD conversion points are used.

You can find the rate of change during the set data sampling cycle for the

input value to an Analog Input Unit or Temperature Input Unit.

The rate of change settings are made by using the CX-Integrator.

Input data captured into the Analog Input Slave Unit/Temperature Input Unit or

calculation data is compared to alarm settings (Alarm Trip Point High (HH),

Warning Trip Point High (H), Warning Trip Point Low (L), and Alarm Trip Point

Low (LL)) and the results can be reflected in the "Analog Status Flag" (or

"Temperature Data Status Flag"). The Normal Flag (pass signal) turns ON for

values that are in set range.

The alarm settings are made by using the CX-Integrator.

The peak/bottom hold function holds the maximum (peak) or the minimum

(bottom) input value to an Analog Input Unit or Temperature Input Unit. The

maximum (peak) or minimum (bottom) value can be compared with an alarm

set value and used to turn ON an alarm flag as status data. This is called the

comparator function.

The peak/bottom hold settings are made by using the CX-Integrator.

The top/valley hold function holds the top or valley input value to an Analog

Input Unit or Temperature Input Unit. The Top/Valley Detection Timing Flag

can be used to check when top and valley values were detected. The top and

valley values can be compared with an alarm set value and used as status

data to turn ON alarm flags (comparator function).

The top/valley hold settings are made by using the CX-Integrator.

Section 1-1

CRT1-OD16TAH Omron, CRT1-OD16TAH Datasheet - Page 28

CRT1-OD16TAH

Specifications of CRT1-OD16TAH

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