CS1W-CN224 Omron, CS1W-CN224 Datasheet - Page 8

no-image

CS1W-CN224

Manufacturer Part Number

CS1W-CN224

Description

"CABLE,CS1/C200H PRO27,2m"

Manufacturer

Omron

Datasheets

1.CS1WCN626.pdf (136 pages)

2.C200H-WPA204.pdf (21 pages)

Specifications of CS1W-CN224

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Current page: 8 of 136
Download datasheet (15Mb)

254

Error Status Generation for

Debugging

(example)

Convert Between Floating-point Decimal and Character Strings

PID Autotuning

The new CS1 can autotune PID constants

with a PID control instruction. The limit

cycle method is used for autotuning, so

the tuning is completed quickly. This is

particularly effective for multiple-loop PID

control.

A specified error status can be simulated

by executing the diagnostic instructions

(FAL/FALS). With the new CS1,

debugging is simple for applications that

display messages on a PT or other display

device based on the error status of the

CPU Unit.

The new CS1 can convert floating-point

decimal (real numbers) to character

strings (ASCII) for display on a PT

(operator interface). The data can be

displayed on the PT as a character-string

display element.

E.g., 500.00

Floating-

point

decimal

PID control instruction with

autotuning

Conversion instruction

PIDAT

An error has

occurred at unit

number xx.

There is a

possibility that

rack number xx

is disconnected.

353030E23030

Character

string

Autotuning for PID constants

PT

PT

Error in Special I/O

Unit

I/O bus error

Character-string

display element

500.00

FALS

FAL

PT

Highly Accurate Positioning

with XY Tables

The new CS1 has many double-precision

processing instructions for floating-point

decimal operations, enabling positioning

with greater accuracy.

Easy Reading of Maintenance

Data via DeviceNet

(for CPU Unit Ver. 2.0 or Later)

The new CS1 can convert ASCII character

strings read from measurement devices by

serial communications to floating-point

decimal data for use in data processing.

Serial

communications

The addition of special explicit message

instructions makes it easy to send explicit

messages without having to consider

FINS commands. Transferring data

among PLCs with explicit messages is

also simplified.

Floating-point

decimal instruction

High-precision positioning

Character

string

Measurement device

(example)

Conversion instruction

DeviceNet

No need to

consider FINS

Special explicit

message instruction

Floating-

point

decimal

Binary Set Values for

Timer/Counter Instructions

Simpler Ladder Programs

The SV for a timer or counter instruction

can be specified using either BCD or

binary. Using binary SV enables longer

timers and higher-value counters.

Ladder programs that use a lot of basic

instructions can be simplified using

differentiation instructions LD NOT, AND

NOT, and OR NOT, and instructions that

access bits in the DM and EM Areas.

Examples: Timer/Counter Instructions

TIM (BCD): 0 to 999.0 s

TIMX(550) (binary) 0 to 6553.5 s

CNT (BCD): 0 to 999 counts

CNTX(546) (binary) 0 to 65,535 counts

Applicable Timer/Counter Instructions

TIMER: TIMX(550)

COUNTER: CNTX(546)

HIGH-SPEED TIMER: TIMHX(551)

ONE-MS TIMER: TMHHX(552)

ACCUMULATIVE TIMER: TTIMX(555)

LONG TIMER: TIMLX(553)

MULTI-OUTPUT TIMER: MTIMX(554)

REVERSIBLE COUNTER: CNTRX(548)

RESET TIMER/COUNTER: CNRX(547)

With other PLCs

a

a

a

ORW

D00000

#0001

D00000

ANDW

D00000

#FFFE

D00000

a

Programmable Controllers

With CS1-series PLCs

D00000

#0000

OUTB

Related parts for CS1W-CN224