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Industrial Communication Software DeviceXPlorer OPC Server 150 devices Connectivity 30,000 words/sec Performance 5 languages Language TAKEBISHI Corporation

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Page 1: DeviceXPlorer OPC Server - faweb.net · PDF fileOPC (Ole for Process Control) ... Industrial connectivity with controllers running in manufacturing industry system, such as PLC, NC

150機種

機 器

3 万 点 / 秒

速 度

5 ケ 国 語

言 語

Industrial Communication Software

DeviceXPlorer OPC Server

150 devices

Connectiv i ty

30,000 words/sec

Performance

5 languages

Language

TAKEBISHI Corporation

Page 2: DeviceXPlorer OPC Server - faweb.net · PDF fileOPC (Ole for Process Control) ... Industrial connectivity with controllers running in manufacturing industry system, such as PLC, NC

Visual Basic Visual C/C++

VB.NET C#.NET

EXCEL VB A

ERP/MES SC AD A

DCS

OPC

Ethernet RS232C Orig ina l Network

1

Omron SYSMAC NJ Mitsub ish i MELSEC iQ -R Yokogawa FA -M3

OPC OPC

OPC (Ole for Process Con t ro l) i s s tandard in ter face spec i f i ca t ion for commun ica t ion be tween

app l ica t ions in manufac tur i ng indus t ry sys tem . OPC has a rch i tec ture o f ser ver and c l ien t type .

OPC Ser ver commun ica tes w i th f i e ld dev ices such as PLC . OPC C l ien t p rov i des var ious func t i ons

bas ing on equ ipmen t da ta acqu i red f r om OPC Ser ver . OPC de f ines these in ter face spec i f i ca t i ons .

The eng ineer ing cos t o f dependence between produc t i on l i ne and IT system w i l l be reduced by

deve lop ing OPC Sys tem.

What is OPC... Software Interface specification for communication

DeviceXP lorer i s the OPC Server so f tware for Windows OS wh ich supp l ies

Indust r ia l connec t i v i ty w i th contro l le r s runn ing in manufac tur ing indus t ry

sys tem , such as PLC , NC and Robo t . Dev iceXPlorer can commun ica te w i th

contro l l e rs th rough var ious networks such as E thernet and Ser ia l .

DeviceXPlorer OPC Server Communication Software for Controller

DeviceXPlorer OPC Server

DxpSERVER series

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Large extens ion o f the connec t iv i t y wi t h cont ro l le r f rom 40 models to 150 models . The sys tem for co l lec t ing i n -format ion f rom cont ro l le rs i n a fac tory can be deve loped eas i l y , becaus e DxpSERVER suppor ts communicat ion wi th PLC, NC, Robot , Regu la t ion Meter , W i re -Saving, RFID, Bar Code Reader , D i sp lay fo r ind icat ion and Open Network e tc . . In add i t ion , cooperat i on func t ions wi th each cont ro l le r are suppor ted such as PX Developer tag and iQ P la t f orm sys tem labe l o f the Mi tsub i sh i MELSEC.

Accessible to 150 kinds of f ield devices Supply ing connect iv ity with var ious control ler

Hot Configuration supplies for 24-hour continuation operation I t is unnecessary to suspend the whole system at the t ime of changing conf igurat ion

DxpSERVER can be used i n 24 -hour cont i nuat ion opera t ion sys tem. ‘Hot Conf igura t ion ’ func t ion rea l i zes dynamic change o f communicat ions pa rameters wi thout suspending IT sys tem and communicat ion wi t h con-t ro l l e r .

DxpSERVER suppor ts dynamic change o f d isp lay l anguage, such as Japanes e, Eng l ish , Ch inese (Trad i t i ona l and S impl i f ied ) , and Korean. Af ter Japanese eng ineers set up equ ipment , d isp lay language can be changed t o language o f operator s i te . Handing ove r equ ipment wi l l become smooth. DxpSERVER suppor ts g l oba l i za t ion o f manufac tur i ng .

Support Asian Languages Dynamic switching of d isplay language

OPC UA (Uni f ied Arch i t ec ture ) i s an open p ro toco l i ndependent o f OS. The b inary communicat ion by TCP/ IP and the XML communica-t ion by SOAP can be used proper l y , and embedding i n ha rdware is a lso poss ib l e . Encoding technology is a lso spec i f ied i n OPC UA and OPC UA is a t t rac t ing a t ten t ion as a key component o f the cont ro l sys tem which is inc reas ing in teres t o f secur i t y s ide. DxpSERVER p lays a par t i n the spread o f next -generat ion spec i f i ca-t ion as a genera l -purpose sof tware cor respond ing to the f i rs t OPC UA in As ia .

OPC UA Interface First appearance of OPC UA Server in Asia

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DeviceXPlorer OPC Server

DxpSERVER series Released!

DxpSERVER suppor ts Lua sc r ip t , so user can embed user l og ic per f ormed in cons tant cyc le /event . The code sn ippet and the auto -comple te func t ion wi l l suppor t user i n the sc r ip t ed i to r .

Script Running custom logic on DxpSERVER

Device set t ings o f the var i ous k inds cont ro l l e r can be managed as group o f h ie ra rch ica l t ype which is ca l led “Device Fo lder . ” Al though dev ice set t i ngs a re sor t ed i n alphabet ica l o rde r convent i ona l l y , re levance can be g i ven for every equ ipment .

Device Folder Managed product ion data

User can se lec t f rom eye - f r iend l y cont ro l l e r l i s t o f the va l idated l i cense. By se lec t ing vendor and communicat ion in te r face, c ommunicat ions parameter can be set up i n s imple wi za rd fo rm .

Project Wizard Easy set t ing communicat ion parameters

Admin is t ra tor can def i ne user autho r i t y fo r operat i on o f DxpSERVER. User autho r i t y management pro tec ts the sys tem fa i lu re by operat i on m is take.

User Authority Preventing acc identa l misconf igurat ion

User can def i ne the templa te wi th mul t i member va r iab les o f s t ruc tu re , and c reate ins tance based on the templa te s t ruc ture . Generat i on o f tags wi th the same s t ruc ture becomes easy.

Structure Managed s tructur ing tag

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DeviceXPlorer OPC Server

DxpSERVER series Released!

DxpSERVER suppor t reg is ter moni tor wh ich can moni tor cont inuat i on a rea o f PLC reg is te r . Even i f eng ineer doesn ’ t have PLC eng ineer i ng too l , eng inee r can deve lop hos t sys tem ef f i c ient ly .

Register Monitor Monitor ing tags in batch

In tu i t i ve ope rat i on wi thout open ing pop -up d ia l og. User - f r iend ly ope rab i l i t y i s rea l i zed.

Property Grid Provide the intu i t ive operabi l i t y

DxpSERVER suppor ts DxpLink which is or ig i na l HTTP pro toco l . By us ing DxpLink , tag data i s shared between DxpSERVER, and communicat ion t ra f f i c wi th equ ipment can be reduc ed. Since HTTP communicat ion is used, remote mon-i to r i ng sys tem can a lso be bu i l t eas i l y .

DxpLink Data shar ing between DeviceXPlorer

DxpSERVER suppor ts the batch data wr i t ing to tag v i a f i le wh ich is wr i t ten va lue in csv fo rmat . User wr i tes the csv f i le path to the OPC tag, and DxpSERVER wr i tes va lue to PLC.

Batch Data Writing Data wr i t ing by us ing a CSV f i le

DxpSERVER suppor ts IPv6 address . I f cont ro l le r have 128 -bi t IP address , DxpSERVER can ac -cess the cont ro l l e r same as IPv4. The la rge sca le network which has a r ranged the term ina l o f 256 or more per one segment can be bu i l t .

IPv6 Suitable for the large -scale network

W hen access ing same tags f rom two o r more threads or c l ien ts , the tag which over laps ins ide DxpSERVER is managed i n opt im ized communica-t ion eng ine. DxpSERVER cont ro ls so that the number o f communicat ion packets becomes the m in imum.

High Performance Opt imized communicat ion packets

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Gateway Serve r

Programming - VB.NET There a re 2 ways to access OPC in ter f ace f rom VB.NET. Automat ion wrapper i s easy and good a t cord ing. On the o ther hand, RCW (Runt ime Cal lab le W rapper) can app l y deta i l s . Here is shown the prog ramming way w i th automat ion wrapper . Not on ly by VB.NET, use r can a l so deve lop OPC Cl ient by VC++,VC#, VB6, EXCEL VBA.

DxpSERVER (OPC Server )

Def ine Objec t Var iab le

D i m W i t h E v e n t s O P C M y S e r v e r A s O P C A u t o m a t i o n . O P C S e r v e r

D i m W i t h E v e n t s O P C M y G r o u p s A s O P C A u t o m a t i o n . O P C G r o u p s

D i m W i t h E v e n t s O P C M y G r o u p A s O P C A u t o m a t i o n . O P C G r o u p

D i m O P C M y I t e m s A s O P C A u t o m a t i o n . O P C I t e m s

D i m O P C M y I t e m A s O P C A u t o m a t i o n . O P C I t e m

Create Ins tance o f OPC Server Objec t

O P C M y S e r v e r = N e w O P C A u t o m a t i o n . O P C S e r v e r

O P C M y S e r v e r . C o n n e c t ( " T a k e b i s h i . D xp " , " " )

Create OPC Group

O P C M y G r o u p s = O P C M y S e r v e r . O P C G r o u p s

O P C M y G r o u p = O P C M y G r o u p s . A d d ( " G r o u p 1 " )

O P C M y G r o u p . U p d a t e R a t e = 1 0 0 0

O P C M y G r o u p . I s A c t i v e = T r u e

O P C M y G r o u p . I s S u b s c r i b e d = O P C M y G r o u p . I s A c t i v e

Create and Reg is ter OPC I tem Objec t

O P C M y I t e m s = O P C M y G r o u p . O P C I t e m s

O P C M y I t e m s . A d d I t e m s ( 6 4 , s I t e m N a m e , c H , S e r v e r H a n d l e s , E r r o r s )

Read Tag Value

D i m a n I t e m A s O P C A u t o m a t i o n . O P C I t e m

F o r E a c h a n I t e m I n O P C M y G r o u p . O P C I t e m s

a n I t e m . R e a d ( O P C A u t o m a t i o n . O P C D a t a S o u r c e . O P C D e v i c e )

o V a l ( a n I t e m . C l i e n t H a n d l e ) = a n I t e m . V a l u e

N e x t a n I t e m

a n I t e m = N o t h i n g

Release Ob jec t

O P C M y G r o u p s . R e m o v e ( O P C M y G r o u p . S e r v e r H a n d l e )

O P C M y I t e m s = N o t h i n g : O P C M y I t e m = N o t h i n g

O P C M y G r o u p s = N o t h i n g : O P C M y G r o u p = N o t h i n g

O P C M y S e r v e r . D i s c o n n e c t ( ) : O P C M y S e r v e r = N o t h i n g

S y s t e m . G C . C o l l e c t ( )

Case Study - Production Management System

Equipment A Equipment B Equipment C

Moni to r Te rm ina l

Manufac tu r ing d i rec t ions a re made by a hos t sys tem and the p roduc t ion p lan is downloaded to equ ipment PLC v ia gateway se rver . P roduc t ion resu l t data i s s to red i n data bas e automat ica l l y v ia OPC. And fau l t s o f equ ipment and operat ion s ta tus are a lso shown to mobi le te rm ina ls v i a OPC. The s tab le sys tem which doesn ' t depend on the PLC model can be bu i l t by adopt ing OPC as in te r face wi th an equ ipment l ine .

Mobi le Term ina l Mobi le Term ina l Database MES Term ina l

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Specification I t e m D e s c r i p t i o n

S u p p o r t O S * 1 W i n d o ws 1 0 ( B u i l d 1 0 5 8 6 / T H 2 ) * 2 , W i n d o ws 8 . 1 , W i n d o w s 7 , W i n d o w s V i s t a W i n d o ws S e r v e r 2 0 1 2 ( R 2 ) , W i n d o w s S e r v e r 2 0 0 8 ( R 2 )

A p p l i c a t i o n T y p e * 3 3 2 b i t A p p l i c a t i o n ( W i n 3 2 / x8 6 ) , 6 4 b i t A p p l i c a t i o n ( W i n 6 4 / x6 4 )

H a r d D i s k 2 0 0 M B o r m o r e ( M E L S E C E Z S o c k e t c o m m u n i c a t i o n r e q u i r e s m o r e t h a n 3 0 0 M B )

M e m o r y 1 G B o r mo r e

L i c e n s e R e q u i r e a l i c e n s e f o r e a c h c o m p u t e r t o i n s t a l l . ( T h e r e a r e n o l i m i t a t i o n f o r O P C C l i e n t c o n n e c t i o n )

P r o t e c t i o n P r o t e c t e d b y s o f t wa r e k e y o r P r o t e c t e d b y U S B k e y

O P C C l i e n t D e v e l o p m e n t L a n g u a g e V B . N E T , V i s u a l B a s i c ( V S 2 0 1 3 , V S 2 0 1 2 , V S 2 0 1 0 , V S 2 0 0 8 , V S 2 0 0 5 ) , V B A , V S T O

C # . N E T , V i s u a l C / C + + ( V S 2 0 1 3 , V S 2 0 1 2 , V S 2 0 1 0 , V S 2 0 0 8 , V S 2 0 0 5 )

T h r e a d i n g M o d e l M T A ( F r e e T h r e a d i n g )

W i n d o ws S e r v i c e A c t i v a t i o n E n a b l e

M a x i m u m P L C s * 4 2 5 5

M a x i m u m T a g s U n l i m i t e d

S u p p o r t I n t e r f a c e O P C U A 1 . 0 2 * 5 , O P C D A 3 . 0 / 2 . 0 5 A , O P C A E 1 . 1 0 , D D E , S u i t e L i n k * 6 , D xp L i n k

S i mu l a t i o n M o d e E n a b l e ( R a n d o m / I n c r e m e n t / S i n / F i xe d V a l u e )

O P C D A

P R O G . I D * 7 T a k e b i s h i . D xp . 5

O P C A c c e s s P a t h E n a b l e

O P C I t e m I D U s e d e l i m i t e r s t o s p e c i f y d e v i c e , g r o u p a n d t a g n a m e s .

D a t a T y p e

V T _ I 1 ( 8 b i t s i g n e d i n t e g e r ) V T _ U I 1 ( 8 b i t u n s i g n e d i n t e g e r ) V T _ B O O L ( L o g i c a l v a l u e )

V T _ I 2 ( 1 6 b i t s i g n e d i n t e g e r ) V T _ U I 2 ( 1 6 b i t u n s i g n e d i n t e g e r ) V T _ B S T R ( C h a r a c t e r s t r i n g )

V T _ I 4 ( 3 2 b i t s i g n e d i n t e g e r ) V T _ U I 4 ( 3 2 b i t u n s i g n e d i n t e g e r ) V T _ A R R A Y ( A r r a y )

V T _ I 8 ( 6 4 b i t s i g n e d i n t e g e r ) V T _ U I 8 ( 6 4 b i t u n s i g n e d i n t e g e r )

V T _ R 4 ( 3 2 b i t s i g n e d r e a l n u m b e r ) V T _ R 8 ( 6 4 b i t s i g n e d r e a l n u m b e r )

D D E / S u i t e L i n k * 6 A p p l i c a t i o n N a m e A n y ( D e f a u l t : “ D X P S V ” )

T o p i c N a m e A n y ( D e f a u l t : “ D e v i c e N a m e ” )

E x t e n d e d F o r m a t

B i t P o s i t i o n S p e c i f i c a t i o n ( : 0 0 ) E x : D 1 : 1 5 = 1 ( 1 5 t h b i t v a l u e o f D 1 )

8 b i t s i g n e d i n t e g e r ( : H ) , 8 b i t u n s i g n e d i n t e g e r ( : H U ) E x : D 1 : H = - 1 ( U p p e r b y t e v a l u e o f D 1 )

8 b i t s i g n e d i n t e g e r ( : L ) , 8 b i t u n s i g n e d i n t e g e r ( : L U ) E x : D 1 : L U = 0 xF F ( L o we r b y t e v a l u e o f D 1 )

1 6 b i t s i g n e d i n t e g e r ( : W ) , 1 6 b i t u n s i g n e d i n t e g e r ( : W U ) E x : D 1 : W = 3 2 7 6 7 ( 1 6 b i t s i g n e d i n t e g e r o f D 1 v a l u e )

3 2 b i t s i g n e d i n t e g e r ( : D ) , 3 2 b i t u n s i g n e d i n t e g e r ( : D U ) E x : D 1 : D = 2 1 4 7 4 8 3 6 4 7 ( 3 2 b i t s i g n e d i n t e g e r o f D 1 t o D 2 )

3 2 b i t s i g n e d r e a l n u m b e r ( : R ) 6 4 b i t s i g n e d r e a l n u m b e r ( : D R )

E x : D 1 : R = 9 . 8 7 6 ( 3 2 b i t s i g n e d r e a l n u mb e r o f D 1 t o D 2 )

6 4 b i t s i g n e d i n t e g e r ( : I ) , 6 4 b i t u n s i g n e d i n t e g e r ( : I U ) E x : D 1 : I = 2 1 4 7 4 8 3 6 4 7 ( 6 4 b i t s i g n e d i n t e g e r o f D 1 t o D 4 )

T e x t f o r m a t / b i n a r y ( : B 9 9 ) , o c t a l ( : O 9 9 ) E x : D 1 : B 1 0 = “ 0 0 0 0 1 1 . . . ” ( B i n a r y t e x t o f 1 6 b i t / p o i n t )

T e x t f o r m a t / d e c i ma l ( : D 9 9 ) , h e x a d e c i ma l ( : H 9 9 ) E x : D 1 : D 1 0 = “ 1 , 2 , - 1 , . . . ” ( D e c i ma l t e x t d i v i d e d b y c o m m a )

C h a r a c t e r S t r i n g ( : S 9 9 ) E x : D 1 : S 1 0 = “ A B C D E F . . . ” ( C h a r a c t e r s t r i n g o f D 1 t o D 1 0 )

B C D ( : B ) E x : D 1 : B = 0 x 1 2 3 4 ( 1 6 b i t B C D o f D 1 v a l u e )

B i t w i s e I n v e r s i o n ( : V ) E x : M 1 : V ( B i t w i s e i n v e r s i o n o f L o g i c a l v a l u e . T R U E o r F A L S E )

A r r a y ( : A 9 9 9 ) E x : D 1 : A 1 0 ( A r r a y v a l u e f o r D 1 t o D 1 0 )

R e a d O n l y ( : O R ) E x : D 1 : O R ( D o n o t w r i t e t a g )

W r i t e O n l y ( : O W ) E x : D 1 : O W ( D o n o t r e a d t a g )

S i mu l a t i o n P r o p e r t y / S i n e ( : S S ) , S h a r e d M e m o r y ( : S D ) E x : D 1 : S S ( S i m u l a t e v a l u e a s S i n e c u r v e )

E x : D 1 : S R ( S i mu l a t e v a l u e a s r a n d o m v a l u e ) S i mu l a t i o n P r o p e r t y / I n c r e m e n t ( : S I ) , R a n d o m ( : S R )

B a t c h F i l e W r i t e E x : D 1 : F 1 0 0 0 0 = “ C : ¥ T e s t . c s v ” ( B a t c h w r i t i n g t o D 1 t o D 1 0 0 0 0 w i t h f i l e c o n t e n t s )

OPC Client Packages - OPC software in the world DeviceXPlore r is compat ib le wi th each OPC c l ien t packages, such as SCADA/DCS/CAD.

T y p e P r o d u c t

S C A D A

I n T o u c h / H i s t o r i a n ( W o n d e r w a r e ) , G E N E S I S ( I c o n i c s ) , M C W o r k s 6 4 ( M i t s u b i s h i ) , R S V i e w ( R o c k w e l l ) , W i n C C ( S i e me n s ) ,

C i mp l i c i t y / i F i x ( G E I n t e l l i g e n t P l a t f o r m s ) , C i t e c t S C A D A ( S c h n e i d e r E l e c t r i c ) , J o y W a t c h e r ( J T E n g i n e e r i n g ) ,

A S T M A C V D S ( Y o k o g a w a ) , M o n i t y ( M i t s u b i s h i C o n t r o l S o f t w a r e ) , K i n g V i e w ( W e l l i n T e c h )

C A D D E L M I A ( D a s s a u l t S y s t e m s ) , i C A D / V P S ( F u j i t s u ) , V m e c h ( L a t t i c e T e c h n o l o g y ) , 3 D C r e a t e ( C M S )

O t h e r H a r m o n a s / P R E X I O N / D G P L ( A z b i l ) , L a b V I E W ( N a t i o n a l I n s t r u me n t s ) , C o g e n t D a t a H u b ( C o g e n t ) , D x p L O G G E R ( T a k e b i s h i )

Specification

* 1 F o l l o w i n g c o n n e c t i o n s d e p e n d o n e a c h v e n d o r s u p p o r t O S s t a t u s . - M E L S E C E Z S o c k e t , S Y S M A C F i n s G a t e w a y / S Y S M A C G a t e w a y / C X - C o m p o l e t , T O Y O P U C C P U p o r t , F A N U C F O C A S 1 / 2 , K A W A S A K I R o b o t , Y A S K AW A R o b o t C o n t r o l l e r * 2 I n H o m e E d i t i o n , W i n d o ws U p d a t e t y p e i s f i xe d “ C u r r e n t B r a n c h ( u p d a t e i s p e r f o r m e d a u t o m a t i c a l l y ) ” . T h e r e i s a p o s s i b i l i t y t h a t n o t b e g u a r a n t e e d t o o p e r a t e o n t h e O S , s o i t i s r e c o m m e n d e d P r o E d i t i o n o r a b o v e . * 3 Y o u c a n s e l e c t 3 2 b i t o r 6 4 b i t O P C S e r v e r i n s t a l l a t i o n . P l e a s e r e f e r t o t h e m a n u a l f o r t h e l i m i t a t i o n o f 6 4 b i t O P C S e r v e r . * 4 C o m m u n i c a t i o n p e r f o r m a n c e w i l l b e d o wn a s i n c r e a s i n g P L C s . R e c o m m e n d s d i s t r i b u t i n g O P C S e r v e r f o r e v e r y 1 0 - 2 0 c o n n e c t i o n s . * 5 O P C U A i n t e r f a c e c a n b e u s e d i n o n l y E n t e r p r i s e E d i t i o n . O P C U A i n t e r f a c e d o e s n ’ t s u p p o r t i n f o r m a t i o n mo d e l s u c h a s N o d e M a n a g e r . * 6 S u p p o r t O S o f S u i t e L i n k i n t e r f a c e d e p e n d s o n s u p p o r t O S o f v e n d o r ( W o n d e r wa r e ) .

D D E i n t e r f a c e i s s u p p o r t e d o n 3 2 b i t e d i t i o n . ( n o t s u p p o r t e d i n 6 4 b i t e d i t i o n )

* 7 D xp S E R V E R ( P R O G . I D :T a k e b i s h i . D xp . 5 ) a n d o l d p r o d u c t ( P R O G . I D :T a k e b i s h i . D xp . 1 ) c a n b e i n s t a l l e d o n s a m e m a c h i n e .

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V e n d e r S e r i e s C P U E t h e r n e t S e r i a l O t h e r s

M I T S U B I S H I

M E L S E C i Q - R R 1 2 0 / 3 2 / 1 6 / 0 8 / 0 4 B u i l t - i n E t h e r n e t P o r t R J 7 1 E N 7 1

R J 7 1 C 2 4 ( - R 2 / R 4 )

Q 8 1 B D - J 7 1 G P 2 1 ( S ) -S X Q 8 0 B D - J 7 1 G P 2 1 ( S ) -S X Q 8 1 B D - J 7 1 L P 2 1 ( S ) -2 5 Q 8 0 B D - J 7 1 L P 2 1 ( S ) -2 5 Q 8 0 B D - J 7 1 L P 2 1 G Q 8 0 B D - J 7 1 B R 1 1 Q 8 1 B D - J 6 1 B T 1 1 ( N ) Q 8 0 B D - J 6 1 B T 1 1 ( N ) Q 8 1 B D - J 7 1 G F 1 1 - T 2 Q J 7 1 M T 9 1 Q J 7 1 M B 9 1 G X S i mu l a t o r G X W o r k s 2 ( S i mu l a t o r ) Q 1 0 W C P U ( P P C - 1 0 0 )

M E L S E C i Q - F F X 5 U ( C ) B u i l t - i n E t h e r n e t P o r t

M E L S E C - Q

( U n i v e r s a l M o d e l ) Q 2 6 / 1 3 / 0 6 / 0 4 / 0 3 U D V

B u i l t - i n E t h e r n e t P o r t

Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5

B u i l t - i n U S B P o r t Q J 7 1 C 2 4 N ( - R 2 / R 4 )

M E L S E C - Q

( U n i v e r s a l )

Q 1 0 0 / 5 0 U D E H , Q 2 6 U D ( E ) H Q 2 0 / 1 3 / 1 0 / 0 6 / 0 4 / 0 3 U D ( E ) H

Q 0 2 / 0 1 / 0 0 U ( J )

B u i l t - i n E t h e r n e t P o r t Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5

B u i l t - i n U S B / S e r i a l P o r t Q J 7 1 C 2 4 N ( - R 2 / R 4 )

M E L S E C - Q

( P r o c e s s ) Q 2 6 / 1 3 / 0 6 / 0 4 U D P V

Q 2 5 / 1 2 / 0 6 / 0 2 P H Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5

B u i l t - i n U S B / S e r i a l P o r t Q J 7 1 C 2 4 N ( - R 2 / R 4 )

M E L S E C - Q

( R e d u n d a n c y ) Q 2 5 / 1 2 P R H Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5

B u i l t - i n U S B / S e r i a l P o r t Q J 7 1 C 2 4 N ( - R 2 / R 4 )

M E L S E C - Q

( H i g h P e r f o r m a n c e M o d e l ) Q 2 5 / 1 2 / 0 6 H , Q 0 2 ( H ) Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5

B u i l t - i n U S B / S e r i a l P o r t Q J 7 1 C 2 4 N ( - R 2 / R 4 )

M E L S E C - Q

( B a s i c M o d e l ) Q 0 1 , Q 0 0 ( J ) Q J 7 1 E 7 1 - 1 0 0 / B 2 / B 5

B u i l t - i n S e r i a l P o r t Q J 7 1 C 2 4 N ( - R 2 / R 4 )

M E L S E C - Q

( C C o n t r o l l e r M o d u l e ) Q 2 4 D H C C P U - V

Q 1 2 D C C P U - V , Q 0 6 C C P U - V B u i l t - i n E t h e r n e t P o r t

M E L S E C - Q

( M o t i o n C o n t r o l l e r ) Q 1 7 0 M , Q 1 7 2 D ( S ) C P U ( - S 1 )

Q 1 7 3 D ( S ) C P U ( - S 1 ) B u i l t - i n E t h e r n e t P o r t

M E L S E C - L

L 2 6 C P U - ( P ) B T L 0 6 C P U ( - P )

L 0 2 ( S ) C P U ( - P )

B u i l t - i n E t h e r n e t P o r t L J 7 1 E 7 1 - 1 0 0

B u i l t - i n U S B P o r t L J 7 1 C 2 4 ( - R 2 )

L 6 A D P - R 2 / R 4

M E L S E C - F X

F X 3 S / U / U C / G / G C F X 2 ( N / 2 N C / 2 C )

F X 1 ( S / N / N C ) , F X 0 ( S / N )

F X 3 U - E N E T ( - L )

F X 3 U - E N E T - A D P

B u i l t - i n S e r i a l P o r t F X x x - 2 3 2 / 4 8 5 - B D

F X x x - 2 3 2 / 4 8 5 A D P ( - M B )

M E L S E C - Q n A

Q 4 A ( R ) Q 3 A

Q 2 A ( S / S H ) ( - S 1 )

A ( 1 S ) J 7 1 Q E 7 1 ( N ) - T A ( 1 S ) J 7 1 Q E 7 1 ( N ) - B 2 /

B 5

B u i l t - i n S e r i a l P o r t A J 7 1 Q C 2 4 ( N ) ( - R 2 / R 4 )

A 1 S J 7 1 Q C 2 4 ( N ) ( - R 2 )

M E L S E C - A

A 4 U , A 3 ( N / A / U ) A 2 ( N / A / U ) ( S / S H ) ( - S 1 )

A 1 ( N ) ( S / S H )

A J 7 1 E 7 1 ( - S 3 ) A ( 1 S ) J 7 1 E 7 1 ( N ) - T

A ( 1 S ) J 7 1 E 7 1 ( N ) - B 2 / B 5

B u i l t - i n S e r i a l P o r t A ( 1 S ) J 7 1 U C 2 4

A J 7 1 C 2 4 - S 8

O M R O N

S Y S M A C - N X * 1 N X 7 0 1 B u i l t - i n E t h e r n e t P o r t S Y S M A C G a t e w a y

C X - C o m p o l e t S Y S M A C - N J * 1 N J 1 0 1 , N J 3 0 1 , N J 5 0 1

B u i l t - i n E t h e r n e t P o r t

C J 1 W - E I P 2 1

S Y S M A C - C J C J 2 H , C J 2 M

C J 1 G , C J 1 H , C J 1 M

B u i l t - i n E t h e r n e t P o r t C J 1 W - E T N 1 1 / 2 1

C J 1 W - E I P 2 1

B u i l t - i n U S B / S e r i a l P o r t C J 1 W - S C U 4 2 / 3 2 / 2 2 C J 1 W - S C U 4 1 / 3 1 ( - V 1 )

C J 1 W - S C U 2 1 ( - V 1 )

S Y S M A C G a t e wa y F i n s G a t e wa y

S Y S M A C - C S

C S 1 G C S 1 H

C S 1 D

C S 1 W - E T N 2 1 / 1 1 / 0 1 C S 1 W - E I P 2 1

C S 1 D - E T N 2 1 D

B u i l t - i n U S B / S e r i a l P o r t C S 1 W - S C U 3 1 / 2 1 ( - V 1 )

C S 1 W - S C B 4 1 / 2 1 ( - V 1 )

S Y S M A C - C P

C P 1 E C P 1 L ( - E M / E L )

C P 1 H

B u i l t - i n E t h e r n e t P o r t C P 1 W - C l F 4 1 C P 1 L - E T N C J 1 W - E T N 2 1 / E I P 2 1

C P 1 W - C I F 1 2 / 1 1 / 0 1 C J 1 W - S C U 4 1 / 3 1 ( - V 1 )

C J 1 W - S C U 2 1 ( - V 1 )

S Y S M A C - C V C V M 1 ( D ) , C V 2 0 0 0

C V 1 0 0 0 , C V 5 0 0 C V 5 0 0 - E T N 0 1

B u i l t - i n S e r i a l P o r t C V 5 0 0 - L K 2 0 1

S Y S M A C - C

C 2 0 0 H C Q M 1 ( H ) C P M 1 / 2

C 2 0 0 0 H / C 1 0 0 0 H

B u i l t - i n S e r i a l P o r t C 5 0 0 -L K 2 0 3 / 2 0 1 / 1 0 3 / 1 0 1 C 2 0 0 H - L K 2 0 2 / 2 0 1 / 1 0 1

C 1 2 0 - L K 2 0 2 / 2 0 1 / 1 0 1

S Y S M A C - N S J N S J B u i l t - i n E t h e r n e t P o r t N S J W - E T N 2 1

Y O K O G AW A

F A - M 3 V F 3 S P 7 1 - 4 S / N

F 3 S P 7 6 - 7 S / N

B u i l t - i n E t h e r n e t P o r t F 3 L E 1 2 / 1 1 / 0 1 - 0 T

F A - M 3 R

F 3 S P 6 7 - 6 S , F 3 S P 6 6 - 4 S F 3 S P 5 9 - 7 S , F 3 S P 5 8 - 6 H / S F 3 S P 5 3 - 4 H / S , F 3 S P 3 8 - 6 N / S F 3 S P 3 5 - 5 N , F 3 S P 2 8 - 3 S / N F 3 S P 2 5 - 2 N , F 3 S P 2 2 - 0 S

F 3 S P 2 1 - 0 N , F 3 S P 0 8 / 0 5 - 0 P

F 3 L E 1 2 - 0 T / 1 T F 3 L E 1 1 - 0 T / 1 T

F 3 L E 0 1 - 0 T / 1 T / 5 T

F 3 L C 1 2 - 1 F F 3 L C 1 1 - 2 F / 1 F

F 3 L C 1 1 - 2 N / 1 N

J T E K T

T O Y O P U C - P C 1 0 P C 1 0 G ( E )

P C 1 0 P

B u i l t - i n E t h e r n e t P o r t E N - I / F ( - T ) F L / E T - n e t - 5 F L / E T - T - V 2 ( H )

2 P O R T - E F R

B u i l t - i n C P U P o r t * 2 T O Y O P U C - P C 3 J

P C 3 J G - P P C 3 J ( L / D / M / N M / N F ) - C P U

M U L T I - G W

E N - I / F ( - T ) F L / E T - n e t - 5 F L / E T - T - V 2 ( H )

2 P O R T - E F R

T O Y O P U C - P C 2 J P C 2 J ( C / S / R )

P C 2 J 1 6 ( R / H / P R / H R )

E N - I / F ( - T ) F L / E T - n e t - 5

F L / E T - T - V 2 ( H )

H I T A C H I

E H 1 5 0 - E H V E H V - C P U 1 2 8 / 6 4 / 3 2 / 1 6 E H - E T H ( 2 )

B u i l t - i n E t h e r n e t P o r t

E H 1 5 0 E H - C P U 5 4 8 / 5 1 6 / 3 1 6 A

E H - C P U 2 0 8 A / 1 0 4 A E H - E T H ( 2 )

H H - 4 0 1 0 / 2 0 0 2 / 1 0 0 2

H - 7 0 2 / 3 0 2 / 2 5 2 L A N - E T H ( 2 )

M o d e l : D X P S V M E L

M o d e l : D X P S V S Y S

M o d e l : D X P S V T Y P

M o d e l : D X P S V H I D

M o d e l : D X P S V F A M

M o d e l : D X P S V S Y S

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V e n d e r S e r i e s C P U E t h e r n e t S e r i a l Ot h e r s

S H A R P S A T E L L I T E - J W

JW 3 0 0 , JW 1 0 0 H , JW 7 0 H

JW 5 0 H , JW 3 0 H , JW 2 0 H

J W - 3 0 0 / 2 5 T / 2 5 5 C M

J W - 5 0 C M / 5 1 C M

J - B o a r d Z - 5 0 0 , Z - 3 0 0 Z 3 3 9 J

F U J I

M I C R E X - S X S P H 3 0 0 0 , S P H 3 0 0 , S P H 3 0 0 E X

S P H 2 0 0 0 , S P H 2 0 0

B u i l t - i n E t h e r n e t P o r t N P 1 L - E T 1 / 2

N P 1 L - R S 1 / 2 / 3 / 4 / 5

M I C R E X - F F 1 5 0 S , F 1 4 0 S

F 1 2 0 S / H , F 8 0 H / F 7 0 / F 5 5

F F U 1 7 0 B

N C 1 L - E T 1

F F U 1 2 0 B

N C 1 L - R S 2 / 4 , N V 1 L - R S 2

P A N A S O N I C * 1

F P 7 F P 7 B u i l t - i n E t h e r n e t P o r t A F P 7 C C ( S 1 / S 2 / M 1 / M 2 ) A F P 7 C C S 1 M 1

F P 2 F P 2 ( S H ) F P 2 E T - L A N ( 2 )

F P - X F P - X C 6 0 / 3 0 / 1 4 R / T / P ( D ) F P - X C O M 5 F P - X C O M 1 / 2 / 3 / 4 / 5 / 6

F PΣ F PΣ A F P G 8 0 1 / 8 0 2 / 8 0 6

F P 0 R F P 0 R B u i l t - i n S e r i a l P o r t

F P - e F P - e

K E Y E N C E K V

K V - 7 5 0 0 , 7 3 0 0 K V - 5 5 0 0 , 5 0 0 0

K V - 3 0 0 0 , 1 0 0 0 , 7 0 0

B u i l t - i n E t h e r n e t P o r t K V - L E 2 1 V / E P 2 1 V

K V - L E 2 0 ( V / A )

K V - N a n o K V - N C 1 E P

T O S H I B A

n v ( t y p e 1 ) P U 8 1 1 E N 8 1 1 / E N 8 2 1

V ( S 3 ) S 3 P U 6 5 A , S 3 P U 5 5 A , S 3 P U 4 5 A E N 7 1 1 / 7 2 1 / 7 3 1

E N 7 4 1 / 7 5 1 ( A ) / 7 6 1

V ( S 2 ) S 2 P U 8 2 , S 2 P U 7 2 A , S 2 P U 7 2 D E N 6 1 1 / 6 2 1 / 6 3 1 / 6 4 1

E N 6 5 1 ( A ) / 6 6 1

V ( S 2 T ) P U 6 7 2 T , P U 6 6 2 T E N 6 1 1 / 6 3 1 / 6 5 1 A

P R O S E C T ( T 3 H ) P U 3 2 5 H , P U 3 2 6 H E N 3 1 1

P R O S E C T ( T 2 N ) P U 2 3 5 N , P U 2 4 5 N B u i l t - i n E t h e r n e t P o r t

I D E C M I C R O S m a r t F C 5 A B u i l t - i n E t h e r n e t P o r t B u i l t - i n S e r i a l P o r t F C 5 A - S I F 2 / 4

F C 4 A - H P C 3

K O Y O

D i r e c t L O G I C 0 5 D L 0 5 H 0 - E C O M 1 0 0 D 0 - D C M

D i r e c t L O G I C 0 6 D L 0 6

D i r e c t L O G I C 2 0 5 D 2 - 2 4 0 , D 2 - 2 5 0 , D 2 - 2 6 0 B u i l t - i n E t h e r n e t P o r t H 2 - E C O M / E B C 1 0 0

D 2 - D C M

D i r e c t L O G I C 3 0 5 D 3 - 3 4 0 , D 3 - 3 5 0 B u i l t - i n S e r i a l P o r t

D i r e c t L O G I C 4 0 5 D 4 - 4 5 0

S U S U - 5 / 5 E / 6 B / 5 M / 6 M / 6 H

B u i l t - i n S e r i a l P o r t U - 0 1 D M

K O S T A C S Z S Z - 4 / 4 M

K O S T A C S S G - 8 B U - 0 1 D M

K O S T A C P Z P Z 3 B u i l t - i n S e r i a l P o r t

K O S T A C S J

S J - 0 0 D D 1 / 2 - D , S J - 0 0 D R / A R - D S J - 0 2 D D 1 / 2 - D , S J - 0 2 D R - D

S J - 3 0 D D 1 - D B u i l t - i n E t h e r n e t P o r t B u i l t - i n S e r i a l P o r t

T 1 K T 1 K - M O D B U S T 1 H - E B C 1 0 0 B u i l t - i n S e r i a l P o r t T 1 H - C T R I O

Y A S K A W A

M P 3 2 0 0 C P U - 2 0 1 , C P U - 2 0 2

B u i l t - i n E t h e r n e t P o r t 2 1 8 I F - 0 1 / 0 2

2 1 8 I F - 0 1 / 0 2

2 1 7 I F - 0 1

M P 2 4 0 0 M P 2 4 0 0

M P 2 3 0 0 M P 2 3 1 0 , M P 2 3 0 0 ( S )

M P 2 2 0 0 M P 2 2 0 0

M P 2 1 0 0 M P 2 1 0 1 T ( M ) 2 1 7 I F - 0 1

M P 9 0 0 M P 9 4 0 , M P 9 3 0 B u i l t - i n S e r i a l P o r t

M P 9 2 0 2 1 8 I F A 2 1 7 I F

D E L T A

A H 5 0 0 A H 5 0 0 A H 1 0 E N - 5 A

B u i l t - i n S e r i a l P o r t

D V P - E H D V P - E H 2 / 3 D V P E N E 0 1 - S L

D V P - S V D V P - S V ( 2 )

D V P - S E D V P - S E B u i l t - i n E t h e r n e t P o r t

D V P - M C D V P - M C

D V P - E X D V P - E X ( 2 )

D V P - E S D V P - E S ( 2 )

D V P - E C D V P - E C 3

D V P - S X D V P - S X ( 2 )

D V P - S A D V P - S A ( 2 )

D V P - S S D V P - S S ( 2 )

D V P - S C D V P - S C

D V P - P M D V P - P M

M o d e l : D X P S V S T L

M o d e l : D X P S V M R X

M o d e l : D X P S V P F P

M o d e l : D X P S V K K V

M o d e l : D X P S V E N T

M o d e l : D X P S V M D B

M o d e l : D X P S V M D B

M o d e l : D X P S V M D B

M o d e l : D X P S V Y M P

M o d e l : D X P S V M D B

* 1 R u n t i me l i c e n s e o f S Y S M A C G a t e wa y a n d C X - C o mp o l e t a r e r e q u i r e d . * 2 J T E K T c o m m u n i c a t i o n l i b r a r y i s r e q u i r e d i n T O Y O P U C B u i l t - i n C P U P o r t c o n n e c t i o n . * 3 P l e a s e s e l e c t “ D X P S V M O D B U S O P C S e r v e r ” ( M o d e l : D X P S V M D B ) t o c o n n e c t w i t h P a n a s o n i c F P s e r i e s v i a s e r i a l c o m m u n i c a t i o n .

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V e n d e r S e r i e s C P U E t h e r n e t S e r i a l O t h e r s

R O C KW E L L

A B C o n t r o l L o g i x 1 7 5 6 1 7 5 6 - E N B T

1 7 5 6 - E N 2 T

A B C o m p a c t L o g i x

1 7 6 9 - L 3 5 / 3 2 E

1 7 6 8

B u i l t - i n E t h e r n e t P o r t 1 7 6 8 - E N B T

A B F l e x L o g i x 1 7 9 4 1 7 8 8 - E N B T

A B D r i v e L o g i x 5 7 3 0 , 5 7 2 0

L S I S

X G K X G K - C P U A / E / H / S / U

X G L - E F M F

X G L - E F M T X G I X G I - C P U U / H / S

X G R X G R - C P U H / F / T

3 S C o D e S y s ( G e n e r a l P C ) B u i l t - i n E t h e r n e t P o r t B u i l t - i n S e r i a l P o r t

S I E M E N S

S I M A T I C S 7 - 1 5 0 0

C P U 1 5 1 1 / 1 5 1 3 - 1 P N C P U 1 5 1 5 - 2 P N C P U 1 5 1 6 ( F ) - 3 P N / D P

C P U 1 5 1 8 ( F ) - 4 P N / D P B u i l t - i n E t h e r n e t P o r t

S I M A T I C S 7 - 1 2 0 0 C P U 1 2 1 1 / 1 2 1 2

C P U 1 2 1 4 C / 1 2 1 5 C / 1 2 1 7 C

S I M A T I C S 7 - 4 0 0 H C P U 4 1 2 - 3 H , C P U 4 1 4 / 4 1 7 - 4 H C P 4 4 3 - 1

S I M A T I C S 7 - 4 0 0

C P U 4 1 2 - 1 / 2 , C P U 4 1 7 - 4 C P U 4 1 4 - 2 / 3 ( P N / D P )

C P U 4 1 6 - 2 / 3 ( P N / D P ) C P 4 4 3 - 1

S I M A T I C S 7 - 3 0 0 C P U 3 1 2 / 3 1 4 / 3 1 5 - 2 ( P N / D P )

C P U 3 1 7 - 2 ( P N / D P ) C P 3 4 3 - 1

S I M A T I C W i n A C W i n A C R T X B u i l t - i n E t h e r n e t P o r t

F A N U C * 4 F A N U C P M C

3 5 i - B , 3 2 ( 0 ) i - A / B 3 1 ( 0 ) i - A / B / P / L / W A 3 0 ( 0 ) i - A / B / P / L 2 1 ( 0 ) ( i ) - A / B 1 8 ( 0 ) ( i ) - A / B / P / W 1 6 ( 0 ) ( i ) - A / B / P / W / L

1 5 ( 0 ) ( i ) , 0 i - A / B / C / D / P D / F

B u i l t - i n E t h e r n e t P o r t P C M C I A E t h e r n e t C a r d

F A N U C P o w e r M a t e P M i - H / D / A

K A W A S A K I R o b o t C o n t r o l l e r C , D / D + , E , S / S + B u i l t - i n E t h e r n e t P o r t

Y A S K A W A R o b o t S i m u l a t o r M o t o S i m E G - V R C

M I T S U B I S H I

M E L D A S - C 6 4 * 5 C 6 / C 6 4 F C U 6 - E X 8 7 5

M E L D A S - C 7 0 * 5 C 7 0 * 6

M E L D A S - M 7 0 0 * 5 M 7 5 0 / 7 3 0 / 7 2 0 ( V S / V W ) B u i l t - i n E t h e r n e t P o r t N C T r a i n e r

M E L D A S - M 7 0 * 5 M 7 0 ( V )

M - S Y S T E M

R e m o t e I / O R 3 R 3 R 3 - N E 1 R 3 - N M 1 / R 3 - N M 3

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M o d e l : D X P S V A L B

M o d e l : D X P S V S M T

M o d e l : D X P S V E N T

M o d e l : D X P S V G F C

M o d e l : D X P S V K R C

M o d e l : D X P S V M E L

M o d e l : D X P S V M E L

M o d e l : D X P S V M D B

M o d e l : D X P S V M D B

M o d e l : D X P S V M D B

M o d e l : D X P S V M D B

M o d e l : D X P S V E N T

M o d e l : D X P S V E N T

M o d e l : D X P S V M D B

M o d e l : D X P S V E N T

M o d e l : D X P S V E N T

M o d e l : D X P S V E N T

M o d e l : D X P S V E N T

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M o d e l : D X P S V M E L

M o d e l : D X P S V Y S R

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10

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D D E S e r v e r D D E S e r v e r

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M o d e l : D X P S V C P L

M o d e l : D X P S V M D B

M o d e l : D X P S V M D B

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M o d e l : D X P S V O P C

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M o d e l : D X P S V M D B

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* 1 S e l e c t E n g l i s h v e r s i o n o r J a p a n e s e v e r s i o n . I f y o u ’ d l i k e t o o r d e r J a p a n e s e e d i t i o n , a d d t o " - J " i n s t e a d o f " - E " a f t e r t h e m o d e l . T y p e o f i n s t a l l a t i o n me d i a i s C D - R m e d i a . W h e n y o u ’ d l i k e t o o r d e r d o w n l o a d i n g v e r s i o n , a t t a c h " - D L " b e h i n d t h e m o d e l . * 2 P r o v i d e w i t h l i c e n s e s h e e t o n l y . I f y o u n e e d i n s t a l l a t i o n me d i a i t s e l f , p u r c h a s e n o r m a l l i c e n s e . F o r u p g r a d e a d d i t i o n a l l i c e n s e p r o d u c t , i t s h o u l d b e d o n e i n b u l k . * 3 Y o u w i l l g e t f r e e u p g r a d e s e r v i c e j u s t o n e t i m e f o r o n l y m i n o r u p g r a d e w i t h i n a y e a r f r o m t h e d a t e o f p u r c h a s e . A f t e r a y e a r p a s s e d , y o u s h o u l d o r d e r b y t h e m o d e l n a m e d D X P S V * * * - V . T h e mi n o r u p g r a d e a p p l i e s f o r d e c i ma l u p g r a d i n g s u c h a s V e r 5 . 3 f r o m V e r 5 . 0 . I n t h e c a s e o f u p g r a d i n g f r o m V e r 4 . x t o V e r 5 . x , i t m e a n s m a j o r v e r s i o n u p a n d y o u s h o u l d b u y v e r s i o n u p p r o d u c t n a m e d D X P S V * * * - V . * 4 D X P S V * * * : S e l e c t m o d e l l e t t e r o f s t a n d a r d l i c e n s e . * 5 O P C U A d e v e l o p m e n t s u p p o r t t o o l i n c l u d e s O P C U A c l i e n t d e v e l o p me n t l i b r a r y a n d s a m p l e p r o g r a m .

[ F r e e u p d a t e s e r v i c e / S p o t s e r v i c e ]

Y o u c a n a d d F r e e u p d a t e s e r v i c e a n d S p o t s e r v i c e f o r 3 o r 5 y e a r s t o E n t e r p r i s e L i c e n s e o n l y . - F r e e u p d a t e s e r v i c e : Y o u c a n g e t f r e e u p d a t e s e r v i c e a n y t i m e , i n c l u d i n g ma j o r v e r s i o n u p . - S p o t s e r v i c e : Y o u c a n o f f e r o u r d e v e l o p e r ' s d i r e c t s u p p o r t f o r O P C s e r v e r , t h o u g h t h i s i s a f e e - b a s e d s e r v i c e ( e . g . t r a v e l f e e , p e r s o n n e l e xp e n s e s , e t c . ) P l e a s e n o t e t h a t y o u c a n n o t c h a n g e t h e m a i n t e n a n c e p e r i o d o r e x t e n d i t .

P r o d u c t M o d e l * 1 S u p p o r t P L C P r i c e

D X P S V E n t e r p r i s e O P C S e r v e r D X P S V E N T - E S u p p o r t A l l C o n t r o l l e r U S D 1 , 4 8 0

D X P S V E n t e r p r i s e O P C S e r v e r w i t h 3 Y e a r s M a i n t e n a n c e D X P S V E N T - M 3 - E W i t h F r e e u p d a t e s e r v i c e / S p o t s e r v i c e U S D 2 , 2 9 0

D X P S V E n t e r p r i s e O P C S e r v e r w i t h 5 Y e a r s M a i n t e n a n c e D X P S V E N T - M 5 - E W i t h F r e e u p d a t e s e r v i c e / S p o t s e r v i c e U S D 3 , 4 5 0

D X P S V E n t e r p r i s e O P C S e r v e r A d d i t i o n a l 1 0 L i c e n s e s * 2 D X P S V E N T - A 1 0 - E L i c e n s e 1 0 ( N o n e M e d i a ) U S D 1 2 , 7 6 0

D X P S V E n t e r p r i s e O P C S e r v e r A d d i t i o n a l 5 0 L i c e n s e s * 2 D X P S V E N T - A 5 0 - E L i c e n s e 5 0 ( N o n e M e d i a ) U S D 5 9 , 1 6 0

D X P S V E n t e r p r i s e O P C S e r v e r V e r s i o n U p * 3 D X P S V E N T - V - E U p g r a d e t o t h e l a t e s t v e r s i o n U S D 7 4 0

D X P S V E n t e r p r i s e O P C S e r v e r E n h a n c e d U p g r a d e D X P S V E N T - C H G - E U p g r a d e F r o m S t a n d a r d t o E n t e r p r i s e l i c e n s e U S D 7 4 0

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P r o d u c t M o d e l * 1 S u p p o r t P L C P r i c e

D X P S V M E L S E C O P C S e r v e r D X P S V M E L - E M I T S U B I S H I M E L S E C i Q - R / Q / L / F X / Q n A / A S e r i e s

U S D 7 8 0

D X P S V S Y S M A C O P C S e r v e r * 2 D X P S V S Y S - E O M R O N S Y S M A C - N J / C J / C S / C P / C V / C S e r i e s

D X P S V T O Y O P U C O P C S e r v e r * 3 D X P S V T Y P - E J T E K T T O Y O P U C - P C 1 0 / P C 3 J / P C 2 J S e r i e s

D X P S V F A - M 3 O P C S e r v e r D X P S V F A M - E Y O K O G AW A F A - M 3 S e r i e s

D X P S V H I D I C O P C S e r v e r D X P S V H I D - E H I T A C H I E H / H S e r i e s

D X P S V S A T E L L I T E O P C S e r v e r D X P S V S T L - E S H A R P S A T E L L I T E JW S e r i e s

D X P S V M I C R E X O P C S e r v e r D X P S V M R X - E F U J I M I C R E X - S X / F S e r i e s

D X P S V F P O P C S e r v e r D X P S V P F P - E P A N A S O N I C F P - X / F P 7 / F P 2 S e r i e s

D X P S V M P O P C S e r v e r D X P S V Y M P - E Y A S K A W A M P S e r i e s ( M E M O B U S )

D X P S V Y S R O P C S e r v e r D X P S V Y S R - E Y A S K A W A R o b o t S i mu l a t o r

D X P S V K V O P C S e r v e r D X P S V K K V - E K E Y E N C E K V S e r i e s

D X P S V A B O P C S e r v e r D X P S V A L B - E R O C KW E L L A B C o n t r o l L o g i x ( E t h e r N e t / I P )

D X P S V S I M A T I C O P C S e r v e r D X P S V S M T - E S I E M E N S S I M A T I C - S 7 S e r i e s

D X P S V C P L O P C S e r v e r D X P S V C P L - E A Z B I L ( Y A M A T A K E ) C P L p r o t o c o l

D X P S V M O D B U S O P C S e r v e r D X P S V M D B - E M O D B U S / T C P , M O D B U S / R T U , M O D B U S / A S C I I

D X P S V F A N U C O P C S e r v e r * 4 D X P S V G F C - E F A N U C P M C S e r i e s

D X P S V R C C O P C S e r v e r D X P S V K R C - E K A W A S A K I R o b o t C o n t r o l l e r

D X P S V O P C D A O P C S e r v e r D X P S V O P C - E O P C D A 2 . 0 5 A / 3 . 0 S e r v e r

D X P S V S t a n d a r d O P C S e r v e r A d d i t i o n a l 1 0 L i c e n s e s * 2 D X P S V * * * - A 1 0 - E * 4 L i c e n s e 1 0 ( N o n e M e d i a ) U S D 6 , 7 2 0

D X P S V S t a n d a r d O P C S e r v e r A d d i t i o n a l 5 0 L i c e n s e s * 2 D X P S V * * * - A 5 0 - E * 4 L i c e n s e 5 0 ( N o n e M e d i a ) U S D 3 1 , 9 0 0

D X P S V S t a n d a r d O P C S e r v e r V e r s i o n U p * 3 D X P S V * * * - V - E * 4 U p g r a d e t o t h e l a t e s t v e r s i o n U S D 3 9 0

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