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5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201  Fax: +81(6)6659-8510  E-mail: [email protected]

EM-8466  Rev.5  P. 1 / 7

INSTRUCTION MANUAL

EtherNet/IP INTERFACE MODULE

MODEL

R3-NEIP1

BEFORE USE ....

Thank you for choosing M-System.  Before use, please check 
contents of the package you received as outlined below.
If you have any problems or questions with the product, 
please contact M-System’s Sales Office or representatives.

 

PACKAGE INCLUDES:

Network interface module ..................................................(1)

 

MODEL NO.

Confirm Model No. marking on the product to be exactly 
what you ordered.

 

INSTRUCTION MANUAL

This manual describes necessary points of caution when 
you use this product, including installation, connection and 
basic maintenance procedures.

 

EDS FILE

EDS files are downloadable at M-System’s web site: http://
www.m-system.co.jp

POINTS OF CAUTION

 

CONFORMITY WITH EU DIRECTIVES

• The equipment must be mounted inside the instrument 

panel of a metal enclosure.

• The actual installation environments such as panel con-

figurations, connected devices, connected wires, may af-
fect the protection level of this unit when it is integrated 
in a panel system.  The user may have to review the CE 
requirements in regard to the whole system and employ 
additional protective measures to ensure the CE conform-
ity.

 

HOT SWAPPABLE MODULES

• The module can be replaced while the power is ON.  Be 

sure to replace it when the module is not communicat-
ing with a host, as it may affect the system.  Replacing 
multiple modules at once may greatly change line voltage 
levels.  We highly recommend to replace them one by one.

 

GENERAL PRECAUTIONS

• DO NOT set the switches on the module while the power 

is supplied.  The switches are used only for maintenance 
without the power.

 

ENVIRONMENT

• Indoor use.
• When heavy dust or metal particles are present in the 

air, install the unit inside proper housing with sufficient 
ventilation.

• Do not install the unit where it is subjected to continuous 

vibration.  Do not subject the unit to physical impact.

• Environmental temperature must be within -10 to +55°C 

(14 to 131°F) with relative humidity within 30 to 90% RH 
in order to ensure adequate life span and operation.

 

WIRING

• Do not install cables close to noise sources (relay drive 

cable, high frequency line, etc.).

• Do not bind these cables together with those in which 

noises are present.  Do not install them in the same duct.

 

AND ....

• The unit is designed to function as soon as power is sup-

plied, however, a warm up for 10 minutes is required for 
satisfying complete performance described in the data 
sheet.

    Note: Not connectable beyond router.

INSTALLATION

Use the Installation Base Model R3-BS, or Model R3-BSW 
for free I/O address capability.

Before mounting the Network Interface Module onto the 
Base, be sure to configure the module as explained below.

 

DATA ALLOCATION

The setting determines the data area size assigned to each 
I/O module mounted on the base.
The data sent/received via EtherNet/IP is mapped accord-
ing to this setting.
See “COMPONENT IDENTIFICATION” and “TRANSMIS-
SION DATA DESCRIPTIONS”.

 

I/O DATA AREA SIZE

The I/O data area is set with DIP switch (SW3) on the side 
of the module.  That sets the size of data on the EtherNet/IP.

 

NETWORK SLOTS ON THE BASE

I/O 1

I/O 2

I/O n

With Model R3-BS base, mount the I/O Modules from the 
left end (I/O 1) to the right in order that the Network Mod-
ule assigns data areas from I/O 1.
Network Module(s) and Power Module are mounted basi-
cally at the right end though technically they could be 
mounted in any position.

With Model R3-BSW base, there is no limitation in mount-
ing positions as I/O address can be assigned freely to each 
module using rotary switches equipped on the base.

Summary of Contents for R3-NEIP1

Page 1: ... ENVIRONMENT Indoor use When heavy dust or metal particles are present in the air install the unit inside proper housing with sufficient ventilation Do not install the unit where it is subjected to continuous vibration Do not subject the unit to physical impact Environmental temperature must be within 10 to 55 C 14 to 131 F with relative humidity within 30 to 90 RH in order to ensure adequate life...

Page 2: ...e position to specify how many data areas four types are to be occupied by each Two bits from SW1 and SW2 are assigned to each posi tion and data areas can be specified from the module No 1 through 8 Setting for No 9 and later modules is identical to No 8 SW ASSIGNMENT MODULE NO SW1 1 SW1 2 1 SW1 3 SW1 4 2 SW1 5 SW1 6 3 SW1 7 SW1 8 4 SW2 1 SW2 2 5 SW2 3 SW2 4 6 SW2 5 SW2 6 7 SW2 7 SW2 8 8 SW SETTI...

Page 3: ... 255 255 192 168 0 1 TERMINAL CONNECTIONS Connect the unit as in the diagram below EXTERNAL DIMENSIONS unit mm inch 1 2 3 4 5 6 130 5 12 27 5 1 08 109 4 29 POSITIONING GUIDE TERMINAL COVER 6 M3 SCREW 6 2 24 CONNECTION DIAGRAM INTERNAL POWER INTERNAL BUS CONFIGURATION JACK JACK RJ 45 MODULAR JACK BUS CONNECTOR 1 RUN RUN RUN CONTACT OUTPUT EtherNet IP 4 WIRING INSTRUCTIONS M3 SCREW TERMINAL Torque 0...

Page 4: ...s C WINDOWS ping Enter IP address in decimal ping with 32 bytes of data Reply from bytes 32 time 10ms TTL 64 Reply from bytes 32 time 10ms TTL 64 Reply from bytes 32 time 10ms TTL 64 Reply from bytes 32 time 10ms TTL 64 Ping statistics for Packets Sent 4 Received 4 Lost 0 0 loss Replies in case of normal connection are as shown above If the connection cannot be established normally due to e g wron...

Page 5: ...le 3 Module 4 Module 5 Module 6 Module 7 Module Status Error Status Data Error Status Begin Address 0 15 0 2 4 6 8 10 12 14 Module 1 Module 2 Module 3 Module 4 Module 5 Module 6 Module 7 Begin Address The area enclosed with bold line is assigned for I O data 249 251 249 251 16 16 Module Status Error Status and Data Error Status are assigned to the last three words of the output data respectively E...

Page 6: ...nge represented in 2 s complement 0 15 TEMPERATURE DATA 16 bit data models R3 RS4 TS4 and US4 etc 16 bit binary data With C temperature unit raw data is multiplied by 10 For example 25 5 C is converted into 255 With F temperature unit the integer section of raw data is directly converted into the data For example 135 4 F is con verted into 135 Minus temperature is converted into negative values re...

Page 7: ... 7 7 BCD DATA 32 bit data models R3 BA32A BC32A etc 32 bit binary data is used for BCD Lower 16 bits are allocated from the lowest address to higher ones higher 16 bits in turn 0 15 0 Lower 16 bits 0 15 1 Higher 16 bits DISCRETE DATA models R3 DA16 and DC16 etc 0 15 Input 1 Output 1 Input 2 Output 2 Input 3 Output 3 Input 16 Output 16 0 OFF 1 ON ...

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