R3-NCIE1/Q [MSYSTEM]

Remote I/O R3 Series NETWORK INTERFACE MODULE;


型号：	R3-NCIE1/Q
厂家：	M-SYSTEM
描述：	Remote I/O R3 Series NETWORK INTERFACE MODULE
文件：	总8页 (文件大小：229K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MODEL: R3-NCIE1

Remote I/O R3 Series

GENERAL SPECIFICATIONS

Connection

CC-Link IE Field: RJ-45 Modular Jack

NETWORK INTERFACE MODULE

(CC-Link IE Field network)

Internal bus: Via the Installation Base (model: R3-BSx)

Internal power: Via the Installation Base (model: R3-BSx)

RUN contact output: M3 separable screw terminal (torque

0.5 N·m)

27.5 [1.08]

Screw terminal: Nickel-plated steel

Isolation: CC-Link IE Field to internal bus or internal power

to RUN contact output

130

[5.12]

Input error data setting: Input value setting at input module

error with side DIP SW

Dual communication setting: Set with the side DIP switch

Data allocation setting: Set with the side DIP switch

RUN indicator: Green LED ON at normal operating

ERR indicator: Red LED ON at abnormal node

■ RUN CONTACT OUTPUT

109

[4.29]

mm [inch]

MODEL: R3-NCIE1[1]

RUN contact: Turns ON while the green RUN LED is ON (ON

in normal operation).

ORDERING INFORMATION

• Code number: R3-NCIE1[1]

Specify a code from below for [1].

(e.g. R3-NCIE1/CE/W/Q)

Rated load: 250 V AC @ 0.5 A (cos ø = 1)

30 V DC @ 0.5 A (resistive load)

(Less than 50 V AC to conform with EU Directive)

Maximum switching voltage: 250 V AC or 30 V DC

Maximum switching power: 250 VA or 150 W

Minimum load: 1 V DC @ 1 mA

• Specify the specification for option code /Q

(e.g. /C01)

Mechanical life: 2 × 10 cycles (300 cycles/min.)

When driving an inductive load, external contact protection

and noise quenching recommended.

[1] OPTIONS (multiple selections)

Standards & Approvals

blank: Without CE

/CE: CE marking

CC-Link IE Field COMMUNICATION

Protocol: IEEE 802.3

Mitsubishi PLC Redundant System

blank: Without

Transmission type: 1000BASE-T

/W: With

Communication speed: 1 Gbps

Other Options

Network cable: Cable conformed to CC-Link IE Field

Double shielded twist pair cable (CAT5e)

RJ-45 connector

blank: none

/Q: Option other than the above (specify the specification)

Network topology: Line, star and ring

Max. number stations: 120 (Total slave station)

(Number of max. connectable slaves may vary depending

on the master module. Refer to the instruction manual of

the master module)

SPECIFICATIONS OF OPTION: Q

COATING (For the detail, refer to M-System's web site.)

/C01: Silicone coating

/C02: Polyurethane coating

Max. station-to-station distance: 100 m

Station type: Remote device station

Link device: RX/RY 128 points, RWw/RWr 64 points

NetWork No.: 1 to 239 (factory default: 1)

/C03: Rubber coating

RELATED PRODUCTS

• PC configurator software (model: R3CON)

Downloadable at M-System’s web site.

For connecting to PC, use commercially available Mini-B

type USB cable. (provided by user)

INSTALLATION

Current consumption: 170 mA max.

Operating temperature: -10 to +55°C (14 to 131°F)

Operating humidity: 30 to 90 %RH (non-condensing)

Atmosphere: No corrosive gas or heavy dust

R3-NCIE1 SPECIFICATIONS

ES-8287 Rev.3 Page 1/8

https://www.m-system.co.jp/

MODEL: R3-NCIE1

Mounting: Installation Base (model: R3-BSx)

Weight: 190 g (0.42 lb)

PERFORMANCE

Insulation resistance: ≥ 100 MΩ with 500 V DC

Dielectric strength: 1500 V AC @ 1 minute (CC-Link IE Field

to internal bus or internal power to RUN contact output)

1500 V AC @ 1 minute (power input to FG; isolated on the

power supply module)

STANDARDS & APPROVALS

EU conformity:

EMC Directive

EMI EN 61000-6-4

EMS EN 61000-6-2

RoHS Directive

EXTERNAL VIEW

■ FRONT VIEW

■ SIDE VIEW

×10

STATION No.

×1

RUN LED

ERR LED

Station No. Rotary SW

D LINK

CONFIG

FUNCTION

D LINK LED

LNK

SW3

SW2

SW1

L ER

LNK

PC Configurator Connector

CC-Link IE Field

Communication

RJ-45 Modular Jack

L ER

TRANSMISSION DATA DESCRIPTIONS

Number of transmission data (data allocation) for each I/O module is set with the DIP switch on the side of the unit. Data

allocation is assigned from slot 1 in sequence.

Keep number of transmission data of I/O module under 64, because max. number of transmission data is 64 per a node.

Station type: Remote device station

Link device: RX/RY 128points, RWw/RWr 64points

E.g. I/O data is assigned as shown below in the case of following configuration.

BASE

SLOT NO.

MODEL

NUMBER OF

TRANSMISSION DATA

R3-BS10

R3-DA16A

R3-DC16A

R3-SV4

R3-YV4

R3-RS8

R3-YV8

R3-PA16

R3-PC16A

R3-NCIE1

R3-PS1

−

R3-NCIE1 SPECIFICATIONS

ES-8287 Rev.3 Page 2/8

https://www.m-system.co.jp/

MODEL: R3-NCIE1

■ INPUT DATA

■ OUTPUT DATA

The figure below shows the data received from the master.

The figure below shows the data sent from the device to the master.

RWr n+0

R3-BS10 Slot 1 R3-DA16A Di16 points RWw n+0

Slot 2 R3-DC16A Do16 points

R3-BS10 Slot 1 R3-DA16A Di16 points

Slot 2 R3-DC16A Do16 points

Slot 3 R3-SV4

Slot 4 R3-YV4

Slot 5 R3-RS8

CH1

CH2

CH3

CH4

CH1

CH2

CH3

CH4

CH1

CH2

CH3

CH4

CH5

CH6

CH7

CH8

CH1

CH2

CH3

CH4

CH5

CH6

CH7

CH8

Slot 3 R3-SV4

Slot 4 R3-YV4

Slot 5 R3-RS8

CH1

CH2

CH3

CH4

CH1

CH2

CH3

CH4

CH1

CH2

CH3

CH4

CH5

CH6

CH7

CH8

CH1

CH2

CH3

CH4

CH5

CH6

CH7

CH8

+10

+12

+14

+16

+18

+20

+22

+24

+26

+28

+30

+32

+10

+12

+14

+16

+18

+20

+22

+24

+26

+28

+30

+32

Slot 6 R3-YV8

Slot 7 R3-PA16 CH1

CH2

CH3

CH4

CH5

CH6

CH7

CH8

+34

+36

+34

+36

CH9

CH10

CH11

CH12

CH13

CH14

CH15

CH16

CH10

CH11

CH12

CH13

CH14

CH15

CH16

+38

+40

+42

+44

+46

+48

+50

+52

+54

+56

+40

+42

+44

+46

+48

+50

+52

+54

+56

Slot 8 R3-PC16A

CH1

CH2

CH3

CH4

CH5

CH6

CH7

CH8

CH9

CH10

CH11

CH12

CH13

CH14

CH15

CH16

CH10

CH11

CH12

CH13

CH14

CH15

CH16

R3-NCIE1 SPECIFICATIONS

ES-8287 Rev.3 Page 3/8

https://www.m-system.co.jp/

MODEL: R3-NCIE1

■ REMOTE INPUT

F E D C B A

9 8 7 6 5 4 3 2 1

RX(n+0)

RX(n+1)

Remote READY

Redundant Command Read Back

Module Status

RX(n+2)

RX(n+3)

RX(n+4)

RX(n+5)

RX(n+6)

RX(n+7)

Error Status

Data Error Status

Unused

• RX(n+0) is used as Ready signal, the bit is “1” when this module is in normal.

• Redundant Command Read Back (Opt. code: /W Available only for redundant system PLC by Mitsubishi)

The bit written to RY(n+1)0 reads back to RX(n+1)0.

• Module Status

RX(n+2)0 to RX(n+2)F indicate whether individual I/O modules of R3 series are mounted or not.

The bit corresponding to the mounted slot turns to “1”, and the unmounted slot to “0”

• Error Status

RX(n+3)0 to RX(n+3)F indicate error status for each module of R3 series.

The bit corresponding to such module turns to “1”, as described below.

R3-TSx, R3-RSx, R3-US4 Input burnout.

R3-DA16A input power in error or disconnected

R3-YSx output current error (e.g. load unconnected)

R3-PC16A external power supply in error or disconnected

• Data Error Status

RX(n+4)0 to RX(n+4)F indicate data error status for each module of R3 series.

The bit corresponding to such module turns to “1”, as described below.

Input value is out of -15% to +115%

In the case of R3-US4 (voltage input) input level out of -10% to +110%.

RX(n+2)0, RX(n+3)0, RX(n+4)0

RX(n+2)1, RX(n+3)1, RX(n+4)1

RX(n+2)2, RX(n+3)2, RX(n+4)2

slot 1

slot 2

slot 3

RX(n+2)F, RX(n+3)F, RX(n+4)F

slot 16

Link devices other than the above are not in use.

■ REMOTE OUTPUT (Opt. code: /W Available only for redundant system PLC by Mitsubishi)

F E D C B A

9 8 7 6 5 4 3 2 1

RY(n+0)

RY(n+1)

Not in use

Redundant Command

RY(n+2)

RY(n+7)

Not in use

R3-NCIE1 SPECIFICATIONS

ES-8287 Rev.3 Page 4/8

https://www.m-system.co.jp/

MODEL: R3-NCIE1

• Redundant Command

Bit 0 of RY(n+1) is assigned to designate control system or standby system. Set this bit from the host PLC to switch from the

PLC master control system to the standby system, or vice versa. The R3 module output (slave station) is controlled according

to the bit combinations as shown in the table below. No switching is required for the R3 input modules which continuously send

out data to both ‘main’ and ‘sub’ network modules.

RY(n+1) 0 = 0 : PLC master control system

RY(n+1) 0 = 1 : PLC standby system

R3 MAIN (RY(n+1) 0)

R3 SUB (RY(n+1) 0)

CONTROL

Output from the ‘main’ network module

Output from the ‘sub’ network module

Output hold or output off*¹

*1. Depending on the setting for the output hold function of output module.

• Operation

R3 main network

RY (n+1) 0 = 0

RY (n+1) 0 = 1

Communication Status

Start

Break

Restored

(4)

Switching by PLC

(5)

(1)

(2)

(3)

R3 sub network

RY (n+1) 0 = 0

RY (n+1) 0 = 1

1) When the redundant command bits are unde!ned due to no communication, the both PLCs function as standby system for

each of R3 main and sub network modules.

The output module’s status turns to ‘output hold’ or ‘output off’ according to the setting for output hold function.

During no communication just after the power supply, all the channels of the contact output modules are off-state, and analog

output modules output -15%.

2) The master PLC communicates with the R3 main network module, while the standby PLC communicates with the R3 sub

network module.

3) When a wire breakdown is detected at the R3 main network, the output signal is held for the preset time period (Timer is

programmable with the PC Con!gurator Software, R3CON). After the time has been elapsed, the output is switched from the

R3 main to R3 sub network. Be sure to set an appropriate output signal to the R3 sub network before the switching. The host

PLC for the R3 main network is now functioning as standby system.

4) Once the PLC control is transferred to the standby system, it is necessary to set RY(n+1) 0 = 1 to the R3 main network in

order to prevent R3 output control automatically switched to the main network when the R3 main network is restored. If it is

set to RY(n+1) 0 = 0, the R3 output will be switched to the main network even when the PLC control is in the standby system.

5) When both R3 main and R3 sub network modules are in communication, the output can be switched without delay by setting

RY(n+1) 0 values. Be sure to set an appropriate output signal to the network module before the control is switched to it.

R3-NCIE1 SPECIFICATIONS

ES-8287 Rev.3 Page 5/8

https://www.m-system.co.jp/

MODEL: R3-NCIE1

■ CONNECTION EXAMPLE

Control

Standby

CPU

Master Master

CPU

Master Master

I/O

R3-

I/O

R3-

NCIE1 NCIE1 PSx

Main

Sub

Main

Sub

Link devices other than the above are not in use.

MODULE STATUS, ERROR STATUS, DATA ERROR STATUS

Shows each module's availability and error status.

Module 1

Module 2

Module 3

Module 16

I/O DATA DESCRIPTIONS

The data allocations for typical I/O modules are shown below.

Refer to the manual for each module for detailed data allocations.

■ OPERATION IN CASE OF A COMMUNICATION ERROR WITH I/O MODULES

When the communication between the network module and the I/O modules is lost due to an error in an input module, the last

process values are held until the communication is re-established.

■ ANALOG DATA (16-bit data, models: R3-SV4, YV4, DS4, YS4, US4, etc.)

16-bit binary data.

Basically, 0 to 100% of the selected I/O range is converted into 0 to 10000 (binary).

-15 to 0 % is a negative range represented in 2’s complement.

In case of R3-US4, -10 to 0% is a negative range represented in 2's complement.

R3-NCIE1 SPECIFICATIONS

ES-8287 Rev.3 Page 6/8

https://www.m-system.co.jp/

MODEL: R3-NCIE1

■ TEMPERATURE DATA (16-bit data, models: R3-RS4, TS4, 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 converted into 135.

Minus temperature is converted into negative values, represented in 2’s complements.

■ ANALOG DATA (16-bit data, models: R3-CT4A, CT4B, etc.)

16-bit binary data.

Integer obtained by multiplying unit value (A) by 100.

In case of CLSE-R5, integer obtained by multiplying unit value (A) by 1000.

■ ACCUMULATED COUNT DATA (32-bit data, models: R3-PA2, PA4A, WT1, WT4, etc.)

32-bit binary data is used for accumulated counts and encoder positions.

Lower 16 bits are allocated from the lowest address to higher ones, higher 16 bits in turn.

Lower 16 bits

Higher 16 bits

■ 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.

Lower 16 bits

Higher 16 bits

■ 16-POINT DISCRETE DATA (models: R3-DA16, DC16, etc.)

Input 1 (Output 1)

Input 2 (Output 2)

Input 3 (Output 3)

Input 16 (Output 16)

0 : OFF

1 : ON

R3-NCIE1 SPECIFICATIONS

ES-8287 Rev.3 Page 7/8

https://www.m-system.co.jp/

MODEL: R3-NCIE1

EXTERNAL DIMENSIONS & TERMINAL ASSIGNMENTS unit: mm [inch]

27.5 [1.08]

109 [4.29]

POSITIONING

GUIDE

6–M3

SCREW

TERMINAL

COVER

SCHEMATIC CIRCUITRY & CONNECTION DIAGRAM

STATION NO

ROTARY SW

LED

Isolation

Comm.

Circuit

INTERNAL

BUS

RJ-45 MODULAR JACK

CC-Link IE Field CN1

Control

Circuit

Isolation

INTERNAL

POWER

CC-Link IE Field CN2 RJ-45 MODULAR JACK

RUN +

RUN –

DIP SW

RUN CONTACT OUTPUT

PC CONFIGURATOR

CONNECTOR

USB CONNECTOR

Regarding CN1 and CN2 of RJ-45 connector for CC-Link IE Field network, there is no restriction for connection order.

Specifications are subject to change without notice.

R3-NCIE1 SPECIFICATIONS

ES-8287 Rev.3 Page 8/8

https://www.m-system.co.jp/

R3-NCIE1/Q [MSYSTEM]

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