Inovance Mtio-2824rnd User manual

MTIO-2824RND

Multi-functional Remote I/O Module

User Guide

Suzhou Inovance Technology Co., Ltd.

Add.: No. 16 Youxiang Road, Yuexi Town, Wuzhong District,

Suzhou 215104, P.R. China

Website: http://www.inovance.com

19011178A01

*19011178A01*

Preface

Overview

MTIO-2824RND is a multi-functional remote I/O extension module developed and

manufactured by Inovance. Using the EtherCAT bus, this product supports up to 24

digital outputs (including 8 relay outputs and 16 common digital outputs), 28 digital

inputs, 2 analog inputs, 2 analog outputs, handwheel input terminal (including 9

digital inputs and 1 pair of phase A/B di󶍽erential quadrature pulse inputs), and servo

pulse control terminal.

This user guide describes the speci󶍾cations, characteristics, and usage of this product.

Please read this user guide carefully before using to ensure safety. You can obtain the

latest version of this user guide from Inovance's website (www.inovance.com).

Intended Audience

This user guide is intended for the users (including electrical engineers, software

engineers, and system engineers) of computer numerical control (CNC) machine tools

such as the engraving and milling machine and spring machine.

First Use

Read this document carefully before you use the product for the 󶍾rst time. For any

doubts about functionality and performance, consult Inovance's technical support

personnel.

Standards Compliance

The product complies with the following directives and standards:

Directive Name Standards Compliance Mark

LVD 2014/35/EU EN 61010-1:2010

EN 61010-2-201:2013

EMC 2014/30/EU

EN 61131-2:2007

EN 55011:2016+A1:2017

IEC 61000-6-2:2016

The product complies with the LVD and EMC and is labeled with the CE mark.

LVD: 2014/35/EU; EMC: 2014/30/EU

A machine or device equipped with the product must also be labeled with the CE

mark.

The customer who 󶍾nally assembles the machine equipped with the product is

responsible for attaching the CE mark to the machine. The customer 󶍾nally con󶍾rms

whether the machine complies with the uniform European standards.

Change History

Date Issue Description

November 2019 A00 Released the 󶍾rst issue.

Safety Instructions

Safety Precautions

1 ） Before installing, operating, and maintaining this equipment, read the safety

instructions and precautions thoroughly, and comply with them during

operations.

2 ） To ensure personal safety and equipment security, follow the signs on the

equipment and all the safety instructions in this user guide.

3 ） "CAUTION", "WARNING", and "DANGER" items in the user guide do not

indicate all safety precautions that need to be followed; instead, they just

supplement the safety precautions.

4 ） Use this equipment according to the designated environment requirements.

Damage caused by improper usage is not covered by warranty.

5 ） Inovance shall take no responsibility for any personal injuries or property

damage caused by improper usage.

Safety Levels and De󶍾nitions

DANGER

Indicates that failure to comply with the notice will result in severe

personal injuries or even death.

WARNING

Indicates that failure to comply with the notice may result in severe

personal injuries or even death.

CAUTION

Indicates that failure to comply with the notice may result in minor or

moderate personal injuries or equipment damage.

Keep this user guide well so that it can be read when necessary and forward this user

guide to the end user.

Control System Design

DANGER

◆Design a safety circuit to ensure that the control system operates safely upon power or

controller failure.

◆Do not apply this product to machines that may cause personal injuries or death,

equipment damage, or system shutdown.

CAUTION

◆When an output unit such as a relay or transistor of the controller is damaged, its

output cannot be controlled in the ON or OFF state. To ensure proper operating of

the equipment, design an external protection circuit and a safety mechanism for the

output signals related to critical incidents.

◆The controller is designed for indoor electrical environments complying with the

Class II overcurrent rating. Install a lightning protection device for the power system

to prevent lightning overvoltage on the power input terminal, signal input terminal, or

control output terminal of the controller and avoid equipment damage.

Installation

DANGER

◆Equipment installation must be performed only by professional maintenance

personnel who have been trained on necessary electrical knowledge.

◆The controller adopts the microcomputer design. Keep the controller clean and

prevent metal scraps, conductors, water, and corrosive gases or liquids from entering

it. Any noncompliance may result in a 󶍾re, a malfunction, or a misoperation. Cut o󶍽

all external power supplies of the system before you install or remove a module. Any

noncompliance may result in an electric shock, a malfunction, or a misoperation.

◆Do not install this product on a 󶍿ammable object or in an environment with overhigh

temperature. Any noncompliance may result in a 󶍾re, a malfunction, or damage.

WARNING

◆Ensure that the ventilation plane of the controller is unblocked after installation.

Any noncompliance may result in poor heat dissipation, a 󶍾re, a malfunction, or a

misoperation.

◆During installation, connect the modules to corresponding connectors reliably and

secure the hooks. Improper installation of a module may result in a misoperation, a

malfunction, or falling o󶍽.

Wiring

DANGER

◆Equipment wiring must be performed only by professional maintenance personnel

who have been trained on necessary electrical knowledge.

◆Before assembly, ensure that the controller and peripherals (such as the machine tool)

are properly grounded for lightning and leakage protection.

◆Cut o󶍽 all external power supplies of the system before wiring. Any noncompliance

may result in an electric shock, a malfunction, or a misoperation.

◆The rated voltage of the power system for the controller must comply with the

speci󶍾cations. If the voltage is unstable, install a voltage regulator to ensure proper

operating of the controller.

◆Take insulation measures for cable terminals to avoid a decrease in the insulation

distance after cables are connected to the terminals. Any noncompliance may result in

an electric shock or equipment damage.

WARNING

◆The speci󶍾cations and installation methods for external wiring of the equipment must

comply with local power distribution regulations. A cable with a su󶎀cient diameter

must be used for reliable grounding. For details, see the wiring descriptions in the user

guide.

◆Verify the connector type before you connect a cable. Connection to a wrong connector

or a wiring mistake may result in a malfunction of a module or external equipment.

◆Tighten the bolt on the terminal block within the speci󶍾ed torque range. Any

noncompliance may result in a short circuit, a 󶍾re, or a misoperation.

◆Do not bundle the control and communication cables with the main circuit or power

cable; instead, keep them at least 100 mm apart. Any noncompliance may result in

noise and a misoperation.

◆Use a shielded cable for input or output of high-frequency signals in application

scenarios with serious interference, to improve the interference immunity of the

system.

Maintenance

DANGER

◆Equipment maintenance must be performed only by professional maintenance

personnel who have been trained on necessary electrical knowledge.

◆Before 󶍾rst power-on, cut o󶍽 the loads of all external equipment to avoid internal

testing with the PLC and a danger to persons nearby because the motor may

immediately start upon power input.

WARNING

◆As a precision instrument, the controller must be installed or removed only by

maintenance personnel of the manufacturer or electrical control personnel of related

machinery factories. Familiarize yourself with the user guide to ensure safety during

operations such as running or stopping the equipment, modi󶍾cation during operating,

or forcible output.

◆Disconnect the power cable from the socket before you clean the equipment with a

wet cloth. Do not clean the equipment with liquids or detergent sprays.

◆If the equipment is unused for a long time, disconnect the power cable from the socket

to avoid equipment damage caused by excessive voltage 󶍿uctuation.

Disposal

WARNING

◆The computer is con󶍾gured with a real-time clock circuit powered by batteries.

Improper installation of the batteries may result in explosion. Therefore, use the same

or a similar type of batteries recommended by the manufacturer for replacement.

◆Dispose of retired batteries by following the instructions of the manufacturer. According

to the IEC 704-1:1982, the sound pressure in the place where an operator is located

must be less than or equal to 70 dB(A).

◆Disclaimer: The safety instructions comply with the IEC 704-1. Inovance assumes no

legal liability for the accuracy of the content.

CAUTION

◆Dispose of retired equipment as industrial waste and dispose of retired batteries by

following local directives.

Safety Signs

For safe equipment operation and maintenance, comply with safety signs on the

equipment, and do not damage or remove the safety labels. The following table

describes the safety signs.

Safety Sign Description

◆Read the user guide before installation and operation.

Failure to comply will result in an electric shock.

◆Do not remove the cover at power-on or within 10 minutes

after power-o󶍽.

◆Before maintenance, inspection, and wiring, cut o󶍽 input

and output power, and wait at least 10 minutes until the

power indicator is o󶍽.

1 Product Information

■Nameplate information

The nameplate is on the back of the product. The MTIO-2824RND module is used as an

example.

MODEL : MTIO-2824RND

Model

Rated input

Nameplate

Suzhou Inovance Technology Co.,Ltd.

Version

Barcode

POWER INPUT: 24VDC 1A

Ver: 1.0.0

SERIAL NO: 01840001xxxxxxxx

Serial No.

Rated output

OUTPUT: 24VDC 0.4A

MT IO –2824 RN D

Code Module Type

IO I/O extension module

Code Product Family

MT Machine tool

Code Output Type

Relay output

Code Number of I/O Channels

Inputs (two digits) + Outputs

(two digits)

Transistor output (source)

Code

Power Supply Type

24 VDC power supply

110–220 VAC power supply

TN Transistor output (sink)

Relay + transistor output (sink)

Four

digits

■Terminal type

Model Port Silkscreen Description

MTIO-2824RND

DI 28 digital inputs

DO 16 digital outputs

KM 8 relay outputs

AI-AO 2 analog inputs + 2 analog outputs

EtherCAT EtherCAT input and output

SP 1 pulse spindle control

MPG 1 handwheel signal input

EXTENSION Extension port (reserved)

■Terminal function

① ② ③ ④

⑤

⑥⑦⑧⑨

No. Terminal Name Function

1 Power terminal

Mark Description

Connected to PE, case ground

0V 0 V power ground

+24V +24 V power supply

2Analog input/

output terminal

The terminal is marked as AI-AO. For its de󶍾nition, see

"3Wiring"

onpage15

3Digital input

terminal

The terminal is marked as DI. For its de󶍾nition, see

"3Wiring"on

page15

4Digital output

terminal

The terminal is marked as DO. For its de󶍾nition, see

"3Wiring"

onpage15

5 Extension port The port is marked as EXTENSION. It is reserved.

No. Terminal Name Function

6Relay output

terminal

The terminal is marked as KM. It is used as the user control relay

output (RO) terminal.

7 Indicators

Indicator Color De󶍾nition

PWR Yellow Power indicator

RUN Green Normal running indicator

ERR Red Faulty indicator

8Spindle terminal -

No. Name Direction Description

1 Sign+ Output Spindle pulse output

Sign+

2 Sign- Output Spindle pulse output

Sign-

3 Pulse+ Output Spindle pulse output

Pulse+

4 Pulse- Output Spindle pulse output

Pulse-

5 GND Digital

ground Digital signal ground

6PA- Input Encoder input PA-

7 PB+ Input Encoder input PB+

8 PB- Input Encoder input PB-

9PZ+ Input Encoder input PZ+

10 PZ- Input Encoder input PZ-

11 PA+ Input Encoder input PA+

12 COM Input Common terminal COM

13 DI Input Servo alarm input

Alarm

14 DO0 Output Servo enabling output

15 DO1 Output Servo reset output

Reset

No. Terminal Name Function

9Handwheel

terminal - MPG

No. Name Type Description

1 5V Power Handwheel power supply 5 V

2 HA+ Signal input Handwheel quadrature

di󶍽erential input phase A+

3 HA- Signal input Handwheel quadrature

di󶍽erential input phase A-

4 HB+ Signal input Handwheel quadrature

di󶍽erential input phase B+

5 HB- Signal input Handwheel quadrature

di󶍽erential input phase B-

6 HX1 Signal input x1 in frequency

7 HX10 Signal input x10 increase in frequency

8 HX100 Signal input x100 increase in frequency

9 GND Signal input GND terminal

10 HSX Signal input Axis X selected

11 HSY Signal input Axis Y selected

12 HSZ Signal input Axis Z selected

13 HSU Signal input Axis U selected

14 HSV Signal input Axis V selected

15 HSW Signal input Axis W selected

EtherCAT

communication

port

Two RJ45 network ports, 100 Mbps

IN - EtherCAT communication input port

OUT - EtherCAT communication output port

■ Product speci󶍾cations

1 ） Basic speci󶍾cations

Item Speci󶍾cation

Weight 0.4 kg

Ambient temperature 0℃ to 55℃

Ambient humidity 90%RH below (non-condensing)

Storage temperature -20℃ to +55℃ (non-freezing)

Storage humidity 90%RH below (non-condensing)

Altitude 2000 m

Vibration 4.9 m/s2below

Impact 19.6 m/s2below

Item Speci󶍾cation

Pollution degree PD2

Safety level IEC61131-2

IP rating IP20

2） Technical speci󶍾cations

Item Speci󶍾cation

Power terminal +24 VDC power supply (20.4 VDC to 28.8 VDC) (-15% to +20%)

Communication port A pair of EtherCAT slave station ports

Digital input channel 28 common digital inputs

Digital output channel 16 common digital outputs

Relay output 8 relay digital outputs

Analog input channel Two -10 V to +10 V inputs or sampling channels, with delay less

than 1 ms

Analog output channel Two -10 V to +10 V outputs or sampling channels, with delay less

than 1 ms

Pulse output mode

Three modes, including direction+pulse, quadrature pulse, and

CW/CCW pulse

Maximum output frequency: 4 MHz

Encoder input One group of incremental ABZ inputs

Maximum input frequency: 4 MHz

Handwheel input One incremental AB input

Maximum input frequency: 2.5 kHz

Extension port One port reserved

Minimum bus cycle 500 μs

Alarm information

display

ERR indicator on: faulty

ERR indicator o󶍽: normal

■Speci󶍾cations of digital input and output channels

Item Speci󶍾cations

Power 24 V power supply

Maximum load current: 0.4 A (Use the

external 24 V power supply if higher

current is required.)

Item Speci󶍾cations

Input

Input channel 28

Input connection method Crimping wiring terminal

Input type Digital, NPN or PNP input selected

using the common terminal

ON voltage range 18–30 VDC

OFF voltage range 0–5 VDC

Input current (typical 24 V) About 5 mA

Maximum input voltage 30 VDC

Maximum input frequency 1 kHz

Input impedance > 5.6 kΩ

Isolation mode Optoelectronic isolation

Output

Output channels 16

Output connection method Crimping wiring terminal

Output type NPN type

Output voltage range (DC) 15–29 V

Maximum output impedance < 1 Ω

Maximum load current of single channel 0.2 A

Maximum leakage current at OFF < 10 μA

Maximum output frequency 0.15 kHz

Output maintained

When the system is stopped or

abnormal, the output signal remains or

a 󶍾xed value is output.

Isolation mode Optoelectronic isolation

■Speci󶍾cations of the RO terminal

Item Speci󶍾cations

Output channels 8

Output connection

method Crimping wiring terminal

Output type Relay output

Output maintained When the system is stopped or abnormal, the output signal

remains or a 󶍾xed value is output.

Item Speci󶍾cations

Maximum switching

voltage 277 VAC/30 VDC

Maximum switching

current 5 A

Isolation mode Electromagnetic isolation

■Speci󶍾cations of analog input and output channels

1 ） Basic speci󶍾cations

Item Speci󶍾cations

Input

Channel type Analog voltage input

Voltage input

impedance ＞ 10 kΩ

Voltage input range –10 V to +10 V

Resolution 12 bits

Sampling time Con󶍾gurable. All channel sampling can be completed

within 1 ms.

Accuracy (ambient

temperature: 0 to 55 ℃ ) Full range ± 1%

Output

Channel type Analog voltage output

Voltage output load 1–10 kΩ

Output voltage range –10 V to +10 V

Output maintained When the system is stopped or abnormal, the output

signal remains or a 󶍾xed value is output.

Short circuit alarm When AO short circuit occurs, the alarm indicator ERR is

steady on.

Stability time 200 μs

Resolution 12 bits

Voltage switching time 250 μs

Accuracy (ambient

temperature: 0 to 55 ℃ ) Full range ± 1%

2 ） Relationship between input and output

Mode Rated Range Rated Digital Value Voltage Limit

Analog voltage input –10 V to +10 V -20000 to +20000 ±12 V

Analog voltage

output –10 V to +10 V -20000 to +20000 ±12 V

2 Installation

■Installation Dimensions

205.0

4.8

Front view

Top view

32.0

115.0

8.5 4.5

4.8

195

105.0

35.4

Left view

■Installation

The module can be installed on the guide rail. The electrical connection between the

module and guide rail can be realized using a ground clip routed out from the module.

Ground clip Ground clip

Snap-fit joint closed Snap-fit joint open

Guide rail

3 Wiring

3.1 Network Cable

■Manufacturing requirement

Use a Cat 5e shielded twisted pair, an injection molding cable with an iron shell.

Crystal head of a network port connector:

8P8C-3 cross-type

26 AWG Cat 5e shielded twisted pair

Crystal head of a network port connector:

8P8C-3 cross-type

Network cable with a shield layer General network cable

■Length requirement

The FastEthernet technology proves that a cable connected between devices must

be less than or equal to 100 m in the EtherCAT bus architecture, to avoid signal

attenuation and ensure proper communication.

■Technical Requirements

In the EtherCAT bus architecture, the following network cables with shield layers are

recommended for network data transmission.

Item Speci󶍾cations

Cable type Flexible cross cable, S-FTP, Cat 5e

Standards

compliance

EIA/TIA568A, EN50173, ISO/IEC11801,

EIA/TI Abulletin TSB, and EIA/TIA SB40-

A&TSB36

Cross section of

conductor AWG26

Conductor type Twisted pair

Wire pair 4

3.2 De󶍾nition of Input and Output Terminals

■De󶍾nition of digital input (DI) terminals

If the common terminal (SS0 of DI0 to DI13 or SS1 of DI14 to DI27) of the module is

connected to the COM terminal, the corresponding DI is source input and active at high

level.

If the common terminal (SS0 of DI0 to DI13 or SS1 of DI14 to DI27) of the module is

connected to the +24 V terminal, the corresponding DI is sink input and active at low

level.

No. Name Direction Function No. Name Direction Function

1 DI0 Input Bit 0 of digital input 2 DI14 Input Bit 14 of digital input

3 DI1 Input Bit 1 of digital input 4 DI15 Input Bit 15 of digital input

5 DI2 Input Bit 2 of digital input 6 DI16 Input Bit 16 of digital input

7 DI3 Input Bit 3 of digital input 8 DI17 Input Bit 17 of digital input

9 DI4 Input Bit 4 of digital input 10 DI18 Input Bit 18 of digital input

11 DI5 Input Bit 5 of digital input 12 DI19 Input Bit 19 of digital input

13 DI6 Input Bit 6 of digital input 14 DI20 Input Bit 20 of digital input

15 DI7 Input Bit 7 of digital input 16 DI21 Input Bit 21 of digital input

17 DI8 Input Bit 8 of digital input 18 DI22 Input Bit 22 of digital input

19 DI9 Input Bit 9 of digital input 20 DI23 Input Bit 23 of digital input

21 DI10 Input Bit 10 of digital input 22 DI24 Input Bit 24 of digital input

23 DI11 Input Bit 11 of digital input 24 DI25 Input Bit 25 of digital input

25 DI12 Input Bit 12 of digital input 26 DI26 Input Bit 26 of digital input

27 DI13 Input Bit 13 of digital input 28 DI27 Input Bit 27 of digital input

29 SS0 Common terminal of

DI0 to DI13 30 SS1 Common terminal of

DI14 to DI27

31 +24V +24 V power supply 32 0V COM terminal for

digital input

■De󶍾nition of digital output (DO) terminals

The DO terminal is sink output and active at low level.

No. Name Direction Function No. Name Direction Function

1 DO0 Output Bit 0 of digital output 2 DO8 Output Bit 8 of digital output

3 DO1 Output Bit 1 of digital output 4 DO9 Output Bit 9 of digital output

5 DO2 Output Bit 2 of digital output 6 DO10 Output Bit 10 of digital

output

7 DO3 Output Bit 3 of digital output 8 DO11 Output Bit 11 of digital

output

9 DO4 Output Bit 4 of digital output 10 DO12 Output Bit 12 of digital

output

11 DO5 Output Bit 5 of digital output 12 DO13 Output Bit 13 of digital

output

13 DO6 Output Bit 6 of digital output 14 DO14 Output Bit 14 of digital

output

15 DO7 Output Bit 7 of digital output 16 DO15 Output Bit 15 of digital

output

17 0V COM terminal for

digital output 18 0V COM terminal for

digital output

19 +24V +24 V power supply 20 0V COM terminal for

digital output

■ De󶍾nition of relay output (RO) terminals

No. Name Direction Function No. Name Direction Function

16 ROUT0+ Output Bit 0 of user

control relay

output

8 ROUT4+ Output Bit 4 of user

control relay

output

15 ROUT0- Output 7 ROUT4- Output

14 ROUT1+ Output Bit 1 of user

control relay

output

6 ROUT5+ Output Bit 5 of user

control relay

output

13 ROUT1- Output 5 ROUT5- Output

12 ROUT2+ Output Bit 2 of user

control relay

output

4 ROUT6+ Output Bit 6 of user

control relay

output

11 ROUT2- Output 3 ROUT6- Output

10 ROUT3+ Output Bit 3 of user

control relay

output

2 ROUT7+ Output Bit 7 of user

control relay

output

9 ROUT3- Output 1 ROUT7- Output

■De󶍾nition of analog input/output (AI/AO) terminals

No. Name Direction Description

1 AI0 Input Bit 0 of user linear voltage input -10 V to +10 V

2 AI1 Input Bit 1 of user linear voltage input -10 V to +10 V

3 GND Analog

ground Analog ground

No. Name Direction Description

4 GND Analog

ground Analog ground

5AO0 Output Bit 0 of user linear voltage output -10 V to +10 V

6AO1 Output Bit 1 of user linear voltage output -10 V to +10 V

7 GND Analog

ground Analog ground

8 GND Analog

ground Analog ground

3.3 External Wiring

■Wiring of DI terminals

As shown in the following 󶍾gure, SS0 on the left is connected to 24 V. It is sink input

and active at low level. (SS0 on the left can be connected to 0 V, too. In this case, it is

source input and active at high level.)

As shown in the following 󶍾gure, SS1 on the right is connected to 0 V. It is source input

and active at high level. (SS1 on the right can be connected to 24 V, too. In this case, it

is sink input and active at low level.)

SS0 and SS1 can be connected to 0 V or 24 V at the same time. You can wire them as

required.

Internal Circuit

External Wiring

Internal Circuit

Signal

Name

Right

24V

SS0

SS1

14 4.7 k Ω

Signal

Name

Left

4.7 kΩ

■Wiring of DO terminals

The following 󶍾gure shows the wiring of DO terminals. The load can be powered by the

internal 24 V power supply of the I/O module (maximum output current 0.5 A) or the

external 24 V power supply. When the external power supply is used, the COM terminal

must be connected to the power ground terminal of the load.

Loa d Load

DO_0

Signa l

Nam e

Le ft

External WiringInter nal Circuit Inter nal Circuit

GND

24 V (other

drive）

24 V

(internal)

DO_8

Signa l

Nam e

Ri g ht

■Wiring of RO terminals

The letter i in the following 󶍾gure can be any one of terminals 0 to 7. You can connect

or disconnect any terminal according to on-site requirements.

+24V

Rout_i+

Rout_i-

COM0

vcc

Ro_i

MTIO-2824RND

1 ） Electric shock protection when using inductive load

Since no internal protection circuit for relays is designed, when the inductive load is

applied, large back EMF will be produced between contacts and arc discharge is also

caused when the inductive load stops. This may result in contact failure or contact

sag, shortening the contact lifetime. Therefore, it is recommended to use the products

with built-in relay protection circuit. For the products without built-in relay protection

circuit, an external electric shock protection circuit can be used to reduce noises and

prolong the lifetime of product.

Relay DC circuit： Connect a freewheel diode in parallel with the load. The freewheel

diode must satisfy:

① The reverse voltage is 5 to 10 times of load voltage.

② The forward current is larger than load current.

The following 󶍾gure shows the DC circuit electric shock protection when using

inductive load.

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