Magelis SCU - HMI Controller - Hardware Guide
Contents
1. 44 7 1 76 102 0 3 4 01 0 01 108 1 0 3 4 25 0 01 07 128 0 35 5 04 0 01 100000001232 10 2014 71 HMISCU Installation 3 5 Inches Display Module and Rear Module 74 95 0 5 2 95 0 02 72 100000001232 10 2014 HMISCU Installation 5 7 Inches Display Module and Rear Module mm in f i Toa o Qus 163 lt 6 42 76 22 0 5 3 00 0 02 100000001232 10 2014 HMISCU Installation Display Module Rear Module Separation Cable mm Rear module Rear module 0 39 0 016 DIN zd e Y DIN rail DC24V Y 1 o8 915 IL Rubber eg Y 63 4 0 5 8 0 3 2 49 0 02 0 31 0 012 74 4 0 5 14 5 0 2 2 93 0 02 0 57 0 008 Display module rear module separation cable 131 35 0 4 7 5 17 0 016 48 9 0 5 1 93 0 01 Display module rear module separation cable Display module 74 100000001232 10 2014 HMISCU Installation NOTE Use this display module rear module separation cable when the rear module is installed on the rail e The outer diameter of the cable is 8 mm 0 31 in e The cable has 3 versions 3 m 9 84 ft 5 m 16 4 ft and 10 m 32 8 ft e To assemble this p2. eee 187 Troubleshooting Checklists 188 Self Test List u Rr ere db os e Roe Ro oic on 190 Chapter 14 Maintenance 191 Regular Cleaning 192 Periodic Check llle 194 GI SS Pry 25 u ua 195 EFPQUSE S pusha 199 EIO0000001232 10 2014 5 100000001232 10 2014 Safety Information Important Information NOTICE Read these instructions carefully and look at the equipment to become familiar with the device before trying to install operate or maintain it The following special messages may appear throughout this documentation or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure electrical hazard exists which will result in personal injury if the instructions are not p The addition of this symbol to a Danger or Warning safety label indicates that an followed hazards Obey all safety messages that follow this symbol to avoid possible injury or death A DANGER DANGER indicates a hazardous situation which if not avoided will result in death or serious injury 1 This is the safety alert symbol It is used to alert you to potential personal injury WARNING WARNING indicates a hazardous situation which if not avoided could result in death or serious inju
3. pu ct Nc c2 Die pito pii2 c2 ID Fast OUT IN IN Digital B1 B6 Digital D1 D15 NOTE Confirm the connector label ABCD and the stamp ABCD on the unit before wiring 114 100000001232 10 2014 HMISCU A5 type DIO The table shows the group and signal names of the terminal blocks Pin Arrangement Group Pin Signal Group Pin Signal Name Name 1 A1 1 B1 DQO A2 DQ1 B2 DQ2 A3 NC B3 NC 2 A4 C1 2 B4 DQ3 A5 DQ4 B5 DQ5 es A6 DQ6 B6 DQ7 The table shows the group and signal names of the terminal blocks Pin Arrangement Group Pin Signal Group Pin Signal Name Name 3 C1 V 3 D1 V CD 2 FQ1 D2 FQO CODD 4 C3 FIO 4 D3 CO AS I NT C4 5 04 DIO ODIO 5 5 05 C1 C6 DI3 D6 02 D C7 DI5 07 014 C8 C1 D8 C1 E D C9 NC D9 NC Ol CD 6 C10 C2 6 D10 C2 c11 017 011 DI6 J C15 C12 DI9 D12 DI8 C13 DI11 D13 0110 14 DI13 D14 0112 C15 C2 D15 C2 100000001232 10 2014 115 HMISCU A5 type DIO DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR FLASH e Disconnect all power from all equipment including connected devices prior to removing any covers or doors or installing or removing any accesso
4. Do not confuse the RJ45 serial port with the RJ45 Ethernet connector 150 100000001232 10 2014 Communication Interface RS 232C Characteristics Characteristic Description Connector type RJ45 Isolation Non isolated Baud rates 9600 19200 38400 57600 115 200 bps Protocol supported e Modbus RTU e SoMachine Cable Type Shielded Maximum length 15 m 49 ft 5 Vdc power supply for RS 485 No NOTE The maximum baud rate for the serial link port depends on the protocol used RS 485 Characteristics Characteristic Description Connector type RJ45 Isolation Non isolated Baud rates 9600 19200 38400 57600 115 200 bps Protocol supported e Modbus RTU e SoMachine Cable Type Shielded Maximum length 200 m 656 ft Polarization Configured via software to connect when the node is configured as a master 560 OQ or 5 11 KQ resistors are optional 5 Vdc power supply for RS 485 No 100000001232 10 2014 151 Communication Interface Pin Assignment The figure shows the pins of the RJ45 connector HN HHIH The table describes the pin assignment of the RJ45 connector Pin RS 232C RS 485 Description 1 RxD N C Received data RS 232C 2 TxD N C Transmitted data RS 232C 3 N C N C Not connected 4 N C D1 Differential data RS 485 5 N
5. Protection type Photo coupler between input and internal circuit Output protection Short circuit protection Open circuit protection Output behavior if input power supply is less than the power failed threshold Set to 0 100000001232 10 2014 163 Characteristic Voltage Output Current Output Cable Type Shielded Length 3 m 9 84 ft is in compliance with electromagnetic immunity NOTE Compliance to electromagnetic immunity standards is limited to a 3 m 9 84 ft cable length In all cases a maximum cable length of 10 m 32 80 ft should not be exceeded Terminal blocks Type 3 5 mm 0 137 in pitch Terminal blocks are removable Analog RTD Input Characteristics WARNING UNINTENDED EQUIPMENT OPERATION Do not exceed any ofthe rated values specified in the environmental and electrical characteristics tables Failure to follow these instructions can result in death serious injury or equipment damage The table describes the characteristics of the analog RTD inputs Input Characteristics Input sensor type PT100 PT1000 NI100 NI1000 Input temperature range PT100 PT1000 200 600 328 1112 F NI100 NI1000 50 200 58 392 F Measuring current PT100 NI100 1 12 mA x 3 5 PT1000 NI1000 0 242 pA 3 5 Input impedance Typically 10 Sample duration t
6. Cold junction compensation in the temperature range 0 50 C 122 F Internal cold junction error 6 C 42 8 F after operating 45 minutes Rejection in differential 50 60 Hz mode Common mode rejection Typically 60 dB Typically 80 dB Isolation between channels Not isolated Permitted input signal 5 max Warm up time 45 minutes Terminal blocks Type 3 5 mm 0 137 in pitch Terminal blocks are removable Noise resistance cable Shielded cable is necessary 1 Temperature measurement on PCB at terminal block for cold junction compensation 166 100000001232 10 2014 Internal Circuits HMISCU A5 type DIO Internal Circuit The circuit configuration of FIO is shown as follows The circuit configuration of FQ0 and FQ1 is shown as follows B 7 g V nit KQ l Internal 221 gem circuits FIO FI1 f Internal VY gt K Z circuits H c h 5p 1 24 H sal The circuit configuration from DIO to DI13 is shown as follows The circuit configuration from DQO to is shown as follows 4 7 10 nF 1 1 W DQO DIO DI13 dl 2 Internal 7500 circuits C1 C2 i Cx 11 Internal I 1 circuits i aha COM 250 Vac 2A 24 Vdc 2A 1 max
7. 52 100000001232 10 2014 HMISCU Description Section 3 2 Management What Is in This Section This section contains the following topics Topic Page Input Management 54 Output Management 57 100000001232 10 2014 53 HMISCU Description Input Management Overview The HMISCU includes 2 fast inputs The following functions are configurable on regular and or fast inputs e Filters depends on the function associated with the input e 2fastinputs can be either latched or used for events rising edge falling edge or both and thus be linked to an external task up to 2 e Any digital input can be used for the Run Stop function e Some of the inputs can be used by HSC PTO and PWM functions NOTE All inputs by default can be used as regular inputs Integrator Filter Principle The integrator filter is designed to reduce the effect of noise Setting a filter value allows the controller to ignore sudden changes of input levels caused by noise The following timing diagram illustrates the integrator filter effects for a value of 4 ms State A Hardware input signal Cumulative value of the filter t I I State l Input signal filtered 0 t NOTE The value selected for the filter s time parameter specifies the cumulative time in ms that must elapse before the input can be 1 54 100000001232 10 2014 HMISCU Description Bounce Filter
8. 78 100000001232 10 2014 HMISCU Installation Installing the HMISCU Display with an Adaptor The panel adaptor supplied in the accessory kit HMIZSUKIT allows mounting the product on a e steel sheet support with a thickness between 1 and 1 5 mm 0 039 in and 0 059 in e plastic support with a thickness between 1 and 3 mm 0 039 in and 0 118 in e glass fiber reinforced plastic with a thickness between 2 and 3 mm 0 078 in and 0 118 in The figure shows the assembly with the HMI adaptor 2 1 Display module 2 Panel 3 Panel adaptor 4 Display installation nut 5 Anti rotation tee 100000001232 10 2014 79 HMISCU Installation Installation Procedures Installing the HMISCU Controller In order to correctly run an application on the Magelis SCU both the display module and the rear module must be connected A WARNING EXPLOSION HAZARD e Do not connect or disconnect while circuit is live e Potential electrostatic charging hazard wipe the front panel of the terminal with a damp cloth before turning ON Failure to follow these instructions can result in death serious injury or equipment damage If you power up the rear module without connecting the display module the logic controller does not start and all outputs remain in the initial state The power must be off before connecting the modules There are 2 ways to install the HMISCU Installing the HMISCU on the p
9. Active display area W x H 70 56 x 52 92 mm 2 78 x 2 08 in 115 2 x 86 4 mm 4 53 x 3 40 in Colors 65536 colors Backlight White LED Lifetime 50 000 hours when dimmed to 50 brightness Ambient temperature 25 C 77 F Non exchangeable LED ON OFF control adjustable screen saver activation time Brightness 16 levels of adjustment available via touch panel in the configuration menu adjustment Brightness on LCD white LED 350 cd m 33 cd ft maximum surface Viewing angle 60 degrees left right 40 degrees 60 degrees down 80 degrees left right e 70 degrees up 70 degrees down Test condition contrast ratio gt 2 Test condition contrast ratio gt 2 System embedded language character sets ASCII Code page 850 alphanumeric including european characters Chinese GB2312 80 codes simplified Chinese fonts Taiwanese Big 5 codes Traditional Chinese fonts Character sizes 2 Vijeo fonts 8x8 6x10 8x13 13x23 28 50 16 16 32x32 pixel fonts Vijeo S fonts e Scalable 1 to 255 pixels For more information on supported font styles see Vijeo Designer Online Help Font sizes Width can be expanded 1 8 times Height can be expanded 1 2 and 1 8 times 8 x 8 pixels 40 characters per row x 30 rows 8 x 16 pixels 40 characters per row x 15 rows 16 x 16 pixels 20 characters per row x 15 rows
10. If the HMI is damaged and any liquid comes in contact with your skin immediately rinse the area with running water for at least 15 minutes If the liquid gets in your eyes immediately rinse your eyes with running water for at least 15 minutes and consult a doctor Using Touch Panel Correctly WARNING UNINTENDED EQUIPMENT OPERATION e Operate the touch panel with only one finger e Do not activate two or more points of the touch panel simultaneously Failure to follow these instructions can result in death serious injury or equipment damage Use only one finger to select an object on the touch panel If the touch panel receives pressure at two or more points at the same time an unintended object could be selected 100000001232 10 2014 139 140 100000001232 10 2014 Part Ill HMISCU Controller Panels Overview This part describes how to use HMISCU controller panels What Is in This Part This part contains the following chapters Chapter Chapter Name Page 9 Communication Interface 143 10 Specifications 153 100000001232 10 2014 141 HMISCU 142 100000001232 10 2014 Chapter 9 Communication Interface What Is in This Chapter This chapter contains the following topics Topic Page Ethernet Port 144 CANopen Master Unit 146 Serial Link Port COM1 150 100000001232 10 2014 143 Communicat
11. Wiring Diagram The figure describes the wiring diagram of the HMISCU6B5 HMISCU8B5 and HMISBC digital outputs Digtal outputs A1 B1 A2 B2 44 B4 A5 85 PWM outputs 1 D C 02 C2 4 wee wen 130 E100000001232 10 2014 HMISCU B5 type DIO and AIO To improve the life time of the contacts and to protect from potential damage by reverse EMF when using inductive load connect e afree wheeling diode in parallel to each inductive DC load e an RC snubber in parallel of each inductive AC load WARNING UNINTENDED EQUIPMENT OPERATION Do not connect wires to unused terminals and or terminals indicated as Connection Failure to follow these instructions can result in death serious injury or equipment damage 100000001232 10 2014 131 HMISCU B5 type DIO and AIO Analog Inputs and Analog Outputs Overview The rear module is equipped with e 2temperature analog inputs 16 bit configurable e 2analog inputs 13 bit configurable e 2analog outputs 12 bit configurable A DANGER FIRE HAZARD Use only the recommended wire sizes for the current capacity of the power supplies Failure to follow these instructions will result in death or serious injury A WARNING UNINTENDED EQUIPMENT OPERATION Do not exceed any of the rated values specified in the environmental and electrical characteristics tables Failure to follow
12. HMISCU B5 type DIO and AIO Presentation Terminal Blocks The figure shows the terminal blocks B1 terminal A1 terminal B6 terminal I O terminals removable terminal blocks gt l O terminal using clip lock for fast wiring C15 terminal D15 terminal A6 terminal The figure shows the pin assignment of the terminal blocks Du C1 C15 Digital FastOUT ro rr os oe ws ees pela C Q4 NC ojm Digital ii FQ0 CO 010 C1 DI4 TIO EX1 C2 AICO 1 FastOUT EN NOTE Confirm the connector label ABCD and the stamp ABCD on the unit before wiring 124 100000001232 10 2014 HMISCU B5 type DIO and AIO The table shows the group and the signal name of the terminal blocks Pin Arrangement Group Pin Signal Group Pin Signal Name Name 1 A1 CO 1 B1 DQO A2 DQ1 B2 DQ2 A3 NC B3 NC 2 A4 C1 2 B4 5 004 5 005 A6 NC B6 NC The table shows the group and signal names of the terminal blocks Pin Arrangement Group Pin Signal Group Pin Signal Name Name 3 C1 V 3 D1 V C1 C2 FQ1 D2 FQO QD QD 4 C3 FIO D3 as D D C4 FH D4 DIO SD CO OND D 5 C5 DI1 D5 C1 1 CD D C6 DI3 D6 DI2 ODIL
13. 100000001232 10 2014 167 HMISCU B5 type DIO and AIO Internal Circuit The circuit configuration of FIO is shown as follows The circuit configuration of FQ0 and FQ1 is shown as follows 2 81 AW 2 21 KQ pu lt eK 7 Internal circuits The circuit configuration from DIO to DI5 is shown as follows 10 nF 4 7 KQ AW Internal 7 75002 T Y K circuits 2 m E V i Internal circuits 24 Internal t circuits Internal 1 circuits T Esp COM 250 vac 2A 24 Vdc 2A i max 168 100000001232 10 2014 Memory and Touch Panel Memory The table shows the memory specifications of HMISCU Items Type Element Specification Main Flash Memory 128MB FLASH EPROM Vijeo Designer Runtime OS 64 MB Retentive Variables HMI Application 58 MB CoDeSys Engine 4 MB Controller Application 2 MB Application Run Memory DRAM _ 128 MB Data Backup Alarms Non volatile SRAM _ 128 kbytes 1 Non volatile SRAM does not require battery power for data backup The internal battery in the HMI SCU is only requeried for Real Time Clock RTC Memory Back Up Management Vijeo Designer alarm data and variable logging is automatically stored in non volatile SRAM in a first in last out format The nu
14. e Do not use this equipment as the only notification device for critical alarms such as device overheating or overcurrent Failure to follow these instructions can result in death serious injury or equipment damage 138 100000001232 10 2014 Handling the LCD The following characteristics are specific to the LCD and are considered normal behavior e LCD screen may show unevenness in the brightness of certain images or may appear different when seen from outside the specified viewing angle Extended shadows or cross talk may also appear on the sides of screen images e LCD screen pixels may contain black and white colored spots and color display may seem to have changed over time e When the same image is displayed on the screen for a long period an after image may appear when the image is changed If this happens turn off the unit wait 10 seconds and then restart it NOTE Do not display the same image for a long time Change the screen image periodically CAUTION SERIOUS EYE AND SKIN INJURY The liquid present in the LCD contains an irritant e Avoid direct skin contact with the liquid e Wear gloves when you handle a broken or leaking unit e Do not use sharp objects or tools in the vicinity of the LCD touch panel e Handle the HMI carefully to prevent puncture bursting or cracking of the HMI material Failure to follow these instructions can result in injury or equipment damage
15. 0 78 in more space to bend the cable in the end of the rubber Key Features Programming languages The HMISCU is supported by and programmed with the SoMachine which supports the following IEC61131 3 programming languages e IL Instruction List e ST Structured Text e FBD Function Block Diagram e SFC Sequential Function Chart e LD Ladder Diagram SoMachine can also be used to program the HMISCU controller using CFC Continuous Function Chart language Power Supply see page 93 The power supply of the HMISCU is 24 Real Time Clock see page 52 The HMISCU includes a Real Time Clock RTC system Memory see page 169 Embedded Input Output The following embedded types are available depending on the controller reference Regular input Fast input HSC Regular output Fast output PTO PWM Analog input Temperature input Analog output NOTE Frequency Generator FG is not supported 100000001232 10 2014 27 HMISCU General Overview Embedded communication features 4 types of communication ports are available on the rear panel e Ethernet port e USB port e Serial link port e CANopen port For more details refer to the chapter Communication Interface see page 143 28 100000001232 10 2014 Chapter 2 HMISCU System General Implementation Rules Overview This chapter describes the installation requirements wiring rules and recommendations and the environment
16. 100000001232 04 Magelis SCU HMI Controller Hardware Guide 10 2014 geli MAGELIS SCU PY tas Je Schneider www schneider electric com Electric The information provided in this documentation contains general descriptions and or technical characteristics of the performance of the products contained herein This documentation is not intended as a substitute for and is not to be used for determining suitability or reliability of these products for specific user applications It is the duty of any such user or integrator to perform the appropriate and complete risk analysis evaluation and testing of the products with respect to the relevant specific application or use thereof Neither Schneider Electric nor any of its affiliates or subsidiaries shall be responsible or liable for misuse of the information contained herein If you have any suggestions for improvements or amendments or have found errors in this publication please notify us No part of this document may be reproduced in any form or by any means electronic or mechanical including photocopying without express written permission of Schneider Electric All pertinent state regional and local safety regulations must be observed when installing and using this product For reasons of safety and to help ensure compliance with documented system data only the manufacturer should perform repairs to components When devices are used for appli
17. 32 x 32 pixels 10 characters per row x 7 rows 156 100000001232 10 2014 Digital Inputs Digital Input Characteristics A WARNING tables damage UNINTENDED EQUIPMENT OPERATION Do not exceed any of the rated values specified in the environmental and electrical characteristics Failure to follow these instructions can result in death serious injury or equipment The table describes the characteristics of the digital inputs Characteristic Value Standard Rated current 5 mA Inrush values Voltage 30 Vdc Current 6 29 mA max Input impedance 4 9 KQ Input type Sink Source Rated voltage 24 Vdc Input range 0 28 8 Vdc Input limit values Voltage at state 1 gt 15 Vdc 15 28 8 Voltage at state 0 lt 5 Vdc 0 5 Current at state 1 gt 2 5mA Current at state 0 lt 1 0 mA Isolation photo coupler Between channels Photo coupler isolation Between channels and internal logic 500 Vdc Filtering Bounce filter 4 us 40 us and cumulative filter Nx0 5 ms 64 gt N20 IEC61131 2 edition 3 type Type 1 Compatibility Supports 2 wire and 3 wire sensors Cable type and length Shielded Maximum 100 m 328 ft Non shielded 50 m 164 ft Shielded cables are used for HSC input Protection against over voltage Possible up to 30 Vdc limited 1 hour per day 100000001232 10 20
18. C XB5S5B2L2 Illuminated USB Switch HMIZRA1 BEN pe io USB HUB L1 Commercial type Biometric USB Switch EIO0000001232 10 2014 63 Interface Accessories Serial Interface Items Reference Number Description XBTZ9780 2 5 m 8 20 ft XBTZ9782 10 m 32 80 ft Connects COM1 to Premium Micro or Twido PLC XBTZ9980 2 5 m 8 20 ft XBTZ9982 10 m 32 8 ft Connects COM1 to Modicon M238 M258 or M340 VW3A8306 Connects COM to derivation box TSXSCA62 VW3A8306R10 Connects COM1 to ATV drives a hub LU9GC3 or fieldbus taps TWDXCAT3RJ or TWDXCAISO XBTZG939 XBTZ988 or XBTZ9715 Connects COM1 port to Advantys STB XBTZG939 Cable adapter COM1 RJ45 XBTZ968 Connects COM1 port with XBTZ adapter to Premium Micro or XBTZ9680 Twido PLC XBTZ9681 XBTZ9710 Connects COM port with XBTZ adapter to Quantum PLC XBTZ9711 Connects COM1 port with XBTZ adapter to Momentum PLC XBTZ908 Connects COM1 port with XBTZ adapter to derivation box TSXSCA62 XBTZ938 Connects COM1 port with XBTZ adapter to ATV drives a hub LU9GC3 or fieldbus taps TWDXCAT3RJ or TWDXCAISO XBTZ918 Connects COM1 port with XBTZ adapter to Premium SCY XBTZ988 Connects COM1 port with XBTZ adapter to Advantys STB XBTZ9733 Connects COM1 to Rockwell DF1 Logix PLC XBTZ9734 Connects COM1 to Rockwell DH485 Logix PLC XBTZ980 or HMIZ950 without adaptor Connects COM1 with XBT Z adapter to Mit
19. gt 85 PWM mode duty rate step 196 full range Duty cycle range 0 100 Cable Type Shielded including 24 Vdc power supply Length Maximum 5 m 16 ft Terminal blocks Type 3 5 mm 0 137 in pitch Terminal blocks are removable frequency NOTE When using the acceleration deceleration pulse output there is a 196 maximum error for the 100000001232 10 2014 161 Analog Inputs and Analog Outputs Analog Input Characteristics The table describes the characteristics of the analog inputs Characteristic Voltage Input Current Input Number of maximum input channels 2 Input type Single ended Input range 10 10 Vdc O 10 0 20 mA 4 20 mA Input impedance gt 1 250 0 11 Q Sample duration time 10 ms per channel 1 scan time Total input system transfer time 20 ms 1 scan time Input tolerance Maximum deviation at 25 C 77 F without electromagnetic disturbance 1 of the full scale Maximum deviation 2 5 of the full scale Digital resolution 12 bit plus sign Temperature drift 0 06 of the full scale Common mode characteristics 80 db Cross talk 60 db Non linearity 0 4 of full scale Input value of LSB 5mV 10 uA Maximum allowed overload no damages 30 Vdc less than 5 minutes 30 mA dc 15 Vdc No damage Protection type Photo coupler between input and internal cir
20. port USB2 E1 terminal block 1 see page 114 E2 terminal block 2 see page 114 F DC power supply connector see page 94 Ethernet connector see page 144 20 100000001232 10 2014 HMISCU General Overview Part Description H Serial link RS 232C 485 see page 150 l CANopen connector J Yellow button lock 100000001232 10 2014 21 HMISCU General Overview System Architecture Introduction The HMISCU system is a compact control system with the HMI and embedded The HMISCU System offers an all in one solution for an optimized configuration and an expandable architecture Architecture Example The following figure provides an example of the HMISCU hardware environment Motor Inverter PWM Output HSC PT100 X 2ch Medium Oil TEMP Control Cooling Water Cooling TEMP Control ANA Out CEEE CANopen Cooling Gas Circulation 22 100000001232 10 2014 HMISCU General Overview HMISCU System Architecture Optimized configuration and flexibility is provided by the association of e rear module that provides the logic and HMI functions e front module that provides the display feature see page 137 e display module rear module separation cable allows you to separate the display module from the rear module Application requirements determine the archite
21. 100000001232 10 2014 Chapter 4 Device Connectivity Introduction This chapter presents the equipment you can connect to the HMISCU panel What Is in This Chapter This chapter contains the following topics Topic Page System Design 62 Interface Accessories 64 100000001232 10 2014 61 System Design Introduction The following diagrams represent the main selection of equipment you can connect to the panels Edit Mode Peripherals USB Type A Interface USB1 USB Port USB Memory Storage Commercial type USB mini B Interface USB2 USB Port USB Data Transfer Cable USB A mini B BMXXCAUSBH018 sa Personal Computer Commercial type SoMachine Software 62 100000001232 10 2014 Run Mode Peripherals USB Type A Mini B Interface USB Type A Interface USB1 Bar Code Reader Commercial type USB Hub Commercial type O USB Panel mount Extension Cable USB Type A XBT ZGUSB USB Memory Strage Commercial type oy USB Hub Commercial type USB to IEEE1284 Conversion Cable Commercial type Printer Commercial type USB Cable HMI ZURS or commercial type 0090 USB mini B Interface USB2 USB Panel mount Extension Cable USB mini B HMI ZSUSBB for HMI
22. 6 150 Hz Mechanical shock Mounted on a DIN rail 147 m s 15 gn for a duration of 11 ms resistance Mounted on a panel 294 m s 25 gn for a duration of 6 ms Connection type Removable terminal block Connector insertion removal cycles 50 Electromagnetic Susceptibility The HMISCU system meets electromagnetic susceptibility specifications as indicated in the table Characteristic Specification Range Electrostatic discharge IEC EN 61000 4 2 8 kV air discharge 6 kV contact discharge Electromagnetic fields IEC EN 61000 4 3 10 V m 80 MHz 3 GHz Fast transients burst IEC EN 61000 4 4 Power lines 2 kV Digital 1 kV Relay outputs 2 kV Ethernet line 1 kV COM line 1 kV CAN line 1 kV Surge immunity IEC EN 61000 4 5 Power supply CM 1 kV DM 0 5 kV Digital CM 1 kV DM 0 5 kV Shielded cable 1 kV CM common drive DM differential drive Immunity to conducted IEC EN 61000 4 6 10 Veff 0 15 80 MHz disturbances induced by radio frequency fields Conducted emission EN 55011 IEC CISPR11 150 500 kHz quasi 79 dBuV 500 kHz 30 MHz quasi peak 73 dByV Radiated emission EN 55011 IEC CISPR11 30 230 MHz 10 m 40 dBuV m quasi 230 MHz 1 GHz 10 m 47 quasi peak 36 100000001232 10 2014 HMISCU System General Implementation Rules Wiring Rules and Recommendations Introduction There are several rules that
23. DIN rail to a panel surfaces 2 Affix the display module rear module separation cable to the rear module Insert and push 90 100000001232 10 2014 HMISCU Installation Step Action 3 Position the top groove of the rear module on the top edge of the DIN rail and press the assembly against the DIN rail until you hear the DIN rail clip click into place NOTE Type AB1 AB8P35 or equivalent terminal block end clamps help minimize sideways movement and improve the shock and vibration characteristics of the controller assembly 4 Install the display on the cabinet and affix the display module rear module separation cable to the display Insert and push 100000001232 10 2014 91 HMISCU Installation Removing the Rear Module from a DIN Rail The following procedure describes how to remove the rear module from a DIN rail Step Action 1 Push down the yellow lock button of the rear module and remove it from the display module rear module separation cable H Pull 2 Push down the display module rear module separation cable from the DIN rail 92 100000001232 10 2014 HMISCU Installation Section 5 2 Electrical Requirements What Is in This Section This section contains the following topics Topic Page Power Supply Characteristics and Wiring 94 Connecting the Power Cord 97 Co
24. Is in This Chapter This chapter contains the following topics Topic Page Types of Settings 178 System Settings 179 Offline Settings 182 Diagnostics Settings 185 100000001232 10 2014 177 HMISCU Types of Settings Introduction You can use the Settings menu to configure the unit Depending on how you use your HMISCU you can display the Settings menu using three different methods e Use a Switch e Use a Touch Animation e Touch the top left corner of the panel when powering up e Touch two corners of the panel successively while the application is running You can select which methods your application uses in the Vijeo Designer editor s Target properties Calling Up the Settings Menu Step Action 1 Set up any combination of the following methods for displaying the Settings menu Action Create a switch and add the Configuration System Operation See the Vijeo Designer online help for more information on creating a switch There are actually 3 methods available to bring up the configuration Top Left Corner In Target properties set To Configuration to Top Left Corner Top Left 2 Corner In Target properties set To Configuration to Top Left 2 Corner 2 Corner In Target properties set To Configuration to 2 Corner touch two corners successively If you set To Configuration to None and do not create a switch to display the Settings menu then there is no way to configure th
25. Principle The bounce filter is designed to reduce the bouncing effect at the inputs Setting a bounce filter value allows the controller to ignore sudden changes of input levels caused by noise The bounce filter is only available on the fast inputs The following timing diagram illustrates the anti bounce filter effects Input Lll l 1 Delay Delay lt Filtered Signal Bounce Filter Availability You can use the bounce filter on a fast input when e Using a latch or event e No HSC is enabled Latching Event Latching is a function that can be assigned to the HMISCU fast inputs Use this function to memorize or latch any pulse with a duration less than the HMISCU scan time When a pulse is shorter than one scan the controller latches the pulse which is then updated in the next scan This latching mechanism only recognizes rising edges Falling edges cannot be latched Assigning inputs to latch with the I O configuration screen in SoMachine The following timing diagram illustrates the latching effects State Hardware input signal I Logical input value I t without latch Logical input value with latch Logical Scan Logical Scan Logical Scan You can associate an input configured for Event with an External Task see Magelis SCU HMI Controller Programming Guide EIO0000001232 10 2014 55 HMISCU Description RUN STOP Use the Run Stop fu
26. The graphical programming languages are ladder diagram and function block diagram The textual programming languages include structured text and instruction list instruction list language A program written in the instruction list language that is composed of a series of text based instructions executed sequentially by the controller Each instruction includes a line number an instruction code and an operand see IEC 61131 3 196 100000001232 10 2014 Glossary IP 20 ingress protection The protection classification according to IEC 60529 offered by an enclosure shown by the letter IP and 2 digits The first digit indicates 2 factors helping protect persons and for equipment The second digit indicates helping protect against water IP 20 devices help protect against electric contact of objects larger than 12 5 mm but not against water L ladder diagram language A graphical representation of the instructions of a controller program with symbols for contacts coils and blocks in a series of rungs executed sequentially by a controller see IEC 61131 3 master slave The single direction of control in a network that implements the master slave mode N NEMA national electrical manufacturers association The standard for the performance of various classes of electrical enclosures The NEMA standards cover corrosion resistance ability to help protect from rain submersion and so on For IEC member countries the IEC 60
27. all times e Make sure that an appropriate braided ground cable is attached to the PE PG ground terminal before connecting or disconnecting the network cable to the equipment Failure to follow these instructions will result in death or serious injury The shielding of the cables must be connected to the protective ground PE 4 DANGER HAZARD OF ELECTRIC SHOCK Make sure that cables are securely connected to the protective ground PE Failure to follow these instructions will result in death or serious injury NOTE The functional ground of the Ethernet connection is internal 100000001232 10 2014 45 HMISCU System General Implementation Rules Functional Ground FE Cable Shielding To connect the shield of a cable through the grounding bar Step Description 1 Install the grounding bar directly on the conductive backplane below the HMISCU rear module as illustrated N D 2 Strip the shielding for a length of mm 15 15 mm 0 59 in 0 59 in 0 59 46 100000001232 10 2014 HMISCU System General Implementation Rules Step Description Tightly clamp on the blade connector 1 using nylon fastener 2 width 2 5 3 mm 0 1 0 12 in and appropriate tool Protective Ground PE Cable Shielding To ground the shield of a cable through a grounding clamp Step Description 1 Strip the shielding f
28. cm outputs 5 7 in PTO HMISAC see page 113 No HMISCUSGBS see page 123 6 regular inputs 6 regular 2 analog inputs 2 analog 8 9 cm and 2 fastinputs outputs 12 bit plus sign outputs 3 5 in HMISCU8B5 see page 123 HSC and2fast SARADC and 1200 44 8 outputs 2 analog inputs 5 7 in 16 bit for HMISBC see page 123 temperature No HMIS65 see page 137 No 8 9 cm 3 5 in HMIS85 see page 137 No 14 48 cm 5 7 in 1 The fast outputs can be used either as regular outputs or as fast outputs for Pulse Train Output PTO Pulse Width Modulation PWM functions or reflex output for high speed counter HSC The HMISAC and HMISBC are replacement rear modules The HMIS65 and HMIS85 are screen replacement modules The table shows for equivalence Replacement Rear Module Replacement Screen Equivalent Full Module HMISAC HMIS65 3 5 inch HMISCU6A5 HMISAC HMIS85 5 7 inch HMISCU8A5 HMISBC HMIS65 3 5 inch HMISCU6B5 HMISBC HMIS85 5 7 inch HMISCU8B5 26 EIO0000001232 10 2014 HMISCU General Overview Display Module Rear Module Separation Cable Range Reference Cable Length HMIZSURDP see page 74 3 m 9 84 ft HMIZSURDPS see page 74 5 m 16 40 ft HMIZSURDP10 see page 74 10 m 32 81 ft NOTE The outer diameter of the cable is 8 mm 0 13 in To assemble this product you need 20 mm
29. damage Wiring Diagram The figure describes the wiring diagram of the HMISCU6A5 HMISCU8A5 and HMISAC digital outputs Digital outputs A1 B1 A2 B2 A4 B4 A5 B5 A6 B6 PWM outputs 1 D1 C1 D2 CD UI U U v V FQ0 FQ1 i NO _ 1 i 1 1 100000001232 10 2014 121 HMISCU A5 type DIO To improve the life time of the contacts and to protect from potential damage by reverse EMF when using inductive load connect e afree wheeling diode in parallel to each inductive DC load e an RC snubber parallel of each inductive AC load WARNING UNINTENDED EQUIPMENT OPERATION Do not connect wires to unused terminals and or terminals indicated as No Connection N C Failure to follow these instructions can result in death serious injury or equipment damage 122 100000001232 10 2014 Chapter 7 HMISCU B5 type DIO and AIO Overview This chapter describes the HMISCU B5 type DIO and AIO and HMISBC The HMISBC rear module is available individually as just the rear module and that the HMIS65 and HMIS65 display modules can be also ordered separately What Is in This Chapter This chapter contains the following topics Topic Page Presentation 124 Digital Inputs 127 Digital Outputs 129 Analog Inputs and Analog Outputs 132 100000001232 10 2014 123
30. equipment 100000001232 10 2014 165 The table describes the characteristics of the analog thermocouple inputs Input Characteristics Input sensor type Thermocouple Input type range J 200 760 C 328 1400 F 240 1370 C 400 2498 F 0 1600 32 2912 F B 200 1800 C 392 3272 F S 0 1600 C 32 2912 F T 200 400 C 328 752 F E 200 900 C 328 1652 F N 200 1300 C 328 2372 F Input impedance Typically 10 Sample duration time 10 ms 1 cycle time Conversion mode Sigma delta type Digital resolution 16 bit Input filter Low pass 1st order Resolution temperature value 0 1 0 18 F Type J Detection type Open circuit detection on each channel Maximum deviation at 25 77 F without electromagnetic disturbance Input tolerance Type B S N including CJC 9 2 C 48 56 F Type J E including CJC 8 2 C 46 76 F Type T including CJC 7 2 44 96 F Maximum deviation at 25 50 77 122 F Type K R B S N including CJC 10 5 C 50 9 F Type J E including CJC 9 1 C 48 38 F Type T including CJC 7 7 C 45 86 F Temperature drift 30 ppm C Inputtolerance terminaltemperature compensation 59 41 F after 10 minutes
31. ih C7 DI5 D7 014 A WEITE 6 C8 TIO 6 D8 TIO S IL 09 EX0 ODD CD OND C10 010 TI1 c11 EX1 D11 EX1 7 C12 AIVO 7 D12 C2 C13 AIV1 D13 AICO C14 AIC1 8 D14 C3 8 C15 AQO D15 AQ1 100000001232 10 2014 125 HMISCU B5 type DIO and AIO DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR FLASH e Disconnect all power from all equipment including connected devices prior to removing any covers or doors or installing or removing any accessories hardware cables or wires except under the specific conditions specified in the appropriate hardware guide for this equipment e Alwaysuse a properly rated voltage sensing device to confirm the power is off where and when indicated e Replace and secure all covers accessories hardware cables and wires and confirm that a proper ground connection exists before applying power to the unit e Use only the specified voltage when operating this equipment and any associated products Failure to follow these instructions will result in death or serious injury 126 100000001232 10 2014 HMISCU B5 type DIO and AIO Digital Inputs Overview The rear module is equipped with 8 digital inputs 4 DANGER FIRE HAZARD Use only the recommended wire sizes for the current capacity of the power supplies Failure to follow these instructions will result in death or serious i
32. or current levels into numerical values You can store and process these values within the logic controller analog output Converts numerical values within the logic controller and sends out proportional voltage or current levels C CANopen An open industry standard communication protocol and device profile specification EN 50325 4 continuous function chart language A graphical programming language an extension of the IEC61131 3 standard based on the function block diagram language that works like a flowchart However no networks are used and free positioning of graphic elements is possible which allows feedback loops For each block the inputs are on the left and the outputs on the right You can link the block outputs to inputs of other blocks to create complex expressions controller Automates industrial processes also known as programmable logic controller or programmable controller D DIN Deutsches Institut f r Normung A German institution that sets engineering and dimensional standards E EIA rack electronic industries alliance rack A standardized EIA 310 D IEC 60297 and DIN 41494 SC48D system for mounting various electronic modules in a stack or rack that is 19 inches 482 6 mm wide 100000001232 10 2014 195 Glossary EN FE EN identifies 1 of many European standards maintained by CEN European Committee for Standardization CENELEC European Committee for Electrotechnical Standardiz
33. outputs for embedded function Failure to follow these instructions can result in death serious injury or equipment damage 100000001232 10 2014 57 HMISCU Description NOTE e Fallback configuration for outputs does not apply when fast outputs are used for embedded function In these cases fallback value is always O e In case of fallback for PTO embedded function any ongoing move is aborted and ramp down to 0 controlled stop feature Short circuit or Over Current on Outputs In the case of short circuit or over current on outputs there are 2 groups of outputs e Group 3 fast outputs e Group 1 and 2 relay outputs There is a short circuit protection for Group 1 from outputs to V However there is no other short circuit protection on the outputs For HMISCU A65 type DIO in the case of short circuit or over current on outputs there are different considerations for the 2 groups of outputs e Group 3 0 to FQ1 2 fast outputs e Group 1 and 2 000 to DQ7 8 regular outputs For HMISCUsB5 type DIO and AIO in the case of short circuit or over current on outputs there are different considerations for the 2 groups of outputs e Group to 2 fast outputs e Group 1 and 2 000 to DQ5 6 regular outputs NOTE Groups are defined in terminal block description in the presentation of each controller chapter The table describes the detection If then you have sho
34. pH 12 3 beverage industry Ecolab P3 Oxonia Active 3 40 104 Ecolab P3 Topax 52 FR 5 40 104 1 pH 2 Ecolab P3 Topax 36 5 40 104 _ Ecolab P3 Luboklar MH 0 7 40 104 _ Johnson Divosan 2000 1 25 77 100 pH 7 Diversey Johnson Diverfoam Septiplus 5 25 7T 3 pH 8 3 Diversey Johnson Acifoam 5 25 7T 196 pH 2 2 Diversey Johnson HD Plus Foam 5 25 77 1 pH 12 9 Diversey Johnson Oxofoam 5 25 77 1 pH 12 7 Diversey Johnson Endoroplus VE6 5 25 77 1 pH 12 1 Diversey Johnson Endoroforce VE2 5 25 77 1 pH 12 5 Diversey Johnson Endorocid VE10 5 25 77 1 pH 2 Diversey Diverse Water 100 50 122 Milk 100 25 7T Methanol 10 25 7T Oils ASTM 1 100 25 77 IRM 902 100 25 7T IRM 903 100 25 7T Cerechlor IRM 903 50 50 25 7T Syntopon B 3 25 7T Cutting oils Ecocut HBN 16LE Pure 25 7T Quakercool 7101 H Emulsion 25 7T Quakercool 2769 Soluble 25 7T synthetic Quakercool 3750 H Micro emulsion 25 77 100000001232 10 2014 193 Periodic Check Points Operation Environment Refer to the Environmental Specifications see page 35 Electrical Specifications The input voltage must be within 20 4 to 28 8 Vdc Related Items e Are all power cords and cables connected properly Are there any loose cables e Are all display installation nuts holding the unit securely 194 E100000001232 10 2014 Glossary X A analog input Converts received voltage
35. screwdriver and insert the wire into the wire s round shaped hole Take out the screwdriver from the square shaped hole The round shaped hole will then close and the wire will be held securely in place NOTE To remove the wire reinsert the screwdriver into the square shaped hole and when the wire s spring clamp releases pull out the wire 1 Wire should be 0 20 0 81 mm AWG 24 18 with the end twisted Applicable wire style are UL1015 and UL1007 2 Strip 7 0 mm 0 28 in of jacket from the wire Strip only the amount of jacket required If too much jacket is removed the ends may short against each other or against the terminals which can create an electric short If not enough jacket is removed the wire may not make sufficient contact with the terminal Insert each wire completely into its opening Improper insertion can lead to a loss of unit power or short circuit either against the wire filaments or against the terminals or to over heating of the wire and terminal 3 Do not rotate the point of the screwdriver inside the square shaped opening It may damage the equipment A WARNING IMPROPER WIRING PRACTICES CAN MAKE EQUIPMENT INOPERABLE e Use the specified wire sizes for channels and power supplies e Prepare wires and make connections as specified in this documentation e Do not connect more than one wire per terminal block connector Failure to follow these instructions can resu
36. the wiring diagram of the rear module analog inputs and analog outputs Analog inputs Analog outputs Voltage input Current input Voltage and current outputs e WARNING UNINTENDED EQUIPMENT OPERATION Do not connect wires to unused terminals and or terminals indicated as No Connection Failure to follow these instructions can result in death serious injury or equipment damage 134 E100000001232 10 2014 HMISCU B5 type DIO and AIO A WARNING UNINTENDED EQUIPMENT OPERATION e Use shielded cables for all fast I O analog I O and communication signals e Ground cable shields for all fast I O analog I O and communication signals at a single point e Route communications and cables separately from power cables Failure to follow these instructions can result in death serious injury or equipment damage Multipoint grounding is permissible if connections are made to an equipotential ground plane dimensioned to help avoid cable shield damage in the event of power system short circuit currents WARNING UNINTENDED EQUIPMENT OPERATION Use shielded cables for all fast I O analog I O and communication signals e Ground cable shields for all analog I O fast I O and communication signals at a single point e Route communication and I O cables separately from power cables Failure to follow these instructions can result in death serious injury or equi
37. x _ _ DI7 x x 018 X X DI9 X X _ _ _ _ _ DI10 x x 0111 X X _ _ _ 0112 x x DI13 X X _ _ E X Yes No 1 Can also be used as a regular input 100000001232 10 2014 117 HMISCU A5 type DIO NOTE You can use filters and functions to manage the HMI controller inputs see Magelis SCU HMI Controller Programming Guide Wiring Diagram The figure describes the wiring diagram of the HMISCU6A5 HMISCU8A5 and HMISAC digital inputs HSC inputs Digital inputs E 7177 Il PNP PNP pel C1 DI0 012 03 04 015 FIO 03 C3 C4 C1 04 C5 06 C6 07 C7 C1 D5 C8 D8 Digital inputs 1314444 C2 06 DI7 018 DI9 DI11 0142 DI13 011 C11 012 C12 013 C13 014 C14 C2 C2 C10 C15 D10 D15 NOTE The digital inputs are sink type positive logical WARNING UNINTENDED EQUIPMENT OPERATION Do not connect wires to unused terminals and or terminals indicated as No Connection Failure to follow these instructions can result in death serious injury or equipment damage 118 100000001232 10 2014 HMISCU A5 type DIO A WARNING UNINTENDED EQUIPMENT OPERATION Use the sensor and actuato
38. 14 157 Characteristic Value Standard Terminal blocks Type 3 5 mm 0 137 in pitch Terminal blocks are removable Input paralleling No HSC Digital Input Characteristics WARNING UNINTENDED EQUIPMENT OPERATION Do not exceed any ofthe rated values specified in the environmental and electrical characteristics tables Failure to follow these instructions can result in death serious injury or equipment damage The table describes the characteristics of the HSC inputs Characteristic Value Rated current Voltage 24 Vdc Current 7 83 mA Inrush values Voltage 30 Vdc Current 9 99 mA Input impedance 3 2kQ Input type Sink Source Rated voltage 24 Vdc Input range 0 28 8 Vdc Input limit values Voltage state 1 15 Voltage at stateO lt 5 Current at state 1 gt 5 mA Current at state 0 lt 1 5 mA Isolation Photo coupler Between channels Photo coupler isolation Between channels 500 Vdc and internal logic Filtering Bounce filter none 4 us 40 us and cumulative filter Nx0 5 ms 63 2 N 2 0 IEC61131 2 edition 3 type Type 1 Compatibility Supports 2 wire and 3 wire sensors 158 100000001232 10 2014 Characteristic Value Cable Type Shielded Length Maximum 10 m 33 ft Protection against over voltage Possible up to 30 Vdc limited 1 hour p
39. 16404 15 Pin Assignment The da describes the pins of the CANopen interface The table describes the pins of the CANopen interface PIN Signal Description 1 N C Reserved 2 CAN L CAN L bus Line Low 3 CAN GND 0 4 N C Reserved 5 CAN SHLD N C 6 GND 0 Vdc 100000001232 10 2014 147 Communication Interface PIN Signal Description CAN H CAN H bus Line High N C Reserved N C Reserved The shield is connected to pin 6 the 0 Vdc pin NOTE Pin 9 is not connected internally The controller does not provide power on CAN WARNING UNINTENDED EQUIPMENT OPERATION Do not connect wires to unused terminals and or terminals indicated as No Connection N C Failure to follow these instructions can result in death serious injury or equipment damage Status LED The table describes the CAN status LED Marking Description LED Color Description CAN STS CANopen status Green Red See CAN STS status LED below The table describes the CAN STS status LED CANO LED CANopen Status Description OFF No CANopen CANopen is not active in the application configured Single flash red Acceptable detected The controller has detected that the maximum with green ON error limit threshold number of error frames has been reached or has been reached ex
40. 485 S SFC sequential function chart A language that is composed of steps with associated actions transitions with associated logic condition and directed links between steps and transitions The SFC standard is defined in IEC 848 It is IEC 61131 3 compliant ST structured text A language that includes complex statements and nested instructions such as iteration loops conditional executions or functions ST is compliant with IEC 61131 3 T terminal block terminal block The component that mounts in an electronic module and provides electrical connections between the controller and the field devices TPDO transmit process data object An unconfirmed broadcast message or sent from a producer device to a consumer device in a CAN based network The transmit PDO from the producer device has a specific identifier that corresponds to the receive PDO of the consumer devices 198 EIO0000001232 10 2014 Index CX Symbols G peripherals grounding the system 44 edit mode 62 run mode 63 A accessories 64 C certifications and standards 24 communication interface 143 communication ports serial port 150 connecting the power cord 97 connecting the power supply 100 D devices overview 26 diagnostics settings 185 E edit mode peripherals 62 electrical requirements installation 93 electromagnetic susceptibility 36 ethernet cable port connector 144 F fallback modes 57 features
41. 529 standard classifies the ingress protection rating for enclosures P PE protective Earth A common grounding connection to help avoid the hazard of electric shock by keeping any exposed conductive surface of a device at earth potential To avoid possible voltage drop no current is allowed to flow in this conductor also referred to as protective ground in North America or as an equipment grounding conductor in the US national electrical code PWM pulse width modulation A fast output that oscillates between off and on in an adjustable duty cycle producing a rectangular wave form though you can adjust it to produce a square wave The PTO is well adapted to simulate or approximate an analog output in that it regulates the voltage of the output over its period making it useful in light dimming or speed control applications among others 100000001232 10 2014 197 Glossary R RJ 45 A standard type of 8 pin connector for network cables defined for Ethernet RPDO receive process data object An unconfirmed broadcast message or sent from a producer device to a consumer device in a CAN based network The transmit PDO from the producer device has a specific identifier that corresponds to the receive PDO of the consumer devices RS 232 A standard type of serial communication bus based on 3 wires also known as EIA RS 232C or V 24 RS 485 A standard type of serial communication bus based on 2 wires also known as EIA RS
42. 7 Part HMISCU Controller Panels 141 Chapter 9 Communication Interface 143 Ethernet Port xp Re eu ru ped pu puc Puy 144 CANopen Master Unit 146 Serial Link Port COM1 150 Chapter 10 Specifications 153 10 1 General 154 General Specifications 154 10 2 Functional 155 DIFF METH 156 Digital Inputs Tu hk aqa ha e a 157 FR RADAR IS ei asua h i y ROSE 160 Analog Inputs and Analog Outputs 162 Internal Circuits wa eens 167 Memory and Touch Panel 169 Part IV Sefllhijs A EEERSEREFZRRRRREXG E 171 Chapter 11 Connecting the HMISCU toa PC 173 Connecting the Controller to aPC_ 173 100000001232 10 2014 Chapter 12 Configuring the HMISCU 177 Types of Settings erce cicc eR DE MERE Ed 178 System Settings 179 Offline Settings uiu ree 3 exe bae ken En bee ee ee 182 Diagnostics Settings _ 185 Chapter 13 Troubleshooting
43. C DO Differential data RS 485 6 RTS RTS Ready to send 7 N C N C Not connected 8 GND GND Signal ground WARNING UNINTENDED EQUIPMENT OPERATION damage Do not connect wires to unused terminals and or terminals indicated as No Connection N C Failure to follow these instructions can result in death serious injury or equipment 152 100000001232 10 2014 Chapter 10 Specifications Overview This chapter presents the HMISCU specifications What Is in This Chapter This chapter contains the following sections Section Topic Page 10 1 General Specifications 154 10 2 Functional Specifications 155 100000001232 10 2014 153 Section 10 1 General Specifications General Specifications Electrical Specifications The table shows the electrical specifications of HMISCU Part Number Rated InputVoltage Acceptable Power In Rush Voltage Insulation Input Limits Voltage Consumption Current Endurance Resistance Voltage Drop between power between terminal and power frame ground terminal FG and FG HMISCU6A5 lt 9 w HMISCU6B5 lt 10 W 24 Vdc 20 28 8 lt 10 ms at lt 30 A at 500 Vdc for 10 MO or 5 20 4 Vdc lt 12W 28 8 1 minute higher at HMISCU8B5 lt 13 W 500 Vdc Environmental Specifications The table shows the environmental
44. D1 e The panel face is not inclined more than 30 when installing the unit in a slanted panel Am v v 30 or less 82 EIO0000001232 10 2014 HMISCU Installation e The power plug is positioned vertically when the unit is vertically installed e The unit is atleast 100 mm 3 94 in away from adjacent structures and other equipment for easier maintenance operation and improved ventilation mm Step Action 1 Place the unit on a clean and level surface with the display panel facing downward 2 The support thickness depends on the material e Metallic between 1 5 and 6 mm 0 059 in and 0 236 in e Plastic between 3 and 6 mm 0 118 in and 0 236 in If the thickness is between 1 and 1 5 mm 0 039 in and 0 059 in for a metallic support or between 1 and 3 mm 0 039 in and 0 118 in for plastic use the panel adaptor supplied in accessory kit HMIZSUKIT see page 65 sold separately 3 Create the correct sized holes required to install the unit using the Panel Cut Out Dimension and Installation see page 76 100000001232 10 2014 83 HMISCU Installation Step Action 4 Insert the display module with the tee if required into the panel hole Use a torque between 1 2 and 2 Nem 10 62 Ib in and 17 70 Ib in to screw the nut with the tightening wrench 5 Insert and push the rear modu
45. Securely lock externally connected units and each interface before turning on the power supply e Do not connect or disconnect USB cable unless area is known to be non hazardous e Potential electrostatic charging hazard wipe the front panel of the terminal with a damp cloth before turning ON Failure to follow these instructions can result in death serious injury or equipment damage Interfaces are COM1 Ethernet USB1 and USB2 WARNING POTENTIAL FOR EXPLOSION IN HAZARDOUS LOCATIONS e Do not disconnect while circuit is live e Potential electrostatic charging hazard wipe the front panel of the terminal with a damp cloth before turning ON Failure to follow these instructions can result in death serious injury or equipment damage 100000001232 10 2014 25 HMISCU General Overview Devices Overview Overview HMISCU has various powerful features This HMI controller can service a wide range of applications The software configuration and programming is accomplished with SoMachine and is described in the SoMachine Programming Guide see Magelis SCU HMI Controller Programming Guide HMISCU Range Reference Digital Input Digital Analog Input Analog Screen Output Output Size HMISCU6AS see page 113 14 regular inputs 8 regular No No 8 9 cm and 2 fastinputs outputs 3 5 in HMISCUBAS see page 113 HSC and 2 fast 14 48
46. XXCAUSBH018 for Windows 2000 or Safely remove USB link cable When the Safe To Remove Hardware message box appears remove the USB download cable Click OK to close the message box 104 100000001232 10 2014 HMISCU Installation USB Type A Introduction A WARNING RISK OF EXPLOSION IN HAZARDOUS LOCATIONS In hazardous locations as described in ANSI ISA 12 12 01 e Confirm thatthe USB cable has been attached with the USB cable clamp before using the USB host interface e Remove power before attaching or detaching any connector s to or from the unit Failure to follow these instructions can result in death serious injury or equipment damage When using a USB device you can attach a USB holder to the USB interface on the side of the unit to help prevent the USB cable from being disconnected Attaching the USB Holder Step Action 1 Attach the USB holder to the USB host interface on the rear module Hook the upper pick of the USB holder to the attachment hole of the main unit and insert the lower pick as shown below to affix the USB holder 1 USB holder 100000001232 10 2014 105 HMISCU Installation Step Action 2 Insert the USB cable into the USB host interface eei 1 USB holder 2 USB cable 3 Attach the USB cover to fix the USB cable in place Insert the USB cover into the tab of the USB holder 1 USB
47. ailure to follow these instructions will result in death or serious injury WARNING LOSS OF CONTROL e Consider the potential failure modes of control paths in the machine control system design Such as e The possibility of backlight failure e Unanticipated link transmission delays or failures e The operator being unable to control the machine e The operator making errors in the control of the machine e Provide a means to achieve a safe state during and after a path failure for critical control functions such as emergency stop and overtravel stop e Provide separate or redundant control paths for critical control functions e Observe all accident prevention regulations and local safety guidelines e Test individually and thoroughly each implementation of the equipment for correct operation before service Failure to follow these instructions can result in death serious injury or equipment damage 1 For additional information refer to NEMA ICS 1 1 latest edition Safety Guidelines for the Application Installation and Maintenance of Solid State Control and to NEMA ICS 7 1 latest edition Safety Standards for Construction and Guide for Selection Installation and Operation of Adjustable Speed Drive Systems or their equivalent governing your particular location 100000001232 10 2014 11 A WARNING UNINTENDED EQUIPMENT OPERATION e Only use software approved by Schneider Electric fo
48. al specifications of the controller What Is in This Chapter This chapter contains the following topics Topic Page Introduction 30 Installation Requirements 33 Environmental Characteristics 35 Wiring Rules and Recommendations 37 Wiring to the DIO Terminal Block 42 Grounding the System 44 100000001232 10 2014 29 HMISCU System General Implementation Rules Introduction Before You Begin Do not use this product on machinery lacking effective point of operation guarding Lack of effective point of operation guarding on a machine can result in serious injury to the operator of that machine A WARNING UNGUARDED MACHINERY CAN CAUSE SERIOUS INJURY e Do not use this controller and related software on equipment that does not have point of operation protection e Do notreach into machinery during operation Failure to follow these instructions can result in death serious injury or equipment damage The HMISCU controller and related software is used to control various industrial processes The type or model of automation equipment suitable for each application will vary depending on factors such as the control function required degree of protection required production methods unusual conditions government regulations and so on in some applications more than one processor may be required as when backup redundancy is needed Only the user can be aware of all the conditi
49. anel 80 100000001232 10 2014 HMISCU Installation Installing the rear module on a DIN rail with a display module rear module separation cable HMISCU Setup Procedure Mount the unit in an enclosure that provides a clean dry robust and controlled environment IP65 enclosure UL508 4x if indoors see page 35 Before installing the HMISCU verify that e The installation panel or cabinet surface is flat planarity tolerance 0 5 mm 0 019 in in good condition and has no jagged edges Metal reinforcing strips may be attached to the inside ofthe panel near the panel cut out to increase the rigidity e The panel is designed to avoid any induced vibration resonance on the rear module exceeding a punctual factor of 10 and avoids any induced permanent vibration resonance To reduce the resonance use the panel adaptor accessory e The ambient operating temperature and the ambient humidity are within their specified ranges see page 35 When installing the panel in a cabinet or enclosure the ambient operation temperature is the internal temperature of the cabinet or enclosure e The heat from surrounding equipment does not cause the unit to exceed its specified operating temperature see page 35 100000001232 10 2014 81 HMISCU Installation e When installing the display module in a horizontal position the display must be on the top side 02 IN
50. anel display detected problem then verify the hardware Connected Equipment Cannot be Used If the unit does not communicate with connected equipment perform the following Step Check Operation Solution 1 Is the power supply off or disconnected Verify the power supply connections and levels 2 Driver and Equipment settings in In the Vijeo Designer editor Navigator window s Vijeo Designer match the actual equipment Project tab expand the I O Manager node to enter the you are trying to communicate with correct configuration settings for the Driver and Equipment nodes 188 100000001232 10 2014 Step Check Operation Solution Is the communication cable connected correctly Refer to the associated protocol manual for information about cable diagrams Is the detected problem resolved If none of the previous steps fixed the communication detected problem then verify the hardware Unit does not respond when pressed If the unit is either not responding when pressed or if its response time is very slow perform the following Step Check Operation Solution 1 Disconnect all the cables except the power cable In the Settings menu press the Offline tab and then press the Self Test icon Run the Touch Panel test If the test is unsuccessful there is a detected problem with the hardware If touch respo
51. art Il HMISCU Controller and Display Modules Overview This part describes the HMISCU Controller and the display modules What Is in This Part This part contains the following chapters Chapter Chapter Name Page 6 HMISCUsAS type DIO 113 7 HMISCU B5 type DIO and AIO 123 8 Display Modules 137 100000001232 10 2014 111 HMISCU Controller 112 100000001232 10 2014 Chapter 6 HMISCU A5 type DIO Overview This chapter describes the HMISCU A65 type DIO and HMISAC The HMISAC rear module is available individually as just the rear module and that the HMIS65 and HMIS65 display modules can be also ordered separately What Is in This Chapter This chapter contains the following topics Topic Page Presentation 114 Digital Inputs 117 Digital Outputs 120 100000001232 10 2014 113 HMISCU A5 type DIO Presentation Terminal Blocks The figure shows the terminal blocks B1 terminal A1 terminal C15 terminal D15 terminal B6 terminal A6 terminal The figure shows the pin assignment of the terminal blocks A1 A6 Digital C1 C15 Digital OUT OUT Fast OUT _ Fast IN A 201 NC C1 DQ4 DQ6 IN v Fat Fio 06 c2 prz ie piri pita c2 aii B pao DQ2 NC 003005007 L OUT v co pio
52. ation or ETSI European Telecommunications Standards Institute F functional Earth A common grounding connection to enhance or otherwise allow normal operation of electrically sensitive equipment also referred to as functional ground in North America In contrast to a protective Earth protective ground a functional earth connection serves a purpose other than shock protection and may normally carry current Examples of devices that use functional earth connections include surge suppressors and electromagnetic interference filters certain antennas and measurement instruments function block diagram One of the 5 languages for logic or control supported by the standard IEC 61131 3 for control systems Function block diagram is a graphically oriented programming language It works with a list of networks where each network contains a graphical structure of boxes and connection lines representing either a logical or arithmetic expression the call of a function block a jump or a return instruction IEC international electrotechnical commission A non profit and non governmental international standards organization that prepares and publishes international standards for electrical electronic and related technologies IEC 61131 3 Part 3 of a 3 part IEC standard for industrial automation equipment IEC 61131 3 is concerned with controller programming languages and defines 2 graphical and 2 textual programming language standards
53. ays connect the communication cable to the PC before connecting it to the controller Failure to follow these instructions can result in equipment damage USB Mini B Port Connection Attach the data transfer cable BMXXCAUSBH018 to the USB port to allow data transfer from the computer to the unit TSXCNAMUMSP This USB cable is suitable for short duration connections like quick updates or retrieving data values BMXXCAUSBH018 Grounded and shielded this USB cable is suitable for long duration connections NOTE You can connect 1 controller to the PC at a time Use the USB mini B programming port to connect a PC with a USB host port Using a typical USB cable this connection is suitable for quick updates of the program or short duration connections to perform maintenance and inspect data values It is not suitable for long term connections such as commissioning or monitoring without the use of specially adapted cables to help minimize electromagnetic interference 100000001232 10 2014 173 Connecting the HMISCU to a PC A WARNING INOPERABLE EQUIPMENT OR UNINTENDED EQUIPMENT OPERATION e You must use a shielded USB cable secured to the functional ground FE of the system for any long term connections e Do not connect more than one controller at a time using USB connections Failure to follow these instructions can result in death serious injury or equipment damage The figure shows the USB co
54. button to return to the Variable menu If Go Onscan is pressed the test reads the value for each variable associated with the selected equipment If any of the variables detects a problem because of a detected error in the equipment or a time out the event log displays a message with the name of the variable After you complete testing variables from one equipment you can continue testing variables for other equipment connected to the target machine Alternatively you can test all equipment at once by selecting Test All in the Select Equipment drop down list Touch the Return button to return to the Diagnostics menu 100000001232 10 2014 185 HMISCU Statistics Use the Statistics menu to check the connection between equipment The following table describes how to get to Statistics menu Step Action 1 In the Settings menu touch the Diagnostics tab 2 Touch the Statistics button NOTE When you write any value to this system control word touch the Rollover button to Copy the values in the current statistic variables to the previous statistic variables Reset current statistic variables to zero In Show Stats for touch the up down arrow to select the equipment whose variable statistics you want to show Touch the right arrow button to view the next display Touch the Go Offscan button to start the test Touch the right arrow button to view the n
55. cations with technical safety requirements the relevant instructions must be followed Failure to use Schneider Electric software or approved software with our hardware products may result in injury harm or improper operating results Failure to observe this information can result in injury or equipment damage 2014 Schneider Electric All rights reserved 100000001232 10 2014 Table of Contents Safety Information About the Book Part HMISCU System Chapter 1 HMISCU General Overview Package Contents Parts Identification and Functions System Architecture Certifications and Standards Devices Overview Chapter 2 HMISCU System General Implementation Rules Introduction Installation Requirements Environmental Wiring Rules and Recommendations Wiring to the DIO Terminal Grounding the System Chapter 3 HMISCU Description 3 1 Rear Module Features Real Time Clock 3 2 Management Input Management Output Management Chapter 4 Device Connectivity System Design Interface Accessories Chapter 5 HMISCU Installation 5 1 Mechanical Requirements Dimensions Panel Cut Out Dimensions Installation Procedu
56. ceeded Double flash red Node Guarding or The controller has detected either a Node with green ON Heartbeat event Guarding or Heartbeat exception for the CANopen master or slave device Red ON Bus off The CANopen bus is stopped Green ON The CANopen bus is operational NOTE CanOpen LED is mounted alongside the cover 148 100000001232 10 2014 Communication Interface CANopen DATA TRANSFER SETTINGS The CANopen networking concept is based on the international standard CAN CANopen is defined as a uniform application layer by the DS301 specifications of the CiA CAN in Automation CANopen CABLE ARRANGEMENT The CANopen interface uses a D SUB 9 pin plug connector The plug is assigned with the CAN Land CAN GND connections CAN CAN are the two conductors of the CAN bus CAN GND is the common reference potential NOTE e The resistance of the cable value must be 70 mW m 1 77 mW in or less e To minimize signal reflections from the end of the cable a 120 W 596 1 4 W maximum line termination must be placed at both ends of the bus CANopen Communication Cable and Connectors NOTE CANopen communication cables and cable connectors are not supplied with the CANopen Master Unit The user must prepare the cables Recommended Cable Connector D SUB DIN41652 connector compliant with CANopen Standard CiA DR 303 1 CANopen Recommended Transfer Cable Transfer cable a twi
57. conds fields and a data entry keypad is displayed Use this keypad to define the selected time setting In the Time Zone tab touch the up down arrows to select the desired time zone Select the Auto adjust clock for daylight saving time check box to choose adjusting clock for daylight saving time changes automatically In the DST tab touch the up down arrows to select the desired daylight saving time type e Date the DST is added or subtracted on the exact date chosen e Rule the DST is added or subtracted on a specific weekday in the month Touch the Amount field and a data entry keypad is displayed Use this keypad to define the desired daylight saving time amount minutes Touch the OK button to validate your configuration or configure the parameters of daylight saving time by Date see page 180 or by Rule see page 180 100000001232 10 2014 179 HMISCU Daylight Saving Time Setting by Date If Date is selected in step 7 of Changing the Date Time see page 179 follow this procedure to set the daylight saving time parameters Step Action 1 Follow the procedure of Changing the Date Time see page 179 until step 9 2 In Add Time touch the up down arrows to select the desired month and touch the right field to display the keypad to define the desired day to add time In touch any of the fields to display the keypad and define the hour to add time 3 In Subtract Time t
58. connected Power supply XBTZGPWS1 Set of 5 power connectors connector Protection HMIZS61 Set of 5 screen protective sheets These are for the small display module 3 5 in HMIZSU62 Set of 5 screen protective sheets These are for the large display module 5 7 in Accessory kit HMIZSUKIT Accessory Kit for HMISCU contains e USB standard Type A cable holder e USB mini B cable holder e Anti rotation tee 2 panel adaptors Tightening wrench ZB5AZ905 Wrench for tightening the head fixing nut Head mounting nut ZB5AZ901 Set of 10 nuts diameter 22 mm 0 86 in 100000001232 10 2014 65 CANopen Cables and Connectors Parts Reference Name Reference Number Description Recommended cable TSXCANKCDF180T Straight connector with terminal selector switch connector TSXCANKCDF90T Right angled connector with terminal selector switch TSXCANKCDF90TP Recommended TSXCANCA50 Cable for CANopen IEC60332 1 50 m 100 m transfer cable TSXCANCAOO 164 04 ft 328 08 ft TSXCANCB50 UL approved cable for CANopen IEC60332 2 50 m 100 m TSXCANCB100 164 04 ft 328 08 ft Preassemble cord TSXCANCADDO03 0 3 m 0 98 ft set cables 2 sub D9 TSXCANCADD1 1 m 3 28 ft female connectors TSXCANCADD3 3 m 9 84 ft TSCANCADD5 5m 16 40 ft Preassemble cord TSXCANCBDDO03 0 3 m 0 98 ft cables 1 Sub D9 TsxCANCBDD1 1 m 3 28 ft and 1 RJ45 connectors TSXCANCBDD3 3 m 9 84
59. cture of your HMISCU system e high speed counter HSC inputs e pulse width modulation PWM outputs e pulse train output PTO outputs The figure shows the components of the HMISCU system 1 1 Display module 2 Rear module 3 Display module rear module separation cable 100000001232 10 2014 23 HMISCU General Overview Certifications and Standards Introduction Schneider Electric submitted this product to certification by third party agencies These agencies have certified this product as meeting the following standards For detailed information contact your local distributor or see the catalog and marking on the product Agency Certifications for HMISCU Unit HMISCU unit is certified by the Underwriters Laboratory according to e UL 508 and CSA C22 2 n 142 for Industrial Control Equipment e ANSI ISA 12 12 01 CSA C22 2 n 213 for Electrical Equipment for Use in Class Division 2 Hazardous Locations For detailed information contact your local distributor or see the catalog amp marking on the product Conditions of Acceptability and Handling Cautions for HMISCU Unit The HMISCU unit is suitable for use in hazardous locations in accordance with Class I Division 2 standards All relevant local state and regional codes must be followed CE Markings This product conforms to the necessary requirements of the following Directives for applying the CE label e 2006 95 EC Low Voltag
60. cuit Cable Type Shielded Length 3 m 9 84 ft is in compliance with electromagnetic immunity NOTE Compliance to electromagnetic immunity standards is limited to a 3 m 9 84 ft cable length In all cases a maximum cable length of 10 m 32 80 ft should not be exceeded Terminal blocks Type 3 5 mm 0 137 in pitch Terminal blocks are removable 162 100000001232 10 2014 Analog Output Characteristics WARNING UNINTENDED EQUIPMENT OPERATION Do not exceed any ofthe rated values specified in the environmental and electrical characteristics tables Failure to follow these instructions can result in death serious injury or equipment damage The table describes the characteristics of the analog outputs Characteristic Voltage Output Current Output Maximum number of outputs 2 Output range 10 10 10 0 20 mA 4 20 mA Load impedance gt 2kQ lt 300 Q Application load type Resistive load Settling time 10 ms Total output system transfer time 10 ms 1 scan time Output tolerance Maximum deviation at25 C 1 of the full scale 77 F without electromagnetic disturbance Maximum deviation 2 5 of the full scale Digital resolution 12 bit Temperature drift 0 06 of the full scale Output ripple 50 mV Cross talk 60 db Non linearity 0 5 of the full scale Output value of LSB 6 mV 12
61. detected problems with the HMISCU units What Is in This Chapter This chapter contains the following topics Topic Page Troubleshooting Checklists 188 Self Test List 190 100000001232 10 2014 187 Troubleshooting Checklists Introduction When there is a detected problem go through the checklist and follow the instructions given Here are the main detected problems that may occur when using HMISCU unit Panel display is blank Connected equipment cannot be used Panel does not respond or responds very slowly Panel beeps when powered on Cannot change the date or time NOTE Contact your local Schneider Electric vendor or your local distributor Panel Display is Blank If the unit display is blank perform the following Step Check Operation Solution 1 Are all Vijeo Designer screens You may have to download the screens again downloaded 2 15 Initial Panel ID set up correctly in Enter the Initial Panel ID in the Vijeo Designer editor and Vijeo Designer download again 3 Isthe unit using the correct rated Verify the power supply connections and levels voltage 4 Isthe power supply off or disconnected Follow the instructions in this manual for reconnecting the power supply 5 Is the backlight lit Potential detected problem with the unit Contact your local distributor 6 Isthe detected problem resolved If none of the previous steps fixed the blank p
62. dule e Power line and output circuits must be wired and fused in compliance with local and national regulatory requirements for the rated current and voltage of the particular equipment e Do not use this equipment in safety critical machine functions Do not disassemble repair or modify this equipment e Do not connect any wiring to unused connections or to connections designated as No Connection N C Failure to follow these instructions can result in death serious injury or equipment damage 34 100000001232 10 2014 HMISCU System General Implementation Rules Environmental Characteristics Enclosure Requirements HMISCU system components are designed as Zone B Class A industrial equipment according to IEC CISPR Publication 11 If they are used in environments other than those described in the standard or in environments that do not meet the specifications in this manual the ability to meet electromagnetic compatibility requirements in the presence of conducted and or radiated interference may be reduced All HMISCU system components meet European Community CE requirements for open equipment as defined by EN61131 2 You must install them in an enclosure designed for the specific environmental conditions and to minimize the possibility of unintended contact with hazardous voltages Use a metal enclosure to improve the electromagnetic immunity of your HMISCU system Use enclosures with a keyed locking mechan
63. e Directive e 2004 108 EC EMC Directive This conformity is based on compliance with EN IEC61131 2 Hazardous Substances HMISCU unit is designed for compliance with WEEE Directive 2012 19 EU RoHS Directives 2011 65 EC RoHS China Standard SJ T 11363 2006 REACh Reguation 2006 121 EC 24 100000001232 10 2014 HMISCU General Overview CAUTION ENVIRONMENTAL HAZARDS TO THE EQUIPMENT e Allow the device to reach the surrounding air temperature not exceeding 50 122 F before turning the device on e Donotturn on the device if condensation has occurred inside the device After it is completely dry again the device may be turned on Do not expose the device to direct sunlight Do not obstruct the vents in the device casing Remove any dust from the device before turning it on Ensure that the cable installation fasteners are not damaged Replace them if necessary Mount the device into an enclosure that meets the IP65 level of protection Failure to follow these instructions can result in injury or equipment damage WARNING POTENTIAL FOR EXPLOSION IN HAZARDOUS LOCATIONS e Verify that the power input and output I O wiring are in accordance with Class I Division 2 wiring methods e Do not substitute components that may impair compliance to Class l Division 2 e Do not connect or disconnect equipment unless power has been switched off or the area is known to be non hazardous e
64. e unit at run time Connect the power supply Depending on what you set up in Step 1 you can display the Configuration menu using one of the following methods Action Touch the switch set up with the Configuration system operation Top Left Corner Touch the top left corner of the screen within ten seconds after the unit begins starting up Touch two corners successively Touch successively the top left corner then the bottom right corner within half a second The touch area is 50 dots by 50 dots Vijeo Designer Runtime restarts and displays the Settings menu 4 The Settings menu contains 3 tabs Offline System Diagnostics and To Run Mode Click tab to display its settings 178 100000001232 10 2014 HMISCU System Settings Introduction You can change system settings while the user application is still running Stylus Use the Stylus to calibrate the screen Step Action 1 In the Setting menu touch the System tab 2 Touch the Stylus button 3 Touch the center of the cross hairs several times to complete calibration of the screen Changing the Date Time Step Action 1 In the Setting menu touch the System tab Touch the Date Time button Touch any of the Year Month or Day fields and a data entry keypad is displayed Use this keypad to define the selected date setting Touch any of the Hour Minutes or Se
65. ecture and power interruption circumstances WARNING UNINTENDED EQUIPMENT OPERATION e Individually monitor each source of power used in the HMISCU system including input power supplies output power supplies and the power supply to the controller to allow appropriate system shutdown during power system interruptions e The inputs monitoring each of the power supply sources must be unfiltered inputs Failure to follow these instructions can result in death serious injury or equipment damage 96 100000001232 10 2014 HMISCU Installation Connecting the Power Cord Introduction Follow these instructions when supplying power to the unit When the frame ground FG terminal is connected verify the wire is grounded Not grounding the unit can result in excessive Electromagnetic Interference EMI Grounding is required to meet EMC level immunity The shield ground SG and FG terminals are connected internally in the unit Remove power before wiring to the power terminals of the unit The unit uses 24 Vdc power Using any other level of power can damage both the power supply and the unit Since the unit is not equipped with a power switch connect a power switch to the unit s power supply Field wiring terminal marking for wire type 75 167 F copper conductors only Power Cord Preparation Before using your power cord Verify that the ground wire is the same gauge or heavier than the
66. er day Terminal blocks Type 3 5 mm 0 137 in pitch Terminal blocks are removable HSC maximum frequency e 50kHzis the maximum frequency for either single or quadrature counting modes Duty Rate 45 55 HSC supported operation modes Single phase Quadrature x2 Quadrature x4 Reverse Quadrature x2 Reverse Quadrature x4 Response time Capture input 1ms Preset input 1ms Transistor reflex 5 us output Input paralleling No 100000001232 10 2014 159 Digital Outputs Relay Output Characteristics The table describes the characteristics of the relay outputs Characteristic Value Rated voltage 24 Vdc 220 Vac Output range 5 30 Vdc 100 250 Vac Rated current Maximum 2 A for each point Current group 4 points 4A Inrush values Maximum switching voltage 250 Vac 30 Vdc Current point 5A Isolation Relay coil Maximum output frequency with maximum load 0 1 Hz without load 5Hz Timing data Operate at nominal voltage Maximum 10 ms Release at nominal voltage Maximum 5 ms Resistive load 2 Alpoint for 24 Vdc 220 Vac Mechanical life 20 million operation minimum at 25 77 F for maximum current and voltage ratings Cable length Non shielded 150 m 492 ft Protection against short circuit No Terminal blocks Type 3 5 mm 0 137 in pitch Terminal blocks are re
67. event malfunctions due to noise separate all control communication and power lines by placing them in separate ducts A WARNING UNINTENDED EQUIPMENT OPERATION e Use shielded cables for all fast I O analog I O and communication signals e Ground cable shields for all fast I O analog I O and communication signals at a single point e Route communications and cables separately from power cables Failure to follow these instructions can result in death serious injury or equipment damage 100000001232 10 2014 37 HMISCU System General Implementation Rules Multipoint grounding is permissible if connections are made to an equipotential ground plane dimensioned to help avoid cable shield damage in the event of power system short circuit currents For more details refer to Grounding Shielded Cables see page 44 The wire sizes to use with the removable terminal blocks is 0 20 to 0 81 mm AWG 24 to 18 4A DANGER FIRE HAZARD Use only the recommended wire sizes for the current capacity of the power supplies Failure to follow these instructions will result in death or serious injury Terminal Block Plugging a terminal block into the incorrect rear module can cause an electric shock or unintended operation of the application and or can damage the rear module 4A DANGER UNINTENDED EQUIPMENT OPERATION OR ELECTRIC SHOCK Connect the terminal blocks to their designated location Failu
68. ext display O om Total Good the total number of received variables without detected error Total Bad the total number of detected errors of all types Total Count Total Good Total Bad No Reply no reply was received in response to the request Chksum Fail received a request or response 1 with an incorrect checksum Wrong Addr received a request or response 1 with an incorrect address Error Resp received a detected error response from the equipment 1 Master type drivers send out requests and receive responses Slave type drivers receive requests and send responses Touch the next arrow button to view the next display Inv Resp received a response that contained a protocol detected error Init Fail initializing communications with the equipment was unsuccessful Write Fail writing a new value to the equipment was unsuccessful Intrn Error internal driver detected error indicates improper driver configuration or driver problem Xmit Fail transmitting a request or response was unsuccessful Unsupp Req received a request for an unsupported service Inv Request received a request that contained a protocol detected error 10 Touch the Return button to return to the Diagnostics menu or the previous arrow button to view the previous display 186 100000001232 10 2014 Chapter 13 Troubleshooting Overview This chapter describes how to find and resolve
69. ft TSXCANCBDD5 5 m 16 40 ft 66 100000001232 10 2014 Chapter 5 HMISCU Installation Overview This chapter provides installation safety guidelines device dimensions mounting instructions and environmental specifications What Is in This Chapter This chapter contains the following sections Section Topic Page 5 1 Mechanical Requirements 68 5 2 Electrical Requirements 93 5 3 USB Port 102 100000001232 10 2014 67 HMISCU Installation Section 5 1 Mechanical Requirements What Is in This Section This section contains the following topics Topic Page Dimensions 69 Panel Cut Out Dimensions and Installation 76 Installation Procedures 80 Mounting Positions 86 Mounting Clearances 87 DIN Rail 89 Installing and Removing the Rear Module on a DIN Rail 90 68 E100000001232 10 2014 HMISCU Installation Dimensions 3 5 Inches Display Module mm 153 16 2 in 0 60 0 63 Ws 31 5 3 84 1 24 100000001232 10 2014 69 HMISCU Installation 5 7 Inches Display Module 15 3 In gt 0 60 ato FAIS ses BS Y 1177 gt 17 5 4 63 0 69 m 163 32 8 6 42 1 29 70 100000001232 10 2014 HMISCU Installation Rear Module 9 5 0 15 0 37 0 00 39 65 0 3 1 56 0 01 50 65 0 3 1 99 0 01
70. fter installation Step Action 1 On the target machine check that the USB cable is physically connected to the USB port On the PC check that the USB cable is physically connected to the USB port On the desktop right click My Computer and click Properties In System Properties dialog box select Hardware tab and then click Device Manager 2 3 4 5 In Device Manager the USB link cable is displayed below the USB controller 100000001232 10 2014 103 HMISCU Installation Troubleshooting Detected Problem Symptom Solution The USB cable is not recognized Overcurrent occurred The plug and play is not functioning correctly Connect the cable correctly or restart your PC Also when connecting a USB hub connect it directly to your PC USB You are unable to use the USB cable after connecting itto a USB hub The power supplied from the hub may be insufficient Check that the hub is self powered Connect the cable directly to the PC USB port After installation a is displayed when you try to confirm the cable status via the Device Manager The driver has not been installed correctly Uninstall the driver and reinstall it Uninstalling the USB Driver Step Action 1 Click the USB device icon Stop USB link cable in the Windows task tray and then click Stop BMXXCAUSBHO0168 for Windows USB link cable BM
71. he power receptacle pin e The power supply cord must meet the specification shown above Twist the power cords together up to the power plug for EMC compliance e Use field wiring terminal marking for wire type 75 167 F copper conductors only 98 100000001232 10 2014 HMISCU Installation The figure shows the connection of the power cord Terminal block wire set block Power Plug FG 100000001232 10 2014 99 HMISCU Installation Connecting the Power Supply Precautions e Use the power plug to connect the power cord to the power connector on the side of the rear module e Use aregulated power supply with a Class 2 power supply between the line and the ground e Do not bundle the power supply cord with or keep close to main circuit lines high voltage high current or input output signal lines e Connect a lightning surge absorber to handle power surges Excessive stress on the power connection or attempting to install a rear module with the power cables connected may disconnect or cause damage to the power connections This can cause short circuits fire or unintended equipment operation A WARNING SHORT CIRCUITS FIRE OR UNINTENDED EQUIPMENT OPERATION Avoid excessive force on the power cable to prevent accidental disconnections e Securely attach power cables to the panel or cabinet e Use the designated torque to tighten the rear module term
72. he unit 100000001232 10 2014 137 A WARNING LOSS OF CONTROL e Consider the potential failure modes of control paths in the machine control system design Such as e The possibility of backlight failure e Unanticipated link transmission delays or failures e The operator being unable to control the machine e The operator making errors in the control of the machine e Provide a means to achieve a safe state during and after a path failure for critical control functions such as emergency stop and overtravel stop e Provide separate or redundant control paths for critical control functions e Observe all accident prevention regulations and local safety guidelines e Test individually and thoroughly each implementation of the equipment for correct operation before service Failure to follow these instructions can result in death serious injury or equipment damage For additional information refer to NEMA ICS 1 1 latest edition Safety Guidelines for the Application Installation and Maintenance of Solid State Control and to NEMA ICS 7 1 latest edition Safety Standards for Construction and Guide for Selection Installation and Operation of Adjustable Speed Drive Systems or their equivalent governing your particular location WARNING UNINTENDED EQUIPMENT OPERATION e Do not use this equipment as the only means of control for critical system functions such as motor start stop or power disconnect
73. holder 2 USB cable 3 USB cover 106 100000001232 10 2014 HMISCU Installation Removing the USB Holder Push the tab of the USB holder to the left and then remove the USB cover 100000001232 10 2014 107 HMISCU Installation USB mini B Introduction A WARNING RISK OF EXPLOSION IN HAZARDOUS LOCATIONS In hazardous locations as described in ANSI ISA 12 12 01 e Confirm that the USB cable has been attached with the USB cable clamp before using the USB host interface e Remove power before attaching or detaching any connector s to or from the unit Failure to follow these instructions can result in death serious injury or equipment damage When using a USB device you can attach a USB holder to the USB interface on the unit to help prevent the USB cable from being disconnected NOTE The USB holder is supplied in the accessory kit HMIZSUKIT sold separately Attaching the USB Holder Step Action 1 Insert the USB cable into the USB host interface 1 USB cable 108 100000001232 10 2014 HMISCU Installation Step Action Attach the USB holder to fix the USB cable in place gt q 1 USB holder 2 USB cable Removing the USB Holder Push down the tab of the USB holder and then remove the USB holder 100000001232 10 2014 109 HMISCU Installation 110 100000001232 10 2014 P
74. ic com 2 In the Search box type the reference of a product or the name of a product range Do not include blank spaces in the model number product range To get information on grouping similar modules use asterisks If you entered a reference go to the Product Datasheets search results and click on the reference that interests you If you entered the name of a product range go to the Product Ranges search results and click on the product range that interests you If more than one reference appears in the Products search results click on the reference that interests you Depending on the size of your screen you may need to scroll down to see the data sheet To save or print a data sheet as a pdf file click Download XXX product datasheet The characteristics that are presented in this manual should be the same as those characteristics that appear online In line with our policy of constant improvement we may revise content over time to improve clarity and accuracy If you see a difference between the manual and online information use the online information as your reference 100000001232 10 2014 Related Documents Title of Documentation Reference Number Magelis SCU HMI Controller Programming Guide EIO0000001240 eng EIO0000001244 fre EIO0000001242 ger EIO0000001243 spa EIO0000001244 ita EIO0000001245 chs Magelis SCU HMI Controller PLCSystem Libra
75. ime 10 ms 1 cycle time Wiring type 2 4 wire or 3 wire connection configured by software for each input Conversion mode Sigma delta type Input filter Low pass 1st order Resolution of temperature value 0 1 0 18 F Detection type Open circuit detection on each channel 164 100000001232 10 2014 Input Characteristics Maximum deviationat25 77 F without electromagnetic disturbance Input tolerance 5 41 F differential mode Common mode Maximum PT type 5 6 42 08 F deviation at NI type 5 2 41 36 F 25 50 77 122 F Temperature drift 30 ppm C Digital resolution 16 bit Rejection in 50 60 Hz Typically 60 dB Typically 80 dB rejection Isolation between channels Not isolated Permitted input signal x5 Vdc max Cable length PT100 NI100 200 PT1000 NI1000 2000 Terminal blocks Type 3 5 mm 0 137 in pitch Terminal blocks are removable Noise resistance cable Shielded cable is necessary Excluding errors caused by the wiring Analog Thermocouple Input Characteristics WARNING tables damage UNINTENDED EQUIPMENT OPERATION Do not exceed any of the rated values specified in the environmental and electrical characteristics Failure to follow these instructions can result in death serious injury or
76. inal block screws e Install and fasten the rear module on the installation panel or cabinet prior to connecting power supply and communication lines Failure to follow these instructions can result in death serious injury or equipment damage 100 100000001232 10 2014 HMISCU Installation Power Supply Connections For maintenance purpose use the following connection diagram to set up your power supply connections Unit Main Unit Power plug Power Power VO Unit Terminal blocks Power Unit Main Unit Power plug Power Power VO Unit Terminal blocks Power Operation unit Main Motor Circuit NOTE e Ground the surge absorber separately from the rear module e Select a surge absorber that has a maximum circuit voltage greater than the peak voltage of the power supply The diagram illustrates a lightning surge absorber connection Surge absorber Power connector ES poems 100000001232 10 2014 101 HMISCU Installation Section 5 3 USB Port Overview This section presents the USB port What Is in This Section This section contains the following topics Topic Page USB Data Transfer Cable USB Driver Installation 103 USB Type A 105 USB mini B 108 102 100000001232 10 2014 HMISCU Installation USB Data Transfer Cable USB Driver Installation Important Information Follow these instructions
77. injury or equipment damage NOTICE DEGRADATION OF PERFORMANCE Do not exceed 32 TPDOs and 32 RPDOs for the HMISCU Controller Failure to follow these instructions can result in equipment damage Characteristics The table describes the CAN characteristics Characteristic Description Standard CAN CiA ISO 11898 2 2002 Part 2 Connector type Sub D9 9 pins male Protocol supported CANopen 146 100000001232 10 2014 Communication Interface Characteristic Description CAN power distribution No Maximal cable length See table below Isolation See note Bit rate See table below Line termination No See note Part 1 and Part 2 of ISO 11898 2002 are equivalent to ISO 11898 1993 The isolation of the rear module is 500 Vac RMS between the module and the terminal blocks connected to the rear module The two parts reference the same functional ground FE through specific components designed to reduce effects of electromagnetic interference These components are rated at 30 Vdc or 60 Vdc This effectively reduces isolation of the entire system from the 500 Vac RMS 3 A resistor R is needed on each end of the CAN field bus The table describes the maximum cable lengths Baud rate 800 Kbit s 250Kbit s 125 Kbitls 50Kbitis 20 Kbitls 10 Kbit s Maximum m 25 250 500 1000 2500 5000 cable length 82 02 820 20 1640 41 3280 83 8202 07
78. ion Output Management Introduction The HMISCU Controller includes regular outputs and fast outputs The following output functions are configurable on fast outputs e pulse train output PTO e pulse width modulation PWM NOTE By default all outputs can be used as regular outputs Fast Output Management Availability The information refers to all HMISCU Controllers with fast outputs Function PTO PWM Channel Number Channel Name FQO PTOO OutputO FQ1 PTO1 Output1 Transistor output Fallback Modes Behavior for Outputs in Stop When the controller enters the STOP or EXCEPTION state for any reason the local outputs are set to the fallback values 2 modes are available Set all outputs to default Each output is set to the configured default value either O or 1 initially set to 0 in the configuration Keep current values Each output remains in its current state The fallback settings that may be configured fallback to 0 fallback to 1 or fallback to the current state do not apply to fast outputs if these outputs are configured for embedded function If a detected error results in the controller entering fallback mode these outputs will assume a value of 0 regardless of the configured fallback setting WARNING UNINTENDED EQUIPMENT OPERATION Design and program your system so that controlled equipment assumes a safe state when the controller enters fallback mode if you use fast
79. ion Interface Ethernet Port Introduction The HMISCU is equipped with an IEEE802 3 compliant Ethernet communication port that transmits and receives data at 10 Mbps or 100 Mbps Ethernet Port Connector The figure shows the location of the RJ45 Ethernet port on the rear module IND2 IND1 Do not confuse the RJ45 Ethernet connector with RJ45 serial port NOTE Ethernet networks must be installed by a trained and qualified person NOTE One to one 1 1 connections must be made with a hub or a switch It is possible to use the 1 1 connection with a cross cable depending on the connected PCs and network cards Characteristics The table describes the different Ethernet characteristics Characteristic Description Connector type RJ45 Driver e 10M half duplex auto negotiation e 100M full duplex auto negotiation Cable type Shielded Automatic cross over Yes detection 144 100000001232 10 2014 Communication Interface Pin Assignment The figure shows the RJ45 Ethernet connector pin assignment 87654321 The table describes the RJ45 Ethernet connector pins Pin Signal 1 TD 2 TD 3 RD 4 5 6 RD 7 E 8 NOTE The HMISCU supports the MDI MDIX auto crossover cable function You do not have to use special Ethernet crossover cables to connect devices directly to this port connections without an Ether
80. ion Yes 94 100000001232 10 2014 HMISCU Installation DC Power Supply Wiring Diagram 1 lt 80 mm 3 15 in 1 5 mm min AWG 14 max 1 Use external slow blow 2 A type T fuse 4 DANGER FIRE HAZARD Use only the recommended wire sizes for the current capacity of the power supplies Failure to follow these instructions will result in death or serious injury A WARNING UNINTENDED EQUIPMENT OPERATION Do not exceed any of the rated values specified in the environmental and electrical characteristics tables Failure to follow these instructions can result in death serious injury or equipment damage 100000001232 10 2014 95 HMISCU Installation Power Interruption The duration of power interruptions where the HMISCU continues normal operation is variable depending upon the load to the power supply of the controller but generally a minimum of 10 ms is maintained as specified by IEC standards If there is a minimum load on the controller power supply the interruption can be as long as 400 ms When planning the management of the power supplied to the controller you must consider the duration due to the fast cycle time There could potentially be many scans of the logic and consequential updates to the I O image table during the power interruption while there is no external power supplied to the inputs the outputs or both depending on the power system archit
81. ion nut attached to the display module Anti rotation tee Socket wrench USB clamp type A DC power supply connector I O connector 15 pin x 2 I O connector 6 pin x 2 0 HMISCU Installation Guide 1 Warning Caution information O Q L Q N 16 EIO0000001232 10 2014 HMISCU General Overview Display Module Package Contents Verify that all items shown in the figure are present in your package Display module Display installation nut attached to the display module Anti rotation tee HMISCU Installation Guide Warning Caution information m O N Rear Module Package Contents Verify that all items shown in the figure are present in your package 7 1 Rear module 2 DC power supply connector 3 connector 15 pin x 2 4 connector 6 pin x 2 5 USB clamp type A 6 HMISCU Installation Guide 7 Warning Caution information 100000001232 10 2014 17 HMISCU General Overview Product Label Sticker You can identify the product version PV revision level RL and the software version SV from the product label on the panel The following diagram is a representation of a typical label IND CONT EQ FOR HAZLOC H M ISBC C1LDiv2 Groups ABCD TC T4A Tamb 50 DC24V 11W Class 2 PV RL SV KG IIIIII II IIII EA EC 6131 2 MAC 00 80 F4 01 02 03 Made in China Schneider WXS1A7770613010001 18 E100000001232 10 2014 HMISCU General Over
82. ism to minimize unauthorized access Environmental Characteristics HMISCU meets CE requirements as indicated in the table below and is intended for use in a Pollution Degree 2 industrial environment The table below gives the general environmental characteristics Characteristic Specification Standard compliance IEC61131 2 Ambient operating Vertical installation 0 50 32 122 F Horizontal installation 0 40 32 104 F Storage temperature 20 60 C 4 140 F Storage altitude 0 10 000 m 0 32 808 ft Operating altitude 0 2 000 m 0 6 560 ft Relative humidity 5 85 w o condensation non condensing wet bulb temperature 39 102 2 F or less Degree of pollution IEC60664 2 Degree of protection IEC61131 2 IP20 with protective covers in place Corrosion immunity No Corrosive gases Free of corrosive gases Air purity dust lt 0 1 mg m 107 oz ft non conductive levels Atmospheric pressure 800 1 114 hPa 2000 m 6 561 ft or lower 100000001232 10 2014 35 HMISCU System General Implementation Rules Characteristic Specification Vibration resistance Mounted on a DIN rail 3 5 mm 0 138 in fixed amplitude from 5 8 4 Hz 9 8 m s 1 gn fixed acceleration from 8 4 150 Hz Mounted on a panel 10 mm 0 394 in fixed amplitude from 5 8 6 Hz 29 4 m s 3 gn fixed acceleration from 8
83. key features 27 filter bounce filter 55 integrator filter 54 H HMISCU A5 type DIO 113 HMISCU B5 type DIO and AIO 123 management 53 inductive load output protection output protection inductive load 39 input management 54 installation 67 electrical requirements 93 mechanical requirements 68 procedures 80 L latching 55 main features 26 maintenance check points 194 cleaning 192 mechanical requirements installation 68 mounting clearances 87 mounting positions 86 O output management 57 EIO0000001232 10 2014 199 Index p parts identification and functions 19 power plug 97 power supply characteristics and wiring 94 programming languages 27 R read before starting environmental characteristics 35 installation requirements 33 real time clock 52 RTC 52 run mode peripherals 63 S self test 190 serial port communication port 150 settings menu 178 short circuit or over current on outputs 58 specifications display 156 general 154 System settings 179 T troubleshooting 188 U USB data transfer cable 103 driver installation 103 type A 105 type mini B 108 W wiring rules and recommendations 37 200 EIO0000001232 10 2014
84. l installation and set up procedures have been completed e Before operational tests are performed remove all blocks or other temporary holding means used for shipment from all component devices e Remove tools meters and debris from equipment Failure to follow these instructions can result in injury or equipment damage Follow all start up tests recommended in the equipment documentation Store all equipment documentation for future references 100000001232 10 2014 31 HMISCU System General Implementation Rules Verify that the completed system is free from all short circuits and grounds except those grounds installed according to local and national regulations If high potential voltage testing is necessary follow recommendations in equipment documentation to help prevent accidental equipment damage or injury Before energizing equipment e Remove tools meters and debris from equipment Close the equipment enclosure door Remove ground from incoming power lines Perform all start up tests recommended by the manufacturer Operation and Adjustments There are hazards that can be encountered if this equipment is improperly operated or adjusted regardless of the care exercised in the design and manufacture of equipment or in the selection and ratings of components It may be possible to mis adjust this equipment and thereby produce unintended consequences Only those operational adjustments required by the operat
85. le must have continuous shielding e Wherever possible keep cables carrying one type of signal separate from the cables carrying other types of signals or power Protective Ground PE on the Backplane The protective ground PE is connected to the conductive backplane by a heavy duty wire usually a braided copper cable with the maximum allowable cable section 44 100000001232 10 2014 HMISCU System General Implementation Rules Functional Ground on the DIN Rail The DIN rail for your HMISCU system is common with the functional ground plane and must be mounted on a conductive backplane A WARNING UNINTENDED EQUIPMENT OPERATION Connect the DIN rail to the functional ground FE of your installation Failure to follow these instructions can result in death serious injury or equipment damage Shielded Cables Connections Cables carrying the fast I O analog I O and fieldbus communication signals must be shielded The shielding must be securely connected to ground The fast I O and analog I O shields may be connected either to the functional ground FE or to the protective ground PE of your HMISCU logic controller The fieldbus communication cable shields must be connected to the protective ground PE with a connecting clamp secured to the conductive backplane of your installation 4 DANGER HAZARD OF ELECTRIC SHOCK e The grounding terminal connection PE must be used to provide a protective ground at
86. le until it locks into place Insert and push 84 100000001232 10 2014 HMISCU Installation Step Action 6 To remove the rear module push the yellow button to unlock it and then pull out the rear module Locked Unlocked Free NOTICE EQUIPMENT DAMAGE Be sure to remove the rear module from the display module without twisting Failure to follow these instructions can result in equipment damage 100000001232 10 2014 85 86 HMISCU Installation Mounting Positions Correct Mounting Position If the display module is mounted separately the rear module must be mounted vertically Vertical Mounting o EHHEEHHHI 0000000000 0000000000 O A 000000000000000000 0881 em Emme pur NOTE Keep adequate spacing for proper ventilation to maintain an ambient temperature between 0 50 32 122 F Incorrect Mounting Position The rear module should only be positioned as shown in the correct mounting position figure to help ensure adequate air flow through the product The figures show incorrect mounting positions 100000001232 10 2014 HMISCU Installation Mounting Clearances Spacing A WARNING UNINTENDED EQUIPMENT OPERATION e Place devices dissipating the most heat a
87. le with wiring as defined below RS 232C RS 485 HMISCU in COM1 1 2 Loopback not required for HMISCU COM1 190 100000001232 10 2014 Chapter 14 Maintenance Overview This chapter explains how to maintain your HMISCU units What Is in This Chapter This chapter contains the following topics Topic Page Regular Cleaning 192 Periodic Check Points 194 100000001232 10 2014 191 Regular Cleaning Cleaning the Display NOTICE EQUIPMENT DAMAGE e Power off the unit before cleaning it e Do not use hard or pointed objects to operate the touch panel since it can damage the panel surface e Do not use paint thinner organic solvents or a strong acid compound to clean the unit Failure to follow these instructions can result in equipment damage When the surface or the frame of the display gets dirty soak a soft cloth in water with a neutral detergent wring the cloth tightly and wipe the display 192 100000001232 10 2014 Chemical Substances The products in the table can be used when cleaning the unit Kinds of Fluid Company Product Designation Concentration Temperature C F pH Value Cleaning agents Ecolab Topmaxx 422 5 40 104 1 pH 13 inthe food and Ecolab P3 Topax M 95 5 40 104 1
88. losure appropriately rated for its intended environment e Use the sensor and actuator power supplies only for supplying power to the sensors or actuators connected to the module e Power line and output circuits must be wired and fused in compliance with local and national regulatory requirements for the rated current and voltage of the particular equipment e Do not use this equipment in safety critical machine functions Do not disassemble repair or modify this equipment e Do not connect any wiring to unused connections or to connections designated as No Connection N C Failure to follow these instructions can result in death serious injury or equipment damage NOTE Coordination of safeties and mechanical electrical interlocks for point of operation protection is outside the scope of this document and are not included in any wiring diagrams installation examples application examples programming examples or other representations that may be included in this and other related documents Start Up and Test Before using electrical control and automation equipment for regular operation after installation the system should be given by a start up test qualified personnel to verify correct operation of the equipment It is important that the arrangements for such a check be made and that enough time is allowed to perform complete and satisfactory testing CAUTION EQUIPMENT OPERATION HAZARD e Verify that al
89. lt in death serious injury or equipment damage 100000001232 10 2014 43 HMISCU System General Implementation Rules Grounding the System Overview To minimize the effects of electromagnetic interference cables carrying the fast Input Output analog Input Output and Serial communication signals must be shielded WARNING UNINTENDED EQUIPMENT OPERATION e Use shielded cables for all fast I O analog I O and communication signals e Ground cable shields for all fast I O analog I O and communication signals at a single point e Route communications and I O cables separately from power cables Failure to follow these instructions can result in death serious injury or equipment damage Multipoint grounding is permissible if connections are made to an equipotential ground plane dimensioned to help avoid cable shield damage in the event of power system short circuit currents The use of shielded cables requires compliance with the following wiring rules e For protective ground PE connections metal conduit or ducting can be used for part of the shielding length provided there is no break in the continuity of the ground connections For functional ground FE the shielding is intended to attenuate electromagnetic interference and the shielding must be continuous for the length of the cable If the purpose is both functional and protective as is often the case for communication cables the cab
90. mber of datum stored in the SRAM is user defined This data from SRAM can also be optionally backed up in removable media when a user defined number of new data points is logged and or can also be triggered by an action Clock Variations in operating conditions i e varying ambient temperature can cause a clock shift Refer to the topic Real Time Clock see page 52 for details Touch Panel The table shows the touch panel specifications of HMISCU Items Specification Type Analog resistive film type Metal Tab Gold plated Lifetime 1 million touches or more 100000001232 10 2014 169 170 100000001232 10 2014 Part IV Settings Overview This part describes the settings available on the target machine as well as how to debug the unit What Is in This Part This part contains the following chapters Chapter Chapter Name Page 11 Connecting the HMISCU to a PC 173 12 Configuring the HMISCU 177 13 Troubleshooting 187 14 Maintenance 191 100000001232 10 2014 171 172 100000001232 10 2014 Chapter 11 Connecting the HMISCU to a PC Connecting the Controller to a PC Overview To transfer run and monitor applications using either a USB cable or an Ethernet connection connect the controller to a computer that has minimum version on SoMachine and Vijeo Designer 6 1 SP3 add on installed NOTICE INOPERABLE EQUIPMENT Alw
91. movable NOTE Refer to Protecting Outputs from Inductive Load Damage see page 38 for additional information on this topic PTO PWM Output Characteristics WARNING UNINTENDED EQUIPMENT OPERATION Do not exceed any ofthe rated values specified in the environmental and electrical characteristics tables Failure to follow these instructions can result in death serious injury or equipment damage 160 100000001232 10 2014 The table describes the characteristics of the PTO PWM outputs port and protective ground PE 500 Vdc Characteristic Value Output type Push Pull Rated voltage 24 Vdc PTO power supply input range 19 2 28 8 Vdc PTO power supply reverse protection Yes PTO PWM output current Standard output Fast output 50 mA Response time for original input 2ms Isolation resistance Between fast outputs 10 MO and internal logic Between power supply 10 MO Residual voltage 0 lt 1 5 Minimum load impedance 800 Maximum PTO output frequency 50 KHz Maximum PWM output frequency 65 kHz Accuracy PWM mode Frequency Duty Duty when error gt 1 10 100 Hz 0 100 lt 0 1 amp gt 99 9 101 1000 Hz 1 99 lt 1 amp gt 99 1 001 20 kHz 5 95 lt 5 amp gt 95 20 001 45 kHz 10 90 lt 10 amp gt 90 45 001 65 kHz 15 85 lt 15 amp
92. must be followed when wiring the HMISCU system Wiring Guidelines DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR FLASH e Disconnect all power from all equipment including connected devices prior to removing any covers or doors or installing or removing any accessories hardware cables or wires except under the specific conditions specified in the appropriate hardware guide for this equipment e Alwaysuse a properly rated voltage sensing device to confirm the power is off where and when indicated e Replace and secure all covers accessories hardware cables and wires and confirm that a proper ground connection exists before applying power to the unit e Use only the specified voltage when operating this equipment and any associated products Failure to follow these instructions will result in death or serious injury The following rules must be applied when wiring a HMISCU system e O and communication wiring must be kept separate from the power wiring Route these 2 types of wiring in separate cable ducting Verify that the operating conditions and environment are within specification Use proper wire sizes to meet voltage and current requirements Use copper conductors highly recommended Use twisted pair shielded cables for analog and or fast I O Use twisted pair shielded cables for networks and fieldbus For the power connector refer to DC power supply wiring diagram see page 95 To help pr
93. n the Setting menu touch the Offline tab 2 Touch the Network button and the following message appears Working with Offline Settings will stop the user application and run time Continue Touch the OK to restart the system or the Cancel button to return to the System menu In the Static IP tab touch any of IP Address Subnet Mask or Default Gateway fields and in the numerical keypad enter the desired parameters and validate by touching Enter button In the DHCP tab touch the Enable DHCP check box to obtain configuration information from the network This reduces system administration workload allowing devices to be added to the network with little or no manual intervention In the MAC DNS tab Touch Obtain DNS Setting check box to translate names into IP addresses Touch any of IP Address fields and in the numerical keypad enter the desired IP address and validate by touching Enter button In Static IP tab touch Ok to validate Changing the Buzzer Settings Step Action 1 In the Setting menu touch the Offline tab 2 Touch the Buzzer button and the following message appears Working with Offline Settings will stop the user application and run time Continue Touch the OK to restart the system or the Cancel button to return to the System menu Touch the desired buzzer mode The factory setting is When Press Touch Object None Selecting this turns the buz
94. nction to start or stop a program using an input e When the configured Run Stop input is at logic 0 the controller is put into a Stop state and any outside command to enter the Run state is ignored e Arising edge passing from 0 to 1 of the Run Stop input starts the application as the controller enters the Run state e Run Stop commands to SoMachine may also be issued from the HMI via touch switches on a panel Refer to Commanding State Transitions see Magelis SCU HMI Controller Programming Guide e Vijeo Designer has an Controller Lockout feature for added safety which will help prevent Run when active this has priority over all methods of RUN Refer to Controller Lockout feature see Magelis SCU HMI Controller Programming Guide e When the configured Run Stop input is at logic 1 then the controller program is running unless otherwise commanded by SoMachine Run Stop commands from SoMachine are allowed WARNING UNINTENDED MACHINE OR PROCESS START UP e Verify the state of security of your machine or process environment before applying power to the Run Stop input e Use the Run Stop input to help prevent the unintentional start up from a remote location Failure to follow these instructions can result in death serious injury or equipment damage For more information refer to Embedded I O configuration see Magelis SCU HMI Controller Programming Guide 56 100000001232 10 2014 HMISCU Descript
95. net hub or switch Status LEDs The table describes the Ethernet status LEDs operation Label Description LED Color Status Description IND1 Ethernet status Green Off No connection or subsequent transmission failure On Data transmission is available IND2 Ethernet activity Green Off No data transmission On Data transmission is occurring 100000001232 10 2014 145 Communication Interface CANopen Master Unit CANopen Capabilities The table describes the HMISCU CANopen master features Maximum number of slaves on the bus 16 CANopen slave devices Maximum length of CANopen fieldbus cables According to the CAN specification see Cable Length and Transmission Speed Maximum number of PDOs managed by the master 32 TPDOs 32 RPDOs For each additional CANopen slave e The application size increases by an average of 10 kbytes which can result in a memory size overload e The configuration initialization time at the startup increases which can lead to a watchdog condition Although HMISCU does not restrict you from doing so you should not exceed 16 CANopen slave modules and or 32 TPDOs and 32 RPDOS for sufficient performance tolerance and to avoid performance degradation WARNING UNINTENDED EQUIPMENT OPERATION Do not connect more than 16 CANopen slave devices to the controller Failure to follow these instructions can result in death serious
96. njury Input Management Functions Availability The table describes the possible usage of the rear module inputs Input Function HSC PTO PWM Function None Run Stop Latch Event Filter Type Integrator Integrator Bounce Bounce HSC PTO PWM Fast FIO x x x x A _ _ Input FH X x x X B EN Regular DIO X X SYNC Input pg x x 2 E 012 x x _ _ _ AUX Drive Ready EN DI3 x x _ _ _ _ SYNC 014 x x _ _ _ _ EN DI5 x x _ _ _ _ SYNC X Yes No 1 Can also be used a regular input NOTE You can use filters and functions to manage the HMI controller inputs see Magelis SCU HMI Controller Programming Guide EIO0000001232 10 2014 127 HMISCU B5 type DIO and AIO Wiring Diagram The figure describes the wiring diagram of the HMISCU6B5 HMISCU8B5 and HMISBC digital inputs HSC inputs Digital inputs 113444 Fw re s Pe Tos oe D3 C3 C4 05 04 C5 06 C6 07 C7 NOTE The digital inputs are sink type positive logical A WARNING UNINTENDED EQUIPMENT OPERATION Do not connect wires to unused terminals and or terminals indicated as Connection Failure to follow these instructions can result in death serious injury or equipment damage WARNING UNINTENDED EQUIPMENT OPERATION Use the sen
97. nnecting the Power Supply 100 100000001232 10 2014 93 HMISCU Installation Power Supply Characteristics and Wiring Overview This section provides the wiring diagrams and the characteristics of the DC power supply Power Supply Voltage Range If the specified voltage range is not maintained outputs may not switch as expected Use appropriate safety interlocks and voltage monitoring circuits A DANGER FIRE HAZARD Use only the recommended wire sizes for the current capacity of the power supplies Failure to follow these instructions will result in death or serious injury A WARNING UNINTENDED EQUIPMENT OPERATION Do not exceed any of the rated values specified in the environmental and electrical characteristics tables Failure to follow these instructions can result in death serious injury or equipment damage DC Power Supply Characteristics Reference Specification Voltage rated 24 Vdc range 20 4 28 8 Vdc Power interruption time 10 ms at 20 4 Vdc Maximum inrush current 30 A at 25 77 F and at 28 8 Continuous output with display HMISCU6A5 and HMISCU8A5 HMISCU6B5 and HMISCU8B5 power 12 6 W 12 6 W without display HMISAC 11 W HMISBC 11 W Insulation resistance 500 10 more Isolation between DC power supply and 500 Vdc for 1 minute internal logic I O and protective ground PE Power supply reverse protect
98. nnection to a PC BMXXCAUSBH018 USB Mini B 1 8m 5 9 ft TCSXCNAMUM3P 3m 9 8 ft USB Mini B To connect the USB cable to your controller do the following Step Action 1 Ifmaking along term connection using a USB cable with a ground shield connection securely connect the shield connector to the functional ground FE or protective ground PE of your System before connecting the cable to your controller and your PC b If making short term connection using a non grounded USB cable proceed to step 2 Connect the USB cable connector to the PC Connect the mini connector of the USB cable to the controller USB connector 174 100000001232 10 2014 Connecting the HMISCU to a PC Ethernet Port Connection You can also connect the controller to a PC using an Ethernet cable The figure shows the Ethernet connection to a PC VW3A8306Ree RJ45 ROS 0 3 m 0 98 ff R10 17 1 3 28 ft R30 I 3 m 9 84 ft To connect the controller to the PC do the following Step Action 1 Connect your Ethernet cable to the PC 2 Connect your Ethernet cable to the Ethernet port on the controller 100000001232 10 2014 175 Connecting the HMISCU to a PC 176 100000001232 10 2014 Chapter 12 Configuring the HMISCU Overview This chapter presents the settings on the HMISCU What
99. nse is slow does it happen on a specific panel If the panel displays the values of a large number of equipment variables you may want to redesign the panel and separate the variables into different panels and download again If touch response is slow the HMI controller may be very busy communicating with external equipment Toresolve this detected problem try each of the following in the Vijeo Designer editor and download again If you are using serial communication verify the communication speed between the HMI and equipment is optimized e Inthe equipment or scan group properties reduce the Scan Rate to Slow This will reduce the frequency of variable updates to 1000 ms If you use many equipment variables in application Scripts you may want to change the script to a panel script so that the variables are active only when the information is necessary If none of the above works then you may have to reduce the number of external variables in the project If none of the proposed options work contact your Schneider Electric support for optimizing your project HMI beeps when powered ON A continuous beep from the HMI means that system files are corrupted To resolve this detected problem go to the Vijeo Designer Start menu and run Recovery on the HMI machine 100000001232 10 2014 189 Self Test List Introduction The HMISCU units are equipped with a number of diagnostic featu
100. oad Varistor COM e In applications where the inductive load is switched on and off frequently and or rapidly ensure that the continuous energy rating J of the varistor exceeds the peak load energy by 20 or more 100000001232 10 2014 41 HMISCU System General Implementation Rules Wiring to the DIO Terminal Block Introduction Wiring Rules and Recommendations see page 37 CAUTION EQUIPMENT DAMAGE Be sure to remove the terminal blocks from the equipment prior to wiring Failure to follow these instructions can result in injury or equipment damage Screwdriver Required to Wire Terminal Blocks Recommended type 1891348 1 Tyco Electronics AMP If another manufacturer is used be sure the part has the following dimensions e point depth 1 5 mm 0 06 in e point height 2 4 mm 0 09 in Point shape must be DIN5264A and meet standard DN EN60900 Also the screwdriver tip must be flat as indicated to access the narrow hole of the terminal block X The terminal blocks are a spring clamp type Procedure Terminal block NI DL Screwdriver 9 A 2 42 EIO0000001232 10 2014 HMISCU System General Implementation Rules Use the following procedure to connect the wires to the terminal blocks Step Action 1 Insert the screwdriver into the square shaped hole This will open the wire s round shaped hole 2 Hold the
101. of the DIN Rail You can mount the controller and its expansion parts on a DIN rail A DIN rail can be attached to a smooth mounting surface or suspended from a EIA rack or a NEMA cabinet The DIN rail measures 35 mm 1 38 in high and 15 mm 0 59 in deep as shown below 15 mm 0 59 in gt m 35 mm 1 38 in Recommended Equipment Catalog Reference Number Rail Depth 10 200 15 mm 0 59 in 89 100000001232 10 2014 HMISCU Installation Installing and Removing the Rear Module on a DIN Rail Overview This section describes how to install and remove the rear module on a DIN rail NOTE The HMISCU should always have the display module and controller module connected for an application to function properly If the rear module is powered without it being directly connected or connected with a separation cable to the display module the PLC Logic goes into the STOP mode with in a fallback mode A WARNING EXPLOSION HAZARD e Do not connect or disconnect while circuit is live e Potential electrostatic charging hazard wipe the front panel of the terminal with a damp cloth before turning ON Failure to follow these instructions can result in death serious injury or equipment damage Installing the Rear Module on a DIN Rail The following procedure describes how to install the rear module on a DIN rail Step Action 1 Using screws to fasten the
102. ons and factors present during the setup operation and maintenance of the machine therefore only the user can determine the automation equipment and the related safeties and interlocks that can be properly used When selecting automation and control equipment and related software for a particular application the user should refer to the applicable local and national standards and regulations In some applications additional operator protection such as point of operation guarding must be provided This is necessary if the operator s hands and other parts of the body are free to enter pinch points or other hazardous areas and serious injury can occur The HMISCU controller and related software products alone cannot protect an operator from injury For this reason this equipment cannot be substituted for or take the place of point of operation protection Ensure that appropriate safeties and mechanical electrical interlocks related to point of operation protection have been installed and are operational before placing the equipment into service All interlocks and safeties related to point of operation protection must be coordinated with the related automation equipment and software programming 30 100000001232 10 2014 HMISCU System General Implementation Rules A WARNING UNINTENDED EQUIPMENT OPERATION e Use appropriate safety interlocks where personnel and or equipment hazards exist e Install and operate this equipment in an enc
103. or a length of 15 mm 0 59 in 100000001232 10 2014 47 HMISCU System General Implementation Rules Exclusive Grounding Step Description 2 Attach the cable to the conductive backplane plate 1 by attaching the grounding clamp 2 to the stripped part of the shielding as close as possible to the HMISCU rear module M A NOTE The shielding must be clamped securely to the conductive backplane to ensure a good contact Connect the frame ground FG terminal on the power plug to an exclusive ground Unit Other Equipment T T 48 EIO0000001232 10 2014 HMISCU System General Implementation Rules Grounding Procedure Step Action 1 Check that the grounding resistance is less than 100 Q 2 Create the connection point as close to the unit as possible and make the wire as short as possible When using a long grounding wire replace the thin wire with a thicker wire and place itin a duct Common Grounding Precautions Electromagnetic interference EMI can be created if the devices are improperly grounded Electromagnetic interference EMI can cause loss of communication Do not use common grounding except for the authorized configuration described below If exclusive grounding is not possible use a common connection point Correct g
104. or should be accessible to the operator Access to other controls should be restricted to help prevent unauthorized changes in operating characteristics or machine behavior Restrict access to such adjustments only to qualified personnel familiar with the machinery in use and familiar with the instructions of equipment manufacturers for all of the electrical equipment employed Use the instructions from the manufacturers as a guide for functional electrical or other like adjustments 32 100000001232 10 2014 HMISCU System General Implementation Rules Installation Requirements Before Starting Read and understand this chapter before beginning the installation of your HMISCU Disconnecting Power All options and modules should be assembled and installed before installing the control system on a mounting rail onto a mounting plate or in a panel Remove the control system from its mounting rail mounting plate or panel before disassembling the equipment DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR FLASH e Disconnect all power from all equipment including connected devices prior to removing any covers or doors or installing or removing any accessories hardware cables or wires except under the specific conditions specified in the appropriate hardware guide for this equipment e Alwaysuse a properly rated voltage sensing device to confirm the power is off where and when indicated e Replace and secure all cover
105. ouch the up down arrows to select the desired month and touch the right field to display the keypad to define the desired day to subtract time In touch any of the fields to display the keypad and define the hour to subtract time Daylight Saving Time Setting by Rule If Rule is selected in step 7 of Changing the Date Time see page 179 follow this procedure to set the daylight saving time parameters Step Action 1 Follow the procedure of Changing the Date Time see page 179 until step 9 2 In Add Time touch the up down arrows to select the desired day and the desired month to add time In touch any of the fields to display the keypad and define the hour to add time 3 In Subtract Time touch the up down arrows to select the desired day and the desired month to subtract time In touch any of the fields to display the keypad and define the hour to subtract time Forcing a Restart Step Action 1 In the Setting menu touch the System tab 2 Touch the Restart button the following message appears Are you sure you want to restart the operating system 3 Touch the Restart button to restart the unit or the Cancel button to return to the System menu Selecting a Language The following table describes how to select the language used for the Settings menu the run time messages and user application Step Action 1 In the Setting menu touch the Sy
106. pment damage 100000001232 10 2014 135 HMISCU B5 type DIO and AIO 136 100000001232 10 2014 Chapter 8 Display Modules HMI Overview Introduction The HMISCU is a Human Machine Interface product that has an operating voltage of 24 Vdc The table describes the HMISCU characteristics Part Number Screen Size Screen Pixel Color Screen Resolution Definition Technology HMISCU6A5 8 9 3 5 320 x 240 65 colors and Thin Film HMISCU6B5 QVGA LED backlight transistor technology HMIS65 TFT HMISCU8A5 14 48 cm 57 in HMIS85 Critical Systems Detected Alarms and Handling Requirements Critical detected alarm indicators and system functions require independent and redundant protection hardware and or mechanical interlocks If the unit for any reason becomes inoperative for example an inoperative backlight it may be difficult or impossible to identify operation Operations that may present a hazard if not immediately executed such as emergency stop must be provided independently of the unit The design of the control system must take into account an inoperative unit backlight and the operator may be is unable to control the machine or respond to detected errors with the unit When the power is cycled wait at least 10 seconds before restoring the power to the HMI unit Switching the power OFF and ON quickly can damage t
107. power wires Do not use aluminum wires for the power cord for power supply If the conductor end individual wires are not twisted correctly the end wires may either short loop to each other or against an electrode To avoid this use D25CE AZ5CE cable ends Use wires that are 0 75 to 2 5 mm 18 to 12 AWG for the power cord and twist the wire ends before attaching the terminals The conductor type is solid or stranded wire To reduce electromagnetic noise make the power cord as short as possible Power Plug Insert i Rm Dis lon FG P Zo irection Zo Connection Wire 24 Vdc 0 Vdc FG Grounded terminal connected to the unit chassis 100000001232 10 2014 97 HMISCU Installation Connecting the Power Cord The table explains how to connect the power plug Step Action 1 Remove the power cord from the power supply 2 Remove the power plug from the unit 3 Remove 7 mm 0 28 in of the vinyl cover of each of the power cord wires mm in 7 0 28 4 If using stranded wire twist the ends Tinning the ends with solder reduces the risk of fraying and enhances electrical transfer 5 Connect the wires to the power plug by using a flat blade screwdriver size 0 6 x 3 5 mm 0 02 x 0 14 in Torque the mounting screws 0 5 0 6 4 4 5 2 Ib in Replace the power plug to the power connector NOTE e Do not solder the wire directly to t
108. r power supply only for supplying power to sensors or actuators connected to the module Failure to follow these instructions can result in death serious injury or equipment damage 100000001232 10 2014 119 HMISCU A5 type DIO Digital Outputs Overview The rear module is equipped with 8 relay outputs and 2 transistor outputs that you can manage see page 57 4A DANGER FIRE HAZARD Use only the recommended wire sizes for the current capacity of the power supplies Failure to follow these instructions will result in death or serious injury Output Management Functions Availability The table describes the possible usage of the rear module outputs Output Function Function None RUN STOP Latch Event PWM PTO HSC Filter Type Integrator Bounce Fast FQO X X X Output FQ1 x x X Digital DQO X Output Dat X m H DQ2 X _ _ DQ3 x _ _ DQ4 x _ _ DQ5 x _ _ DQ6 x _ _ DQ7 x _ _ X Yes No 1 Can also be used as a regular output 120 100000001232 10 2014 HMISCU A5 type DIO Fast Output Wiring Diagram For additional information about fast output protection refer to Protecting Outputs from Inductive Load Damage see page 36 A WARNING UNINTENDED EQUIPMENT OPERATION Wire the outputs correctly according to the wiring diagram Failure to follow these instructions can result in death serious injury or equipment
109. r use with this equipment e Update your application program every time you change the physical hardware configuration Failure to follow these instructions can result in death serious injury or equipment damage 12 100000001232 10 2014 Part HMISCU System Overview This part describes how to use HMISCU system What Is in This Part This part contains the following chapters Chapter Chapter Name Page 1 HMISCU General Overview 15 2 HMISCU System General Implementation Rules 29 3 HMISCU Description 51 4 Device Connectivity 61 5 HMISCU Installation 67 100000001232 10 2014 13 HMISCU 14 100000001232 10 2014 Chapter 1 HMISCU General Overview Overview This chapter provides general information about the HMISCU system architecture and its components What Is in This Chapter This chapter contains the following topics Topic Page Package Contents 16 Parts Identification and Functions 19 System Architecture 22 Certifications and Standards 24 Devices Overview 26 100000001232 10 2014 15 HMISCU General Overview Package Contents HMISCU Package Contents Verify that all items shown in the figure are present in your package 1 2 3 4 o EERE 00000000006 0000000000 For lt 000000000000000000 i zs 5 6 7 8 Display module Rear module Display installat
110. re to follow these instructions will result in death or serious injury Avoid temperature changes on the thermocouple s connection terminal Temperature measurements may not be accurate due to temperature changes in the cold junction NOTE When installing the terminal blocks to the rear module please keep the display module unmounted NOTE To help prevent a terminal block from being inserted incorrectly clearly and uniquely code and label each terminal block and rear module 38 100000001232 10 2014 HMISCU System General Implementation Rules The figure shows the labels on each terminal block NOTE Terminal blocks A B C and D can only use the respective connectors A B C and D Protecting Outputs from Inductive Load Damage Depending on the load a protection circuit may be needed for the outputs on the controllers and certain modules Inductive loads using DC voltages may create voltage reflections resulting in overshoot that will damage or shorten the life of output devices CAUTION OUTPUT CIRCUIT DAMAGE DUE TO INDUCTIVE LOADS Use an appropriate external protective circuit or device to reduce the risk of inductive direct current load damage Failure to follow these instructions can result in injury or equipment damage If your controller or module contains relay outputs these type
111. res Mounting Positions Mounting Clearances DIN rua sr bar Ra unia and Installation Installing and Removing the Rear Module on a DIN Rail 100000001232 10 2014 5 2 Electrical Requirements 93 Power Supply Characteristics and Wiring 94 Connecting the Power 97 Connecting the Power Supply 100 53 USB POI tuns usus u az raat so aed pU 102 USB Data Transfer Cable USB Driver Installation 103 USB Type A ccc cee e mere y ER Rx prd dort 105 USB minizB ROEDCISGS EE IEEE EE 108 Part 1 HMISCU Controller and Display Modules 111 Chapter 6 HMISCU A5 type DIO 113 Presentation oss crx DIA eh oe dee ae ua s ao subo sane 114 Digital Inp ts 2 Rehab u as pu tace Ri 117 Digital Outputs epe pred recs p RS RO qhaq Ron Ree das 120 Chapter 7 HMISCU B5 type DIO and AIO 123 Presentation oes dr tr ved wanton FE Merde PERSE Rue 124 Digital Inputs I II 127 Digital Outputs J coil o ol rc er 8 9 bees 129 Analog Inputs and Analog Outputs 132 Chapter 8 Display 137 HMI OvervieW 13
112. res that can be used to check the systems and the interfaces for any detected errors Self Test From the Settings menu touch the Offline button and then the Self Test icon Self Test menu appears See the Vijeo Designer online help for information on accessing the Offline tab Self Tests The following tests can be accessed from the Self Test menu Test Description Char Pattern Checks the characters in each font set available on the unit Use this test when characters usually double byte characters do not display properly OK appears if there is no detected error NG appears if there is a detected error Disp Pattern Use this test when your drawings are not displayed properly Touch Panel Tests the touch panel cells Each cell highlights when it is pressed during the test COM 1 Checks if the serial port RS 232C and RS 485 is working properly To run the check you may need to connect a loopback cable see below OK appears if there is no detected error a detected error message appears if there is an error Video Memory Use this test to check the video memory memory used for screen display Run this test when the screen does not display properly OK appears if there is no detected error NG appears if there is a detected error Wiring for COM 1 tests When testing the serial port depending on which port and which communication format you are testing you may need to attach a loopback cab
113. ries hardware cables or wires except under the specific conditions specified in the appropriate hardware guide for this equipment e Alwaysuse a properly rated voltage sensing device to confirm the power is off where and when indicated e Replace and secure all covers accessories hardware cables and wires and confirm that a proper ground connection exists before applying power to the unit e Use only the specified voltage when operating this equipment and any associated products Failure to follow these instructions will result in death or serious injury 116 100000001232 10 2014 HMISCU A5 type DIO Digital Inputs Overview The rear module is equipped with 16 digital inputs 4 DANGER FIRE HAZARD Use only the recommended wire sizes for the current capacity of the power supplies Failure to follow these instructions will result in death or serious injury Input Management Functions Availability The table describes the possible usage of the rear module inputs Function Input Function HSC PTO PWM Function None Run Stop Latch Event Filter Type Integrator Integrator Bounce Bounce HSC PTO PWM Fast FIO X X X X A _ Input FH x x x x B EN Regular DIO X X SYNC Input x x E DI2 x x AUX Drive Ready EN DI3 X X _ _ _ _ SYNC 014 X X _ _ _ _ EN DI5 x x _ _ _ _ SYNC DI6 x
114. roduct you need 20 mm 0 78 in more space to bend the cable in the end of the rubber 100000001232 10 2014 75 HMISCU Installation Panel Cut Out Dimensions and Installation Inserting a Display Module Without an Anti Rotation Tee Create a panel cut out and insert the display module into the panel from the front The figure shows the panel cut out UN _ A QU Cut out dimensions for mounting on a flat surface A B 1 B 2 22 500 0 30 mm 1 5 6 mm 3 6 mm 0 880 0 01 in 0 06 0 23 in 0 11 0 23 in 1 Steel sheet 2 Glass fiber reinforced plastics minimum GF30 NOTE Without the tee option the display module supports a rotating torque of 2 5 22 12 Ib in 100000001232 10 2014 HMISCU Installation Inserting a Display Module With an Anti Rotation Tee Create a panel cut out and insert the display module into the panel from the front The figure shows the panel cut out for a HMISCU Controller using a tee Cut out dimensions for mounting on a flat surface D 300 0 20 mm 40 0 20 mm 1 180 0 0007 in 0 1 50 0 007 in NOTE With the tee option the display module supports a rotating torque of 6 53 10 Ib in 100000001232 10 2014 77 HMISCU Installation Installing the HMISCU Display The figure shows the assembly 1 Display module 2 Panel 3 Display installation nut 4 Anti rotation tee
115. rounding Other Equipment Other Equipment 100000001232 10 2014 49 HMISCU System General Implementation Rules 50 100000001232 10 2014 Chapter 3 HMISCU Description Overview This chapter describes the HMISCU features What Is in This Chapter This chapter contains the following sections Section Topic Page 3 1 Rear Module Features 52 3 2 Management 53 100000001232 10 2014 51 HMISCU Description Section 3 1 Rear Module Features Real Time Clock RTC Overview The HMISCU controllers include an RTC to provide system date and time information and to support related functions requiring a real time clock Variations in operating conditions can cause a clock shift Ambient Temperature Accuracy 0 32 F 1 2 5 minutes 25 C 77 F 2 5 2 5 minutes 50 C 122 F 5 5 2 5 minutes RTC Battery The controller has one RTC battery In the event of a power interruption the backup battery retains the time and date for the controller The table describes the characteristics of the RTC battery Use In the event of a transient power outage the battery powers the RTC Duration of backup At least 60 days at 25 C max 77 F At higher temperatures the duration of backup is reduced Battery monitoring features Yes NOTE This battery is not replaceable
116. rt circuit at O V on group 3 group 3 automatically goes into thermal protection mode all fast PWM outputs set to 0 and PTO outputs run an immediate stop and then periodically rearmed every 10 seconds to test the connection state see warning below you have a short circuit at 24 V on group 3 group 3 automatically goes into protection mode and is then periodically rearmed every 200 microseconds to test the connection state NOTE The information in the table does not apply to relay outputs For more information on protecting outputs refer to your controller wiring diagram and to the general wiring rules see page 37 NOTE The short circuit diagnostic for each category is provided by the function GetshortcutStatus see Magelis SCU HMI Controller PLCSystem Library Guide 58 100000001232 10 2014 HMISCU Description The regular outputs of this equipment do not have built in reverse polarity protection Incorrectly connecting polarity can permanently damage the output circuits or otherwise result in unintended operation of the equipment NOTICE DAMAGE TO FAST OUTPUTS e Ensure the use of adequate protection against short circuits on the power supply to the fast outputs e Do not connect positive voltage to any of the DC fast output terminals e Comply with the wiring diagrams immediately that follow this message Failure to follow these instructions can result in equipment damage E
117. ry CAUTION CAUTION indicates a hazardous situation which if not avoided could result in minor or moderate injury NOTICE NOTICE is used to address practices not related to physical injury 100000001232 10 2014 7 PLEASE NOTE Electrical equipment should be installed operated serviced and maintained only by qualified personnel No responsibility is assumed by Schneider Electric for any consequences arising out of the use of this material A qualified person is one who has skills and knowledge related to the construction and operation of electrical equipment and its installation and has received safety training to recognize and avoid the hazards involved 8 100000001232 10 2014 About the Book At a Glance Document Scope The purpose of this document is to e Show you how to install and operate your HMI controller e Show you how to connect the HMI controller to a programming device equipped with SoMachine software e Help you understand how to interface the HMI controller and other devices e Help you become familiar with the HMI controller features Validity Note This document has been updated with the release of SoMachine V4 1 and Vijeo Designer V6 2 SP2 The technical characteristics of the devices described in this document also appear online To access this information online Step Action 1 Go to the Schneider Electric home page www schneider electr
118. ry Guide EIO0000001246 eng EIO0000001247 fre 100000001248 ger EIO0000001249 spa EIO0000001250 ita EIO0000001251 chs Magelis SCU HMI Controller HSC Library Guide EIO0000001512 eng EIO0000001513 fre EIO0000001514 ger EIO0000001515 spa EIO0000001516 ita EIO0000001517 chs Magelis SCU HMI Controller PTO PWM Library Guide EIO0000001518 eng EIO0000001519 fre EIO0000001520 ger EIO0000001521 spa EIO0000001522 EIO0000001523 chs Magelis SCU HMI Quick Reference Guide 51890406 Eng You can download these technical publications and other technical information from our website at www schneider electric com 10 100000001232 10 2014 Product Related Information DANGER HAZARD OF ELECTRIC SHOCK EXPLOSION OR FLASH e Disconnect all power from all equipment including connected devices prior to removing any covers or doors or installing or removing any accessories hardware cables or wires except under the specific conditions specified in the appropriate hardware guide for this equipment e Alwaysuse a properly rated voltage sensing device to confirm the power is off where and when indicated e Replace and secure all covers accessories hardware cables and wires and confirm that a proper ground connection exists before applying power to the unit e Use only the specified voltage when operating this equipment and any associated products F
119. s accessories hardware cables and wires and confirm that a proper ground connection exists before applying power to the unit e Use only the specified voltage when operating this equipment and any associated products Failure to follow these instructions will result in death or serious injury Programming Considerations A WARNING UNINTENDED EQUIPMENT OPERATION e Only use software approved by Schneider Electric for use with this equipment e Update your application program every time you change the physical hardware configuration Failure to follow these instructions can result in death serious injury or equipment damage 100000001232 10 2014 33 HMISCU System General Implementation Rules Operating Environment This equipment has been designed to operate outside of any hazardous location Only install this equipment in zones known to be free of a hazardous atmosphere 4 DANGER POTENTIAL FOR EXPLOSION Install and use this equipment in non hazardous locations only Failure to follow these instructions will result in death or serious injury A WARNING UNINTENDED EQUIPMENT OPERATION e Use appropriate safety interlocks where personnel and or equipment hazards exist e Install and operate this equipment in an enclosure appropriately rated for its intended environment e Use the sensor and actuator power supplies only for supplying power to the sensors or actuators connected to the mo
120. s of outputs can support up to 240 Vac Inductive damage to these types of outputs can result in welded contacts and loss of control Each inductive load must include a protection device such as a peak limiter RC circuit or flyback diode Capacitive loads are not supported by these relays 100000001232 10 2014 39 HMISCU System General Implementation Rules A WARNING RELAY OUTPUTS WELDED CLOSED e Always protect relay outputs from inductive alternating current load damage using an appropriate external protective circuit or device e Do not connect relay outputs to capacitive loads Failure to follow these instructions can result in death serious injury or equipment damage Protective circuit A this protection circuit can be used for DC load power circuits Output Q Inductive load C COM e C represents a value from 0 1 to 1 uF e R represents a resistor of approximately the same resistance value as the load Protective circuit B this protection circuit can be used for DC load power circuits Output Q COM Use a diode with the following ratings e Reverse withstand voltage power voltage of the load circuit x 10 e Forward current more than the load current 40 100000001232 10 2014 HMISCU System General Implementation Rules Protective circuit C this protection circuit can be used for DC load power circuits Output Q Inductive l
121. sor and actuator power supply only for supplying power to sensors or actuators connected to the module Failure to follow these instructions can result in death serious injury or equipment damage 128 100000001232 10 2014 HMISCU B5 type DIO and AIO Digital Outputs Overview The rear module is equipped with 6 relay outputs and 2 transistor outputs that you can manage see page 57 4 DANGER FIRE HAZARD Use only the recommended wire sizes for the current capacity of the power supplies Failure to follow these instructions will result in death or serious injury Output Management Functions Availability The table describes the possible usage of the rear module outputs uis Output Function None Run Stop Latch Event PWM PTO HSC Filter Type Integrator Bounce Fast FQO X X X Output FQ1 x x x Digital DQ0 x _ _ Output DQ1 X B DQ2 X _ _ DQ3 x _ _ DQ4 x _ _ DQ5 x _ _ X Yes No 1 Can also be used as a regular output 100000001232 10 2014 129 HMISCU B5 type DIO and AIO Fast Output Wiring Diagram For additional information about fast output protection refer to Protecting Outputs from Inductive Load Damage see page 36 A WARNING UNINTENDED EQUIPMENT OPERATION Wire the outputs correctly according to the wiring diagram Failure to follow these instructions can result in death serious injury or equipment damage
122. specifications of HMISCU Characteristic Specification Protection front panel IP65f IEC 60529 Protection structure Type 4X indoor installed on a panel Protection rear panel IP 20 IEC 60529 Cooling method Natural air circulation Weight HMISCUGAS 496 g 17 49 oz HMISCU8AS 749 g 29 42 oz HMISCU6B5 531 g 18 73 oz HMISCUS8B5 784 g 27 65 oz Color Front module PT404Rear module RAL 7032 Material HMISCU6A5 HMISCU8A5 front module PC PBT rear module PC PBT front module rear module PC PBT HMISCU6B5 front module PC PBT rear module PC PBT HMISCU8B5 front module PAA GF rear module PC PBT 154 100000001232 10 2014 Section 10 2 Functional Specifications Overview This section presents the HMISCU functional specifications of the display memory and I O What Is in This Section This section contains the following topics Topic Page Display 156 Digital Inputs 157 Digital Outputs 160 Analog Inputs and Analog Outputs 162 Internal Circuits 167 Memory and Touch Panel 169 100000001232 10 2014 155 Display Display Specifications The table shows the display specifications of the HMISCU Items HMISCU6A5 HMISCU8A5 HMISCU6B5 HMISCU8B5 HMIS65 HMIS85 Type Color TFT LCD Resolution pixels 320 x 240 QVGA
123. sted pair cable with a shield compliant with CANopen Standard CiA DR 303 1 100000001232 10 2014 149 Communication Interface Serial Link Port COM1 Introduction The serial link port is used to communicate with devices via RS 232 or RS 485 NOTE Vijeo Designer has many serial protocols supported as well that can be used independently of SoMachine if the COM1 port is not required for use within SoMachine This isolated serial port allows HMISCU controller component to communicate with 2 protocols SoMachine for link with SoMachine compliant device routing or variable access Modbus in order to meet the needs of master slave architectures with Schneider Electric or third party devices NOTE Under most circumstances you should avoid connecting multiple instances of SoMachine to the same controller via the serial line Ethernet and or the USB port simultaneously It is possible that conflicts could arise in actions taken by the various instances of SoMachine such as program configuration or data edits or control commands to the controller or its application For more information see the programming guide for your particular controller NOTE If the user chooses to use Vijeo Designer serial protocols they must delete any nodes Modbus SoMachineNetwork under COM1 node in their SoMachine Editor project Serial Port Connector The figure shows the location of the RJ45 serial port on the rear module
124. stem tab 2 Touch the Language button 180 100000001232 10 2014 HMISCU Step Action Touch the up down arrows to select the desired languages for System User Application Keyboard Language The languages available in the language settings are defined in theVijeo Designer editor Touch OK to validate Displaying Version Information Step Action 1 In the Setting menu touch the System tab 2 Touch the Ver Info button version information displays e Vijeo Designer Run time Version Vijeo Designer Version e Build number Displaying Memory Statistics Step Action 1 In the Setting menu touch the System tab 2 Touch the Memory button DRAM describes the amount of memory currently being used by the application e Main Flash indicates the amount of internal memory flash memory required to store the run time system files and the user application Brightness Control Step Action 1 In the Setting menu touch the System tab 2 Touch the Brightness button 3 Touch the up down arrows to adjust the brightness NOTE Reducing the brightness could increase the life span of the backlight 100000001232 10 2014 181 HMISCU Offline Settings Introduction You cannot change the offline settings while a user application is running Changing the Network Settings Step Action 1 I
125. subishi PLC FX series CPU XBTZ9743 Connects COM1 to Omron PLC Sysmac Link series XBTZ9730 Connects COM1 with XBT Z adapter to Rockwell DF1 PLC XBTZ9731 XBTZ9732 Connects COM1 with XBT Z adapter to Rockwell DH485 PLC XBTZ9740 Connects COM1 with XBT Z adapter to Omron PLC Sysmac Link series 100000001232 10 2014 USB Interface Items Software Reference Name Reference Number Description USB extension cable XBTZGUSB Extends a USB Type A host interface on a cabinet with waterproofing HMIZSUBB Extends a USB mini B host interface on a cabinet with waterproofing USB conversion cable HMIZURS Converts a USB Type A host interface to RS 232 USB data transfer cable XBTZG935 Connects the panel to a personal computer for transferring screen data and user programs BMXXCAUSBH018 Connects the USB Mini B USB to a USB terminal port of aPC Reference Name Description Vijeo Designer Version 6 1 SP3 or later Software installed on a PC for creating HMI project data SoMachine Software used to create HMI project data It is installed on a personal computer Maintenance Options Reference Reference Number Description USB STD A holder HMIZSCPL2 Fastens onto a USB interface and prevents the USB cable from being disconnected USB mini B holder HMIZSCPL4 Fastens onto a USB interface and prevents the USB cable from being dis
126. t the top of the cabinet and ensure adequate ventilation e Avoid placing this equipment next to or above devices that might cause overheating e Install the equipment in a location providing the minimum clearances from all adjacent structures and equipment as directed in this document e Install all equipment in accordance with the specifications in the related documentation Failure to follow these instructions can result in death serious injury or equipment damage NOTE Keep adequate spacing for proper ventilation to maintain an ambient temperature between 0 50 32 122 F for vertical installation and 0 40 32 104 F for horizontal installation 100000001232 10 2014 87 HMISCU Installation Mounting and Keeping HMISCU Ventilated The rear module has been designed as an IP20 product and must be installed in an enclosure The clearances must be respected when installing the product e Between the rear module and all sides of the cabinet including the panel door e Between the rear module terminal blocks and the wiring ducts This distance reduces Electromagnetic Interference EMI between the controller and the wiring ducts e Between the rear module and other heat generating devices installed in the same cabinet The figure shows the minimum clearances for the HMISCU controller 88 100000001232 10 2014 HMISCU Installation DIN Rail Dimensions
127. these instructions can result in death serious injury or equipment damage Analog Features There are different terminal connection points for each type of analog signal Since current and voltage requires different adjustment values you also need to configure the desired type of input or output signal 10 10 voltage signal default 0 10 Vdc voltage signal 0 20 mA current signal e 4 20 mA current signal The temperature measurement values are converted into numeric values that can be processed by the controller For temperature measurements the temperature rear module returns the measured value in 0 1 0 18 F steps 132 100000001232 10 2014 HMISCU B5 type DIO and AIO The table shows the analog features Number and Digital Voltage Current Type of Converter Channels Resolution 2 inputs 12 bit sign 10 10 digital value 4096 to 4095 12 bit 0 10 digital value 0 to 8192 0 20 mA digital value 0 to 8192 4 20 mA digital value 0 to 8192 2 inputs 16 bit RTD Resistance Temperature Detector PT100 1000 NI100 1000 Thermocouple J K R B S N 2 outputs 12 bit 10 10 Vdc digital value 2048 to 2047 0 10 Vdc digital value 0 to 4095 0 20 mA digital value 0 to 4095 4 20 mA digital value 0 to 4095 EIO0000001232 10 2014 133 HMISCU B5 type DIO and AIO Wiring Diagram The figure describes
128. to avoid damage to the cable connector or the unit e Do not connect the USB data transfer cable until told to do so in the instructions e Insert the connector at the correct angle when connecting the USB data transfer cable to the PC or to the unit e Hold the connector not the cable itself when disconnecting the cable e Use the port designated during installation If the cable is unplugged from the port designated during installation and connected to a different port the Operating System OS will not recognize the new port e Restartthe PC and quit all resident applications before reinstalling the software if the installation does not complete successfully NOTE Vijeo Designer must be installed before installing the USB driver Installation Procedure Step Action 1 Insert the Vijeo Designer Installation CD ROM into your CD ROM drive The setup window for Vijeo Designer opens automatically If not at the Windows Start menu click Run and type x install exe where x is your CD ROM drive name In the install menu select USB Driver Select the driver you want to install from the window that appears For the USB cable select Install USB driver for 4 A popup window appears stating the installation of the driver was successful Connect the USB cable to the computer Windows automatically detects the cable and states that the device is ready to use Post Installation Check Perform the following check a
129. top the user application and run time Continue Touch the OK to restart the system or the Cancel button to return to the System menu In the Self Test control touch e Char Pattern to check the characters in each font set available on the unit Use this test when characters usually 2 byte characters do not display properly Ok appears if there is no detected error NG appears if there is a detected error Disp Pattern to test your LCD screen with some graphical test patterns Touch Panel to test the touch panel cells Each cell highlights when it is pressed during the test COM 1 totest the COM 1 port connector Ok appears if there is no detected error NG appears if an error is detected Video memory to test hardware memory 100000001232 10 2014 183 HMISCU Driver Configuration Step Action 1 In the Setting menu touch the Offline tab 2 Touch the IO Manager button and the following message appears Working with Offline Settings will stop the user application and run time Continue Touch the OK to restart the system or the Cancel button to return to the System menu In the IO Manager control touch the Driver Config button In the Driver Config control Select Driver touch the up down arrow to select the desired driver 6 Set the parameters of the selected driver Equipment Configuration Step Action 1 In the Setting men
130. u touch the Offline tab 2 Touch the IO Manager button and the following message appears Working with Offline Settings will stop the user application and run time Continue Touch the OK to restart the system or the Cancel button to return to the Setting menu In the IO Manager control touch the Equipment Config button In the Equipment Config control Select Equipment touch the up down arrow to select the desired equipment 6 Set the parameters of the selected equipment 184 100000001232 10 2014 HMISCU Diagnostics Settings Introduction The HMISCU units are equipped with a number of diagnostic features that can be used to check the systems and the interfaces for any problems Diagnostics See the Vijeo Designer online help for information on accessing the Diagnostics Settings menu Variables Use the Variable menu to check that the application is running correctly The following table describes how to get to the Variable menu Step Action 1 In the Settings menu touch the Diagnostics tab 2 Touch the Variable button 3 Select Equipment touch the up down arrow to select the equipment whose variables you want to test In the Variable menu touch the Go Offscan button the following message appears Warning Entering the Variable Test screen pauses communication with all equipment Continue Touch the OK button to restart the system or the Cancel
131. view Parts Identification and Functions HMISCU Parts Identification 0000000000 i J FE H HHHHH c C Cz Ez 000000000000000000 CAN ETHERNET lalfglolololololdlololololololololo NadO oL Description A Display module see page 137 B Rear module see page 111 USB type A port USB1 see page 102 D USB type mini B port USB2 E1 terminal block 1 see page 114 E2 terminal block 2 see page 114 F DC power supply connector see page 94 G Ethernet connector see page 144 100000001232 10 2014 19 HMISCU General Overview Part Description Serial link RS 232C 485 see page 150 CANopen connector Yellow button lock Rear Module Parts Identification 06000000006 0000000000 gp 090000000000000000 RES S ETHERNET o4 Part Description B Rear module see page 111 USB type A port USB1 see page 102 D USB type mini B
132. xample of incorrect wiring 1 2Afast blow fuse 2 Incorrect wiring WARNING UNINTENDED MACHINE START UP Inhibit the automatic rearming of outputs if this feature is an undesirable behavior for your machine or process Failure to follow these instructions can result in death serious injury or equipment damage 100000001232 10 2014 59 HMISCU Description Wiring Considerations NOTE The power supply of PTO PWM circuit runs before the system power runs otherwise the error of PTO PWM occurs A WARNING UNINTENDED EQUIPMENT OPERATION Wire the outputs correctly according to the wiring diagram Failure to follow these instructions can result in death serious injury or equipment damage If your controller or module contains relay outputs these types of outputs can support up to 240 Vac Inductive damage to these types of outputs can result in welded contacts and loss of control Each inductive load must include a protection device such as a peak limiter RC circuit or flyback diode Capacitive loads are not supported by these relays WARNING RELAY OUTPUTS WELDED CLOSED e Always protect relay outputs from inductive alternating current load damage using an appropriate external protective circuit or device e Do not connect relay outputs to capacitive loads Failure to follow these instructions can result in death serious injury or equipment damage 60
133. zer off e When Press Touch Object The buzzer only sounds when a Touch Object is pressed 182 100000001232 10 2014 HMISCU Changing Backlight Control Step Action 1 In the Setting menu touch the Offline tab 2 Touch the Backlight button and the following message appears Working with Offline Settings will stop the user application and run time Continue Touch the OK to restart the system or the Cancel button to return to the System menu In the Backlight control define the backlight operations e Wait To extend the life of the backlight you can set up the unit so that it turns off the backlight when the panel is inactive idle for the defined period of time Idle means the unit panel has not been pressed The factory setting for this item is off Enable Touch if Backlight Burned Out This setting defines whether the touch panel is enabled or disabled when a backlight burnout is detected When this feature is cleared and the backlight burns out touch inputs are ignored to help prevent operation detected errors The factory setting for this item is off To turn the Backlight off automatically after a specified period of time select the Wait check box and then set the idle time Self Test Step Action 1 In the Setting menu touch the Offline tab 2 Touch the Self Test button and the following message appears Working with Offline Settings will s
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