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Shinko QMC1-MT Instruction Manual

Communication expansion module
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Communication Expansion Module
QMC1-MT
INSTRUCTION MANUAL

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Summary of Contents for Shinko QMC1-MT

  • Page 1 Communication Expansion Module QMC1-MT INSTRUCTION MANUAL...
  • Page 3 • Any unauthorized transfer or copying of this document, in part or in whole, is prohibited. • Shinko Technos Co., Ltd. is not liable for any damage or secondary damage(s) incurred as a result of using this product, including any indirect damage.
  • Page 4 Warning on Model Label Caution Failure to handle this instrument properly may result in minor or moderate injury or property damage due to fire, malfunction, malfunction, or electric shock. Please read this manual before using the product to ensure that you fully understand the product. Caution with Respect to Export Trade Control Ordinance To avoid this instrument from being used as a component in, or as being utilized in the manufacture of weapons of mass destruction (i.e.
  • Page 5 3. Operation and Maintenance Precautions Caution • Do not touch live terminals. This may cause electrical shock or problems in operation. • Turn the power supply to the instrument OFF when retightening the terminal or cleaning. Working on or touching the terminal with the power switched ON may result in severe injury or death due to electrical shock.

  • Page 6: Table Of Contents

    Model ..........................2-1 How to Read the Model Label ..................2-1 3 Name and Functions ............... 3-1 4 Procedure Before Starting Operation ..........4-1 5 Setting of QMC1-MT IP Address ............. 5-1 6 Setting of Specification..............6-1 Preparation ........................6-1 6.1.1 Preparation of USB Communication Cable and Console Software ..........
  • Page 7 10 Communication Command List ............. 10-1 10.1 List of QMC1-MT Communication Commands (For Console Software) ..... 10-1 10.2 List of QMC1-MT Communication Commands (For Communication Program) ..10-3 10.3 List of Communication Commands for Modules Connected to QMC1-MT ....10-9 10.4 Data .......................... 10-88 10.4.1 Notes About Write/Read Command ..................
  • Page 8 13 Specifications ................13-1 13.1 Standard Specifications ....................13-1 14 Troubleshooting ................14-1 14.1 Operation indicator ..................... 14-1 14.2 Communication......................14-2 14.3 Status Flag ......................... 14-2 viii...

  • Page 9: Overview

    QTC1-20) or QTC1-40 (no power supply / communication option) (hereinafter referred to as QTC1-40) can be connected via BUS, and a maximum of 64 points can be controlled. Connection example of QMC1-MT and QTC1-40 Ethernet Maximum of 16 modules...

  • Page 10: Description Of Module

    1.2 Description of Module This instrument is the communication expansion module for communication translation and data management. Connects to control module (QTC1- ) for Ethernet communication (MODBUS/TCP or SIF function). MODBUS/TCP Physical layer: 10BASE-T/100BASE-TX automatic recognition User layer: MODBUS/TCP Number of connections: 1 SIF function The SIF function (Smart InterFace, programless communication function) enables programless connection to the PLC.

  • Page 11: System Configuration

    QTC1-20) or QTC1-40 (no power supply / communication option) (hereinafter referred to as QTC1-40) can be connected via BUS, and a maximum of 64 points can be controlled. Connection example of QMC1-MT and QTC1-40 Ethernet Maximum of 16 modules...

  • Page 12: Ethernet Communication With Plc [Console Selection (Slmp Ascii Or Slmp Binary)]

    QTC1-20) or QTC1-40 (no power supply / communication option) (hereinafter referred to as QTC1-40) can be connected via BUS, and a maximum of 64 points can be controlled. Connection example of QMC1-MT and QTC1-40 Ethernet Maximum of 16 modules...

  • Page 13: Exchange Of Parameters

    QTC1- 0. (5) Receives the sending data from the QMC1-MT. Asynchronous (6) Returns response data to the QMC1-MT. (Fig. 1.4-1) For R/W (read and write) Host computer QMC1-MT (2) Receives sending (1) Set and monitor data from the host the control computer.

  • Page 14: Model

    2 Model 2.1 Model QMC1-MT 2.2 How to Read the Model Label The model label is attached to the right side of this instrument. Model Power supply voltage, power consumption Serial number (Fig. 2.2-1)

  • Page 15: Name And Functions

    3 Name and Functions Base (Fig. 3-1)
  • Page 16 Operation indicator Symbol (color) Name and Function PWR (Green) Power indicator (*1) • Lights off (always): No power supply to the instrument. • Lights up (always): Power supply to the instrument. • Flashing (500 ms lights up/500 ms lights off): Non-volatile IC memory error.
  • Page 17 Symbol Name and Function Console communication connector Connector for console communication tool cable. IP ADDRESS QMC1-MT IP address setting rotary switch Ethernet Ethernet communication connector [Modular jack (RJ45)] DIP switch Not used in this instrument. Please leave all switches OFF.

  • Page 18: Procedure Before Starting Operation

    Refer to “9 MODBUS/TCP Protocol” (P.9-1), to create the communication program. Set the QMC1-MT IP address. Setting of QMC1-MT Refer to “5 Setting of QMC1-MT IP Address” (P.5-1). IP address Set the items of through USB. Refer to “6.2 Specification Setting” (P.6-4).

  • Page 19: Setting Of Qmc1-Mt Ip Address

    When using the console software When the 4th octet of the rotary switch for setting the QMC1-MT IP address is set to "0," the setting values of the 3rd and 4th bytes of the console software set using USB communication become effective.

  • Page 20: Setting Of Specification

    (1) Connect the micro USB Type-B side of the USB communication cable to the console communication connector of this instrument. (2) Connect the USB plug of the USB communication cable to the USB port of the host computer. Connection example of QMC1-MT and QTC1-40 Communication expansion module...
  • Page 21 Checking the COM port number Follow the procedure below to check the COM port number. Right-click “Start” → Click “Device manager” from menu. When “USB Serial Port (COM3)” is displayed in “Port (COM and LPT)”, the COM port is assigned to No. 3. Check the COM port number, and then close “Device Manager”.
  • Page 22 Set the communication condition as shown below. Setup Items Setting Value Communication port Select the COM port number confirmed in Communication protocol MODBUS RTU Click [OK]. Display the Main screen. Select "QMC1-MT" in the "Device selection". (Fig. 6.1.2-4) The specifications are ready.

  • Page 23: Specification Setting

    6.2 Specification Setting Basic operation of specification setting Before setting the specifications, how to select the selection item and how to set the setting item are explained. Select the selection item The following is an explanation of how to select a selection item, using "QMC1 Ethernet communication protocol selection"...
  • Page 24 Set the setting item The following is an explanation of how to set the setting items, using " QMC1 number of communication management module setting item" as an example. Click on the setting value. (Fig. 6.2-3) Display the numeric keypad screen. The current setting value and setting range are displayed on the numeric keypad screen.

  • Page 25: Usb Limited Item Setting

    6.2.1 USB Limited Item Setting Caution If the Ethernet communication protocol, IP address, subnet mask, or gateway settings have been changed, turn the power OFF and ON. The settings become effective by turning the power OFF and ON. Set the Ethernet communication protocol, number of communication management modules, communication response delay time, IP address, subnet mask, and gateway.
  • Page 26 Setting range: 0 to 255 (*1): Mitsubishi Electric Corporation MELSEC series (*2): Effective when 4th octet of the QMC1-MT IP address setting rotary switch is set to "0". If the QMC1-MT IP address has been changed, turn the power OFF and ON.
  • Page 27 Set the 4th byte of the gateway. setting Setting range: 0 to 255 Own port number Set the QMC1-MT port number. setting Setting range: 0 to 65535 PLC IP address byte 1 Set the 1st byte of the PLC's IP address.

  • Page 28: Setting Event Input / Output Items

    6.2.2 Setting Event Input / Output Items This instrument does not have this function.。 (Fig. 6.2.2-1)

  • Page 29: Selecting Setting Value Reload Request

    6.2.3 Selecting Setting Value Reload Request This function is not supported when "QMC1-MT" is selected for the device selection. Even if selected, this function does not work.。 (Fig. 6.2.3-1) 6-10...

  • Page 30: Reading Monitor Values

    6.2.4 Reading Monitor Values This function is not supported when "QMC1-MT" is selected for the device selection. (Fig. 6.2.4-1) 6-11...

  • Page 31: Mounting

    • When mounting or removing this instrument on the DIN rail, it must be tilted slightly. Secure a space of 50 mm or more in the vertical direction of the instrument, considering the wiring space of the power supply/communication line and heat dissipation. Spacing when QMC1-MT and QTC1-40 are connected (Fig. 7-2)

  • Page 32: Selection Of Location

    7.1 Selection of Location [Ensure the mounting location corresponds to the following conditions:] • A minimum of dust, and an absence of corrosive gases • No flammable, explosive gases • No mechanical vibrations or shocks • No exposure to direct sunlight, an ambient temperature of -10 to 50°C that does not change rapidly, and no icing •...

  • Page 33: Mounting

    7.3 Mounting Mounting to the DIN rail Lower the lock lever of this instrument. (The lock lever of this instrument has a spring structure, but if lower it in the direction of the arrow until it stops, it will be locked in that position.) Hook the part of this instrument onto the top of the DIN rail.
  • Page 34 This section describes an example of mounting this instrument and QTC1-40 on the DIN rail. Lower the lock lever of the QTC1-40, and mounting the QTC1-40 to the DIN rail. Slide the QTC1-40 to the left and connect the connectors to each other. QMC1-MT QTC1-40 (Fig. 7.3-4) Raise the lock lever of the QTC1-40.
  • Page 35 Insert a flat blade screwdriver into the lock lever of the QTC1-40 and lower the lock lever until it stops. Slide the QTC1-40 to the right side and disconnect it from the connector, then remove it from the DIN rail. QMC1-MT QTC1-40 (Fig. 7.3-6)

  • Page 36: Wiring

    8 Wiring Warning Turn off the power supply to this instrument before wiring. If you work while the power is supplied, you may get an electric shock, which could result in an accident resulting in death or serious injury. Caution Do not connect QTC1-2P or QTC1-4P in the same unit.

  • Page 37: Pin Assignment And Terminal Arrangement

    8.2 Pin Assignment and Terminal Arrangement 8.2.1 Pin Assignment of Ethernet Communication Connector Pin No. Signal name (Fig. 8.2.1-1) 8.2.2 Power supply terminal and FG terminal arrangement Power supply 24 V DC (Fig. 8.2.2-1)

  • Page 38: Wiring

    8.3 Wiring 8.3.1 Wiring for power supply and FG The power and FG terminals are located on the base of this instrument. Wiring by the following procedure. (1) Case removal Push the release lever on the top of this instrument to unlock it. Remove the case.
  • Page 39 (3) Case mounting Hook the case on the lower part of this instrument. Mount the case so that the lower part of this instrument is the fulcrum and covers the release lever. There is a clicking sound. Case Release lever Base (Fig.

  • Page 40: Connect To Ethernet

    Either a straight cable or a crossover cable can be used for the Ethernet cable (LAN cable). 8.4.1 Example 1 of Connection to Ethernet Connection example for using a switching hub Ethernet Switching hub Ethernet cable (LAN cable) connection Ethernet cable (LAN cable) Communication expansion Control module Host computer module QMC1-MT QTC1-40 LAN port (Fig. 8.4.1-1)

  • Page 41: Example 2 Of Connection To Ethernet

    Connection example when using 4 switching hubs. Ethernet Switching hub Ethernet cable (LAN cable) Maximum network length: 500 m to the device Maximum segment length: 100 m Ethernet cable (LAN cable) Control module Communication Host computer QTC1-40 expansion module LAN port QMC1-MT (Fig. 8.4.2-1)

  • Page 42: Modbus/Tcp Protocol

    9 MODBUS/TCP Protocol 9.1 Communication Procedure Once a TCP connection is established at the IP addresses of the client and server, MODBUS communication is performed at the application level. The client is the MODBUS master and the server is the MODBUS slave. (1) Establishing TCP connection Establish a connection before data communication.

  • Page 43: Port Number

    (5) Disconnection of TCP connection Once the data communication is over, a disconnection Client Server procedure is performed. (Data transmission end notification) Once connected, the disconnection procedure can be ACK (Response) initiated from either the client or the server. (Data transmission end notification) ACK (Response) (Fig.
  • Page 44 (5) Function code This code specifies the type of operation for the slave side. Type Function code Sub-function code Description 03(03H) Reading single or multiple data from the slave (max. 100 data) Data 06(06H) Writing single data to the slave access 16(10H) Writing multiple data to the slave (max.

  • Page 45: Message Example

    9.4 Message Example Numerals written below the command represent the number of characters. (1) Read unit ID 1, CH1 control enable/disable (1040H) • A request message from the master Header block Data block Data byte Function Number of Transfer ID Protocol ID Unit ID Data item...
  • Page 46 • Response message from the slave in exception (error) status (When set to the value out of the setting range) The function code MSB is set to 1 for the response message in exception (error) status, and 86H is returned. The exception code 03H (Value out of the setting range) is returned (error).
  • Page 47 (4) Write Unit ID1, CH1 SV to CH4 SV (Multiple data write) The configuration of the data block is as follows. Number of data : 4 (0004H) Number of bytes : 8 (08H) Data : Data is converted to Hexadecimal. Data Data item Data...
  • Page 48 (5) Write slave address 1, CH1 SV to CH4 SV (Multiple data write) • A request message from the master (When resding the above data) Header block Data block Data byte Function Number of Transfer ID Protocol ID Unit ID Data item length code...

  • Page 49: Communication Command List

    10 Communication Command List 10.1 List of QMC1-MT Communication Commands (For Console Software) This section explains each item of communication command. • Data Item This is a setting item for the QMC1-MT. • Address [HEX (Hexadecimal)] This is an each channel address of the QMC1-MT.
  • Page 50 0174 to 018F (*3): Only when the 4th octet of the rotary switch for setting the QMC1-MT IP address is set to "0", it can be set in the range of 0 to 255 from the console software. (*4): IP address of PLC for SLMP connection.

  • Page 51: List Of Qmc1-Mt Communication Commands (For Communication Program)

    10.2 List of QMC1-MT Communication Commands (For Communication Program) This section explains each item of communication command. • Data Item This is a setting item for the QMC1-MT. • Address [HEX (Hexadecimal)] This is an each channel address of the QMC1-MT.
  • Page 52 Address Data Item Attribute Data (HEX) Module address 1 Setting 019C 0000H: No setting value reload request value reload request selection 0001H: Setting value reload request (*1) Module address 2 Setting 019D 0000H: No setting value reload request value reload request selection 0001H: Setting value reload request (*1) Module address 3 Setting 019E...
  • Page 53 Address Data Item Attribute Data (HEX) QMC1 Status flag 01F4 Always 0 Always 0 Always 0 Always 0 Always 0 Always 0 Always 0 Always 0 Not used Not used B10: Not used B11: Not used B12: Not used B13: Not used B14: Power supply identification (*3)
  • Page 54 Address Data Item Attribute Data (HEX) QMC1 Module recognition 01F5 Module address 1 information 0: No connection 1: Connection Module address 2 0: No connection 1: Connection Module address 3 0: No connection 1: Connection Module address 4 0: No connection 1: Connection Module address 5 0: No connection 1: Connection Module address 6...
  • Page 55 Address Data Item Attribute Data (HEX) QMC1 Setting value reload 01F6 Module address 1 0: No setting value reload request status flag 1: Reloading setting value Module address 2 0: No setting value reload request 1: Reloading setting value Module address 3 0: No setting value reload request 1: Reloading setting value Module address 4...
  • Page 56 Address Data Item Attribute Data (HEX) Not used (*) 01F7 to 0FFF (*): The Not used item returns error code 02H (non-existent data address) with negative acceptance when reading single or multiple data or writing single or multiple data. 10-8...

  • Page 57: List Of Communication Commands For Modules Connected To Qmc1-Mt

    10.3 List of Communication Commands for Modules Connected to QMC1-MT Caution QMC1-MT does not check the setting range of the connected modules. Perform the setting range restriction on the host side. When QTC1-20 is connected, CH3 and CH4 of the setting items other than the heater burnout alarm setting do not work even if they are set.
  • Page 58 Address (HEX) Data Item Attribute Data This is a system item for internal System Channel processing. Module Please do not use. 1000 1001 1002 1003 1004 1005 1006 1007 1008 1009 100A 100B 100C 100D 100E 100F 1010 1011 1012 1013 1014 1015...
  • Page 59 Address (HEX) Data Item Attribute Data AT Perform/ Cancel 0000H: AT Cancel Channel selection 0001H: AT Perform Module 1080 1081 1082 1083 1084 1085 1088 1087 1088 1089 108A 108B 108C 108D 108E 108F 1090 1091 1092 1093 1094 1095 1096 1097 1098...
  • Page 60 Address (HEX) Data Item Attribute Data Auto/Manual selection Channel 0000H: Auto control 0001H: Manual control Module 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 110A 110B 110C 110D 110E 110F 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 111A...
  • Page 61 Address (HEX) Data Item Attribute Data Setting value (SV) Channel Scaling lower limit to Scaling high limit Module 1180 1181 1182 1183 1184 1185 1188 1187 1188 1189 118A 118B 118C 118D 118E 118F 1190 1191 1192 1193 1194 1195 1196 1197 1198...
  • Page 62 Address (HEX) Data Item Attribute Data Integral time setting Channel 0 to 3600 seconds or 0.0 to 2000.0 seconds Module When select “2: Slow-PID control” of 1200 1201 1202 1203 control action selection 1204 1205 1206 1207 1 to 3600 seconds or 1208 1209 120A...
  • Page 63 Address (HEX) Data Item Attribute Data Proportional cycle 0.1 to 100.0 seconds Channel setting Module 1280 1281 1282 1283 1284 1285 1288 1287 1288 1289 128A 128B 128C 128D 128E 128F 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 129A 129B...
  • Page 64 Address (HEX) Data Item Attribute Data OUT high limit setting Channel OUT low limit setting to 100.0 % when current output Module OUT low limit setting to 105.0 % 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 130A 130B 130C 130D...
  • Page 65 Address (HEX) Data Item Attribute Data Alarm 1 action Channel 0000H: No event 0001H: High limit alarm Module 0002H: Low limit alarm 1380 1381 1382 1383 0003H: High/Low limits alarm 1384 1385 1388 1387 0004H: High/Low limits range alarm 1388 1389 138A 138B...
  • Page 66 Address (HEX) Data Item Attribute Data Alarm 3 action Channel 0000H: No event 0001H: High limit alarm Module 0002H: Low limit alarm 1400 1401 1402 1403 0003H: High/Low limits alarm 1404 1405 1406 1407 0004H: High/Low limits range alarm 1408 1409 140A 140B...
  • Page 67 Address (HEX) Data Item Attribute Data Alarm 1 hysteresis Channel 0.1 to 1000.0 °C (0.1 to 1800.0°F) For DC current input and DC voltage Module input: 1 to 10000 1480 1481 1482 1483 1484 1485 1488 1487 1488 1489 148A 148B 148C 148D...
  • Page 68 Address (HEX) Data Item Attribute Data Alarm 3 hysteresis Channel 0.1 to 1000.0 °C (0.1 to 1800.0°F) For DC current input and DC voltage Module input: 1 to 10000 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 150A 150B 150C 150D...
  • Page 69 Address (HEX) Data Item Attribute Data Alarm 1 value Channel Refer to “Alarm 1 to 4 value setting range table” (P.10-29). Module 1580 1581 1582 1583 1584 1585 1588 1587 1588 1589 158A 158B 158C 158D 158E 158F 1590 1591 1592 1593 1594...
  • Page 70 Address (HEX) Data Item Attribute Data Alarm 2 value Channel Refer to “Alarm 1 to 4 value setting range table” (P.10-29). Module 1600 1601 1602 1603 1604 1605 1606 1607 1608 1609 160A 160B 160C 160D 160E 160F 1610 1611 1612 1613 1614...
  • Page 71 Address (HEX) Data Item Attribute Data Alarm 3 value Channel Refer to “Alarm 1 to 4 value setting range table” (P.10-29). Module 1680 1681 1682 1683 1684 1685 1688 1687 1688 1689 168A 168B 168C 168D 168E 168F 1690 1691 1692 1693 1694...
  • Page 72 Address (HEX) Data Item Attribute Data Alarm 4 value Channel Refer to “Alarm 1 to 4 value setting range table” (P.10-29). Module 1700 1701 1702 1703 1704 1705 1706 1707 1708 1709 170A 170B 170C 170D 170E 170F 1710 1711 1712 1713 1714...
  • Page 73 Address (HEX) Data Item Attribute Data Heater burnout alarm Channel For 20 A is selected: 0.0 to 20.0 A Module For 100 A is selected: 1780 1781 1782 1783 0.0 to 100.0 A 1784 1785 1788 1787 1788 1789 178A 178B 178C 178D...
  • Page 74 Address (HEX) Data Item Attribute Data Loop break alarm time Channel 0 to 200 minutes Module 1800 1801 1802 1803 1804 1805 1806 1807 1808 1809 180A 180B 180C 180D 180E 180F 1810 1811 1812 1813 1814 1815 1816 1817 1818 1819 181A...
  • Page 75 Address (HEX) Data Item Attribute Data Sensor correction Channel -100.0 to 100.0 °C (-180.0 to 180.0 °F) For DC current input and DC voltage Module input: -1000 to 1000 1880 1881 1882 1883 1884 1885 1888 1887 1888 1889 188A 188B 188C 188D...
  • Page 76 Address (HEX) Data Item Attribute Data SV rise rate Channel 0 to 10000 °C/min (0 to 18000 °F/min) or Module 0.0 to 1000.0 °C/min 1900 1901 1902 1903 (0.0 to 1800.0 °F/min) 1904 1905 1906 1907 For DC current input and DC voltage 1908 1909 190A...
  • Page 77 Address (HEX) Data Item Attribute Data MV bias Channel 0.0 to 100.0 % Module 1980 1981 1982 1983 1984 1985 1988 1987 1988 1989 198A 198B 198C 198D 198E 198F 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 199A 199B 199C...
  • Page 78 Address (HEX) Data Item Attribute Data Input type selection Channel When input code M is specified 0000H: K -200 to 1370 °C Module 0001H: K -200.0 to 400.0 °C 2000 2001 2002 2003 0002H: J -200 to 1000 °C 2004 2005 2006 2007...
  • Page 79 Address (HEX) Data Item Attribute Data Scaling high limit setting Channel Scaling lowh limit to Rated high limit Module 2080 2081 2082 2083 2084 2085 2088 2087 2088 2089 208A 208B 208C 208D 208E 208F 2090 2091 2092 2093 2094 2095 2096 2097...
  • Page 80 Address (HEX) Data Item Attribute Data Input sampling selection Channel 0000H: 125 ms 0001H: 50 ms Module 0002H: 20 ms 2100 2101 2102 2103 It is fixed at 125 ms for thermocouple 2104 2105 2106 2107 2108 2109 210A 210B input and RTD input.
  • Page 81 Address (HEX) Data Item Attribute Data AT action mode 0000H: Normal AT Channel selection 0001H: Start-up AT Module 2180 2181 2182 2183 2184 2185 2188 2187 2188 2189 218A 218B 218C 218D 218E 218F 2190 2191 2192 2193 2194 2195 2196 2197 2198...
  • Page 82 Address (HEX) Data Item Attribute Data AT gain setting Channel 0.1 to 10.0 times Module 2200 2201 2202 2203 2204 2205 2206 2207 2208 2209 220A 220B 220C 220D 220E 220F 2210 2211 2212 2213 2214 2215 2216 2217 2218 2219 221A 221B...
  • Page 83 Address (HEX) Data Item Attribute Data Alarm 2 value 0 0000H: Disabled Enabled/ Disabled Channel 0001H: Enabled selection Module 2280 2281 2282 2283 2284 2285 2288 2287 2288 2289 228A 228B 228C 228D 228E 228F 2290 2291 2292 2293 2294 2295 2296 2297...
  • Page 84 Address (HEX) Data Item Attribute Data Alarm 4 value 0 0000H: Disabled Enabled/ Disabled Channel 0001H: Enabled selection Module 2300 2301 2302 2303 2304 2305 2306 2307 2308 2309 230A 230B 230C 230D 230E 230F 2310 2311 2312 2313 2314 2315 2316 2317...
  • Page 85 Address (HEX) Data Item Attribute Data Event input allocation 0000H: No action Channel selection It can be used for any operation by reading the event input status Module flag. 2380 2381 2382 2383 When the event input is turned 2384 2385 2388 2387...
  • Page 86 Address (HEX) Data Item Attribute Data Number of moving 1 to 10 times Channel average setting Module 2400 2401 2402 2403 2404 2405 2406 2407 2408 2409 240A 240B 240C 240D 240E 240F 2410 2411 2412 2413 2414 2415 2416 2417 2418 2419...
  • Page 87 Address (HEX) Data Item Attribute Data Input math function 0000H: Standard Channel selection 0001H: Difference input (*) [(CH1-CH2) or (CH3-CH4)] Module 0002H: Addition input (*) 3000 3001 3002 3003 [(CH1+CH2) or (CH3+CH4)] 3004 3005 3006 3007 (*): Select CH1 or CH3 for differential 3008 3009 300A...
  • Page 88 Address (HEX) Data Item Attribute Data Input difference setting Channel 1 to 1000 °C (1 to 1800 °F) or 0.1 to 1000.0 °C (0.1 to 1800.0 °F) Module when DC current and DC voltage input 3080 3081 3082 3083 1 to 10000 3084 3085 3088...
  • Page 89 Address (HEX) Data Item Attribute Data Proportional gain 2 0.00 to 1.00 Channel DOF coefficient (α) When select “1: Fast-PID control”, “2: Slow-PID control”, “3: ON-OFF Module control”, or “4: Gap-PID control” in 3100 3101 3102 3103 control action, do not change this 3104 3105 3106...
  • Page 90 Address (HEX) Data Item Attribute Data Differential 2 DOF 0.00 to 1.00 Channel coefficient (γ) Do not change this setting item. Module 3180 3181 3182 3183 3184 3185 3188 3187 3188 3189 318A 318B 318C 318D 318E 318F 3190 3191 3192 3193 3194...
  • Page 91 Address (HEX) Data Item Attribute Data Gap width Channel 0.0 to 10.0 % Proportional band × Gap width Module 3200 3201 3202 3203 3204 3205 3206 3207 3208 3209 320A 320B 320C 320D 320E 320F 3210 3211 3212 3213 3214 3215 3216 3217...
  • Page 92 Address (HEX) Data Item Attribute Data Output minimum 0 to 1000 ms Channel ON/OFF time Module 3280 3281 3282 3283 3284 3285 3288 3287 3288 3289 328A 328B 328C 328D 328E 328F 3290 3291 3292 3293 3294 3295 3296 3297 3298 3299 329A...
  • Page 93 Address (HEX) Data Item Attribute Data Power-on restore action Channel 0000H: Stopped state 0001H: Continuous state Module (State before power OFF) 3300 3301 3302 3303 3304 3305 3306 3307 3308 3309 330A 330B 330C 330D 330E 330F 3310 3311 3312 3313 3314 3315...
  • Page 94 Address (HEX) Data Item Attribute Data Control function Channel 0000H: Standard 0001H: Heating/cooling control (*) Module 0002H: Cascade control (*) 4000 4001 4002 4003 0003H: Output selection function 4004 4005 4006 4007 Selectable only when control is 4008 4009 400A 400B prohibited.
  • Page 95 Address (HEX) Data Item Attribute Data Cooling Integral time Channel 0 to 3600 seconds or 0.0 to 2000.0 seconds Module When “2: Slow-PID control” is 4080 4081 4082 4083 selected in control action: 4084 4085 4088 4087 1 to 3600 seconds or 4088 4089 408A...
  • Page 96 Address (HEX) Data Item Attribute Data Cooling proportional 0.1 to 100.0 seconds Channel cycle Set with CH1 or CH3. It is disabled when set with CH2 or Module CH4. 4100 4101 4102 4103 4104 4105 4106 4107 4108 4109 410A 410B 410C 410D...
  • Page 97 Address (HEX) Data Item Attribute Data Overlap/Dead band Channel -100.0 to 100.0 °C (-180.0 to 180.0 °F) For DC current input and DC voltage Module input: -1000 to 1000 % 4180 4181 4182 4183 Set with CH1 or CH3. 4184 4185 4188 4187...
  • Page 98 Address (HEX) Data Item Attribute Data Cooling output low limit Channel 0.0 % to Cooling output high limit For current output: Module -5.0 % to Cooling output high limit 4200 4201 4202 4203 Set with CH1 or CH3. 4204 4205 4206 4207 It is disabled when set with CH2 or...
  • Page 99 Address (HEX) Data Item Attribute Data Slave scale high limit Channel Slave scale low limit to Slave input range high limit Module Set with CH1 or CH3. 4280 4281 4282 4283 It is disabled when set with CH2 or 4284 4285 4288 4287...
  • Page 100 Address (HEX) Data Item Attribute Data Output bias Channel 0.0 to 100.0 % Module 4300 4301 4302 4303 4304 4305 4306 4307 4308 4309 430A 430B 430C 430D 430E 430F 4310 4311 4312 4313 4314 4315 4316 4317 4318 4319 431A 431B 431C...
  • Page 101 Address (HEX) Data Item Attribute Data Output channel Channel 0000H: CH1 0001H: CH2 Module 0002H: CH3 4380 4381 4382 4383 0003H: CH4 4384 4385 4388 4387 This is valid when “Output selection 4388 4389 438A 438B function” is selected in “Control 438C 438D 438E...
  • Page 102 Address (HEX) Data Item Attribute Data Communication 0 to 1000 ms Channel response delay time The addresses of CH2 to CH4 are reserved items. (*) Module 5000 5001 5002 5003 5004 5005 5006 5007 5008 5009 500A 500B 500C 500D 500E 500F 5010...
  • Page 103 Address (HEX) Data Item Attribute Data Total current setting Channel 0.0 to 400.0 A The addresses of CH2 to CH4 are Module reserved items. (*) 5080 5081 5082 5083 5084 5085 5088 5087 5088 5089 508A 508B 508C 508D 508E 508F 5090 5091...
  • Page 104 Address (HEX) Data Item Attribute Data Output ON delay setting Channel 0 to 100 ms The addresses of CH2 to CH4 are Module reserved items. (*) 5100 5101 5102 5103 5104 5105 5106 5107 5108 5109 510A 510B 510C 510D 510E 510F 5110...
  • Page 105 Address (HEX) Data Item Attribute Data Auto balance control 0000H: Slave channel Channel Master/Slave 0001H: CH1 master channel 0002H: CH2 master channel Module 0003H: CH3 master channel 5180 5181 5182 5183 0004H: CH4 master channel 5184 5185 5188 5187 The addresses of CH2 to CH4 are 5188 5189 518A...
  • Page 106 Address (HEX) Data Item Attribute Data Auto balance control 0.00 to 1.00 Channel start output (corresponding to 0 to 100 %) Module 5200 5201 5202 5203 5204 5205 5206 5207 5208 5209 520A 520B 520C 520D 520E 520F 5210 5211 5212 5213 5214...
  • Page 107 Address (HEX) Data Item Attribute Data Number of communication 1 to 16 modules management module Channel The addresses of CH2 to CH4 are setting reserved items. (*) Module 5280 5281 5282 5283 5284 5285 5288 5287 5288 5289 528A 528B 528C 528D 528E...
  • Page 108 Address (HEX) Data Item Attribute Data Host setting value 0000H: Clear Channel change flag clearing 0001H: Do not clear (Change setting value) Module The addresses of CH2 to CH4 are 5300 5301 5302 5303 reserved items. (*) 5304 5305 5306 5307 5308 5309...
  • Page 109 Address (HEX) Data Item Attribute Data PV reading Channel Value of control range (*) Corresponding to Input calculation Module function (Difference input, Addition 6000 6001 6002 6003 input) and Input difference detection. 6004 6005 6006 6007 6008 6009 600A 600B When power is supplied from the host 600C 600D...
  • Page 110 Address (HEX) Data Item Attribute Data SV reading Channel Scaling low limit to Scaling high limit Module 6080 6081 6082 6083 6084 6085 6088 6087 6088 6089 608A 608B 608C 608D 608E 608F 6090 6091 6092 6093 6094 6095 6096 6097 6098 6099...
  • Page 111 Address (HEX) Data Item Attribute Data Status flag 1 reading Channel B0: Control Enable/Diseble 0: Diseble 1: Enable Module B1: AT Perform/Cancel 60C0 60C1 60C2 60C3 0: Cancel 1: Perform 60C4 60C5 60C6 60C7 B2: Auto/Manual control 60C8 60C9 60CA 60CB 0: Automatic 1: Manual 60CC 60CD 60CE...
  • Page 112 Address (HEX) Data Item Attribute Data Status flag 2 reading Channel B0: Auto balance control 0: None Module 1: During auto balance control 6100 6101 6102 6103 B1: Not used 6104 6105 6106 6107 B2: Not used 6108 6109 610A 610B B3: Not used 610C...
  • Page 113 Address (HEX) Data Item Attribute Data Event input reading Channel 0000H: OFF 0001H: ON Module 6180 6181 6182 6183 6184 6185 6188 6187 6188 6189 618A 618B 618C 618D 618E 618F 6190 6191 6192 6193 6194 6195 6196 6197 6198 6199 619A 619B...
  • Page 114 Address (HEX) Data Item Attribute Data PV (process variable) Value of control range (*) Channel reading The input value of each channel is read regardless of the calculation Module function (Difference input, Addition 6200 6201 6202 6203 input) and input difference detection. 6204 6205 6206...
  • Page 115 Address (HEX) Data Item Attribute Data Alarm history 1 B0: Alarm 1 Channel Error No. 0: Normal 1: Error B1: Alarm 2 Module 0: Normal 1: Error F000 F001 F002 F003 B2: Alarm 3 F004 F005 F006 F007 0: Normal 1: Error F008 F009...
  • Page 116 Address (HEX) Data Item Attribute Data Alarm history 3 B0: Alarm 1 Channel Error No. 0: Normal 1: Error B1: Alarm 2 Module 0: Normal 1: Error F080 F081 F082 F083 B2: Alarm 3 F084 F085 F088 F087 0: Normal 1: Error F088 F089...
  • Page 117 Address (HEX) Data Item Attribute Data Alarm history 5 B0: Alarm 1 Channel Error No. 0: Normal 1: Error B1: Alarm 2 Module 0: Normal 1: Error F100 F101 F102 F103 B2: Alarm 3 F104 F105 F106 F107 0: Normal 1: Error F108 F109...
  • Page 118 Address (HEX) Data Item Attribute Data Alarm history 7 B0: Alarm 1 Channel Error No. 0: Normal 1: Error B1: Alarm 2 Module 0: Normal 1: Error F180 F181 F182 F183 B2: Alarm 3 F184 F185 F188 F187 0: Normal 1: Error F188 F189...
  • Page 119 Address (HEX) Data Item Attribute Data Alarm history 9 B0: Alarm 1 Channel Error No. 0: Normal 1: Error B1: Alarm 2 Module 0: Normal 1: Error F200 F201 F202 F203 B2: Alarm 3 F204 F205 F206 F207 0: Normal 1: Error F208 F209...
  • Page 120 Address (HEX) Data Item Attribute Data Alarm history 1 Total energizing time when an error Channel Total energizing time occurs Module F280 F281 F282 F283 F284 F285 F288 F287 F288 F289 F28A F28B F28C F28D F28E F28F F290 F291 F292 F293 F294 F295...
  • Page 121 Address (HEX) Data Item Attribute Data Alarm history 3 Total energizing time when an error Channel Total energizing time occurs Module F300 F301 F302 F303 F304 F305 F306 F307 F308 F309 F30A F30B F30C F30D F30E F30F F310 F311 F312 F313 F314 F315...
  • Page 122 Address (HEX) Data Item Attribute Data Alarm history 5 Total energizing time when an error Channel Total energizing time occurs Module F380 F381 F382 F383 F384 F385 F388 F387 F388 F389 F38A F38B F38C F38D F38E F38F F390 F391 F392 F393 F394 F395...
  • Page 123 Address (HEX) Data Item Attribute Data Alarm history 7 Total energizing time when an error Channel Total energizing time occurs Module F400 F401 F402 F403 F404 F405 F406 F407 F408 F409 F40A F40B F40C F40D F40E F40F F410 F411 F412 F413 F414 F415...
  • Page 124 Address (HEX) Data Item Attribute Data Alarm history 9 Total energizing time when an error Channel Total energizing time occurs Module F480 F481 F482 F483 F484 F485 F488 F487 F488 F489 F48A F48B F48C F48D F48E F48F F490 F491 F492 F493 F494 F495...
  • Page 125 Address (HEX) Data Item Attribute Data Contact switching total Contact switching total number of Channel number of times (High) times (High) Module F500 F501 F502 F503 F504 F505 F506 F507 F508 F509 F50A F50B F50C F50D F50E F50F F510 F511 F512 F513 F514...
  • Page 126 Address (HEX) Data Item Attribute Data Total energizing time Total energizing time Channel (High, Low) CH1: Count value (High) CH2: Count value (Low) Module 1 count/10 mins F580 F581 F582 F583 Data for CH3 and CH4 are indefinite. F584 F585 F588 F587 F588...
  • Page 127 Address (HEX) Data Item Attribute Data Heater accumulated Heater accumulated energizing time Channel energizing time (Low) (Low) 1 count/1 min Module F600 F601 F602 F603 F604 F605 F606 F607 F608 F609 F60A F60B F60C F60D F60E F60F F610 F611 F612 F613 F614 F615...
  • Page 128 Address (HEX) Data Item Attribute Data Input form Channel 0000H: Input code M 0001H: Input code A Module 0002H: Input code V F680 F681 F682 F683 F684 F685 F688 F687 F688 F689 F68A F68B F68C F68D F68E F68F F690 F691 F692 F693 F694...
  • Page 129 Address (HEX) Data Item Attribute Data Presence of 0000H: No option Channel communication option 0001H: With power supply/upper communication function Module The data for CH2 to CH4 is indefinite. F700 F701 F702 F703 F704 F705 F706 F707 F708 F709 F70A F70B F70C F70D...
  • Page 130 Address (HEX) Data Item Attribute Data Presence of heater 0000H: No option Channel burnout alarm option 0001H: Single-phase 20 A 0002H: Single-phase 100 A Module The data for CH2 to CH4 is indefinite. F780 F781 F782 F783 F784 F785 F788 F787 F788 F789...
  • Page 131 Address (HEX) Data Item Attribute Data Software version Channel Software version The data for CH2 to CH4 is indefinite. Module F800 F801 F802 F803 F804 F805 F806 F807 F808 F809 F80A F80B F80C F80D F80E F80F F810 F811 F812 F813 F814 F815 F816...
  • Page 132 Address (HEX) Data Item Attribute Data Hardware version Channel Hardware version The data for CH2 to CH4 is indefinite. Module F880 F881 F882 F883 F884 F885 F888 F887 F888 F889 F88A F88B F88C F88D F88E F88F F890 F891 F892 F893 F894 F895 F896...
  • Page 133 Address (HEX) Data Item Attribute Data Control output forced 0000H: Control output OFF Channel ON/OFF 0001H: Control output ON Module F900 F901 F902 F903 F904 F905 F906 F907 F908 F909 F90A F90B F90C F90D F90E F90F F910 F911 F912 F913 F914 F915 F916...
  • Page 134 Address (HEX) Data Item Attribute Data Contact switching total Contact switching total number of number of times setting Channel times (High) (High) Module F980 F981 F982 F983 F984 F985 F988 F987 F988 F989 F98A F98B F98C F98D F98E F98F F990 F991 F992 F993...
  • Page 135 Address (HEX) Data Item Attribute Data Heater accumulated Heater accumulated energizing time energizing time setting Channel (High) (High) 1 count/1 min Module FA00 FA01 FA02 FA03 FA04 FA05 FA06 FA07 FA08 FA09 FA0A FA0B FA0C FA0D FA0E FA0F FA10 FA11 FA12 FA13 FA14...

  • Page 136: Notes About Write/Read Command

    10.4 Data 10.4.1 Notes About Write/Read Command • The data (set value, decimal) is converted to a hexadecimal number. Negative numbers are represented in 2's complement. • Do not use undefined Data items. If they are used, negative acknowledgement will be returned or a random value will be written or read, resulting in malfunction.

  • Page 137: Negative Acknowledgement

    10.5 Negative Acknowledgement 10.5.1 Error Code 2 (02H) The slave will return Error code 2 (02H) in the following case. • When non-existent data item is read or written. 10.5.2 Error Code 3(03H) The slave will return Error code 3 (03H) in the following case. •...

  • Page 138: Initialization Items By Changing Settings

    10.7 Initialization Items by Changing Settings The items that are initialized by changing the settings are shown below. : Initialize -: Not initialize Temperature Alarm 1 Alarm 2 Alarm 3 Alarm 4 Setting change item Input type unit action action action action (2000H to...

  • Page 139: Operation

    Refer to “10 Communication Command List” (P.10-1). (3) Turn OFF → ON the power of QMC1-MT and OTC1- 0 Turn OFF → ON the power of QMC1-MT and QTC1- 0. The set value becomes effective. (4) Turn ON the load circuit power...
  • Page 140 (5) Permission of control Select “Control enabled” in “Control enable/disable”. The control operation starts so that the controlled object keeps CH1 SV. Selecting control enabled for Unit ID 1, CH1 Control enable/disable (Single data writing) • A request message from the master Header block Data block Data byte...

  • Page 141: Set Pid Constants (Execute At)

    11.2 Set PID Constants (Execute AT) Caution • Perform the AT during the trial run. • During AT, the all setting items can not be set. • If a power failure occurs during AT execution, AT will be stopped. • If AT is cancelled during the process, each setting values of P, I, D will revert to the values before AT was performed.
  • Page 142 Selecting AT perform for Unit ID 1, CH1 AT Perform/Cancel selection (1080H) to Unit ID 5, CH4 AT Perform/Cancel selection (1093H) (multiple data writing for 20 commands) Number of data : 20 (0014H) Number of bytes : 40 (28H) Data : AT perform (0001H) •...

  • Page 143: Set Alarm

    11.3 Set Alarm For Alarm output, the alarm value is set by deviation from the SV (excluding Process alarm), and if the PV goes outside the range, the Alarm output is turned ON (turned OFF for High/Low limit range alarm). It can select from High limit alarm, Low limit alarm, High/Low limits alarm, High/Low limit range alarm, Process high alarm, Process low alarm, High limit with standby alarm, Low limit with standby alarm, High/Low limits with standby alarm, High/Low limits alarm individually, High/Low limit range alarm...
  • Page 144 Selecting high limit alarm for Unit ID 1, CH1 Alarm 1 action selection (Single data writing) • A request message from the master Header block Data block Data byte Function Transfer ID Protocol ID Unit ID Data item Data length code (0000H) (0000H)
  • Page 145 Selecting high limit alarm for Unit ID 1, CH1 Alarm 1 action (1380H) to Unit ID 5, CH4 Alarm 1 action (1393H) (multiple data writing for 20 commands) Number of data : 20 (0014H) Number of bytes : 40 (28H) Data : High limit alarm (0001H) •...
  • Page 146 Setting 20 °C (0014H) for Unit ID 1, CH1 Alarm 1 value (1580H) to Unit ID 5, CH4 Alarm 1 value (1593H) (multiple data writing for 20 commands) Number of data : 20 (0014H) Number of bytes : 40 (28H) Data : 20 °C (0014H) •...

  • Page 147: Communication With Plc Using Sif Function

    In addition, the selected setting item is read from the PLC register by setting request using each communication command, and if the read data is changed, the setting value of QTC1- 0 is updated. When QTC1-20 is connected, CH3 and CH4 do not function. Connection example of QMC1-MT and QTC1-40 Ethernet Maximum of 16 modules...

  • Page 148: Procedure Before Starting Operation

    Connect the PLC and the QMC1-MT to Ethernet. Connect to Ethernet Refer to “12.6.2 Connect to Ethernet” (P.12-37). Communication between the PLC and the QMC1-MT is performed and Operation start operation is started. Refer to “12.6.3 Communication Procedure” (P.12-38) to “12.6.7 Data Settings”...
  • Page 149 When using the console software When the 4th octet of the rotary switch for setting the QMC1-MT IP address is set to "0," the setting values of the 3rd and 4th bytes of the console software set using USB communication become effective.

  • Page 150: Preparation Of Usb Communication Cable And Console Software

    (1) Connect the micro USB Type-B side of the USB communication cable to the console communication connector of this instrument. (2) Connect the USB plug of the USB communication cable to the USB port of the host computer. Connection example of QMC1-MT and QTC1-40 Communication expansion module...
  • Page 151 Checking the COM port number Follow the procedure below to check the COM port number. Right-click “Start” → Click “Device manager” from menu. When “USB Serial Port (COM3)” is displayed in “Port (COM and LPT)”, the COM port is assigned to No. 3. Check the COM port number, and then close “Device Manager”.
  • Page 152 Set the communication condition as shown below. Setup Items Setting Value Communication port Select the COM port number confirmed in Communication protocol MODBUS RTU Click [OK]. Display the Main screen. Select "QMC1-MT" in the "Device selection". (Fig. 12.3.2-4) The specifications are ready. 12-6...

  • Page 153: Specification Settings For Qmc1-Mt

    12.3.3 Specification Settings for QMC1-MT USB limited item setting Refer to "6.2.1 USB Limited Item Setting" (P.6-6), to set the Ethernet communication protocol, number of communication management modules, communication response delay time, IP address, subnet mask, and gateway. Check with the system administrator before configuring these settings.
  • Page 154 Please refer to the Default setting of SIF function item to set the specifications. Default setting of SIF function item Module 1 MODBUS Factory Name Setting and selection range address default Number of the QTC1 module 5280 1 to 16 modules connected by SIF function to 0064 Start number of PLC register...
  • Page 155 (3) Response waiting time of PLC Sets the retransmission interval time when there is no response from the PLC. Set it in the range of 100 to 3000 ms. (4) Start waiting time of PLC Set the time until communication with the PLC starts after this instrument is turned on. Set it in the range of 1 to 255 seconds.
  • Page 156 Monitoring item 1 selection (Initial value: 31) Number Selection Description PV resding (including difference) Status 1 Status 2 Heater current value Event input Event output PV resding (true value) Reading ambient temperature Not used Not used Not used Not used Not used Not used Monitoring item 2 selection (Initial value: 0)
  • Page 157 Monitoring item 3 selection (Initial value: 0) Number Selection Description Energizing integrated time of error history 7 Energizing integrated time of error history 8 Energizing integrated time of error history 9 Energizing integrated time of error history 10 Contact switching total number of times setting (High) Contact switching total number of times setting (Low) Total energizing time (High, Low) Heater accumulated energizing time (High)
  • Page 158 Select any of the setting items 1 to 7. 1: Enable, 0: Disable. The maximum number of items that can be selected is 20. This is common for all channels in the control module, and excess data is invalid. Setting item 1 selection (Initial value: 57827) Setting request Selection Description...
  • Page 159 Setting item 2 selection (Initial value: 2721) Setting request Selection Description item number Alarm 4 type selection Alarm 1 hysteresis setting Alarm 2 hysteresis setting Alarm 3 hysteresis setting Alarm 4 hysteresis setting Alarm 1 value setting Alarm 1 high limit value setting Alarm 2 value setting Alarm 2 high limit value setting Alarm 3 value setting...
  • Page 160 Setting item 4 selection (Initial value: 0) Setting request Selection Description item number Input type selection Temperature unit selection Scaling high limit setting Scaling low limit setting Input sampling selection Direct/reverse action selection AT action mode selection AT bias setting AT gain setting Alarm 1 value 0 Enabled/ Disabled selection Alarm 2 value 0 Enabled/ Disabled selection...
  • Page 161 Setting item 6 selection (Initial value: 0) Setting request Selection Description item number Control function selection Cooling P-band setting Cooling integral time setting Cooling differential time setting Cooling proportional cycle setting Cooling ON/OFF hysteresis setting Overlap/Dead band setting Cooling output high limit setting Cooling output low limit setting Cooling action mode selection Slave scale high limit setting...
  • Page 162 (7) PLC register check Click “PLC register” tab or [Next] button. Display “PLC register” screen. Check the settings. (Fig. 12.3.3-5) (8) Transfer of setting values Click [Forward] button. Transfer the setting value to module 1. (Fig. 12.3.3-6) (9) Turn OFF → ON the QMC-1 power. Turn OFF →...
  • Page 163 [Useful Functions] Copying the set values of modules When you select the source module and the destination module, and then click the Copy Setting Value button, the selected contents of the monitor items 1 to 3 and the setting items 1 to 7 can be copied by the Copy Setting Value of Module in the System tab of Module 1.
  • Page 164 Set “(2) Start number of PLC register”, “(5) Monitoring items 1 to 3 selection”, “(6) Setting items 1 to 7 selection”,and then “(7) PLC register check”, “(8) Transfer of setting values”, “(9) Turn the QMC1-MT power OFF → ON”. Module 2...
  • Page 165 (11) Setting the specifications for Module 3 and later The SIF function initial setting items for Module 3 and later are shown below. If necessary, set the specifications in the same way. Module 3 MODBUS Factory Name Setting and selection range address default 0066...
  • Page 166 Module 4 MODBUS Factory Name Setting and selection range address default 0067 Start number of PLC register 0 to 65535 1300 0077 Reservation (Not used) 0087 Reservation (Not used) 0097 Reservation (Not used) 00A7 Reservation (Not used) 00B7 Monitoring item 1 selection See “Monitoring item 1 selection”...
  • Page 167 Module 6 MODBUS Factory Name Setting and selection range address default 0069 Start number of PLC register 0 to 65535 1500 0079 Reservation (Not used) 0089 Reservation (Not used) 0099 Reservation (Not used) 00A9 Reservation (Not used) 00B9 Monitoring item 1 selection See “Monitoring item 1 selection”...
  • Page 168 Module 8 MODBUS Factory Name Setting and selection range address default 006B Start number of PLC register 0 to 65535 1700 007B Reservation (Not used) 008B Reservation (Not used) 009B Reservation (Not used) 00AB Reservation (Not used) 00BB Monitoring item 1 selection See “Monitoring item 1 selection”...
  • Page 169 Module 10 MODBUS Factory Name Setting and selection range address default 006D Start number of PLC register 0 to 65535 1900 007D Reservation (Not used) 008D Reservation (Not used) 009D Reservation (Not used) 00AD Reservation (Not used) 00BD Monitoring item 1 selection See “Monitoring item 1 selection”...
  • Page 170 Module 12 MODBUS Factory Name Setting and selection range address default 006F Start number of PLC register 0 to 65535 2100 007F Reservation (Not used) 008F Reservation (Not used) 009F Reservation (Not used) 00AF Reservation (Not used) 00BF Monitoring item 1 selection See “Monitoring item 1 selection”...
  • Page 171 Module 14 MODBUS Factory Name Setting and selection range address default 0071 Start number of PLC register 0 to 65535 2300 0081 Reservation (Not used) 0091 Reservation (Not used) 00A1 Reservation (Not used) 00B1 Reservation (Not used) 00C1 Monitoring item 1 selection See “Monitoring item 1 selection”...
  • Page 172 Module 16 MODBUS Factory Name Setting and selection range address default 0073 Start number of PLC register 0 to 65535 2500 0083 Reservation (Not used) 0093 Reservation (Not used) 00A3 Reservation (Not used) 00B3 Reservation (Not used) 00C3 Monitoring item 1 selection See “Monitoring item 1 selection”...
  • Page 173 PLC data register layout In the example of the initial setting of the SIF function, the layout of the PLC data registers is as follows. Information between Module number QMC1-MT and PLC Monitoring item Setting item (System data) Module 1...

  • Page 174: Mounting Of Qmc1-Mt

    12.4 Mounting of QMC1-MT Mounting to the DIN rail Lower the lock lever of this instrument. (The lock lever of this instrument has a spring structure, but if lower it in the direction of the arrow until it stops, it will be locked in that position.) Hook the part of this instrument onto the top of the DIN rail.
  • Page 175 This section describes an example of mounting this instrument and QTC1-40 on the DIN rail. Lower the lock lever of the QTC1-40, and mounting the QTC1-40 to the DIN rail. Slide the QTC1-40 to the left and connect the connectors to each other. QMC1-MT QTC1-40 (Fig. 12.4-4) Raise the lock lever of the QTC1-40.
  • Page 176 Insert a flat blade screwdriver into the lock lever of the QTC1-40 and lower the lock lever until it stops. Slide the QTC1-40 to the right side and disconnect it from the connector, then remove it from the DIN rail. QMC1-MT QTC1-40 (Fig. 12.4-6) 12-30...

  • Page 177: Wiring Of Qmc1-Mt

    12.5 Wiring of QMC1-MT 12.5.1 Wiring for Power Supply The power terminal is located on the base of this instrument. Wiring by the following procedure. (1) Case removal Push the release lever on the top of this instrument to unlock it.
  • Page 178 (3) Case mounting Hook the case on the lower part of this instrument. Mount the case so that the lower part of this instrument is the fulcrum and covers the release lever. There is a clicking sound. Case Release lever Base (Fig.

  • Page 179: Communication With Mitsubishi Electric Corporation Plc

    12.6 Communication with Mitsubishi Electric Corporation PLC This section describes communication with the PLC manufactured by Mitsubishi Electric Corporation. 12.6.1 Communication parameter setting Set the IP address, subnet mask, gateway, and port number of the PLC to be used. Check with the system administrator before setting these parameters.
  • Page 180 The following is an example procedure for setting communication parameters when using the Ethernet interface unit (QJ71E71-100). (1) Network Parameter Setting Click Project window → Parameter → Network Parameter → Ethernet / CC IE / MELSECNET. (Fig. 12.6.1-1) Item Setting example Network Type Ethernet Start I/O No.
  • Page 181 (2) Ethernet Operation Setting Click Project window → Parameter → Network Parameter → Ethernet / CC IE / MELSECNET → select "Ethernet" in Network Type → click "Operation Setting". (Fig. 12.6.1-2) Item Setting example Communication Data Code Binary Code Initial Timing Always wait for OPEN (Communication possible at STOP time) Input Format...
  • Page 182 (3) Ethernet Open Setting Click Project window → Parameter → Network Parameter → Ethernet / CC IE / MELSECNET → select "Ethernet" in Network Type→ click "Open Setting". (Fig. 12.6.1-3) Item Setting example IP Address/Port No. Input Format Protocol Open System Unpassive Fixed Buffer Send...

  • Page 183: Connect To Ethernet

    Either a straight cable or a crossover cable can be used for the Ethernet cable (LAN cable). Connection example for using a switching hub Ethernet Switching hub Ethernet cable (LAN cable) connection Ethernet cable (LAN cable) Control module Communication expansion QTC1-40 module QMC1-MT (Fig. 12.6.2-1) 12-37...

  • Page 184: Communication Procedure

    PLC. Ethernet Module 2 QTC1-40 (Slave) Communication expansion module QMC1-MT (Master) Module 1 QTC1-40 (Slave) (Fig. 12.6.3-1) (1) This instrument becomes the master and collects the valid monitor items and setting items of module 1 and module 2 [QTC1-40 (slave)].

  • Page 185: Handshake Between Qmc1-Mt And Plc

    Setting item 40WORD reading 2 QMC1-MT reads the data of the setting item of PLC register 130 to 169. However, if the setting request of the setting request command is not set, it is skipped.
  • Page 186 Setting item 40WORD reading 2 QMC1-MT reads the data of the setting item of PLC register 130 to 169. However, if the setting request of the setting request command is not set, it is skipped.

  • Page 187: Plc Communication Data Map

    Setting item 7 selection 0164 0165 PLC data register layout Module 1 Module 2 QTC1-40 (Slave) QTC1-40 (Slave) Information between QMC1-MT D1000 to D1009 D1100 to D1109 and PLC (System data) Monitor item D1010 to D1029 D1110 to D1129 Setting item...
  • Page 188 D1009 (*): When setting request and monitoring request are set at the same time, processing is done in the order of setting request (reading PLC register data for QMC1-MT) and monitoring request (writing data to PLC register). If the setting request is set during the monitoring request, the monitor request is discarded and the monitoring request is made again after the setting request.
  • Page 189 D1109 (*): When setting request and monitoring request are set at the same time, processing is done in the order of setting request (reading PLC register data for QMC1-MT) and monitoring request (writing data to PLC register). If the setting request is set during the monitoring request, the monitor request is discarded and the monitoring request is made again after the setting request.
  • Page 190 Module 1, Module 2 Details of monitoring item and setting item between QMC1-MT and PLC Module 1 QTC1-40 (Slave) PLC Data Data item Channel Attribute Data register PV reading D1010 Value of control range (*) (including difference) D1011 Corresponding to Input calculation...
  • Page 191 PLC Data Data item Channel Attribute Data register Status flag 1 D1022 B0: Control Enable/Diseble D1023 0: Diseble 1: Enable D1024 B1: AT Perform/Cancel D1025 0: Cancel 1: Perform B2: Auto/Manual control 0: Automatic 1: Manual B3: Control output 0: OFF 1: ON B4: Input error (Overscale) 0: Normal...
  • Page 192 PLC Data Data item Channel Attribute Data register Status flag 2 D1026 B0: Auto balance control D1027 0: None D1028 1: During auto balance control D1029 B1: Not used B2: Not used B3: Not used B4: Cold junction error 0: Normal 1: Error B5: Sensor error 0: Normal...
  • Page 193 PLC Data Data item Channel Attribute Data register Alarm 1 action selection D1054 0: No event D1055 1: High limit alarm D1056 2: Low limit alarm D1057 3: High/Low limits alarm 4: High/Low limits range alarm Alarm 2 action selection D1058 5: Process high alarm D1059...
  • Page 194 Module 2 QTC1-40 (Slave) PLC Data Data item Channel Attribute Data register PV reading D1110 QTC1-40 (Slave) (including difference) D1111 Same as module address 1 D1112 D1113 MV reading D1114 QTC1-40 (Slave) D1115 Same as module address 1 D1116 D1117 SV reading D1118 QTC1-40 (Slave)
  • Page 195 PLC Data Data item Channel Attribute Data register Alarm 1 action selection D1154 QTC1-40 (Slave) D1155 Same as module address 1 D1156 D1157 Alarm 2 action selection D1158 D1159 D1160 D1161 Alarm 3 action selection D1162 D1163 D1164 D1165 Alarm 4 action selection D1166 D1167 D1168...

  • Page 196: Exchange Of Data Between Qmc1-Mt And Plc

    The setting request command is a setting request and a monitoring request. B0: Setting request (PLC → QMC1-MT) This command requests QMC1-MT to read out the data of the setting item of PLC register. B1: Monitoring request (QMC1-MT → PLC) This command requests QMC1-MT to write the data of the setting item to the PLC register.

  • Page 197: Data Settings

    (2) Set B1 (monitoring request) of setting request command Set 1 (decimal: 2) to B1 (monitoring request) of D1006 (setting request command). QMC1-MT starts to write the data of the setting item to the PLC register. (3) Check B1 (monitoring request) of setting request command B1 (monitoring request) of D1006 (setting request command) is cleared when writing the data of the setting item to the PLC register is completed.
  • Page 198 13 Specifications 13.1 Standard Specifications Power supply Power supply 24 V DC voltage Allowable voltage fluctuation: 20 to 28 V DC Power consumption 4 W or less Inrush current Max. 10 A Circuit insulation configuration Power terminal Insulation FG terminal Communication (Fig.
  • Page 199 Applicable standard EN61010-1 (Pollution degree 2) EC Directive EMI: EN61326 Radiated interference field strength: EN55011 Group1 ClassA EMS: EN61326 Setting Structure QMC1-MT IP Set the third and fourth bytes of the QMC1-MT IP address using a rotary address setting switch. 13-2...
  • Page 200 Standard Function Ethernet Connects to the control module (QTC1- ) for Ethernet communication communication (MODBUS/TCP or SIF function). MODBUS/TCP Physical layer 10BASE-T/100BASE-TX automatic recognition User layer MODBUS/TCP Number of connections: 1 SIF function This function reads and writes various data to PLC registers using the communication protocol of Mitsubishi Electric Corporation's PLC MELSEC.
  • Page 201 (SWC-QMC101M). (1) Reading and setting items required for Ethernet communication (protocol selection, QMC1-MT IP address setting, etc.) (2) Operation status reading (3) Read and set the each setting value of the SIF function...
  • Page 202 Refer to “12 Communication with error indicator (ERR) communication (*) of Ethernet. PLC Using SIF Function” (P.12-1) to lights up for 1 second. check the specification settings of QMC1-MT and communication parameters of PLC. (*): Communication protocol for Mitsubishi Electric Corporation PLC MELSEC. 14-1...
  • Page 203 Check the Ethernet cable (LAN failure of the Ethernet cable (LAN cable). cable)? Is the QMC1-MT IP address set Refer to “5 Setting of QMC1-MT IP correctly? Address” (P.5-1)” to check the settings. Turned the power off → on after...
  • Page 204 SHINKO TECHNOS CO., LTD. OVERSEAS DIVISION Head Office: 2-5-1, Senbahigashi, Minoo, Osaka, 562-0035, Japan [URL] https://shinko-technos.co.jp/e/ +81-72-727-6100 Tel: [E-mail] overseas@shinko-technos.co.jp Fax: +81-72-727-7006 No. QMC14E1 2022.11...

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