Návod k obsluze acse QAM1-4 4bodového analogového I/O modulu

Obsah skrýt

1 acse QAM1-4 4 Points Analog I O Module

2 Specifikace

3 Informace o produktu

4 Dokumenty / zdroje

4.1 Reference

acse QAM1-4 4 Points Analog I O Module

Specifikace

Product Name: 4 points Analog I/O Module QAM1-4
Výrobce: ACSE

Webmísto: https://acse.pl

Informace o produktu

The 4 points Analog I/O Module QAM1-4 is designed to provide analog input and output functionality for various applications. This module is equipped with safety features and precautions to ensure proper usage and prevent accidents.

Bezpečnostní opatření při instalaci
Pozor: Avoid setting the instrument directly on or near flammable materials, even though the case is made of flame-resistant resin.

Bezpečnostní opatření pro zapojení
Pozor: Properly follow the wiring instructions provided in the manual to ensure safe and efficient operation of the module.

Bezpečnostní opatření pro provoz a údržbu
Pozor: Regular maintenance of the module is essential to ensure optimal performance. Follow the maintenance guidelines provided in the manual.

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4 kanalowy modul wej/wyj analogowych QAM1-4 – https://acse.pl
4 points Analog I/O Module
QAM1-4
NÁVOD K POUŽITÍ

Předmluva
Thank you for purchasing our 4 points analog I/O module [QAM1-4]. This manual contains instructions for the mounting, functions, operations and notes when operating the 4 points analog I/O module [QAM1-4]. To prevent accidents arising from the misuse of this instrument, please ensure the operator receives this manual

Poznámky
· Tento nástroj by měl být používán v souladu se specifikacemi popsanými v návodu. Pokud se nepoužívá podle specifikací, může selhat nebo způsobit požár.
· Ujistěte se, že dodržujete varování, upozornění a upozornění. Pokud nebudou dodrženy, může dojít k vážnému zranění nebo poruše.

· Obsah tohoto návodu k obsluze podléhá změnám bez předchozího upozornění. · Věnovali jsme pozornost tomu, aby byl obsah tohoto návodu k obsluze správný, ale pokud nějaký existuje
doubts, mistakes or questions, please inform our sales department. · This instrument is designed to be installed on a DIN rail within a control panel indoors. If it is not, measures
je třeba zajistit, aby se obsluha nedotýkala silových svorek nebo jiných vysokonapěťových svorektage sections. · 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
tohoto produktu, včetně jakéhokoli nepřímého poškození.

BEZPEČNOSTNÍ OPATŘENÍ (Před použitím našich produktů si přečtěte tato upozornění.)
Bezpečnostní opatření jsou rozdělena do kategorií: „Varování“ a „Pozor“. V závislosti na okolnostech mohou mít postupy označené upozorněním vážné následky, proto se řiďte pokyny pro použití.
Varování Postupy, které mohou vést k nebezpečným podmínkám a způsobit smrt nebo vážné zranění, pokud nejsou prováděny správně.

Pozor

Postupy, které mohou vést k nebezpečným podmínkám a způsobit povrchové až střední zranění nebo fyzické poškození nebo mohou degradovat nebo poškodit produkt, pokud nejsou prováděny správně.

Varování
· Aby nedošlo k úrazu elektrickým proudem nebo požáru, smí s vnitřní sestavou manipulovat pouze Shinko nebo kvalifikovaný servisní personál.
· Aby nedošlo k úrazu elektrickým proudem, požáru nebo poškození nástroje, výměnu dílů smí provádět pouze společnost Shinko nebo kvalifikovaný servisní personál.

Bezpečnostní opatření
· Abyste zajistili bezpecné a správné použití, pred pouzitím tohoto pístroje si pozorn proctte tento návod a porozumte mu.
· Tento přístroj je určen k použití pro průmyslové stroje, obráběcí stroje a měřicí zařízení. Ověřte správné použití po konzultaci účelu použití s naší agenturou nebo hlavní kanceláří. (Nikdy nepoužívejte tento nástroj pro lékařské účely, se kterými jsou spojeny lidské životy.)
· External protection devices such as protective equipment against excessive temperature rise, etc. must be installed, as malfunction of this product could result in serious damage to the system or injury to personnel. Proper periodic maintenance is also required.
· Tento nástroj musí být používán za podmínek a prostředí popsaných v tomto návodu. Společnost Shinko Technos Co., Ltd. nepřijímá odpovědnost za jakékoli zranění, ztrátu života nebo škody, ke kterým dojde v důsledku používání přístroje za podmínek, které nejsou jinak uvedeny v této příručce.

iii

Opatrnost s ohledem na nařízení o kontrole exportního obchodu
Abyste zabránili použití tohoto nástroje jako součásti nebo použití při výrobě zbraní hromadného ničení (tj. vojenských aplikací, vojenského vybavení atd.), prošetřete prosím koncové uživatele a konečné použití tohoto nástroje. V případě dalšího prodeje se ujistěte, že tento nástroj není nelegálně vyvezen.
Opatření pro použití
1. Bezpečnostní opatření při instalaci
Pozor
Tento přístroj je určen k použití za následujících podmínek prostředí (IEC61010-1): · Overvoltage Category II, Pollution degree 2
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(14°F to 122°F) that does not change rapidly, and no icing · An ambient non-condensing humidity of 35 to 85%RH · No large capacity electromagnetic switches or cables through which large current is flowing · No water, oil or chemicals or the vapors of these substances can come into direct contact with the unit. · When installing this unit within a control panel, please note that ambient temperature of this unit not the ambient temperature of the control panel must not exceed 50°C (122°F). Otherwise the life of electronic components (especially electrolytic capacitor) may be shortened.
* Nepokládejte tento nástroj přímo na hořlavý materiál nebo do jeho blízkosti, i když je pouzdro tohoto nástroje vyrobeno z nehořlavé pryskyřice.
2. Bezpečnostní opatření pro zapojení
Pozor
· Do not leave bits of wire in the instrument, because they could cause a fire and malfunction. · When wiring, use a crimping pliers and a solderless terminal with an insulation sleeve in which an M3
screw fits. · The terminal block of this instrument has a structure that is wired from the left side.
Be sure to insert the lead wire into the terminal of the instrument from the left side and tighten the terminal screw. · Tighten the terminal screw using the specified torque. If excessive force is applied to the screw when tightening, the screw or case may be damaged. · Do not pull or bend the lead wire with the terminal as the base point during or after wiring work. It may cause malfunction. · This instrument does not have a built-in power switch, circuit breaker and fuse. It is necessary to install a power switch, circuit breaker and fuse near the instrument. (Recommended fuse: Time-lag fuse, rated voltage 250 V AC, rated current 2 A) · When wiring the power supply (24 VDC), do not confuse the polarities. · Do not apply a commercial power source to the sensor which is connected to the input terminal nor allow the power source to come into contact with the sensor. · Use the thermocouple and compensation lead wire that match the sensor input specifications of the instrument. · Use a RTD of 3-conducting wire type that meets the sensor input specifications of this instrument. · Separate the input line (thermocouple, RTD, etc.) from the power line and load line.
iv

3. Bezpečnostní opatření pro provoz a údržbu
Pozor
· 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.
Práce na terminálu nebo jeho dotyk se zapnutým napájením může způsobit vážné zranění nebo smrt v důsledku úrazu elektrickým proudem. · Při čištění nástroje používejte měkký, suchý hadřík. (Látky na bázi alkoholu mohou jednotku zašpinit nebo znehodnotit.) · Protože je panelová cást zranitelná, dejte pozor, abyste na ni nevyvinuli tlak, nepoškrábali ji nebo nenarazili tvrdým objektem.

The following abbreviations are used in the text, figures, and tables of this manual.

Symbol

Období

Process variable (PV)

About description of reference page In the case of “Refer to 2-2.”, it is described as (P.2-2).

How to read this manual · When connecting to host computer Refer to “1 Overview” to “12 Operation”. Refer to “15 Action Explanation” to “18 Troubleshooting” as necessary.

· When connecting to PLC Refer to “1 Overview” to “3 Name and Functions” and “13 Communication with PLC Using SIF Function”. Refer to “15 Action Explanation” to “18 Troubleshooting” as necessary.

· When connecting to CUnet Refer to “1 Overview” to “3 Name and Functions” and “14 CUnet Communication”. Refer to “15 Action Explanation” to “18 Troubleshooting” as necessary.

Obsah

1
1.1 1.2 1.3
1.4
2
2.1

Nadview …………………………………………………………………………1-1

Nadview of Analog I/O Module QAM1-4…………………………………………………………….1-1

Description of Module………………………………………………………………………………………1-2

System Configuration ………………………………………………………………………………………1-3

1.3.1 Connecting to Host Computer…………………………………………………………………………………. 1-3 1.3.2 Connecting to PLC ………………………………………………………………………………………………… 1-5 1.3.3 Connecting to CUnet……………………………………………………………………………………………… 1-8
Parameter Passing………………………………………………………………………………………….1-9

1.4.1

Using the Analog I/O Module QAM1-4P (with power supply / upper communication function) 1-9 Using the Communication Expansion Module QMC1 ………………………………………………… 1-9

Model ……………………………………………………………………………… 2-1
Model ……………………………………………………………………………………………………………2-1 How to Read the Model Label …………………………………………………………………………..2-3

3 Name and Functions …………………………………………………………3-1
3.1 Analog I/O Module QAM1-4 ……………………………………………………………………………..3-1

4 Procedure Before Starting Operation …………………………………..4-1

5
5.1
6
6.1 6.2 6.3

Communication Parameter Setting ……………………………………..5-1
Communication Parameter Setting…………………………………………………………………….5-1
5.1.1 Selection of Communication Specifications………………………………………………………………. 5-1 5.1.2 Setting of Module Address……………………………………………………………………………………… 5-3
Mounting…………………………………………………………………………. 6-1
Selection of Location ……………………………………………………………………………………….6-2 External Dimensions (Scale: mm) ……………………………………………………………………..6-2 Mounting……………………………………………………………………………………………………….. 6-3

7
7.1 7.2 7.3
7.4
7.5
8

Wiring ……………………………………………………………………………..7-1
Recommended Terminal…………………………………………………………………………………..7-1 Using Terminal Cover Precaution ………………………………………………………………………7-2 Terminal Arrangement ……………………………………………………………………………………..7-2
7.3.1 Input and Output Terminal Arrangement ………………………………………………………………….. 7-2 7.3.2 Power Supply and Serial Communication Terminal Arrangement ……………………………….. 7-3
Wiring ……………………………………………………………………………………………………………7-4
7.4.1 Wiring for Power Supply and Communication …………………………………………………………… 7-4 7.4.2 Wiring for Input and Output…………………………………………………………………………………….. 7-6
Connection of Host Computer and Analog I/O Module QAM1-4……………………………..7-7
7.5.1 Zapojení Přample for Using USB Communication Cable CMC-001-1 (Sold separately)……. 7-7 7.5.2 Wiring Example for Using Communication Converter IF-400 (Sold separately) …………….. 7-8
Setting of Specification………………………………………………………8-1

8.1 Preparation…………………………………………………………………………………………………….8-1
8.1.1 Preparation of USB Communication Cable and Console Software ……………………………… 8-1 8.1.2 Connecting to Host Computer…………………………………………………………………………………. 8-1
8.2 Specification Setting………………………………………………………………………………………..8-5
8.2.1 Monitoring Value Setting ………………………………………………………………………………………… 8-7 8.2.2 Input Setting …………………………………………………………………………………………………………. 8-9 8.2.3 Standard Function Setting ……………………………………………………………………………………. 8-12 8.2.4 Option Function Setting ……………………………………………………………………………………….. 8-13

9 Communication Procedure…………………………………………………9-1

10 MODBUS Protocol ………………………………………………………….10-1
10.1 Transmission Mode ……………………………………………………………………………………….10-1 10.2 Data Communication Interval ………………………………………………………………………….10-1 10.3 Message Configuration ………………………………………………………………………………….10-1 10.4 Message Example…………………………………………………………………………………………10-3

11 Communication Command List ………………………………………… 11-1

11.1 Communication Command List ………………………………………………………………………. 11-1

11.2 Data………………………………………………………………………………………………………….. 11-10

11.3

11.2.1 Notes About Write/Read Command …………………………………………………………………….. 11-10 11.2.2 Write Command ………………………………………………………………………………………………… 11-10 11.2.3 Read Command ………………………………………………………………………………………………… 11-10
Negative Acknowledgement …………………………………………………………………………. 11-10

11.3.1 11.3.2 11.3.3

Error Code 2 (02H)…………………………………………………………………………………………….. 11-10 Error Code 3 (03H)…………………………………………………………………………………………….. 11-10 Error Code 17 (11H)…………………………………………………………………………………………… 11-10

11.4 Notes on Programming Monitoring Software…………………………………………………… 11-11

11.4.1 How to Speed up the Scan Time …………………………………………………………………………. 11-11 11.4.2 Notes on Batch Transmission of All Setting Values ……………………………………………….. 11-11
11.5 Initialization Items by Changing Settings ………………………………………………………… 11-11

12 Operation……………………………………………………………………….12-1
12.1 Start measurement………………………………………………………………………………………..12-1 12.2 Correct PV……………………………………………………………………………………………………12-3

13 Communication with PLC Using SIF Function …………………….13-1

13.1 Flow of Before Operation ……………………………………………………………………………….13-2

13.2 PLC Communication Parameter Setting……………………………………………………………13-3

13.3 Mounting………………………………………………………………………………………………………13-6

13.4 Wiring ………………………………………………………………………………………………………….13-8

13.4.1 Wiring for Power Supply and Communication …………………………………………………………. 13-8 13.4.2 Wiring for Input and Output…………………………………………………………………………………. 13-10

13.5 Connection of PLC and Control Module QTC1-4P …………………………………………… 13-11

13.6 Specification Setting…………………………………………………………………………………….13-13

13.6.1 13.6.2 13.6.3

Preparation of USB Communication Cable and Console Software ………………………….. 13-13 Connecting to Host Computer……………………………………………………………………………… 13-13 Specification Setting…………………………………………………………………………………………… 13-16
vii

13.7 Operation……………………………………………………………………………………………………13-30
13.7.1 Communication Procedure …………………………………………………………………………………. 13-30 13.7.2 PLC Communication Data Map …………………………………………………………………………… 13-31 13.7.3 Data Exchange between Control Module QTC1-4 and P-PLC ………………………………… 13-39 13.7.4 Data Settings…………………………………………………………………………………………………….. 13-40
14 CUnet Communication …………………………………………………….14-1
14.1 Flow of Before Operation ……………………………………………………………………………….14-2 14.2 Setting CUnet communication specifications……………………………………………………..14-3 14.3 Mounting………………………………………………………………………………………………………14-6 14.4 Wiring ………………………………………………………………………………………………………….14-7
14.4.1 Wiring for Power Supply and Communication …………………………………………………………. 14-7 14.4.2 Wiring for Input and Output…………………………………………………………………………………… 14-9 14.4.3 Wiring Example of CUnet Communication Line …………………………………………………….. 14-10
14.5 Global Memory (GM) …………………………………………………………………………………… 14-11 14.6 Software ……………………………………………………………………………………………………. 14-11 14.7 Global Memory (GM) Map …………………………………………………………………………….14-12 14.8 Attached Function ……………………………………………………………………………………….14-13
15 Action Explanation…………………………………………………………..15-1
15.1 Standard Function …………………………………………………………………………………………15-1
15.1.1 Input Scaling Function …………………………………………………………………………………………. 15-1 15.1.2 Output Scaling Function……………………………………………………………………………………….. 15-1 15.1.3 Sensor Correction Factor ……………………………………………………………………………………… 15-1 15.1.4 Sensor Correction ……………………………………………………………………………………………….. 15-2
15.2 Attached Function …………………………………………………………………………………………15-3
15.2.1 Warm-up Display…………………………………………………………………………………………………. 15-3 15.2.2 Power Failure Countermeasure …………………………………………………………………………….. 15-3 15.2.3 Self-Diagnosis …………………………………………………………………………………………………….. 15-3 15.2.4 Automatic Cold Junction Temperature Compensation ……………………………………………… 15-3 15.2.5 PV Filter Time Constant Setting…………………………………………………………………………….. 15-3 15.2.6 Moving Average Count Setting ……………………………………………………………………………… 15-4 15.2.7 Overscale …………………………………………………………………………………………………………… 15-4 15.2.8 Underscale …………………………………………………………………………………………………………. 15-4 15.2.9 Sensor Error ……………………………………………………………………………………………………….. 15-4 15.2.10 Cold Junction Error ……………………………………………………………………………………………… 15-5 15.2.11 ADC Error…………………………………………………………………………………………………………… 15-5 15.2.12 Contact Switching Total Number of Times ……………………………………………………………… 15-5 15.2.13 Error History ……………………………………………………………………………………………………….. 15-6
16 Maintenance…………………………………………………………………..16-1
17 Specifications …………………………………………………………………17-1
17.1 Standard Specifications………………………………………………………………………………….17-1 17.2 Optional Specifications ………………………………………………………………………………… 17-11
18 Troubleshooting………………………………………………………………18-1
18.1 Upper Communication……………………………………………………………………………………18-1
viii

18.2 CUnet Communication …………………………………………………………………………………..18-2 18.3 PV Reading Value …………………………………………………………………………………………18-2 18.4 Status Flag 1 ………………………………………………………………………………………………..18-3 18.5 Status Flag 2 ………………………………………………………………………………………………..18-4
ix

1 Konecview
1.1 Konecview of Analog I/O Module QAM1-4
This instrument is a 4 points analog I/O module. A multi-point measurement system can be configured via a host computer or PLC. A maximum of 16 instruments can be connected to the BUS, and a maximum of 64 points can be measured.One block connected to BUS is called “1 unit”.
1-1

1.2 Description of Module
Analog I/O module with 4 points specifications. Terminal block type with 4 individual I/O channels. The following options are available. · Power supply / communication option
With power supply / upper communication function With power supply / CUnet communication function
Depending on whether have the option, the panel design differs. There is a triangle mark on the upper left of the panel, when the power supply / communication option is not available.
QAM1-40 – No options
triangle mark

(Obr. 1.2-1)
QAM1-4P – With power supply / upper communication function

QAM1-4C – –
S napájením / komunikační funkcí CUnet

(Fig. 1.2-2) 1-2

1.3 Konfigurace systému
1.3.1 Connecting to Host Computer When connecting to the host computer, one analog I/O module QAM1-4P (with power supply / upper communication function) is required for host communication. The second and subsequent power lines to the control module are BUS-connected by the connector. For the second and subsequent control modules, use the analog I/O module QAM1-40 (no power supply / communication option). Maximum of 16 control modules can be connected.
Konfigurace napřample of host computer and QAM1-4P, QAM1-40
Maximálně 16 řídicích modulů
RS-485

Hostitelský počítač

Analogový I/O modul QAM1-40 (žádné napájení / možnost komunikace)

Analogový I/O modul QAM1-4P (s napájením / horní komunikační funkcí)

(Obr. 1.3-1)

1-3

A maximum of 16 units can be connected by connecting the communication expansion module QMC1s. Refer to communication expansion module QMC1 instruction manual for detail.
Konfigurace napřample of host computer and QMC1, QAM1-40 Maximum of 16 control modules

RS-485

Hostitelský počítač

Analogový I/O modul QAM1-40 (žádné napájení / možnost komunikace)
Communication expansion module QMC1

Maximálně 16 řídicích modulů

Maximálně 16 jednotek
Analog I/O module QAM1-40 (no power supply / communication option) Communication expansion module QMC1

Maximálně 16 řídicích modulů

Analog I/O module QAM1-40 (no power supply / communication option) Communication expansion module QMC1
1-4

(Fig. 1.3-2) 1.3.2 Connecting to PLC
(1) When connecting to MELSEC Q, QnA series by Mitsubishi Electric Corporation When connecting to the MELSEC Q, QnA series by Mitsubishi Electric Corporation, one control module QTC1-2P (with power supply / communication option) or QTC1-4P (with power supply / communication option) is required for upper communication. Use the SIF function (Smart InterFace, programless communication function) (P.13-1). The second and subsequent power lines to the analog I/O module are BUS-connected by the connector. For the second and subsequent control modules, use the analog I/O module QAM1-40 (no power supply / communication option). Maximum of 16 control modules can be connected.
Konfigurace napřample of host computer and QTC1-4P, QAM1-40
Maximálně 16 řídicích modulů

RS-485

PLC

Analog I/O module QAM1-40

Control module QTC1-4P

(no power supply / communication option)

(with power supply / communication

volba)

(Obr. 1.3-3)

1-5

(2) When connecting to PLC by Mitsubishi Electric Corporation, PLC by OMRON Corporation and PLC by KEYENCE CORPORATION
When connecting to the PLC by Mitsubishi Electric Corporation, PLC by OMRON Corporation (*) and PLC by KEYENCE CORPORATION, one communication expansion module QMC1 is required for upper communication per unit. The power and communication lines to the analog I/O module are BUS-connected with the connector. Use the analog I/O module QAM1-40 (no power supply / communication option). Maximum of 16 control modules can be connected. (*): When connecting to an OMRON PLC with the SIF function of communication expansion
module QMC1, the RS-485 communication type cannot be used. Only RS-422A communication type can be connected. Configuration example of PLC and QMC1, QAM1-40
Maximálně 16 řídicích modulů
RS-422A RS-485
PLC Analog I/O module QAM1-40
(no power supply / communication option) Communication expansion module QMC1
(Obr. 1.3-4)
1-6

A maximum of 16 units can be connected by connecting the communication expansion module QMC1s. Refer to communication expansion module QMC1 instruction manual for detail. Configuration example of PLC and QMC1, QAM1-40
Maximálně 16 řídicích modulů
RS-485
PLC Analog I/O module QAM1-40
(no power supply / communication option) Communication expansion module QMC1
Maximálně 16 řídicích modulů
Maximum of 16 units Analog I/O module QAM1-40 (no power supply / communication option) Communication expansion module QMC1
Maximálně 16 řídicích modulů
Analog I/O module QAM1-40 (no power supply / communication option) Communication expansion module QMC1
1-7

(Fig. 1.3-5) 1.3.3 Connecting to CUnet
When connecting to CUnet, the analog I/O module QAM1-4C (with power supply / CUnet communication function) is required for CUnet communication. Maximum of 64 control modules can be connected.
Konfigurace napřample of host computer (master board) and QAM1-4C

Host computer (master board)

CUnet

Maximálně 64 řídicích modulů

Analog I/O module QAM1-4C (with power supply / CUnet communication function)
(Obr. 1.3-6)

1-8

1.4 Parameter Passing
1.4.1 Using the Analog I/O Module QAM1-4P (with power supply / upper communication function) When the analog I/O module QAM1-4P (with power supply / upper communication function) is used, the parameter passing is as shown below.

Host computer (1) Set and monitor
the Analog I/O module.

QAM1-4P
(2) Controls by receiving the send data from the host computer.

(3) Returns response data to the host computer.

(Obr. 1.4-1)

1.4.2 Using the Communication Expansion Module QMC1 When the communication expansion module QMC1 is used, the parameter passing is as shown below. Refer to the communication expansion module QMC1 instruction manual for detail.

Host computer (1) Set and monitor
the Analog I/O module.

QMC1
(2) Controls by receiving the send data from the host computer.
(3) Returns response data to the host computer.
(4) Set and monitor the Analog I/O module QAM1-40.

QAM1-40 (5) Controls by
receiving the send data from QMC1.

(Obr. 1.4-2)

(6) Returns response data to the QMC1.

1-9

Model 2
Model 2.1

QAM1-4

Moc

supply /

komunikovat

ion option C

– –

Typ zapojení

Typ I/O (*)

Analog output 1 Analog output 2 Analog output 3

-0 -1 -2
–

Analogový výstup 4

Analog intput 1 Analog intput 2 Analog intput 3 Analog intput 4

(*): For input-only type, output code selection is invalid.

Pro typ pouze s výstupem je výběr vstupního kódu neplatný.

Bez možnosti S napájením / horní komunikační funkcí S napájením / komunikační funkcí CUnet Typ svorkovnice Vstup 4 body Výstup 4 body I/O 4 body každý
Viz tabulka výstupních kódů
Refer to input code table

Tabulka výstupních kódů

Výstupní kód

Typ výstupu

DC proudový výstup 4 až 20 mA DC

DC proudový výstup 0 až 20 mA DC

DC svtage výstup 0 až 1 V DC

DC svtage výstup 0 až 5 V DC

DC svtage výstup 1 až 5 V DC

DC svtage výstup 0 až 10 V DC

N (*)

Žádný výstup

(*): Output code N is valid only when I/O type 0 (input 4 points) is selected.

2-1

Tabulka vstupních kódů

Vstupní kód

Typ vstupu

Rozsah

-200 až 1370 °C

-200.0 až 400.0 °C

-200 až 1000 °C

0 až 1760 °C

0 až 1820 °C

-200 až 800 °C

-200.0 až 400.0 °C

-200 až 1300 °C

PL-

0 až 1390 °C

Termočlánkový vstup

C (W/Re5-26) K

0 to 2315 °C -328 to 2498 °F

-328.0 až 752.0 °F

-328 to 1832 °F 32 to 3200 °F

32 až 3200 °F

32 až 3308 °F

-328 až 1472 °F

-328.0 až 752.0 °F

-328 až 2372 °F

PL-

32 až 2534 °F

C (W/Re5-26)

32 až 4199 °F

RTD vstup

Pt100 Pt100

-200.0 až 850.0 °C -328.0 až 1562.0 °F

DC svtage vstup 0 až 1 V DC

-2000 až 10000

Vstup stejnosměrného proudu

4 to 20 mA DC (External receiving resistor)
0 to 20 mA DC (External receiving resistor)

-2000 až 10000 -2000 až 10000

Vstup stejnosměrného proudu

4 to 20 mA DC (Built-in receiving resistor)
0 to 20 mA DC (Built-in receiving resistor)

-2000 až 10000 -2000 až 10000

0 až 5 V DC

-2000 až 10000

DC svtage vstup 1 až 5 V DC

-2000 až 10000

0 až 10 V DC

-2000 až 10000

N (*)

Žádný vstup

(*): Input code N is valid only when I/O type 1 (output 4 points) is selected.

2-2

2.2 Jak číst štítek modelu
The model label is attached to the right side of this instrument. No power supply / communication option

Model
Napájení voltage, power consumption Serial number (Fig. 2.2-1) With power supply / upper communication function

(Obr. 2.2-2)

Model
Napájení voltage, power consumption Serial number

2-3

S napájením / komunikační funkcí CUnet

(Obr. 2.2-3)

Model
Napájení voltage, power consumption Serial number

2-4

3 Name and Functions
3.1 Analog I/O Module QAM1-4

Základní díl
Žádné napájení / možnost komunikace

With power supply / upper communication option

With power supply / CUnet communication option

(Fig. 3.1-1) 3-1

Operation indicator No. Symbol (color) PWR (Green)
T/R (žlutá)
O1 (Green) O2 (Green) O3 (Green) O4 (Green) EVT (Red)

Název a funkce

Power indicator · Lights off (always): No power supply to the instrumen · Lights up (always): Power supply to the instrumen · Flashing for 500 ms (3 seconds):
Warming up the instrument · Flashing for 500 ms (always):
Internal failure of the instrument [When non-volatile IC memory error or ADC (internal circuit) error]

Indikátor komunikace

· Lights off (always): Communication error (no response) or USB

sdělení

· Flashing (slow): Communication error (reception error)

· Flashing (fast):

Komunikace je normální

Analog output 1 indicator Always lights off

Analog output 2 indicator Always lights off

Analog output 3 indicator Always lights off

Analog output 4 indicator Always lights off

Event indicator · Flashing for 500 ms: Sensor error (overscale, underscale) · Flashing for 250 ms: Sensor error (input disconnection) or power is
supplied from the computer by USB bus power

Switch and connnector

Žádný.

Symbol

PŘIDAT.

USB

Název a funkce
Module address setting rotary switch Rotary switch for module address selection. The module address is the value of the selected rotary switch plus one.
Console communication connector Connector for console communication tool cable.
Communication specification setting dip switch DIP switch for setting communication specifications. Set the communication specifications such as communication speed, data bit, parity, stop bit and communication protocol.
CUnet communication specification setting dip switch DIP switches for setting CUnet communication specifications. Set the station address, communication speed, master address, and number of occupied (OWN) items.

3-2

4 Procedure Before Starting Operation
The procedure up to the start of operation when connecting to a host computer is shown below.

Preparation of communication program
Setting of communication specifications
Setting of module address

A communication program is required to connect and use the host computer. Refer to “10 MODBUS Protocol (P.10-1)”, to create the communication program.
Set the communication specifications such as communication speed, data bit, and parity. Refer to “5.1.1 Selection of Communication Specifications (P.51)”.
Set the module address. Refer to “5.1.2 Selection of Module Address (P.5-3)”.

Montáž

Analog I/O module QAM1-4 to the DIN rail. Refer to “6 Mounting (P.6-1)”.

Elektroinstalace

Wire the analog I/O module QAM1-4. Refer to “7 Wiring (P.7-1)”.

Connection of host computer and analog I/O module
QAM1-4

Connect the host computer and analog I/O module QAM1-4. Refer to “7.5 Connection of Host Computer and Analog I/O Module QAM1-4 (P.7-7)”.

Setting of specification

Set the specifications such as input parameters and output parameters. Refer to “8 Setting of Specification (P.8-1)”.

Zahájení provozu

Start operation. Refer to “12 Operation (P.12-1)”.

(Obr. 4-1)

4-1

5 Communication Parameter Setting
5.1 Communication Parameter Setting
5.1.1 Selection of Communication Specifications
Pozor
Při připojení ke komunikačnímu rozšiřujícímu modulu QMC1 není výběr komunikační specifikace vyžadován. Použijte jej ve výchozím nastavení z výroby (vše VYPNUTO).
Pro nastavení komunikačních specifikací použijte DIP přepínač pro nastavení komunikačních specifikací na levé straně přístroje.
Dip přepínač nastavení specifikace komunikace

(Obr. 5.1-1)

Set the communication speed, data bit, parity, and stop bit.

The factory defaults are as follows.

· Communication speed

With power supply / upper communication option: 57600 bps

With power supply / CUnet communication option: 38400 bps

· Data bit:

8 bitů

· Parita:

Dokonce

· Stop bit:

1 bit

5-1

(1) Nastavení komunikační rychlosti

Dip přepínač nastavení specifikace komunikace

VYPNUTO

Rychlost komunikace
57600 bps 38400 bps 19200 bps 9600 bps

(2) Nastavení datového bitu, parity a stop bitu

Dip přepínač nastavení specifikace komunikace

Datový bit, parita a stop bit

VYPNUTO

8 bitů, sudý, 1 bit

VYPNUTO

8 bitů, sudé, 2 bity

VYPNUTO

8 bitů, liché, 1 bit

VYPNUTO

8 bitů, liché, 2 bity

VYPNUTO

8 bitů, žádný, 1 bit

VYPNUTO

8 bitů, žádný, 2 bity

Dip přepínače č.6, č.7 a č.8 nepoužívá. Nechte jej VYPNUTO.

5-2

5.1.2 Nastavení adresy modulu
Pozor
Při použití funkce SIF by měly být adresy modulů nastaveny na po sobě jdoucí čísla začínající od 1. Při použití specifikace MODBUS lze nastavit libovolné číslo mezi 0 až F (1 až 16).
Adresy modulů se nastavují otočným přepínačem.
Otočný přepínač pro nastavení adresy modulu

(Obr. 5.1.2-1)

Use a small flat-blade screwdriver to set the module addresses. The value obtained by adding 1 to the value of the set rotary switch becomes the module addresses.

Adresa modulu: 0 až F (1 až 16)

Otočný přepínač

Adresa modulu

9 AB

10 11 12

5-3

6 Montáž

Pozor

· When mounting or removing this instrument, be sure to turn off the power supply to this instrument. · Mount the DIN rail horizontally. · This instrument fits the following DIN rails.
Lišta cylindru TH35 JIS C 2812-1988

35 mm 23 mm nebo více

Mounting screw height
6 mm nebo více

7.5 mm nebo více

Šířka:

35 mm

Výška:

7.5 mm nebo více

Groove width: 23 mm or more

DIN rail mounting screw height:

6 mm nebo více

(For DIN rail height 7.5 mm)

(Obr. 6-1)

· If this instrument is mounted in a position susceptible to vibration or shock, mount commercially available end plate at both ends of the instrument.
· When installing, make sure that the orientation (upper and lower) of this instrument is correct. · When mounting or removing this instrument on the DIN rail, it must be tilted slightly
Zajistěte prostor 50 mm nebo více ve svislém směru přístroje s ohledem na prostor pro zapojení napájecího/komunikačního vedení a odvod tepla.

50 mm

(Fig. 6-2) 6-1

6.1 Selection of Location
Ujistěte se, že místo montáže odpovídá následujícím podmínkám:
· 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(14°F to 122°F) that does
not change rapidly, and no icing · An ambient non-condensing humidity of 35 to 85%RH · No large capacity electromagnetic switches or cables through which large current is flowing · No water, oil or chemicals or the vapors of these substances can come into direct contact with the
unit. · When installing this unit within a control panel, please note that ambient temperature of this unit
not the ambient temperature of the control panel must not exceed 50°C (122°F). Otherwise the life of electronic components (especially electrolytic capacitor) may be shortened. * Avoid setting this instrument directly on or near flammable material even though the case of this instrument is made of flame-resistant resin.

6.2 Vnější rozměry (Měřítko: mm)
Analog I/O module QAM1-4

Kryt svorek (prodává se samostatně)

DIN lišta

2.5

100

4.7

1.7

(4)

Line cap (Accessories)

(Obr. 6.2-1)

6-2

6.3 Montáž
Montáž na lištu DIN Spusťte zajišťovací páčku tohoto nástroje. (Zajišťovací páka tohoto nástroje má pružinovou strukturu, ale pokud ji spustíte ve směru šipky až na doraz, bude v této poloze zajištěna.) Zahákněte část tohoto nástroje na horní část lišty DIN. Vložte spodní část tohoto nástroje s částí jako opěrným bodem. Zvedněte zajišťovací páku tohoto nástroje. Ujistěte se, že je připevněn k DIN liště.

(Obr. 6.3-1)

(Obr. 6.3-2)

Removal from the DIN rail Insert a flat blade screwdriver into the lock lever of this instrument and lower the lock lever until it stops. Remove this instrument from the DIN rail by lifting it from below.

(Fig. 6.3-3) 6-3

Montáž více modulů na lištu DIN Tato část popisuje příkladample of mounting multiple modules on the DIN rail. Remove the line cap on the right side of the QAM1-4P. Lower the lock lever of the QAM1-40, and mounting the QAM1-40 to the DIN rail. Slide the QAM1-40 to the left and connect the connectors to each other. Raise the lock lever of the QAM1-40. Make sure it is fixed to the DIN rail.
QAM1-4P

(Fig. 6.3-4) QAM1-4P

QAM1-40

(Obr. 6.3-5)

Ujistěte se, že je krytka linky připojena k pravému QAM1-40.

(Obr. 6.3-6)

6-4

Tato část popisuje example of mounting communication expansion module QMC1 and analog I/O module QAM1-40 on the DIN rail.
Remove the line cap on the right side of the QMC1. Lower the lock lever of the QAM1-40, and mounting the QAM1-40 to the DIN rail. Slide the QAM1-40 to the left and connect the connectors to each other. Raise the lock lever of the QAM1-40. Make sure it is fixed to the DIN rail.
QMC1

(Fig. 6.3-7) QMC1

QAM1-40

(Obr. 6.3-8)

Ujistěte se, že je krytka linky připojena k pravému QAM1-40.

(Obr. 6.3-9)

6-5

Removal multiple modules from the DIN rail This section describes an example of removing multiple analog I/O modules QAM1-40 on the DIN rail. Insert a flat blade screwdriver into the lock lever of the QAM1-40 and lower the lock lever until it stops. Slide QAM1-40 to the right side and disconnect it from the connector, then remove it from the DIN rail. QAM1-4P QAM1-40
(Obr. 6.3-10)
6-6

7 Zapojení
Varování
Před zapojením vypněte napájení tohoto nástroje. Pokud pracujete s napájením, můžete utrpět úraz elektrickým proudem, který může mít za následek nehodu s následkem smrti nebo vážného zranění.

7.1 Doporučený terminál

Use a solderless terminal with an insulation sleeve in which an M3 screw fits as shown below. Use the

Ring-type for the power supply and communication section.

Solderless Terminal Y-type
Prstencový typ

Výrobce
NICHIFU TERMINAL INDUSTRIES CO., LTD. J.S.TMFG.CO.,LTD. NICHIFU TERMINAL INDUSTRIES CO., LTD. J.S.TMFG.CO.,LTD.

Model TMEX1.25Y-3 VD1.25-B3A TMEX1.25-3 V1.25-3

Utahovací moment
Input/output section: 0.63 N·m Power supply section: 0.5 N·m Serial communication section: 0.3 N·m

5.8 mm nebo více 5.8 mm nebo více

(Obr. 7.1-1)

(Obr. 7.1-2)

7-1

7.2 Použití krytu terminálu Bezpečnostní opatření
Attach the terminal cover TC-QTC (sold separately) (*) so that the shorter one is on the right side of the case. For the wiring of terminal numbers 11 to 20, pass through the left side of the terminal cover. (*): QAM1 has the same case shape as QTC1, so the terminal cover of QTC1 is used.
Vrchol QAM1-4

Kryt terminálu

Věc

Nasaďte kryt svorek tak, aby kratší byl na pravé straně pouzdra.

(Obr. 7.2-1)

(Obr. 7.2-2)

7.3 Uspořádání terminálu
7.3.1 Uspořádání vstupních a výstupních svorek
Pozor
· Please note that CH1, CH2 and CH3, CH4 have different terminal arrangements.

Vstup 2

CH3

4 Výstup
5

Vstup 7

CH4

Control 9 output 10

DC TC

–

DC TC

–

RTD B B A
RTD B B A

–

RTD A

T+ C

DC+

B-

–

B +

–

RTD TC DC

A+

B-

–

11 Řídící výstup
12

CH1

14 vstup

16 Control 17 output

CH2

19 vstup

(Fig. 7.3-1) 7-2

7.3.2 Power Supply and Serial Communication Terminal Arrangement

Sériová komunikace RS-485

CUnet komunikace

–

Napájení voltage

24 V DC

– + YA YB SG
Sériová komunikace RS-485

(Obr. 7.3-2)

–

Napájení voltage

24 V DC

– + TRX TRX SG
CUnet komunikace

(Obr. 7.3-3)

7-3

7.4 Zapojení

7.4.1 Wiring for Power Supply and Communication

The terminal block for power supply and communication is located on the base of this instrument.

Zapojení podle následujícího postupu.

(1) Odstranění pouzdra

Zatlačte na uvolňovací páčku na horní straně tohoto nástroje, abyste jej odemkli.

Věc

Uvolněte páku

Odstraňte pouzdro.

Báze

(2) Zapojení Sériová komunikace RS-485

(Obr. 7.4-1)

Napájení

–

24 V DC

Sériová komunikace RS-485
-+ YA YB SG

Pozor
· Do not confuse the polarities.
· Use the ring-type solderless terminal.
· The tightening torque should be 0.5 N·m.
Pozor
· Use the ring-type solderless terminal.
· The tightening torque should be 0.3 N·m.

Refer to “7.5 Connection of Host Computer and and Analog I/O Module QAM1-4 (P.7-7)” for the serial communication wiring.
(Obr. 7.4-2)

7-4

(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.

Věc

Uvolňovací páka Základna

(Obr. 7.4-3)

7-5

7.4.2 Wiring for Input and Output
Pozor
· Please note that CH1, CH2 and CH3, CH4 have different terminal arrangements. · The tightening torque should be 0.63 N·m. · For DC current input (with an external receiving resistor), connect a receiving resistor [option 50
(RES-S01-050)] between each input terminal (+ and -). For DC current input (built-in receiving resistor), a receiving resistor (50 ) is not required.

výstup CH1
DC current +

DC svtaga +

–

CH2 output: CH3 output: CH4 output:

vstup CH1

TC (Thermocouple)
+

RTD (Resistance temperature detector)
A

DC A (Direct current)
4 až 20 mA 0 až 20 mA
+

–

DC V (DC voltage) 0 to 1 V 0 to 5 V 1 to 5 V + 0 to 10 V
–

CH2 input: CH3 input: CH4 input:

(Obr. 7.4-4)

7-6

7.5 Connection of Host Computer and Analog I/O Module QAM1-4
7.5.1 Zapojení Přample for Using USB Communication Cable CMC-001-1 (Sold separately) When connecting using USB communication cable CMC-001-1 (sold separately), one analog I/O module QAM1-4P (with power supply / upper communication function) is required for upper communication. The power supply and communication lines to the second and subsequent analog I/O modules are connected to the BUS using connectors. For the second and later modules, use the analog I/O module QAM1-40 ( no power supply / communication option). A maximum of 16 modules can be connected.

Host computer USB port

USB communication cable CMC-001-1 (sold separately)

Analog I/O module QAM1-4P (with power supply / upper communication function)

Analogový I/O modul QAM1-40 (žádné napájení / možnost komunikace)

Y A Y B COM

(Obr. 7.5-1)

7-7

7.5.2 Zapojení Přample for Using Communication Converter IF-400 (Sold separately)

When connecting using the communication converter IF-400 (sold separately), one analog I/O

module QAM1-4P (with power supply / upper communication function) is required for upper

sdělení.

The power supply and communication lines to the second and subsequent analog I/O modules are

connected to the BUS using connectors.

For the second and later modules, use the analog I/O module QAM1-40 ( no power supply /

communication option).

A maximum of 16 modules can be connected.

The communication converter IF-400 (sold separately) does not support communication speeds of

38400 bps and 57600 bps.

Host computer D-sub 9-pin connector

Analog I/O module QAM1-4P (with power supply / upper communication function)

Analogový I/O modul QAM1-40 (žádné napájení / možnost komunikace)

TXD 3

RXD 2

GND 5

DCD 1

DTR 4

DSR 6

RTS 7

CTS 8

Communication converter IF-400 (sold separately)
FG

4 3 1 6

AUTOBUS
Communication cable CDM (sold separately)

(Obr. 7.5-2)
Stíněný drát
Connect only one side of the shielded wire to FG so that no current flows in the shield part. If both sides of the shield are connected to FG, a closed circuit will be created between the shielded wire and the ground, and a current will flow through the shielded wire, making it more susceptible to noise. Be sure to ground FG. Recommended cable: OTSC-VB 2PX0.5SQ by Onamba Co., Ltd. or equivalent (use twisted pair
shielded wire).

7-8

Termination resistor (terminator) The communication converter IF-400 (sold separately) has a built-in termination resistor. The termination resistor is also called a terminator. It is a resistor attached to the end of wiring when peripheral devices are connected to the host computer in a chain, and prevents signal reflection and signal disturbance at the end. Since this instrument has a built-in pull-up resistor and pull-down resistor, no termination resistor is required on the communication line.
7-9

8 Setting of Specification
Set the specifications. This section describes how to set specifications using console software (SWC-QTC101M).

8.1 Příprava
8.1.1 Preparation of USB Communication Cable and Console Software Please prepare the USB communication cable and the console software. · USB communication cable USB-micro USB Type-B (commercial item) · Console software (SWC-QTC101M) Please download from our website and install. Click https://shinko-technos.co.jp/e/ Support/Download Software

8.1.2 Connecting to Host Computer
Pozor
Do not use the logging function of the console software when communicating by connecting the USB communication cable.
(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.

USB communication cable (commercial item)
USB – micro USB Type-B

Analog I/O module QAM1-4

Host computer USB port

Console communication connector (Fig. 8.1-1)

8-1

(3) 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”.
(4) Starting the console software (SWC-QTC101M) Start the console software (SWC-QTC101M).
(Fig. 8.1-2) Click [User (U)] on the menu bar [Communication conditions (C)]. Display the communication condition setting screen.
(Obr. 8.1-3)
8-2

Set the communication condition as shown below.

Položky nastavení

Nastavení hodnoty

Komunikační port

Select the COM port number confirmed in

Komunikační protokol

MODBUS RTU

Click [OK]. Click [File (F)] on the menu bar [Instrument to PC (U)].

Read all the setting values of the connected analog I/O module QAM1-4.

of (3).

(Fig. 8.1-4) Display the Monitoring value screen.

(Fig. 8.1-5) The specifications are ready. Please refer to “8.2 Specification Setting (P.8-5)” to set the specifications.
8-3

Setting the specifications for the second and subsequent modules To set the specifications of the second and subsequent analog I/O module QAM1-4, follow the procedure below. Connect the USB communication cable to the console communication connector of the second and subsequent analog I/O module QAM1-4. Click [File (F)] on the menu bar [Instrument to PC (U)]. Read all the setting values of the connected analog I/O module QAM1-4.
(Fig. 8.1-6) Display the Monitoring value screen.
(Fig. 8.1-7) Please refer to “8.2 Specification Setting (P.8-5)” to set the specifications.
8-4

8.2 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 This section explains how to select the selection item by using CH1 Input type selection as an example. Click on the selection item for the channel.
(Fig. 8.2-1) Display the selection item list. Select from “0: K -200 to 1370 deg C°” to “14: DC 0 to 20 mA -2000 to 10000” and click. Transfers the selected contents to the analog I/O module QAM1-4.
(Fig. 8.2-2) 8-5

Set the setting item This section explains how to set the setting item by using CH1 Input scaling high limit setting as an example. Click on the setting item for the channel.
(Fig. 8.2-3) Display the numeric keypad screen. The current setting value and setting range are displayed on the numeric keypad screen. Set within the setting range. Input the setting value, and click [OK]. (*) Transfer the setting value to the analog I/O module QAM1-4.
(*): The setting value can also be entered from the keyboard of the host computer.
(Fig. 8.2-4) 8-6

8.2.1 Monitoring Value Setting Display PV, output manipulated variable, state 1 reading value and state 2 reading value, and set monitor value parameters such as manual manipulated variable, sensor correction factor and sensor correction. Click [Monitoring item] of [Main screen] tab [Monitoring value]. Display the monitoring value screen.
(Obr. 8.2-5)
8-7

This section describes each setting item. · Setting item This is the setting item of analog I/O module QAM1-4. · Channel This is the channel number of analog I/O module QAM1-4. · Address [HEX (Hexadecimal)] This is the address of each channel of analog I/O module QAM1-4. · Description, setting range and selection item This is the description of setting item, the setting range and the selection item. · Factory default This is the factory shipment default value of the setting item.

Položka nastavení

Kanál

Adresa [HEX]

Description, setting range and selection item

Výstup

CH1 0014 Sets the output volume.

objem

CH2 0015 Setting range: Output scaling lower limit to output

nastavení

CH3 0016 XNUMX

scaling upper limit

CH4 0017 XNUMX

Senzor

CH1 0084 Set the sensor correction factor.

correction CH2 0085 Set the slope of the sensor input value.

faktor

CH3 0086 Refer to “12.2 Correct PV (P.12-3)”.

nastavení

CH4 0087 Setting range: 0.000 to 10.000

Senzor

CH1 0088 Set the sensor correction value.

correction CH2 0089 Refer to “12.2 Correct PV (P.12-3)”.

nastavení

CH3 008A Setting range: -100.0 to 100.0°C

CH4 008B

(-180.0 až 180.0 ° F)

-1000 to 1000 (when direct current

and DC voltage vstup)

Výchozí tovární nastavení 0
1.000
When input code M is specified: 0°C (°F) When input code A, V is specified: 0

8-8

8.2.2 Input Setting Set the input parameters such as input type, temperature unit and input sampling cycle. Click [Initial setting] of [Main screen] tab [Input setting]. Display the Input setting screen.
(Obr. 8.2-6)
8-9

Položka nastavení

Kanál

Adresa [HEX]

Description, setting range and selection item

Výběr typu vstupu

CH1 CH2

00C8 Select the input type. 00C9 Selection item:

(When input code M is specified)

CH3 CH4

00CA 00CB

0: K 1: K 2: J 3: R

-200 to 1370°C -200.0 to 400.0°C -200 to 1000°C 0 to 1760°C

4: S

0 až 1760 °C

5: B

0 až 1820 °C

6: E

-200 až 800 °C

7: T

-200.0 až 400.0 °C

8: N

-200 až 1300 °C

9: PL-

0 až 1390 °C

10: C(W/Re5-26) 0 to 2315°C

11: Pt100

-200.0 až 850.0 °C

12: 0 to 1 V DC

-2000 až 10000

13: 4 to 20 mA DC (Externally mounted

shunt resistor) -2000 to 10000

14: 0 to 20 mA DC (Externally mounted

shunt resistor) -2000 to 10000

Input type CH1 00C8 Select the input type.

výběr

CH2 00C9 Selection item:

(When input CH3 00CA 0: 4 to 20 mA DC (Built in shunt resistor)

code A is

CH4 00CB

-2000 až 10000

specifikováno)

1: 0 to 20 mA DC (Built in shunt resistor)

-2000 až 10000

Input type selection (When input code V is specified) Temperature unit selection

CH1 CH2 CH3 CH4
CH1 CH2 CH3 CH4

00C8 00C9 00CA 00CB
00CC 00CD 00CE 00CF

Vyberte typ vstupu.

Selection item:

0: 0 to 5 V DC

-2000 až 10000

1: 1 to 5 V DC

-2000 až 10000

2: 0 to 10 V DC -2000 to 10000

Select the temperature unit. Valid when input code M is specified. Selection item:
0: deg. C 1: deg. F

Factory default 0: K -200 to 1370°C
0: 4 to 20 mA DC (Built in shunt resistor) -2000 to 10000
0: 0 to 5 V DC -2000 to 10000
0: deg. C

8-10

Položka nastavení

Kanál

Adresa [HEX]

Description, setting range and selection item

Tovární nastavení

Měřítko

CH1 00D0 Set the scaling high limit.

Rated high

vysoký limit

CH2 00D1 Setting range:

omezit

setting (*) CH3 00D2 -32768 to 32767(*)

CH4 00D3

Měřítko

CH1 00D4 Set the scaling low limit.

Rated low

spodní limit

CH2 00D5 Setting range:

omezit

setting (*) CH3 00D6 -32768 to 32767(*)

CH4 00D7

Vstup

CH1 00D8 Select the input sampling cyklus.

125 ms

sampling selection

CH2 CH3 CH4

00D9 00DA 00DB

Selection item: 0: 125 ms 1: 50 ms 2: 20 ms

It is fixed at 125 ms for thermocouple input and

RTD input.

If select a value other than 125 ms, it will be

neplatný.

PV filter

CH1 008C Set the PV filter time constant.

0.0 sekund

time constant setting

CH2 CH3 CH4

008D 008E 008F

Refer to “15.2.5 PV Filter Time Constant (P.15-3)”. Setting range:
0.0 až 10.0 sekund

Number of CH1 0108 Set the number of moving averages that average 1 time

moving average setting

CH2 CH3 CH4

0109 010A 010B

the input values. The input values are averaged the set number of times, and the input values are exchanged every input sampling cyklus.

If set 1 time, the moving average will not be

provedeno.

Rozsah nastavení:

1 až 10krát

(*): For thermocouple input and RTD input, the scaling high limit is the SV high limit and the scaling

low limit is the SV low limit.

When the scaling high limit value and scaling low limit value are set to the same value, the control

output turns OFF.

8-11

8.2.3 Standard Function Setting Set the high and low output scaling limits. Click [High function setting] of [Main screen] tab [Standard function setting]. Display the Standard function setting screen.

(Obr. 8.2-7)

Položka nastavení

Kanál

Adresa [HEX]

Description, setting range and selection item

Výstup

CH1 01B8 Sets the output scaling high limit setting.

škálování

CH2 01B9 Setting range

vysoký limit

CH3 01BA -32768 to 32767

nastavení

CH4 01BB

Výstup

CH1 01BC Sets the output scaling low limit setting.

škálování

CH2 01BD Setting range

lower limit CH3 01BE -32768 to 32767

nastavení

CH4 01BF

Výchozí tovární nastavení 10000
0

8-12

8.2.4 Option Function Setting Set the communication response delay time setting. Click [High function setting] of [Main screen] tab [Option function setting]. Display the Option function setting screen.

(Obr. 8.2-8)

Položka nastavení

Kanál

Adresa [HEX]

Description, setting range and selection item

Communicat

01F4 Set the delay time for returning a response after

ion response

receiving a command from the host.

čas zpoždění

When connecting to the communication expansion

nastavení

module QMC1, set the communication response

delay time to 0 ms (initial value).

Rozsah nastavení:

0 až 1000 XNUMX ms

Tovární nastavení
0 ms

8-13

9 Communication Procedure

Communication starts with command transmission from the host computer (hereafter Master), and ends with

the response of this instrument (hereafter Slave).

Zvládnout

Otrok

Data příkazu

Příkaz

· Response with data When the master sends the Read command, the slave responds with the corresponding set value or current status.
· Acknowledgement When the master sends the Write command, the slave responds by

Příkaz

sending the acknowledgement after the processing is terminated. · Negative acknowledgement

When the master sends a non-existent command or value out of the

Command No response

setting range, the slave returns a negative acknowledgement. · No response
Slave nebude reagovat na master v následujících případech:

(Obr. 8.2-1)

· Broadcast address is set.

· Communication error (framing error, parity error)

· CRC-16 discrepancy

Communication timing of the RS-485 Master Side (Take note while programming) When the master starts transmission through the RS-485 communication line, the master is arranged so as to provide an idle status (mark status) transmission period of 1 or more characters before sending the command to ensure synchronization on the receiving side. Set the program so that the master can disconnect the transmitter from the communication line within a 1 character transmission period after sending the command in preparation for reception of the response from the slave. To avoid collision of transmissions between the master and the slave, send the next command after carefully checking that the master has received the response. If a response to the command is not returned due to communication errors, set the Retry Processing to send the command again. (It is recommended to execute Retry twice or more.)

Slave Side When the slave starts transmission through the RS-485 communication line, the slave is arranged so as to provide an idle status (mark status) transmission period of 1 ms or more (*) before sending the response to ensure synchronization on the receiving side. The slave is arranged so as to disconnect the transmitter from the communication line within a 1 character transmission period after sending the response.
(*): Can be set in “Communication response delay time setting (P.8-13)” within a range of 0 to 1000 ms.

9-1

10 Protokol MODBUS

10.1 Režim přenosu

It becomes the RTU mode, and 8-bit binary data in command is transmitted as it is.

Formát dat

Start bit: 1 bit

Datový bit: 8 bitů

Parity: Even (Odd, No parity) (Selectable)

Stop bit: 1 bit (2 bity) (lze vybrat)

Detekce chyb:

CRC-16 (Cyclic Redundancy Check)

10.2 Interval datové komunikace
1.5 character transmission times or less (Communication speed 9600 bps, 19200 bps: 1.5 character transmission times, Communication speed 38400 bps, 57600 bps: 750 µs) To transmit continuously, an interval between characters which consist of one message, must be within 1.5 character transmission times. If the time is longer than the above, it is assumed that transmission from the master side has finished, and a communication error occurs and no response is returned.

10.3 Konfigurace zpráv

Message is configured to start after idle time is processed for more than 3.5 character transmissions, and

end after idle time is processed for more than 3.5 character transmissions.

(Communication speed 9600 bps, 19200 bps: 3.5 character transmission times,

Communication speed 38400 bps, 57600 bps: 1.75 ms)

The data part has a maximum of 252 bytes.

3.5 volnoběh

Otrok

characters address

Kód funkce

Data

Error check CRC- 3.5 idle

postavy

(1) Slave Address Slave address is an individual instrument number on the slave side, and is set within the range 1 to 16 (01H to 10H). The master identifies slaves by the slave address of the requested message. The slave informs the master which slave is responding to the master by placing its own address in the response message. Slave address 0 (00H, Broadcast address) can identify all the slaves connected. However, slaves do not respond.

(2) Function Code

Funkční kód je příkazový kód pro slave zařízení k provedení jedné z následujících akcí.

Type Function Code Sub Function Code

Obsah

Přístup k datům

03(03H)
06(06H) 16(10H)

Reads a single or multiple piece(s) of data from slave(s) (Amount of data: Max. 100).
Writes a single piece of data to slave(s).
Writes multiple pieces of data to slave(s) (Amount of data: Max. 20).

10-1

The function code is used to discern whether the response is normal (acknowledgement) or if any

error (negative acknowledgement) has occurred when the slave returns the response message to the

zvládnout.

When acknowledgement is returned, the slave simply returns the original function code.

When negative acknowledgement is returned, the MSB of the original function code is set as 1 for the

odpověď.

Napřample, if the master sends request message setting 13H to the function code by mistake, slave

returns 93H by setting the MSB to 1, because the former is an illegal function.

For negative acknowledgement, the exception codes below are set to the data of the response

message, and returned to the master in order to inform it of what kind of error has occurred.

Kód výjimky

Obsah

1(01H)

Neplatná funkce (neexistující funkce)

2(02H)

Neplatná datová adresa (Neexistující datová adresa)

3(03H)

Neplatná hodnota dat (hodnota mimo rozsah nastavení)

17(11H)

Status unable to be written.

(3) Data Data differs depending on the function code. A request message from the master is composed of a data item, amount of data and setting data. A response message from the slave is composed of the byte count , data and exception codes in negative acknowledgements, corresponding to the request message. The effective range of data is -32768 to 32767 (8000H to 7FFFH). Refer to “11.1 Communication Command List (P.11-1)”.
(4) Error Check After calculating CRC-16 (Cyclic Redundancy Check) from the slave address to the end of the data, the calculated 16-bit data is appended to the end of message in sequence from low order to high order. [How to calculate CRC-16] In the CRC-16 system, the information is divided by the polynomial series. The remainder is added to the end of the information and transmitted. The generation of a polynomial series is as follows. (Generation of polynomial series: X16 + X15 + X2 + 1) Initialize the CRC-16 data (assumed as X) (FFFFH). Calculate exclusive OR (XOR) with the 1st data and X. This is assumed as X. Shift X one bit to the right. This is assumed as X. When a carry is generated as a result of the shift, XOR is calculated by X of and the fixed value (A001H). This is assumed as X. If a carry is not generated, go to step . Repeat steps and until shifting 8 times. XOR is calculated with the next data and X. This is assumed as X. Repeat steps to . Repeat steps to up to the final data. Set X as CRC-16 to the end of message in sequence from low order to high order.

10-2

10.4 Zpráva Přample
Číslice napsané pod příkazem představují počet znaků.

(1) Read [Slave address 1, CH1 PV (03E8H)]

· A request message from the master

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (03H)

Datová položka
(03E8H) 2

Množství dat
(0001H) 2

Error check CRC-16 (047AH)
2

Idle 3.5 characters

· Response message from the slave in normal status [When PV=600°C (0258H)]

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (03H)

Response byte count
(02 h)

Data (0258H)

Kontrola chyb CRC-16 (B8DEH)

Idle 3.5 characters

(2) Write [Slave address 1, CH1 Output volume (0014H)]

· A request message from the master [When Output volume 1000 (03E8H)]

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (06H)

Data item (0014H)

Data (03E8H)

Error check CRC-16 (C970H)

Idle 3.5 characters

· Response message from the slave in normal status

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (06H)

Data item (0014H)

Data
(03E8H) 2

Error check CRC-16 (C970H)
2

Idle 3.5 characters

· Response message from the slave in exception (error) status (When a value out of the setting

range is set)

The function code MSB is set to 1 for the response message in exception (error) status, and 86H

je vráceno.

The exception code 03H (Value out of the setting range) is returned (error).

Líný

Otrok

3.5 adresa

characters (01H)

Function Exception code

kód

(86 h)

(03 h)

Kontrola chyb

Líný

CRC-16

3.5

(0261H) characters

10-3

(3) Read [Slave address 1, CH1 Output volume (0014H)]

· A request message from the master

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (03H)

Datová položka
(0014H) 2

Množství dat
(0001H) 2

Error check CRC-16 (C40EH)
2

Idle 3.5 characters

· Response message from the slave in normal status [When Output volume 1000 (03E8H)]

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (03H)

Response byte count
(02 h)

Data (0258H)

Kontrola chyb

Líný

CRC-16

3.5

(B8FAH) characters

· Response message from the slave in exception (error) status (When data item is incorrect)

The function code MSB is set to 1 for the response message in exception (error) status, and 83H

je vráceno.

The exception code 02H (Non-existent data address) is returned (error).

Líný

Otrok

3.5 adresa

characters (01H)

Function Exception code

kód

(83 h)

(02 h)

Kontrola chyb

Líný

CRC-16

3.5

(C0F1H) characters

(4) Write 4 commands [Slave address 1, CH1 Output volume (0014H) to CH4 Output volume (0017H)]

(Writing multiple pieces of data)

The configuration of the data is as follows.

Amount of data : 4(0004H)

Byte count : 8(08H)

Data

: Data is converted to Hexadecimal.

Datová položka

Data

Data (Converted to Hexadecimal)

0014H CH1 Output volume setting 1000

03E8H

0015H CH2 Output volume setting 1000

03E8H

0016H CH3 Output volume setting 1000

03E8H

0017H CH4 Output volume setting 1000

03E8H

· A request message from the master (When writing the above data)

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (10H)

Data item (0014H)

Data (00040803E803E803E803E8H)

Error check CRC-16 (4EBBH)
2

Idle 3.5 characters

10-4

· Response message from the slave in normal status

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (10H)

Data item (0014H)

Data
(0004H) 2

Error check CRC-16 (81CEH)
2

Idle 3.5 characters

(5) Read 4 commands [Slave address 1, CH1 Output volume (0014H) to CH4 Output volume (0017H)]

(Reading multiple pieces of data)

· A request message from the master (When reading the above data)

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (03H)

Data item (0014H)

Amount of data (0004H)

Error check CRC-16 (040DH)
2

Idle 3.5 characters

· Response message from the slave in normal status

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (03H)

Response byte count
(08 h)

Data
(03E803E803E803E8H) 8

Kontrola chyb CRC-16 (5D26H)
2

Idle 3.5 characters

The data the response message is as follows.

Datová položka

Data

0014H CH1 Output volume setting

1000

0015H CH2 Output volume setting

1000

0016H CH3 Output volume setting

1000

0017H CH4 Output volume setting

1000

Data (Converted to Hexadecimal) 03E8H 03E8H 03E8H 03E8H

10-5

11 Communication Command List

11.1 Communication Command List
This section explains each item of communication command. · Data Item This is a setting item for the analog I/O module QAM1-4.

· Amount of data The amount of data that can be handled by each data item. The amount of setting items for each channel is 4. The amount of setting items for each module is 1.

· Channel This is a channel number of the analog I/O module QAM1-4.

· Address [HEX (Hexadecimal), DEC (Decimal)] This is an each channel address of the analog I/O module QAM1-4.

· Attribute

R/W: Read and write (Host

Analog I/O module QAM1-4)

RO: Read only (Host

Analog I/O module QAM1-4)

· Data This is an explanation of the setting range and setting conditions for each data.

11-1

Datová položka

Amount of data:

Kanál

Address HEX DEC

Atribut

Data

Systém

CH1 0000 XNUMX

This is a system item for internal

CH2 0001 XNUMX

zpracování.

CH3 0002 XNUMX

Please do not use.

CH4 0003 XNUMX

Reservation (*1)

0004

0013

Výstupní objem

CH1 0014 XNUMX

20 R/W Output scaling low limit to

setting (*2)

CH2 0015 XNUMX

output scaling high limit

CH3 0016 XNUMX

CH4 0017 XNUMX

Reservation (*1)

0018

0083

Korekce senzoru

CH1 0084 XNUMX

132 R/W 0.000 to 10.000

factor setting

CH2 0085 133

CH3 0086 134

CH4 0087 135

Korekce senzoru

CH1 0088 XNUMX

136 R/W -100.0 to 100.0°C

nastavení

CH2 0089 137

(-180.0 až 180.0 ° F)

CH3 008A 138

For direct current input and DC

CH4 008B 139

svtage input: -1000 to 1000

PV filter time

CH1 008C

140 R/W 0.0 to 10.0 seconds

constant setting

CH2 008D 141

CH3 008E 142

CH4 008F 143

Reservation (*1)

0090

00C7

(*1): A single or multiple data are read, the reserved item returns the initial value (0) in

potvrzení.

When writing single or multiple, Acknowledgement is returned and the data is discarded.

(*2): It is not stored in the Non-volatile IC memory.

When the power is turned on, the start value is (0).

11-2

Datová položka

Amount of data:

Kanál

Address HEX DEC

Atribut

Data

Input type selection 4

CH1 CH2 CH3 CH4

00C8 00C9 00CA 00CB

200 R/W 201 202 203

For input code M is specified:

0000H: K

-200 až 1370 °C

0001H: K

-200.0 až 400.0 °C

0002H: J

-200 až 1000 °C

0003H: R

0 až 1760 °C

0004H: S

0 až 1760 °C

0005H: B

0 až 1820 °C

0006H: E

-200 až 800 °C

0007H: T

-200.0 až 400.0 °C

0008H: N

-200 až 1300 °C

0009H: PL- 0 to 1390°C

000AH: C(W/Re5-26)

0 až 2315 °C

000BH: Pt100 -200.0 to 850.0°C

000CH: 0 to 1 V DC

-2000 až 10000

000DH: 4 to 20 mA DC (Externally

mounted shunt resistor)

-2000 až 10000

000EH: 0 to 20 mA DC (Externally

mounted shunt resistor)

-2000 až 10000

For input code A is specified: 0000H: 4 to 20 mA DC(Built-in shunt
resistor) -2000 to 10000 0001H: 0 to 20 mA DC(Built-in shunt resistor) -2000 to 10000 For input code V is specified: 0000H: 0 to 5 V DC -2000 to 10000 0001H: 1 to 5 V DC -2000 to 10000 0002H: 0 to 10 V DC -2000 to 10000

Jednotka teploty

CH1 00CC 204 R/W 0000H: °C (Celsius)

výběr

CH2 00CD 205 CH3 00CE 206 CH4 00CF 207

0001H: °F (Fahrenheit) For input code M is specified, it can be selected.

Input scaling high

CH1 00D0

208 R/W -32768 to 32767(*)

nastavení limitu

CH2 00D1 209

CH3 00D2 210

CH4 00D3 211

Input scaling low

CH1 00D4

212 R/W -32768 to 32767(*)

nastavení limitu

CH2 00D5 213

CH3 00D6 214

CH4 00D7 215

(*): When DC voltage input or DC current input, the setting is valid.

When thermocouple or RTD input, the setting outside the rated range is invalid.

11-3

Datová položka

Amount of data:

Kanál

Address HEX DEC

Atribut

Data

Vstup sampling cycle 4

CH1 00D8

216 R/W 0000H: 125 ms

výběr

CH2 00D9 217

0001H: 50 ms

CH3 00DA 218

0002H: 20 ms

CH4 00DB 219

Fixed to 125 ms for thermocouple

input and RTD input.

It becomes invalid if a value other

than 125 ms is selected.

Reservation (*1)

00 DC

0107

Number of moving

CH1 0108 XNUMX

264 R/W 1 to 10 times

average setting

CH2 0109 265

CH3 010A 266

CH4 010B 267

Reservation (*1)

010C

01B7

Output scaling high 4

CH1 01B8

440 R/W -32768 to 32767

nastavení limitu

CH2 01B9 441

CH3 01BA 442

CH4 01BB 443

Output scaling low

CH1 01BC 444 R/W -32768 to 32767

nastavení limitu

CH2 01BD 445

CH3 01BE 446

CH4 01BF 447

Reservation (*1)

01C0

01F3

Sdělení

01F4 500 R/W 0 to 1000 ms

response delay time

setting (*2)

Reservation (*1)

01F5

020B

Host setting value

020C 524 R/W 0000H: Clear

change flag clearing

0001H: Do not clear

výběr

(Change setting value)

USB setting value

020D 525 R/W 0000H: Clear

change flag clearing

0001H: Do not clear

výběr

(Change setting value)

(*1): A single or multiple data are read, the reserved item returns the initial value (0) in acknowledgment.

(*2): When connecting to the communication expansion module QMC1, set the communication

response delay time to 0 ms (initial value).

11-4

Datová položka

Amount of data:

Kanál

Address HEX DEC

Atribut

Data

PV reading

CH1 03E8 1000 RO Reading value (decimal point

CH2 03E9 1001

omitted) (*1)

CH3 03EA 1002

CH4 03EB 1003

Výstupní hodnota

CH1 03EC 1004 RO Reading value (decimal point

čtení

CH2 03ED 1005

omitted)

CH3 03EE 1006

0.00 až 100.00 %

CH4 03EF 1007

Reservation (*1)

03F0

03F3

Status flag 1

CH1 03F4 1012 RO B0 to B2:

čtení

CH2 03F5 1013

Not used (indefinite)

CH3 03F6 1014

B3: Output volume is out of setting range

CH4 03F7 1015

0: Normal 1: Error ON

B4: Input error (Overscale)

0: Normal 1: Error

B5: Input Error (Underscale)

0: Normal 1: Error

B6 to B13:

Not used (indefinite)

B14: Power supply identification (*2)

0: 24 V DC

1: USB bus power

B15: Non-volatile IC memory error

0: Normal 1: Error

(*1): When power is supplied from the host computer by USB bus power, 0 is returned.

(*2): When power is supplied from 24 V DC and USB bus power, 0: 24 V DC is returned.

11-5

Datová položka

Amount of data:

Kanál

Address HEX DEC

Atribut

Data

Status flag 2

CH1 03F8 1016 RO B0 to B3:

čtení

CH2 03F9 1017

Not used (indefinite)

CH3 03FA 1018

B4: Cold junction error

CH4 03FB 1019

0: Normal 1: Error

B5: Sensor error

0: Normal 1: Error

B6: ADC error

0: Normal 1: Error

B7: Host setting value change flag (*1)

0: Without flag

1: With flag

B8: USB setting value change flag (*2)

0: Without flag

1: With flag

B9 to B15:

Not used (indefinite)

Reservation (*1)

03 FC

0407

PV reading

CH1 0408 1032 RO Reading value (decimal point

(true value)

CH2 0409 1033

omitted)(*3)

CH3 040A 1034

CH4 040B 1035

Okolní

CH1 040C 1036 RO Reading value (decimal point

odečet teploty

CH2 040D 1037

omitted)

CH3 040E 1038

Read the input terminal temperature

CH4 040F 1039

of each channel. (*4)

(*1): The Host setting value change flag sets “1: With flag” to B7: Host setting value change flag when the set value is changed by the host communication side.

When clear (0000H) is received with the Host setting value change flag clear selection (020CH), B7: Host setting value change flag is set to “0: Without flag”.

(*2): The USB setting value change flag sets “1: With flag” to B8: USB setting value change flag

when the set value is changed by the USB communication side. When clear (0000H) is received with the USB setting value change flag clear selection

(020DH), B8: USB setting value change flag is set to “0: Without flag”. (*3): When power is supplied from the host computer by USB bus power, 0 is returned.

(*4): When thermocouple input, convert it to a value according to temperature unit selection. For the read value, the value of the first decimal place is returned regardless of the presence or

absence of a decimal point in the input range. (Example) If 0.0 °C (32.0 °F), the read value will be 0 (320).

When RTD input, direct current input, and DC voltage input, 0 is returned.

11-6

Data Item Alarm history 1 Error No.
Alarm history 2 Error No.
Alarm history 3 Error No.
Alarm history 4 Error No.
Alarm history 5 Error No.
Alarm history 6 Error No.
Alarm history 7 Error No.
Alarm history 8 Error No.
Alarm history 9 Error No.
Alarm history 10 Error No.

Amount of data:

Kanál

Address HEX DEC

Atribut

Data

CH1 044C 1100 RO B0 to B6:

CH2 044D 1101

Not used (indefinite)

CH3 044E 1102

B7: Sensor error

CH4 044F 1103

0: Normal 1: Error

CH1 0450 1104 RO B8: Input error (Overscale)

CH2 0451 1105

0: Normal 1: Error

CH3 0452 1106

B9: Input error (Underscale)

CH4 0453 1107

0: Normal 1: Error

CH1 0454 1108 RO B10: Cold junction error

CH2 0455 1109

0: Normal 1: Error

CH3 0456 1110

B11: Non-volatile IC memory error

CH4 0457 1111

0: Normal 1: Error

CH1 0458 1112 RO B12: ADC error

CH2 0459 CH3 045A

1113

0: Normal 1: Error B13: Not used (indefinite)

CH4 045B 1115

B14: Not used (indefinite)

CH1 045C 1116 RO B15: Not used (indefinite)

CH2 045D 1117

CH3 045E 1118

CH4 045F 1119

CH1 0460 1120 RO

CH2 0461 1121

CH3 0462 1122

CH4 0463 1123

CH1 0464 1124 RO

CH2 0465 1125

CH3 0466 1126

CH4 0467 1127

CH1 0468 1128 RO

CH2 0469 1129

CH3 046A 1130

CH4 046B 1131

CH1 046C 1132 RO

CH2 046D 1133

CH3 046E 1134

CH4 046F 1135

CH1 0470 1136 RO

CH2 0471 1137

CH3 0472 1138

CH4 0473 1139

11-7

Datová položka
Alarm history 1 Total energizing time
Alarm history 2 Total energizing time
Alarm history 3 Total energizing time
Alarm history 4 Total energizing time
Alarm history 5 Total energizing time
Alarm history 6 Total energizing time
Alarm history 7 Total energizing time
Alarm history 8 Total energizing time
Alarm history 9 Total energizing time
Alarm history 10 Total energizing time

Amount of data:

Kanál

Address HEX DEC

Atribut

Data

CH1 0474 1140 RO Total energizing time when an error

CH2 0475 1141

se vyskytuje

CH3 0476 1142

CH4 0477 1143

CH1 0478 1144 RO

CH2 0479 1145

CH3 047A 1146

CH4 047B 1147

CH1 047C 1148 RO

CH2 047D 1149

CH3 047E 1150

CH4 047F 1151

CH1 0480 1152 RO

CH2 0481 1153

CH3 0482 1154

CH4 0483 1155

CH1 0484 1156 RO

CH2 0485 1157

CH3 0486 1158

CH4 0487 1159

CH1 0488 1160 RO

CH2 0489 1161

CH3 048A 1162

CH4 048B 1163

CH1 048C 1164 RO

CH2 048D 1165

CH3 048E 1166

CH4 048F 1167

CH1 0490 1168 RO

CH2 0491 1169

CH3 0492 1170

CH4 0493 1171

CH1 0494 1172 RO

CH2 0495 1173

CH3 0496 1174

CH4 0497 1175

CH1 0498 1176 RO

CH2 0499 1177

CH3 049A 1178

CH4 049B 1179

11-8

Datová položka

Amount of data:

Kanál

Address HEX DEC

Atribut

Data

Reservation (*)

049C

04A3

Total energizing time (High, Low)

4 () 04A4 1188 RO Total energizing time

() 04A5 1189

1 count/10 min

04A6

1190, 1191 is always 0.

04A7

Reservation (*)

04A8

04AF

Výstupní formulář

CH1 04B0 1200 RO 0000H:

CH2 04B1 1201

0001H:

CH3 04B2 1202

0002H:

CH4 04B3 1203

0003H:

0004H: DC current output 4 to 20 mA DC

0005H: DC current output 4 to 20 mA DC

0006H: DC voltage výstup 0 až 1 V DC

0007H: DC voltage výstup 0 až 5 V DC

0008H: DC voltage výstup 1 až 5 V DC

0009H: DC voltage výstup 0 až 10 V DC

Vstupní formulář

CH1 04B4 1204 RO 0000H: Input code M

CH2 04B5 1205

0001H: Input code A

CH3 04B6 1206

0002H: Input code V

CH4 04B7 1207

Kód produktu

04B8 1208 RO Product code

Přítomnost

04B9 1209 RO 0000H: No option

sdělení

0001H: With power supply/upper

volba

communication function

Typ zapojení

04BA 1210 RO 0000H: Terminal type

0001H: Connector type

Typ I/O

04BB 1211 RO 0000H: Input only (AI)

0001H: Output only (AO)

0002H: Input/output (AIO)

Presence of event

04BC 1212 RO 0000H: No option

volba

Verze softwaru

04BD 1213 RO Software version

Manufacturing date 1

04BE 1214 RO Manufacturing date

(e.g. 2009: September 2020)

Verze hardwaru

04BF 1215 RO Hardware version

Reservation (*)

04C0

052C

(*): A single or multiple data are read, the reserved item returns the initial value (0) in acknowledgment.

When writing single or multiple, Acknowledgement is returned and the data is discarded.

11-9

11.2 Údaje
11.2.1 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. · MODBUS protocol uses Holding Register addresses. The Holding Register addresses are created as follows. A data item is converted to decimal number, and the offset of 40001 is added. The result is the Holding Register address. Using CH1 Output volume setting (0014H) as an example: Data item in the sending message is 0014H, however, MODBUS protocol Holding Register address is 40021 (20+40001).
11.2.2 Write Command · The lifetime of the non-volatile IC memory is about 1 trillion times. Do not change the set value frequently by communication, as the set value storage retention time may be shortened if the number of times is exceeded. (If the set value is the same as the value before setting, it is not written to the non-volatile IC memory.) · When data (set value) has a decimal point, a whole number (hexadecimal) without a decimal point is used. · Communication parameters such as module address and communication speed of this instrument cannot be written by software communication. Set it with the rotary switch for module address selection and the dip switch for selecting communication specifications. · When Write is executed using the Broadcast address [(00H) MODBUS protocol] command, the command is sent to all the connected slaves. However, a response is not returned.
11.2.3 Read Command · When the data (set value) has a decimal point, a whole number (hexadecimal) without a decimal point is used for a response.
11.3 Negative Acknowledgement
11.3.1 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.
11.3.2 Error Code 3 (03H) The slave will return Error code 3 (03H) in the following case. · When a value out of the setting range is written.
11.3.3 Error Code 17 (11H) The slave will return Error code 17 (11H) in the following case. · In the case of a condition that cannot be written.
11-10

11.4 Notes on Programming Monitoring Software
11.4.1 How to Speed up the Scan Time When monitoring multiple this instrument, set the program so that the requisite minimum pieces of data such as PV (03E8H to 03EBH), Output volume (03ECH to 03EFH), Status flag 1 (03F4H to 03F7H) can be read. For other data, set the program so that they can be read only when their set value has changed. This will speed up the scan time.

11.4.2 Notes on Batch Transmission of All Setting Values · If the input type is changed with Input type (00C8H to 00CBH), the setting values such as Sensor correction factor, Intput scaling high / low limit, and Output scaling high / low limit are initialized. Send the Input type and then the other setting values. For the items to be initialized, refer to “11.5 Initialization Items by Changing Settings”.

11.5 Initialization Items by Changing Settings
The items that are initialized by changing the settings are shown below. : Initialize
: Not initialize

Setting change item Initialized item Sensor correction factor (0084H to 0087H)

Input type (00C8H to 00CBH)

Temperature unit (00CCH to 00CFH)

Sensor correction (0088H to 008BH)

Intput scaling high limit (00D0H to 00D3H)

Intput scaling low limit (00D4H to 00D7H)

Output scaling high limit (01B8H to 01BBH)

Output scaling low limit (01BCH to 01BFH)

11-11

12 Provoz
This section describes the operation when operating by communicating with the host computer. Refer to “11.1 Communication Command List (P.11-1)” for setting the control parameters such as Output volume, Intput scaling high / low limit, and Output scaling high / low limit required for operation.
12.1 Spusťte měření
(1) Before turning the power ON Check the following contents before turning the power ON to this instrument. · Preparation of communication program A communication program is required to connect and use the host computer. Refer to “10 MODBUS Protocol (P.10-1)” to create the communication program. · Select communication specifications Select the communication specifications such as communication speed, data bit, and parity. Refer to “5.1.1 Selection of Communication Specifications (P.5-1)”. · Setting module address Set the module address. Refer to “5.1.2 Setting of Module Address (P.5-3)”. · Mounting Mount the analog I/O module QAM1-4 to the DIN rail. Refer to “6 Mounting (P.6-1)”. · Wiring Wire the analog I/O module QAM1-4. Refer to “7 Wiring (P.7-1)”. · Connection of host computer and analog I/O module QAM1-4 Connect the host computer and analog I/O module QAM1-4. Refer to “7.5 Connection of Host Computer and Analog I/O Module QAM1-4 (P.7-7)”.
(2) After turning the power ON Check the following contents after turning the power ON to this instrument. · Specification setting Set specifications such as input parameters and output parameters. Refer to “8 Setting of Specification (P.8-1)”.
(3) Turn OFF ON the QAM1-4 power Turn OFF ON the power of QAM1-4. The set value becomes effective.
12-1

(4) Operation Start measurement. Refer to “11.1 Communication Commands List (P.11-1)” to perform communication.

Read [Slave address 1, CH1 PV (03E8H)]

· A request message from the master

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (03H)

Datová položka
(03E8H) 2

Množství dat
(0001H) 2

Error check CRC-16 (09CBH)
2

Idle 3.5 characters

· Response message from the slave in normal status [When PV=600°C (0258H)]

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (03H)

Response byte count
(02 h)

Data (0258H)

Kontrola chyb CRC-16 (B8DEH)

Idle 3.5 characters

Write [Slave address 1, CH1 Output volume (0014H)]

· A request message from the master [When Output volume 1000 (03E8H)]

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (06H)

Data item (0014H)

Data (03E8H)

Error check CRC-16 (C970H)

Idle 3.5 characters

· Response message from the slave in normal status

Líný

Otrok

3.5 adresa

characters (01H)

Kód funkce (06H)

Data item (0014H)

Data
(03E8H) 2

Error check CRC-16 (C970H)
2

Idle 3.5 characters

12-2

12.2 Correct PV
When a sensor cannot be mounted at a location to be controlled, the temperature measured by the sensor may differ from the temperature at the measurement location. Also, when multiple analog I/O modules are used for measurement, the measured temperatures may not match due to the accuracy of the sensors. In such cases, the temperature measured by the sensor can be corrected to match the PV of the analog I/O module with the desired temperature.
The input value is corrected by the sensor correction factor and the sensor correction. The sensor correction factor sets the slope, and the sensor correction sets the difference between before and after correction.
PV after input correction is expressed by the following formula. PV after input correction = Current PV × Sensor correction factor setting value + (Sensor correction setting value)
Bývalýample of input value correction using a combination of Sensor correction factor and Sensor correction is shown below.

750 °C 700 °C
340 °C 300 °C

Y Y’ Corrected from 750°C to 700°C
X’ X Corrected from 300°C to 340°C

300 °C

750 °C

Slope before correction

Slope after correction

(Obr. 12.2-1)

(1) Extract two points to be corrected and determine the PV after correction. Before correction: 300°C After correction: 340°C Before correction: 750°C After correction: 700°C
(2) Find the sensor correction factor setting value from (1). (Y’ – X’) / (Y – X) = (700 – 340) / (750 – 300) = 0.8
(3) It is input so that PV will be 300°C using a mV generator and dial resistor. (4) Set the value of (2) to the sensor correction factor. (5) Read PV.
It is displayed as 240°C. (6) Find the sensor correction setting value.
Find the difference between the PV after input correction and the PV read in (5). 340°C – 240°C = 100°C (7) Set the value of (6) to the sensor correction. (8) Input an electromotive force or resistance value equivalent to 750°C using a mV generator or dial resistor. (9) Read PV and check that the display is 700°C.

12-3

[Nastavení Přample] When set Sensor correction factor: 0.800, Sensor correction: 100.0°C

0.800(0320H) [Slave address 1, Sensor correction factor of CH1]

· A request message from the master

Líný

Funkce Slave

3.5 address code

characters (01H)

(06 h)

Datová položka
(0084H) 2

Data
(0320H) 2

· Response message from the slave in normal status

Líný

Slave Function Data item

3.5 address code

characters (01H)

(06 h)

(0084 h)

Data
(0320H) 2

Error check CRC-16 (C8CBH) 2

Idle 3.5 characters

Error check CRC-16 (C8CBH) 2

Idle 3.5 characters

100.0°C (03E8H) [Slave address 1, Sensor correction of CH1]

· A request message from the master

Líný

Funkce Slave

3.5 address code

characters (01H)

(06 h)

Datová položka
(0088H) 2

Data
(03E8H) 2

· Response message from the slave in normal status

Líný

Slave Function Data item

3.5 address code

characters (01H)

(06 h)

(0084 h)

Data
(03E8H) 2

Error check CRC-16 (095EH) 2

Idle 3.5 characters

Error check CRC-16 (095EH) 2

Idle 3.5 characters

12-4

13 Communication with PLC Using SIF Function
The SIF function (Smart InterFace, programless communication function) is a function that serially connects the PLC Q series (manufactured by Mitsubishi Electric Corp.) and this instrument, and reads and writes various data to and from PLC registers using the communication protocol of the PLC. The following communication protocols and commands are supported.

Communication protocol Communication command

Format 4 A compatible 1C frame AnA/AnU common command (QR/QW)

Using the console software (SWC-QTC101M), select the PLC register start number, PLC register address, the monitoring items and setting items to be linked, and set the specifications.

The control module QTC1-2P (with power supply / communication options) or QTC1-4P (with power supply / communication options) becomes the master and the selected monitor item is periodically written to the PLC register using the QW command, and the PLC register value is constantly updated. In addition, the selected setting items are read from the PLC register in response to a setting request using the QR command. When the read data is changed, the set value of control module QTC1-2P (with power / communication option) or QTC1-4P (with power supply / communication option) and analog I/O module QAM1-40 (no power supply / communication option) is updated.

Konfigurace napřample of PLC and QTC1-4P, QAM1-40 Maximum of 16 modules

RS-485
PLC Control module QTC1-4P (with power supply / communication option)(master)

Analog I/O module QAM1-40

(no power supply / communication option) (slave)

(

)

(Obr. 12.2-1)

13-1

13.1 Flow of Before Operation
The flow of operation when the QTC1-4P and QAM1-40 are connected to the PLC is shown below.

Set communication specifications of control module QTC1-4P and analog I/O module QAM1-
40

Select the communication specifications such as communication speed, data bits, and parity for the control module QTC1-4P and the analog I/O module QAM1-40. Refer to “5.1.1 Selection of Communication Specifications (P.5-1)”. For control module QTC1-4P, select “SIF specification” in the selection of communication protocol (set DIP switch 6 for selection of communication specifications to ON). For details, refer to “5.1.1 Selection of Communication Specifications (P.5-1)” in the QTC1-4 Control Module Instruction Manual.

Set module address of control module QTC1-4P and analog I/O module
QAM1-40

Set the module address of control module QTC1-4P and analog I/O module QAM1-40. Select a consecutive number from 1 for the address. Refer to “5.1.2 Setting of Module Address (P.5-3)”.

Set PLC communication parameter

Set the PLC communication parameters. Refer to “13.2 PLC Communication Parameter Setting (P.13-3)”.

Montážní elektroinstalace

Mount the control module QTC1-4P and analog I/O module QAM140 to the DIN rail. Refer to “13.3 Mounting (P.13-6)”.
Wire the control module QTC1-4P and analog I/O module QAM1-40. Refer to “13.4 Wiring (P.13-8)”.

Connecting PLC and control module QTC1-4P

Connect the PLC and control module QTC1-4P. Refer to “13.5 Connection of PLC and Control Module QTC1-4P (P.13-11)”.

Specification setting

Set the communication settings with PLC. Refer to “13.6 Specification Setting (P.13-13)”.

Zahájení provozu

Communication is performed between the QTC1-4P and PLC, and operation starts. Refer to “13.7 Operation (P.13-30)”.
(Obr. 13.1-1)
13-2

13.2 PLC Communication Parameter Setting
Set the PLC communication parameters. The setting method using GX Works3 is explained.
Connect the GX Works3 installed PC, set the communication speed, transmission specifications, communication protocol, etc., and then set the communication parameters using the PC write function. Refer to “Serial Communication Module User’s Manual (Basic)” for detail.
(1) I/O assignment setting Double-click [PLC parameter] on Project data list -> Parameter. Display the Parameter Setting screen. Click “I/O Assignment” tab, and set “Type”, “Model Name” and “Points”.

[Nastavení Přample] Setting item
Type Model Name Points

(Obr. 13.2-1)
Setting contents Intelligent Model name of mounted unit (Example: QJ71C24N) 32 points
13-3

(2) Switch setting Click [Switch Setting] button to the right of the I/O Assignment setting.
(Fig. 13.2-2) Displays the Switch Setting for I/O and Intelligent Function Module screen. Set the data bit, parity bit, stop bit, communication speed and communication protocol settings. After setting, click [End] button.

[Nastavení Přample] Setting item
Action setting Data bit Parity bit Stop bit Sum check code Write during RUN Setting change Communication speed setting Communication protocol setting

(Obr. 13.2-3)
Setting contents Independent 8 bits Even 1 bit Yes Enable Disable Set the same communication speed as the control module QTC1-4P (Setting example: 57600 bps) Format 4
13-4

(3) PLC writing Click [Write to PLC…] on Menu bar -> Online. Display the PC writing screen.
(Fig. 13.2-4) Click [Select all] button -> [Execute] button.
(Fig. 13.2-5) This completes the PLC communication parameter settings.
13-5

13.3 Montáž
Montáž na lištu DIN Spusťte zajišťovací páčku tohoto nástroje. (Zajišťovací páka tohoto nástroje má pružinovou strukturu, ale pokud ji spustíte ve směru šipky až na doraz, bude v této poloze zajištěna.) Zahákněte část tohoto nástroje na horní část lišty DIN. Vložte spodní část tohoto nástroje s částí jako opěrným bodem. Zvedněte zajišťovací páku tohoto nástroje. Ujistěte se, že je připevněn k DIN liště.

(Obr. 13.3-1)

(Obr. 13.3-2)

(Obr. 13.3-3)

13-6

Montáž více modulů na lištu DIN Tato část popisuje příkladample of mounting multiple modules on the DIN rail. Remove the line cap on the right side of the QTC1-4P. Lower the lock lever of the QAM1-40, and mounting the QAM1-40 to the DIN rail. Slide the QAM1-40 to the left and connect the connectors to each other. Raise the lock lever of the QAM1-40. Make sure it is fixed to the DIN rail. QTC1-4P

(Fig. 13.3-4) QTC1-4P

QAM1-40

(Obr. 13.3-5)

Ujistěte se, že je krytka linky připojena k pravému QAM1-40.

(Obr. 13.3-6)

13-7

13.4 Zapojení

13.4.1 Wiring for Power Supply and Communication

The terminal block for power supply and communication is located on the base of the control module

QTC1-4P.

Zapojení podle následujícího postupu.

(1) Odstranění pouzdra

Push the release lever on the top of QTC1-

Věc

Uvolněte páku

4P to unlock it. Remove the case.

Báze

(2) Elektroinstalace

(Obr. 13.4-1)

Napájení

–

24 V DC

Sériová komunikace RS-485
-+ YA YB SG

Refer to “13.5 Connection of PLC and Control Module QTC1-4P (P.13-11)” for the serial communication wiring.
(Obr. 13.4-2)

13-8

(3) Case mounting Hook the case on the lower part of QTC1-4P. Mount the case so that the lower part of QTC1-4P is the fulcrum and covers the release lever. There is a clicking sound.

Věc

Uvolňovací páka Základna

(Obr. 13.4-3)

13-9

13.4.2 Wiring for Input and Output
Pozor
· Please note that CH1, CH2 and CH3, CH4 have different terminal arrangements. · The tightening torque should be 0.63 N·m. · For DC current input (with an external receiving resistor), connect a receiving resistor [option 50
(RES-S01-050)] between each input terminal (+ and -). For DC current input (built-in receiving resistor), a receiving resistor (50 ) is not required.

výstup CH1
DC current +

DC svtaga +

–

CH2 output: CH3 output: CH4 output:

vstup CH1

TC (Thermocouple)
+

RTD (Resistance temperature detector)
A

DC A (Direct current)
4 až 20 mA 0 až 20 mA
+

–

DC V (DC voltage) 0 to 1 V 0 to 5 V 1 to 5 V + 0 to 10 V
–

CH2 input: CH3 input: CH4 input:

(Obr. 13.4-4)

13-10

13.5 Connection of PLC and Control Module QTC1-4P
Varování
Před zapojením vypněte napájení tohoto nástroje. Pokud pracujete s napájením, můžete utrpět úraz elektrickým proudem, který může mít za následek nehodu s následkem smrti nebo vážného zranění.
Napájení

–

24 V DC

Sériová komunikace RS-485
-+ YA YB SG
Refer to “Fig. 13.5-2 (P.13-12)” for the serial communication wiring.
(Obr. 13.5-1)

13-11

Example of connection between PLC and QTC1-4P, QAM1-40

PLC (Serial Communication Unit)
SDA

Control module QTC1-4P (with power supply /
communication option)

Analog I/O module QAM140
(no power supply / communication option)

SDB RDA RDB

Communication cable (*)

BUS připojení

(*): For communication cables, please contact the store where you purchased the product or our sales office.
(Obr. 13.5-2)

13-12

13.6 Specification Setting
Set the specifications of the control module QTC1-4P and analog I/O module QAM1-40 to communicate with the PLC. This section describes how to set specifications using console software (SWC-QTC101M).

13.6.1 Preparation of USB Communication Cable and Console Software Please prepare the USB communication cable and the console software. · USB communication cable USB-micro USB Type-B (commercial item) · Console software (SWC-QTC101M) Please download from our website and install. Click https://shinko-technos.co.jp/e/ Support/Download Software

13.6.2 Connecting to Host Computer
Pozor
Do not use the logging function of the console software when communicating by connecting the USB communication cable.
(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.

Example of connection between host computer and QTC1-4P, QAM1-40

Host computer USB port

Control module QTC1-4P (with power supply /
communication option)
USB communication cable (commercial item)
USB – micro USB Type-B

Analog I/O module QAM140
(no power supply / communication option)

Console communication connector (Fig. 13.6-1)

13-13

(3) 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”.
(4) Starting the console software (SWC-QTC101M) Start the console software (SWC-QTC101M).
(Fig. 13.6-2) Click [User (U)] on the menu bar [Communication conditions (C)]. Display the communication condition setting screen.
(Fig. 13.6-3) 13-14

Set the communication condition as shown below.

Položky nastavení

Nastavení hodnoty

Komunikační port

Select the COM port number confirmed in

Komunikační protokol

MODBUS RTU

Klikněte na [OK]

Click “Default setting of SIF function(S)” from “User(U)” of menu ber.

Display “Default setting of SIF function” screen.

of (3).

(Fig. 13.6-4) Select “Module 1” and click “System” tab.

The specifications are ready.

(Obr. 13.6-5)

13-15

13.6.3 Specification Setting

Specification setting of control module QTC1-4P

Set the specifications of the control module QTC1-4P with reference to the SIF function initial setting

položky.

SIF function initial setting items

MODBUS address HEX DEC

Jméno

Settings · Selection range

Sdělení

020A

522 management module

1 až 16 moduly

nastavení čísla

0384

900 PLC register start number 0 to 65535

0385

901 PLC response wait time 100 to 3000 ms

0386

902

PLC communication start wait time

1 až 255 sekund

0387

903 Reservation (Not used)

0388

904 Reservation (Not used)

0389

905 Monitor item 1

Refer to Monitor item 1 (P.13-17)

038A

906 Monitor item 2

Refer to Monitor item 2 (P.13-18)

038B

907 Monitor item 3

Refer to Monitor item 3 (P.13-18)

038C 908 Reservation (Not used)

038D 909 Reservation (Not used)

038E

910 Setting item 1

Refer to Setting item 1 (P.13-19)

038F

911 Setting item 2

Refer to Setting item 2 (P.13-19)

0390

912 Setting item 3

Refer to Setting item 3 (P.13-20)

0391

913 Setting item 4

Refer to Setting item 4 (P.13-20)

0392

914 Setting item 5

Refer to Setting item 5 (P.13-21)

0393

915 Setting item 6

Refer to Setting item 6 (P.13-21)

0394

916 Setting item 7

Refer to Setting item 7 (P.13-22)

(*) 0: The value set in each module is a valid item.

Initial Remarks

hodnota

(*)

1000 0 200 1
5
0 0 0 0 31 0 0 0 0 0 0 0 0 0 57827 0 2721 0 0 0 0 0 0 0 0 0 0 0

1: The value set in the control module QTC1-4P is a valid item.

(1) Communication management module number setting Set the number of modules managed by the master module. Set the number of modules including the master module.

(2) PLC register start number Set the start number of the register used in PLC communication. It is fixed to the D register. Please set in the range of 0 to 65535. For A compatible 1C frame AnA/AnU, set within the range of 0 to 8191. A maximum of 170 registers are used per control module. [System area: 10 registers, Monitor item: 80 registers (20 × 4ch), Setting item: 80 registers (20 × 4ch)] When using multiple control modules, be careful not to duplicate them.

(3) PLC response wait time Set the retransmission interval time when there is no response from the PLC. Please set in the range of 100 to 3000 ms.

13-16

(4) PLC communication start wait time Set the time from when the control module QTC1-4P power is turned on until communication is started to the PLC. Please set in the range of 1 to 255 seconds.

(5) Monitor item 1 to 3
Click [Monitor item] tab or [Next] button. Displays the Monitor item screen. Select any of Monitor item 1 to 3. The maximum number of valid item selections is 20. The excess is invalid for all channels in the control module.

Monitor item 1 (Initial value: 31) Bit No. Selection

Popis

PV reading (including difference)

MV reading

SV reading

Status flag 1 reading

Status flag 2 reading

Heater current value reading

Event input reading

Event output reading

PV reading (true value)

Ambient temperature reading

Nepoužito

13-17

Monitor item 2 (Initial value: 0)

Bit No. Selection

Popis

Alarm history 1 Error No.

Alarm history 2 Error No.

Alarm history 3 Error No.

Alarm history 4 Error No.

Alarm history 5 Error No.

Alarm history 6 Error No.

Alarm history 7 Error No.

Alarm history 8 Error No.

Alarm history 9 Error No.

Alarm history 10 Error No.

Alarm history 1 Total energizing time

Alarm history 2 Total energizing time

Alarm history 3 Total energizing time

Alarm history 4 Total energizing time

Alarm history 5 Total energizing time

Alarm history 6 Total energizing time

Monitor item 3 (Initial value: 0)

Bit No. Selection

Popis

Alarm history 7 Total energizing time

Alarm history 8 Total energizing time

Alarm history 9 Total energizing time

Alarm history 10 Total energizing time

Contact switching total number of times (High)

Contact switching total number of times (Low)

Total energizing time (High, Low)

Heater accumulated energizing time (High)

Heater accumulated energizing time (Low)

Nepoužito

13-18

(6) Setting item 1 to 7
Click [Setting item] tab or [Next] button. Displays the Setting item screen. Select any of Setting item 1 to 7. The maximum number of valid item selections is 20. The excess is invalid for all channels in the control module.

Setting item 1 (Initial value: 57827)

Bit

Setting request item number

Výběr

Popis
Control Allowed/Prohibited selection AT Perform/Cancel selection Event output ON/OFF selection Auto/Manual control selection Manual MV setting SV setting Proportional band setting Integral time setting Derivative time setting Proportional cycle setting ON/OFF hysteresis setrting Output high limit setting Output low limit setting Alarm 1 action selection Alarm 2 action selection Alarm 3 action selection

Setting item 2 (Initial value: 2721)

Bit

Setting request item number

Výběr

Popis
Alarm 4 action 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 Alarm 3 high limit value setting Alarm 4 value setting Alarm 4 high limit value setting Heater burnout alarm setting Loop break alarm band setting Loop break alarm time setting

13-19

Setting item 3 (Initial value: 0)

Bit

Setting request item number

Výběr

Popis
Sensor correction factor setting Sensor correction setting PV filter time constant setting SV rise rate setting SV fall rate setting MV bias setting Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used

Setting item 4 (Initial value: 0)

Bit

Setting request item number

Výběr

Popis
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 ATgain setting Alarm 1 value 0 Enabled/Disabled selection Alarm 2 value 0 Enabled/Disabled selection Alarm 3 value 0 Enabled/Disabled selection Alarm 4 value 0 Enabled/Disabled selection Event output allocation selection Event input allocation selection CH Enabled/Disabled selection

13-20

Setting item 5 (Initial value: 0)

Bit

Setting request item number

Výběr

Popis
Number of moving average setting Input math function selection Input difference selection Input difference setting Control action selection Proportional gain 2 DOF coefficient () setting Integral 2 DOF coefficient () setting Derivative 2 DOF coefficient (, Cd) setting Desired value proportional coefficient (Cp) setting Gap width setting Gap coefficient setting Output minimum ON/OFF time setting Integral/Derivative decimal point position selection Power-on restore action selection Not used Not used

Setting item 6 (Initial value: 0)

Bit

Setting request item number

Výběr

Popis
Control function selection Cooling P-band setting Cooling Integral time setting Cooling Derivative 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 Slave scale low limit setting Output bias setting Output gain setting Output channel selection Output rate-of-change setting

13-21

Setting item 7 (Initial value: 0)

Bit

Setting request item number

Výběr

100

101

102

103

104

105

106

107

108

109

110

111

112

Popis
Communication response delay time setting Extension function selection Total current setting Current value setting OUT ON delay setting Auto balance control Interlock/Single selection Auto balance control Master/Slave selection Auto balance control Enabled/Disabled selection Auto balance control start output setting Auto balance control cancel area setting Number of communication management module setting Non-volatile IC memory save selection Not used Not used Not used Not used

(7) Control module power OFF ON Turn the control module power off and then on. The set value becomes effective.

This completes the specification setting.

If multiple control modules are connected, connect the USB communication cable to the next control module. Select the connected module number (Example: Module 2) and click the [System] tab.

(Fig. 13.6-6) 13-22

Specification setting of analog I/O module QAM1-40

Set the specifications of analog I/O module QAM1-40 referring to the SIF function initial setting

položky.

SIF function initial setting items

MODBUS address HEX DEC

Jméno

Settings · Selection range

Sdělení

020A

522 management module

1 až 16 moduly

nastavení čísla

0384

900 PLC register start number 0 to 65535

0385

901 PLC response wait time 100 to 3000 ms

0386

902

PLC communication start wait time

1 až 255 sekund

0387

903 Reservation (Not used)

0388

904 Reservation (Not used)

0389

905 Monitor item 1

Refer to Monitor item 1 (P.13-24)

038A

906 Monitor item 2

Refer to Monitor item 2 (P.13-25)

038B

907 Monitor item 3

Refer to Monitor item 3 (P.13-25)

038C 908 Reservation (Not used)

038D 909 Reservation (Not used)

038E

910 Setting item 1

Refer to Setting item 1 (P.13-26)

038F

911 Setting item 2

Refer to Setting item 2 (P.13-26)

0390

912 Setting item 3

Refer to Setting item 3 (P.13-27)

0391

913 Setting item 4

Refer to Setting item 4 (P.13-27)

0392

914 Setting item 5

Refer to Setting item 5 (P.13-28)

0393

915 Setting item 6

Refer to Setting item 6 (P.13-28)

0394

916 Setting item 7

Refer to Setting item 7 (P.13-29)

(*) 0: The value set in each module is a valid item.

Initial Remarks

hodnota

(*)

1000 0 200 1
5
0 0 0 0 27 0 0 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 0 0 0 0 0 0

1: The value set in the control module QTC1-4P is a valid item.

(1) Communication management module number setting Set the number of modules managed by the master module. Set the number of modules including the master module.
(2) PLC register start number Set the start number of the register used in PLC communication. It is fixed to the D register. Please set in the range of 0 to 65535. For A compatible 1C frame AnA/AnU, set within the range of 0 to 8191. A maximum of 170 registers are used per control module. [System area: 10 registers, Monitor item: 80 registers (20 × 4ch), Setting item: 80 registers (20 × 4ch)] When using multiple control modules, be careful not to duplicate them.
(3) PLC response wait time Set the retransmission interval time when there is no response from the PLC. Please set in the range of 100 to 3000 ms.

(4) PLC communication start wait time Set the time from when the control module QTC1-4P power is turned on until communication is started to the PLC. Please set in the range of 1 to 255 seconds.

13-23

Monitor item 1 (Initial value: 27) Bit No. Selection

Popis

PV reading (including difference)

Output volume reading

Nepoužito

Status flag 1 reading

Status flag 2 reading

Nepoužito

PV reading (true value)

Ambient temperature reading

Nepoužito

13-24

Monitor item 2 (Initial value: 0)

Bit No. Selection

Popis

Alarm history 1 Error No.

Alarm history 2 Error No.

Alarm history 3 Error No.

Alarm history 4 Error No.

Alarm history 5 Error No.

Alarm history 6 Error No.

Alarm history 7 Error No.

Alarm history 8 Error No.

Alarm history 9 Error No.

Alarm history 10 Error No.

Alarm history 1 Total energizing time

Alarm history 2 Total energizing time

Alarm history 3 Total energizing time

Alarm history 4 Total energizing time

Alarm history 5 Total energizing time

Alarm history 6 Total energizing time

Monitor item 3 (Initial value: 0)

Bit No. Selection

Popis

Alarm history 7 Total energizing time

Alarm history 8 Total energizing time

Alarm history 9 Total energizing time

Alarm history 10 Total energizing time

Nepoužito

Total energizing time (High, Low)

Nepoužito

13-25

Setting item 1 (Initial value: 16)

Bit

Setting request item number

Výběr

Popis
Not used Not used Not used Not used Output volume setting Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used

Setting item 2 (Initial value: 0)

Bit

Setting request item number

Výběr

Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used

Popis

13-26

Setting item 3 (Initial value: 0)

Bit

Setting request item number

Výběr

Popis
Sensor correction factor setting Sensor correction setting PV filter time constant setting Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used

Setting item 4 (Initial value: 0)

Bit

Setting request item number

Výběr

Popis
Input type selection Temperature unit selection Input scaling high limit setting Input scaling low limit setting Input sampling selection Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used

13-27

Setting item 5 (Initial value: 0)

Bit

Setting request item number

Výběr

Popis
Number of moving average setting Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used

Setting item 6 (Initial value: 0)

Bit

Setting request item number

Výběr

Popis
Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Output scaling high limit setting Output scaling low limit setting Not used Not used Not used Not used

13-28

Setting item 7 (Initial value: 0)

Bit

Setting request item number

Výběr

100

101

102

103

104

105

106

107

108

109

110

111

112

Popis
Communication response delay time setting Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used Not used

(7) Control module power OFF ON Turn the control module power off and then on. The set value becomes effective.

This completes the specification setting for the analog I/O module QAM1-40.

13-29

13.7 Provoz
The following explains how to connect two modules to the PLC.

Připojení napřample of PLC and QTC1-4P, QAM1-40

Control module QTC1-4P

(with power supply / communication option)

(master) Module address 1 PLC

RS-485

Analog I/O module QAM1-40 (no power supply / communication option) (slave) Module address 2

(Obr. 13.7-1)
13.7.1 Communication Procedure (1) The control module QTC1-4P becomes the master and collects the valid monitor items and setting items of the analog I/O module QAM1-40 (slave). (2) After the PLC communication start waiting time has elapsed, the control module QTC1-4P periodically writes the item selected in the monitor items to the PLC register. Also, the item selected from the setting items is read from the PLC register in response to a setting request.

QTC1-4P

QAM1-40

PLC

(Mistr)

(Otrok)

All items

Reading item: Item selected in Monitor item.
Writing item: Item selected in Setting item at startup Items set by the Setting request item number after startup

(Obr. 13.7-2)

13-30

13.7.2 PLC Communication Data Map Shown below is the PLC communication data map when the initial setting example for PLC communication is set.

Example of initial setting for PLC communication

Adresa MODBUS

HEX

DEC

0384

900

Name PLC register start number

0385

901 PLC response wait time

0386

902 PLC communication start

wait time

0387

903 Reservation (Not used)

0388

904 Reservation (Not used)

0389

905 Monitor item 1

038A

906 Monitor item 2

038B

907 Monitor item 3

038C

908 Reservation (Not used)

038D

909 Reservation (Not used)

038E

910 Setting item 1

038F

911 Setting item 2

0390

912 Setting item 3

0391

913 Setting item 4

0392

914 Setting item 5

0393

915 Setting item 6

0394

916 Setting item 7

QTC1-4P (Master) setting 1000 200 5
0 0 31 0 0 0 0 57827 2721 0 0 0 0 0

QAM1-40 (Slave) setting 1100 200 5
0 0 27 0 0 0 0 16 0 0 0 0 0 0

13-31

PLC data register layout
Information between QTC1-4 and PLC (system data) Monitor item Setting item

QTC1-4P (Master)
1000 až 1009 1010 až 1029 1030 až 1085

QAM1-40 (Slave)
1100 až 1109 1110 až 1125 1126 až 1137

Details of information (system data) between control module QTC1-4 and PLC

Control module QTC1-4 (Master)

Data
Stav komunikace

PLC data register
1000

Atribut

Popis

RO 0: QTC1-4P collecting data 1: QTC1-4P completes data collection (Startup: Initial setting value of each slave)

QTC1-4 – PLC Normal communication monitor QTC1-4 Error code

1001

RO Increment counter Repeat 0 to 65535 0 to 65535

RO B0: PLC register R/W error

0: Normální

1: Chyba

B1: QTC1-4P communication error

0: Normální

1: Chyba

B2: QTC1-4P Negative acknowledgement when

setting0:

0: Normální

1: Chyba

(It will be cleared when B0 of 1006 is cleared.)

Setting request monitor

1003

RO B0: Setting (Reflect and set to B0 of 1006.) B1: Monitoring (Reflect and set until B1 of 1006 is cleared.)

Reservation Setting request item number
Setting request command (*)
Rezervace

1004
1006
1007

RO
R/W 0: All items selected in setting items 1 to 7 1 to 112: Items selected in setting items 1 to 7 (1 data) Only the data (1 data) of the selected item will be read or written. However, because communication with the PLC is a batch process, all the selected items are read or written.
R/W B0: Setting request (PLC QTC1-4P) QTC1-4P requests to read the setting item data from the PLC register.
B1: Monitor request (QTC1-4P PLC) QTC1-4P requests to write the setting item data to the PLC register. After the setting request or monitor request is completed, QTC1-4P clears each bit.
R/W

Reservation Reservation

1008

R/W

1009

R/W

(*): If the setting request and the monitor request are set at the same time, processing is performed in the following procedure: setting request (QTC1-4P reads PLC register data), monitor request (writing data to PLC register). If the setting request is set during the monitor request, the monitor request is discarded and the monitoring request is made again after the setting request.

13-32

Analog I/O module QAM1-40 (Slave)

Data

PLC data register

Atribut

Popis

Sdělení

1100

RO 0: QTC1-4P collecting data of QAM1-40

postavení

1: QTC1-4P completes data collection of QAM1-40

(Startup: Initial setting value of each slave)

QTC1-4 – PLC Normal

1101

RO Increment counter Repeat 0 to 65535 0 to 65535

sdělení

monitor

QTC1-4

1102

RO B0: PLC register R/W error

Kód chyby

0: Normální

1: Chyba

B1: Communication error between QTC1-4P and

QAM1-40

0: Normální

1: Chyba

B2: Negative acknowledgement when setting

QTC1-4P to QAM1-40

(It will be cleared when B0 of 1006 is cleared.)

0: Normální

1: Chyba

Setting request

1103

RO B0: Setting (Reflect and set to B0 of 1006.)

monitor

B1: Monitoring (Reflect and set until B1 of 1006 is

vyčištěno.)

Rezervace

1104

Setting request

1105

R/W 0: All items selected in setting items 1 to 7

číslo položky

1 až 112:

Items selected in setting items 1 to 7 (1 data)

Only the data (1 data) of the selected item will

be read or written. However, because

communication with the PLC is a batch

process, all the selected items are read or

napsáno.

Setting request

1106

R/W B0: Setting request (PLC QTC1-4P)

command (*)

QTC1-4P requests to read the setting item data

from the PLC register. B1: Monitor request (QTC1-4P PLC)

QTC1-4P requests to write the setting item data

to the PLC register.

After the setting request or monitor request is

completed, QTC1-4P clears each bit.

Rezervace

1107

R/W

Rezervace

1108

R/W

Rezervace

1109

R/W

(*): If the setting request and the monitor request are set at the same time, processing is

performed in the following procedure: setting request (QTC1-4P reads PLC register data),

monitor request (writing data to PLC register).

If the setting request is set during the monitor request, the monitor request is discarded and

the monitoring request is made again after the setting request.

13-33

Details of monitor item and setting item between control module QTC1-4 and PLC

Control module QTC1-4P (Master)

Datová položka

Kanál

PV reading (Including difference)

CH1 CH2 CH3 CH4

MV reading SV reading Status flag 1 reading

CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4

PLC data register
1010 1011 1012 1013
1014 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025

Atribut

Data

RO The value of “14.2.1 Control range (P.14-6)”. Supports input math function (difference input, addition input) and input difference detection function.
RO Output low limit to Output high limit

RO Scaling low limit to Scaling high limit

RO B0: Control Allowed/Prohibited

0: Prohibited 1: Allowed

B1: AT Perform/Cancel

0: Zrušit

1: Perform

B2: Auto/Manual control

0: Automatic 1: Manual

B3: Control output

0: VYPNUTO

1: ZAPNUTO

B4: Input error (Overscale)

0: Normální

1: Chyba

B5: Input error (Underscale)

0: Normální

1: Chyba

B6: Alarm 1 output

0: VYPNUTO

1: ZAPNUTO

B7: Alarm 2 output

0: VYPNUTO

1: ZAPNUTO

B8: Alarm 3 output

0: VYPNUTO

1: ZAPNUTO

B9: Alarm 4 output

0: VYPNUTO

1: ZAPNUTO

B10: Loop brake alarm output

0: VYPNUTO

1: ZAPNUTO

B11: Heater burnout alarm output

0: VYPNUTO

1: ZAPNUTO

B12: Input difference

0: Within range

1: Mimo rozsah

B13: Not used (indefinite)

B14: Power supply identification

0: 24 V DC

1: USB bus power

B15: Non-volatile IC memory error

0: Normální

1: Chyba

13-34

Data item Status flag 2 reading
Control Allowed/Prohibited selection AT Perform/Cancel selection SV setting Proportional band setting Integration time setting
Derivative time setting

Kanál CH1 CH2 CH3 CH4
CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4
CH1 CH2 CH3 CH4
CH1 CH2 CH3 CH4

PLC data register
1026 1027 1028 1029
1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045
1046 1047 1048 1049
1050 1051 1052 1053

Atribut

Data

RO B0: Auto balance control 0: None

1: During auto balance control B1 to B3: Not used (indefinite)

B4: Cold junction error

0: Normální

1: Chyba

B5: Sensor error

0: Normální

1: Chyba

B6: ADC error 0: Normal

1: Chyba

B7: Host setting value change flag 0: Without flag 1: With flag

B8: USB setting value change flag 0: Without flag 1: With flag

B9 to B11: Not used (indefinite)

B12 to B14: Peak power suppress

function output status flag

0: Output enabled. 1: Output standby

2: Output enabled in next cycle

3: Output enabled (MV=0 %) B15: Not used (indefinite)

R/W 0: Prohibited

1: Allowed

R/W 0: AT Cancel 1: AT Perform

R/W Scaling low limit to Scaling high limit

R/W 1 to Input span °C (°F) or 0.1 to Input span °C (°F) when direct current and DC voltage input 0.10 to 100.00%
R/W 0 to 3600 seconds or 0.0 to 2000.0 seconds when “2: Slow-PID control” is selected in control action selection. 1 to 3600 seconds or 0.1 to 2000.0 seconds
R/W 0 to 3600 seconds or 0.0 to 2000.0 seconds

13-35

Data item Alarm 1 action selection Alarm 2 action selection Alarm 3 action selection Alarm 4 action selection Alarm 1 value setting Alarm 2 value setting Alarm 3 value setting Alarm 4 value setting

Kanál
CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4 CH1 CH2 CH3 CH4

PLC data register
1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083

Atribut

Data

R/W 0: No action 1: High limit alarm 2: Lowh limit alarm 3: High/Low limits alarm
R/W 4: High/Low limit s range 5: Process High alarm 6: Process low alarm 7: High limit with standby
R/W 8: Low limit with standby 9: High/Low limits alarm with 10: High/Low limits alarm individually
R/W 11: High/Low limit s range alarm individually
12: High/Low limits alarm with standby individually
R/W Refer to “Alarm 1 to 4 value setting range table”.

R/W

Alarm 1 to 4 value setting range table

Typ alarmu

Rozsah nastavení

Žádná akce

Alarm vysokého limitu

Dokumenty / zdroje

acse QAM1-4 4 Points Analog I O Module [pdfNávod k obsluze
QAM1-4 4 Points Analog I O Module, QAM1-4, 4 Points Analog I O Module, Points Analog I O Module, Analog I O Module, Module

Reference

Uživatelská příručka

acse QAM1-4 4 Points Analog I O Module

Specifikace

Informace o produktu

Dokumenty / zdroje

Reference

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