Shinko HR-706 Instruction Manual

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Page 1

HYBRID RECORDER

HR-706

(DOT PRINTING)

INSTRUCTION MANUAL

Page 2

For safe use

Thank you for purchasing our HR-706 type Hybrid Recorder.

In order for this instrument to function effectively and correctly, please read and understand this instruction manual thoroughly before using the instrument.

This instrument should be used in accordance with the instructions described in the manual. If it is not used

according to the instructions, it may malfunction or its protection function will be compromised. The symbols below are used on this instrument for caution information.

Symbols used on the instrument

This indicates “Caution”. Please refer to the instruction manual when handling parts with this symbol for protection of both the human body and instrument.

This indicates “Protective grounding”. Be sure to provide protective grounding prior to the operation of this instrument.

This indicates “Risk of electric shock”. This symbol is used on the parts which have a risk of electric shock.

The symbols below are used on the warning and cautioning information in this manual.

Symbols used in this manual

WARNING

Failure to observe this information could result in death or injury. Be sure to read this.

CAUTION

Failure to observe this information could damage the instrument. Be sure to read this.

[Note]

This is cautionary information for correct use of the instrument. Be sure to read this.

[Reference]

This is information about the functions of this instrument for effective use.

Be sure to observe the following warnings/cautions and those written in this

manual in order to ensure safety when using this instrument.

WARNING

(1) In order to prevent electric shock, be sure to disconnect this instrument from the main power source when wiring it. (2) When this instrument is incorprated in a system, and if the system is expected to be affected by malfunction from the recorder or external factor, take preventive measures to secure the safety of the system. (3) Take measures so that foreign objects cannot enter the opening section.

(1) In order to prevent electric shock, be sure to provide protective grounding

prior to turning on this instrument.

(2) Do not cut protective grounding conductors or disconnect protective grounding. (1) Make sure that the supply voltage for this instrument conforms to the

voltage of the supply source. Rated power supply: 10 to 240 V AC Allowable voltage fluctuation: 85 to 264 V AC Power frequency: 50/60 Hz

Power consumption: 30 VA max. (2) Attach protective covers prior to turning on this instrument. (3) Power supply module used in this instrument complies with EN60950. (1) Do not operate this instrument in an environment where it is exposed to combustible/explosive/corrosive gas or water/steam. (2) Use this instrument in the following environment. Installation site: Indoor Altitude: 2000 m max. Ambient temperature: 0 to 50 Ambient humidity: 20 to 80 %RH (Non-condensing) Overvoltage category Pollution degree

Provide input and output wiring after turning off the power.

General

Protective Grounding

Power Source

Working Environment

Input and Output Wiring

Page 3

CAUTION

Do not use unused terminals for any other purposes.

When transporting this instrument, or the equipment with this instrument incorporated in it, take measures to prevent the door opening and the inner module falling out.

Do not touch the switches, etc. inside this instrument. Also, do not replace the main unit or printed circuit boards. If this is ignored, we cannot guarantee the correct functioning of the instrument. Contact our dealer where you purchased the instrument, or our sales representative.

[Note]

(1) Deliver this instruction manual to an end user. (2) Prior to handling this instrument, be sure to read this manual. (3) If you have any questions about this manual or find any errors or

omissions in this manual, contact our sales representative. (4) After reading this manual, keep it in close proximity to the instrument. (5) If the manual becomes lost or stained, contact our sales representative. (6) It is prohibited to copy or reproduce this manual without our permission.

(1) When installing this instrument, put on protective gear such as safety

shoes, helmet, etc.

(2) Do not step on the installed instrument or get on top of it, as this is

dangerous.

Only our servicemen or engineers authorized by Shinko are allowed to remove and take apart the inner module, the main unit and printed circuit boards.

(1) Dispose of the replaced batteries in a correct way. (2) Do not incinerate plastics from the maintenance parts or replacement

parts. Harmful gases may be produced.

(1) Use a dry cloth to clean the surface of this instrument. (2) Do not use any organic solvent. (3) Clean the instrument after the power is turned off.

This instruction manual is subject to change without prior notice.

SAFETY PRECAUTIONS

• To ensure safe and correct use, thoroughly read and understand this manualbefore using this instrument.

• This instrument is intended to be used for industrial machinery, machine tools and measuring equipment. Verify correct usage after purpose-of-use consultation with our agency or main office. (Never use this instrument for medical purposes with which human lives are involved.)

• Proper periodic maintenance is required.

• This instrument must be used under the conditions and environment described in this manual. ShinkoTechnos Co., Ltd.

does not accept liability for any injury, loss of life or damage occurring due to the instrument being used under conditions not otherwise stated in this manual.

Caution with respect to Export Trade Control Ordinance

To avoid this instrument from being used as a component in, or as being utilized in the manufacture of weapons of mass destruction (i.e. military applications, military equipment, etc.), please investigate the end users and the final use of this instrument. In the case of resale, ensure that this instrument is not illegally exported.

Input and Output Wiring

Transportation

Inside of Instrument

Instruction manual

Maintenance

Disposal

Cleaning

Revisions

Installation

Page 4

Using this manual

This instruction manual consists of “For safe use”, “Contents” and “Chapter 1 to Chapter 11” as below. Please read the corresponding sections depending on your purpose of use.

Chapter and title

For purchase

and installation

For initial

setting and

setting change

For daily

operation

For

communication

For maintenance

and

troubleshooting

For safe use (page 1)

1. INTRODUCTION

2. CONSTRUCTION O O O O

3. INSTALLATION O

4. WIRING O O O O

5. PREPARATIONS FOR OPERATION

6. OPERATION O

7. DEVICE SETTING O O

8.COMMUNICATION

9. MAINTENANCE

10. TROUBLESHOOTING O

11. SPECIFICATIONS O O O

: Be sure to read this.

O: Be sure to read this if required.

Guide of Instruction manual The instruction manuals of this instrument are as the table below.

Name Edition No. Outline

HR-706 Hybrid Recorder (Multipoint type) instruction manual

No.HR71E

Explanation for installation, wiring, standard operation. Setting and operation for using this instrument.

HR-700 Hybrid Recorder Communication Command instruction manual

No.HR7CE

Explanation for reading and writing data of the recorder by communication function.

Initial setting checking list

After installing and wiring the HR-706, the following items are the minimum required setting items before running.

Checking item Default value Reference

Range setting

Check the range setting.

10 mV DC (All channels)

pp.45-471

Scaling setting is required for the following cases.

• When converting the input into another physical quantity

• When changing the decimal point position for the thermocouple and RTD input

• When changing unit

Scaling 0 to 100.0 (Unit ) (All channels)

pp.48-49

Unit setting

Check the unit.

Unit (All channels)

pp.58-59

Chart feed speed setting

Check the Chart feed speed.

The 1st chart speed: 20 mm/h The 2nd chart speed: 20 mm/h

p.60

Date and time setting

Check the date and time.

Jan. 1st, 2000, 00:00 (Hour:Minute)

p.61

This manual

Page 5

CONTENTS

1. INTRODUCTION............................................................6

1.1 Checking theAccessories....................................................... 6

1.2 Checking the Model Type and Specifications........................ 7

1.3 Temporary Storage.................................................................. 8

1.4 Location ID tag ........................................................................ 8

2. CONSTRUCTION...........................................................9

2.1Appearance............................................................................. 9

2.2 Display and Operation Keys................................................. 10

2.2.1 Display ............................................................................. 10

2.2.2 Operation Keys.................................................................11

3. INSTALLATION............................................................12

3.1 External dimensions and panel cutout ................................ 12

3.2 Panel Mounting .....................................................................13

3.2.1 Procedure for Panel Mounting........................................ 13

3.2.2 Panel Mounting in compliance with the IP65................. 14

4. WIRING ........................................................................15

4.1 Terminal arrangement and Power Wiring.............................15

4.1.1Terminal arrangement.....................................................15

4.1.2 Power Wiring...................................................................15

4.1.3Wiring Procedure.............................................................16

4.2 Input Wiring............................................................................17

4.2.1Wiring Procedure.............................................................18

4.3 DI function/Alarm Output Wiring (Option)............................. 20

4.3.1 DI function/Alarm Output Wiring Example...................... 20

4.3.2Alarm Output Wiring Procedure...................................... 21

4.3.3 DI FunctionWiring Procedure.........................................21

4.4 Communication Wiring.......................................................... 22

4.4.1 RS-232C Wiring .............................................................. 22

4.4.2 RS-485Wiring.................................................................22

5. PREPARATIONS FOR OPERATION...........................23

5.1 Setting the Chart Paper ........................................................ 23

5.2 Setting the Ribbon Cassette.................................................29

6. OPERATION.................................................................31

6.1 Operation...............................................................................31

6.1.1 Status after Initial Screen ................................................31

6.2 Recording ..............................................................................32

6.2.1 Recording Colors............................................................. 32

6.3 How to Record....................................................................... 32

6.3.1 Starting/Stopping Recording ........................................... 32

6.3.2 Feeding the Chart Paper................................................. 32

6.3.3 Printing Sample...............................................................33

6.4 Digital Printing........................................................................ 34

6.4.1 Manual Printing................................................................ 34

6.4.2 List Printing ...................................................................... 35

6.4.3 Engineering List Printing .................................................37

6.4.4 Recording Start/Stop Printing.......................................... 39

6.4.5 DI Manual Printing (DI option).........................................39

6.4.6 DI Date/Time Printing (DI option).................................... 39

6.4.7 DI Comment Printing (DI option).....................................40

6.5 Changing the Display ........................................................41

6.5.1Auto Display < >............................................... 41

6.5.2 Manual Display< > .............................................. 41

6.5.3 Date Display < >............................................... 41

6.5.4Time Display < > ..............................................41

6.5.5 Display Off < >......................................................41

7. DEVICE SETTING....................................................... 42

7.1 Setting the Setup Mode.........................................................42

7.1.1 Setting the Range ............................................................45

(1) Setting Method.................................................................45

(2) (Current/Voltage), (Thermocouple),

(Resistance Temperature Detector) ..................46

(3) (Scaling)......................................................48

(4) (Square Root)..................................................50

(5) (Decade)......................................................52

(6) (Difference), (Sum),

(Average) ........................................................54

(7) (Skip) ...............................................................55

7.1.2 Setting theAlarm..............................................................56

7.1.3 Setting the Unit.................................................................58

(1) Character Code Table......................................................59

7.1.4 Setting the Chart Feed Speed.........................................60

7.1.5 Setting the Date and Time...............................................61

7.1.6 Copying the Setting Data.................................................62

7.1.7 Setting Other Functions...................................................63

(1) (Printing Cycle)............................................64

(2) (Zone Recording)............................................64

(3) (Partial Compression/Expansion)...................65

(4) (Digital Printing)...........................................66

(5) (Tag).....................................................................67

(6) (Comments).....................................................68

7.2 Setting Engineering Mode.....................................................69

7.2.1Alarm Hysteresis..............................................................72

7.2.2 Burnout ON/OFF..............................................................72

7.2.3 Channel Offset .................................................................72

7.2.4 Reference Junction Compensation.................................73

7.2.5 Changing the Printing Color ...........................................74

7.2.6 Settings Related to Recording.........................................74

(1) Recording RUN/STOP Trigger Setting............................74

(2) Channel/tag Printing Selection ........................................75

(3) Alarm Printing ON/OFF....................................................75

(4) Logging Printing ON/OFF................................................76

(5) Scale Printing ON/OFF....................................................77

(6) Recording Start/Stop Printing ..........................................77

7.2.7 Setting the Communication Function..............................78

7.2.8 Initializing the Setup Data ................................................78

7.2.9 DI functions.......................................................................79

7.2.10 Temperature Unit Selection ...........................................81

7.2.11 PointCalibration .............................................................81

7.2.12 Data Calibration..............................................................83

7.3 Terminating the Engineering Mode.......................................85

Page 6

8. COMMUNICATION.......................................................86

8.1 General Description ..............................................................86

8.1.1 General Description of Functions...................................86

8.1.2Transmission Specifications............................................ 86

8.2 Original Protocol ………………………………………………86

8.2.1 Data Structure.................................................................. 86

8.2.2 Opening/Closing the Link................................................87

1) Open Command...............................................................87

2) Close Command...............................................................87

8.2.3 Outputting the Process Variable.....................................88

1) Specifying the Process Variable Output .......................... 88

2) Updating the Data.............................................................88

3) Specifying the Process Variable Output Order

(At BINARY Mode Output)..............................................88

4) Outputting the Data ..........................................................88

5) Process Variable Transmission Format (ASCII)..............89

6) Process Variable Transmission Format (BINARY) ......... 90

8.2.4 Outputting the Unit and Decimal Point Position Data....91

1) Specifying the Unit and Decimal Point Position

Data Output..................................................................... 91

2) Updating the Data.............................................................91

3) Outputting the Data ..........................................................91

4) Data Format...................................................................... 91

8.2.5 Outputting the Status.......................................................92

1) Status Output Command.................................................. 92

2) Status Output....................................................................92

8.2.6 Data Reception Example................................................93

8.3 Modbus RTU Protocol……………………………………….. 94

8.3.1 Data Construction…………………………………….......94

8.3.2 Function Codes………………………………………….. 94

8.3.3 Error Response………………………………………….. 94

8.3.4 Reading from the Input Register Area…………….........95

8.3.5 Reading from or Writing to the Holding Register Area...98

9. MAINTENANCE...........................................................99

9.1 Inspection ..............................................................................99

9.2 Cleaning.................................................................................99

9.3 Replacing Consumables.....................................................100

9.4Adjusting Dot Printing Position (Point Calibration).............100

9.5 Calibration (Data Calibration)..............................................100

(1) Calibration of Voltage .................................................... 101

(2) Calibration of RTD (Resistance temperature detector) 101

(3) Calibration of Reference Junction Compensation........102

10. TROUBLESHOOTING ............................................ 103

10.1 Troubleshooting ................................................................103

10.1.1 Problems ..................................................................... 103

10.1.2 When the Recorder Dose notWork atAll.................. 103

10.1.3 When There is a Large Error...................................... 104

10.1.4 When the Trend Recording is Deflected.................... 104

10.1.5 When Nothing is Recorded........................................ 105

10.1.6 When Printing is Faint................................................. 105

10.1.7 When the Chart Paper is not Fed atAll...................... 106

10.1.8 When the Chart Paper is not Fed Properly................ 106

10.2 Self-Diagnosis Function (ERROR) .................................. 107

10.2.1 Self-Diagnosis Items................................................... 107

10.2.2 Error Display................................................................ 108

11. SPECIFICATIONS ................................................... 109

11.1 Common Specifications.................................................... 109

11.1.1 Input Signal.................................................................. 109

11.1.2 Performance and Characteristics............................... 109

11.1.3 Structure........................................................................110

11.1.4 Power Source...............................................................110

11.1.5 Normal Operating Conditions......................................110

11.1.6Alarm Output (Optional: LH6) ......................................111

11.1.7 Low voltage Directive and EMC Directive...................111

11.1.8 DI Function (Option: RE6)............................................111

11.1.9 Paper-empty Detection Function (Option: FL6)..........111

11.2 Standard Specifications......................................................112

11.2.1 Measurement Range...................................................112

11.2.2Accuracy at the Computation.......................................115

(1) Scaling ............................................................................115

(2) SquareRoot Computation.............................................115

(3) Decade ...........................................................................116

(4) Difference, Sum, and Average.......................................116

11.2.3 Individual Specifications...............................................116

11.2.4 Standard Functions ......................................................117

11.3 Standard Setting Functions................................................118

11.3.1 Standard Setting Functions..........................................118

11.4 Optional Functions .............................................................118

11.4.1 Remote Function of DI .................................................118

11.4.2Alarm Output Function .................................................118

11.4.3 Communication Function.............................................118

Page 7

1. INTRODUCTION

1.1 Checking the Accessories

Upon delivery of this instrument, unpack and check its accessories and appearance.

If there are any missing accessories or damage to the appearance of the instrument, please contact

our dealer where you purchased the instrument, or our sales representative.

The following accessories are included with the recorder.

1. Chart paper 2. Ribbon cassette 3. Mounting brackets

4. Instruction manual 5. Packing

Fig. 1.1 Accessories

Table 1.1 List of Accessories

No. Part Name Type Quantity Remarks

1 Chart paper H-10100 1 100 equal divisions

2 Ribbon Cassette WPSR188A000001A 1

3 Mounting bracket H4A14175 2 Panel mounting bracket

4 Instruction manual HR71E 1 This manual

5 Packing H4H14900 1 For IP65

[Note]

The ribbon cassette has been set in the instrument before shipment.

Page 8

1.2 Checking the Model Type and Specifications

A nameplate has been secured on the inside of the instrument. Remove the chart holder and

make sure that the nameplate is put in the middle far side of the instrument.

Make sure that this instrument meets your requested specification, checking the following table.

Table 1.2 Model type

H R – 7 0 6,

144 (W) x 144 (H) x 150 (D) mm

Measuring point 6 6 points

C5 Communication function (RS-485)

RE6 DI function

FL6 Paper-empty detection function

Options

LH6 Alarm output function

Page 9

1.3 Temporary Storage

Store the instrument in the following environment.

When installed within another machine, ensure that the operating environment conforms to the

following conditions.

1.4 Location ID tag

A location ID tag is kept on the inside of the transparent door. Enter location or other data as required.

CAUTION

Storage in a poor environment may damage the appearance, functions, and service life of the instrument.

Storage Environment

• A place free from excess dust

• A place free from combustible, explosive, or corrosive gases (SO2, H2S, etc.)

• A place free from vibrations or shocks

• A place free from water or steam or high humidity (95 %RH max.)

• A place free from direct sunlight or high temperature (50 max.)

• A place free from an extremely low temperature (-20 min.)

CAUTION

Note that if a non-approved nameplate is attached, it may damage the door or mounting part.

Page 10

2. CONSTRUCTION

2.1 Appearance

Fig. 2.1 Appearance

Terminal block

Mounting bracket

Ribbon cassette

Door

Chart holder

Display keyboard

Printer

Case

Location ID card

Page 11

2.2 Display and Operation Keys

2.2.1 Display

The following describes the display. Since the channel numbers and data are indicated by a 7-segment

LED, alphabets are symbolized to represent them.

For the LED display, see "Symbolized Alphabets for Display" at [Reference] below.

Fig. 2.2.1 Display

[Reference] Symbolized Alphabets for Display

Display

Alphabet A B C D E F G H h I J K L l

Display

Alphabet M N O P Q R S T U V W X Y Z

Alarm Type Indicator

Indicates an alarm type in red. "H" is lit when the alarm is High. And “L” is lit when the alarm is Low. Neither of them is lit when there is no alarm.

Channel No. Display

Indicates channel number in orange.

Data Display

Indicates the process variable, time, setting screen, etc. in orange.

Operation Keys

Use these keys for setting and

other operations.

Status indicator

The "REC" indicator (orange) is lit when

recording. The "ALM" indicator (red) is lit while

the alarm is being activated.

denotes that the indicator is off, and

denotes that it is lit.

Page 12

2.2.2 Operation Keys

The following describes functions of each operation key.

The actual operation keys are described as shown below.

Fig. 2.2.2 Operation Keys in This Manual

Table 2.2.2 Names of Operation Keys and Their Functions

Key Name Function

“REC”key

Starts/stops recording. To stop, press the “REC” key for 3 seconds or longer. (The “REC” indicator goes off.) To start, press the “REC” key. (The “REC” indicator lights.)

“MENU” key MENU function

Selects engineering list printing and changes the mode tothe setting mode.

“ESC” key ESC function

While selecting a function, exits that menu without finishing.

“PRINT” key

PRINTING function

Used toperform manual printing or list printing.

“ ” key function

Used to select a setting parameter (numeral or built-in command) (ascending direction).

“FEED” key FEED function

The chart paper is fed while the key is pressed, and stopped when released.

“ “ key function Used to shifta digit in setting a numeral.

“ENT” key

Used to register a setting parameter (numeral or built-in command) after selecting it, or used to execute a function. Pressing this key executes the setting.

REC

FEED

ENT

REC

FEED

ENT

ESC

Page 13

3. INSTALLATION

3.1 External Dimensions and Panel Cutout

Fig. 3.1 External Dimensions and Panel Cutout

CAUTION

For the maintenance and safety of the instrument, the space/size indicated in the brackets ( ) is the minimum secure spacing.

Dimension required when the door is fully open (135 degrees). (Wall on left side).

Scale

<Front>

<Rear>

<Side>

137

（128 ）

（128）

7 max

（Pannel thickness)

150

（56 ）

144

3.5

2.5

(100)

200 min.

138

-0

138

-0

L N

1A 2C2A1C 3A 4C4A3C 5A 6C6A5C

B4-B4A

5+B5-B5A6+

6 A

1-B1

2+ B

2 A

3+ B

3B3A

RDTD

COM

DI3DI2DI

Page 14

3.2 Panel Mounting

3.2.1 Procedure for Panel Mounting

1) Assemble the mounting bracket, referring to Fig.3.2.1-1.

2) Insert this instrument through the front of the panel.

3) Hook the claws of the mounting bracket at the square holes on the top and bottom surfaces of

the case.

4) Tighten the screw of the mounting bracket with a screwdriver to attach it to the panel. When

the mounting unit does not move back and forth any more, tighten the screw by 180 .

Fig. 3.2.1-1 Mounting Bracket

[Note]

If it is tightened with excessive force, the case may be distorted and the mounting bracket may be damaged. An adequate tightening torque is 0.2 to 0.3 N･m (2 to 3 kgf・cm).

WARNING

Do not install this instrument in a place exposed to combustible, explosive, or corrosive gas (SO2, H2S, etc.).

CAUTION

Install the instrument only in the following conditions.

• A place without rapid humidity change.

• A place of normal temperature (around 25 ).

• A place exposed to as few mechanical vibrations as possible.

• A place with as little dust as possible.

• A place affected by electromagnetic fields as little as possible.

• A place not directly exposed to high radiant heat.

• A place of altitude below 2000 m.

• Humidity has an effect on the chart paper and ink. Use the instrument in a humidity range of 20 to 80 %RH (60 %RH is the optimum).

• This instrument needs to be installed indoors.

Panel Mounting

• A steel plate not thinner than 1.2 mm is recommended as a mounting panel.

• The maximum thickness of the mounting panel is 7 mm.

Inclination

• Install the instrument horizontally.

• The instrument should be installed so that its inclination should be 0 at the front and within 30

at the rear.

Assemble in such a manner that the screw nose will be almost aligned with the plate surface.

Mounting Claw

Body

Mounting Claw

Page 15

Fig. 3.2.1-2 Panel Mounting

3.2.2 Panel Mounting in Compliance with the IP65

Prior to mounting the instrument to the panel, attach packing to the position shown in the figure.

The rest of the procedure is the same.

Fig. 3.2.2 Panel Mounting (in compliance with the IP65)

Mounting of Packing

Packing

Panel

Mounting bracket

Packing

Panel

Screw

Panel

Mounting bracket

Screw

Page 16

4. WIRING

4.1 Terminal Arrangement and Power Wiring

4.1.1 Terminal Arrangement

Fig. 4.1.1 Terminal arrangement (Rear view)

4.1.2 Power Wiring

L N

1A 2 C2A1C

3A 4 C4A3C

5A 6 C6A5 C

4 A

B5A6+B

6 A

1-B1

2 A

B3A

RDTD

DI COM

DI 3DI2

DI 1

Power source terminal block

Communication terminal block (RS-232C)

Input terminal block

Alarm output terminal block (Option: LH6)

Communication terminal block (RS-485)

(Option: C5)

DI terminal block (Option: RE6)

WARNING

(1) In order to prevent an electric shock, be sure to provide protective grounding prior to

supplying power to the instrument.

(2) Do not cut the protective grounding conductor or disconnect protective grounding.

(3) Make sure that the supply voltage for the instrument conforms to the voltage of the supply

source.

(4) Attach a transparent protective cover prior to switching on power to the instrument.

(5) Any disruption to the protective conductor inside or outside the instrument, or disconnection

of the protective grounding terminal, is likely to make the instrument dangerous under

conditions that are other than normal. Intentional disruption is prohibited.

Page 17

4.1.3 Wiring Procedure

(1) Put your fingers on the left and right (both sides) hooks of the transparent protective cover on

the power source terminal block. Pushing them in, pull the cover toward you.

(2) Connect the power source electric wire, referring to Fig. 4.1.3. Connect the protective

grounding to the terminal. Connect the non-grounding side of the power source to "L"

terminal. Connect the grounding side to the "N" terminal.

(3) Attach the transparent protective cover.

(4) Make sure that protective grounding is properly done.

Fig. 4.1.3 Wiring of Power supply

CAUTION

(1) As an electric wire for the power source, use a 600 V vinyl insulated wire (IEC60227-3) or its

equivalent or above.

(2) Attach a ring-type solderless terminal with an insulation sleeve (for M3.5) to the end of the

electric wire.

(3) Connect a protective grounding (resistance: 100 or lower, minimum diameter of a

grounding conductor: 1.6 mm) to the protective grounding terminal.

(4) If another instrument shares the protective grounding conductor, there may be interference

caused by noise coming from the grounding conductor. Do not share the grounding conductor

with other instruments.

(5) In order to comply with the requirements of safety standard EN61010-1, the recorder should

have one of the following as a disconnecting device, fitted within easy reach of the operator,

and labeled as the disconnecting device.

a) A switch or circuit breaker which complies with the requirements of IEC60947-1 and

IEC60947-3.

b) A separable coupler which can be disconnected without the use of a tool.

c) A separable plug, without a locking device, to plug in a socket outlet in the building.

(6) This product has been designed to conform to EN61010-1, installation Category and

pollution degree 2.

(7) The main power supply should be used within a fluctuation range of 10% of rated voltage.

(8) Transient current might flow to the main power supply when the power supply is turned on.

CAUTION

To remove the transparent protective cover, release the left and right (both sides) hooks simultaneously. If they are released one after the other, the cover may be damaged.

Power supply

Rated power supply: 100 to 240 V AC Allowable voltage fluctuation: 85 264 V AC Power frequency: 50/60 Hz

Page 18

4.2 Input Wiring

CAUTION

(1) Precautions for the input electric wire

• Make sure that noise is eliminated in input wiring. For input wiring, a shielded wire or twisted

wire should be used to eliminate noise.

• In the case of thermocouple input, connect a thermocouple wire directly or use a compensating

lead wire. A shielded input line should be used.

• In the case of RTD (resistance temperature detector) input, dispersion of 3-wire line resistance

should be lower than the value mentioned below. A shielded input line should be used.

For Pt100, JPt100; 50 m max.

• When it is likely to be affected by induction noise, particularly when wiring near a high-frequency

power source, a shielded twisted wire should be used.

• Attach a ring-type solderless terminal with an insulated sleeve (for M3.5) to the end of the

electric wire.

(2) Precautions for wiring

• The wiring between the instrument and measurement point should be kept away from the power

circuit (25 V or higher of either power circuit or DO circuit).

• Short-circuit unused input terminals. (Short-circuit between "+" and "-" in the case of mV, V, or

thermocouple input, and short-circuit among A, B and B of RTD input.)

• Be sure to ground the connecting wire shield.

Page 19

4.2.1 Wiring Procedure

Fig. 4.2.1-1 Input Wiring for Each Channel

(1) Put your fingers on the left and right hooks of the transparent protective cover on the input

terminal block. Pushing them in, pull the cover toward you.

(2) Wire the input lines, referring to Fig. 4.2.1-1, Fig. 4.2.1-2 and Fig. 4.2.1-3. (p.19)

(3) Attach transparent protective covers.

mV, V inputs Thermocouple input

Fig. 4.2.1-2 Input Wiring (mV, V, Thermocouple inputs)

CAUTION

To remove the transparent protective cover, release the left and right (both sides) hooks simultaneously. If they are released one after the other, the cover may be damaged.

+B4

-B4A5

+B5

-B5A6

+B6

-B6ADI

COMDI3DI2DI1

TDRDSG1+B1

-B1A2

+B2

-B2A3

+B3

-B3

ABB

DC voltage

Thermocouple

RTD

Direct current

CH1

CH2

CH3

CH4

CH5

CH6

+ B B A

+-+

Page 20

RTD input mA input

Fig. 4.2.1-3 Input Wiring (RTD, mA inputs)

B B A

Shunt resistor

CAUTION

(1) Attach a shunt resistor to the input terminal block of the instrument.

(2) A shunt resistor affects input accuracy. Use the following resistor.

Resistance: 250 Rated power: 1/4 W Tolerance: 0.1% max.

Temperature coefficient: 50 ppm max.

Page 21

4.3 DI Function/Alarm Output Wiring (Optional)

4.3.1 DI function/Alarm Output Wiring Example

Fig. 4.3.1-1 DI Function Wiring Example Fig. 4.3.1-2 Alarm Output Wiring Example

WARNING

(1) Be sure to wire after turning power OFF. (2) When the power source has been connected to the Alarm output, turn off that power source. (3) When a hazardous voltage is supplied to the alarm terminal:

a) Never touch terminals. b) Attach covers to terminals. c) Wires should be double shielded.

d) Use ring-type solderless terminal connectors with an insulation sleeve.

CAUTION

Precautions for Wiring the DI function

(1) DI function input has a built-in drive power source. Do not apply an external voltage to a DI

function input terminal.

(2) A DI function input contact capacity should be a withstanding voltage of 50 V DC, 16 mA or

more, ON resistance of 20 max. (Wiring resistance included).

(3) Do not use unused terminals as relay terminals.

Precautions for Wiring the Alarm Output

(1) An alarm output contact capacity is as follows.

250 V AC: 3 A max. (Resistive load) 30 V DC: 3 A max. (Resistive load) 125 V DC: 0.5 A max. (Resistive load)

0.1 A max. L/R= 7 ms max. (Inductive load)

(2) Attach an anti-surge protective circuit (surge absorbers, etc.) to an output terminal, when

required.

(3) Attach a round solderless terminal with an insulation sleeve (for M3.5) to the end of an

electric wire. (4) Keep alarm output wiring away from the input wiring. (5) Do not use unused terminals as relay terminals.

Terminal Block

+12V

Recorder Side

COM

Load

1A～6A

Terminal Block

Recorder Side

DI1～3

DI.COM

1C～6C

CAUTION

The DI function (optional) consists of 3 Digital inputs. The alarm output consists of 6-Relay output (Normally open).

Page 22

4.3.2 Alarm Output Wiring Procedure

Wire the Alarm output (option: LH6), referring to Fig.4.3.2.

Fig. 4.3.2 Alarm Output Wiring

4.3.3 DI Function Wiring Procedure

Wire the DI function (option: RE6), referring to Fig.4.3.3.

Fig. 4.3.3 DI Function Wiring

1A 1C

2A 2C 3A 3C 4A 4C 5A

5C 6A 6C +

6-Relay output

Relay No.1

(

Normally

open)

Relay No.6

(

Normally

open)

DI1 DI2 DI3 DI COM (COMMON to DI1 to DI3)

L N

1A 2C2A1C

3A 4C4A3C

5A 6C6A5C

4-B4

5 A

6 A

1 A

2 A

B3A

SGRDTD

CO MDI3DI2DI1

CAUTION

Relay No.1 is a common output for Alarm output and Paper-empty detection sensor (optional) (OR output).

Page 23

1A 2C2A1C

3A 4C4A3C

5A 6C6A5C

4-B4

5 A

6 A

1 A

2 A

3 A

RDTD

CO MDI3DI2DI1

1A 1C

2A 2C 3A 3C 4A 4C 5A

5C 6A 6C +

Host computer

HR-706

………

HR-706

4.4 Communication Wiring

4.4.1 RS-232C Wiring

Wire RS-232C, referring to Fig.4.4.1.

Fig. 4.4.1 RS-232C Wiring

4.4.2 RS-485 Wiring

Wire RS-485, referring to Fig.4.4.2.

Fig. 4.4.2 RS-485 Wiring

CAUTION

Precautions for the communication wiring (1) Ensure that the communication wiring is unaffected by noise. For communication wiring,

a shielded wire effective against noise should be used.

(2) When it is likely to be affected by induction noise, particularly when wiring near a high

frequency power source, a shielded twisted wire should be used.

(3) Attach a ring-type solderless terminal with an insulation sleeve (for M3.5) to the end of the

electric wire.

(4) Be sure to ground the shield of a connecting wire.

[Note]

(1) Be sure to attach terminating

resistance (200 ) to a host computer side, and attach it to the remotest HR-706 from the host computer.

(2) Maximum of 32 units, including a host

computer, connectable. (3) Cable length is a maximum of 1.2 km. (4) Use the UL20620-SB (M) cable made

by HITACHI CABLE LTD. or equivalent.

[Note]

Cable length is a maximum of 15 m.

3 TXD 2 RXD 5 GND 1 DCD 4 DTR 6 DSR 7 RTS 8 CTS

9 RI

2 TXD 3 RXD 7 SG 1 FG 4 RTS 5 CTS 6 DSR 20 DTR

Host computer

D sub 9-pin connector

D sub 25-pin connector

Page 24

5. PREPARATIONS FOR OPERATION

5.1 Setting the Chart Paper

(1) Press the “REC” key for 3 seconds or longer.

To stop recording, press the “REC” key for 3 seconds or longer with the power turned on.

Fig. 5.1-1 Pressing the “REC” key

(2) Open the Door.

Push the door hook to unlock the door. Pull out the door to open it.

Fig. 5.1-2 Opening the Door

CAUTION

Our original chart paper should be used to ensure proper recording. If the chart holder is taken out and the recording operation is activated, the ink ribbon may be damaged. To replace the chart paper, be sure to press the “REC” key to stop recording.

Door Hook

Push the door

hook in the

arrow direction

to unlock.

Press the key for 3

seconds or longer.

CAUTION

Maximum angle of the fully opened door is 135 degrees. Do not open the door any further, as the

hinge will break.

ＬＭ

WARNING

To avoid injury of fingers by getting caught, be careful when opening/closing the door.

The REC indicator goes

off if recording stops.

Page 25

(3) Pull out the Chart Holder.

Put your fingers onto the levers at both sides of the chart holder and pull it out.

Fig. 5.1-3 Pulling out the Chart Holder

(4) Open the Chart Cover and Chart Guide.

Open the chart guide and the chart cover outward.

Fig. 5.1-4 Opening the Chart Cover and Chart Guide

Pull out the chart holder.

Lever

Chart Guide

(Transparent)

Chart Cover (Black)

Open the chart

guide in the arrow

direction.

Open the chart cover

in the arrow direction.

Page 26

(5) Loosen the chart paper.

The chart paper may not be properly fed, if stuck. Be sure to loosen the paper.

Fig. 5.1-5 Loosening the Chart Paper

(6) Set the Chart Paper into the Storage Chamber.

Unfold 2 sections of chart paper. Holding the printing surface upward, set it in the

storage chamber.

Fig. 5.1-6 Setting the Chart Paper

Square Holes on the Left

Sprocket Drum

Storage Chamber

Rectangular Holes on the Right

Page 27

(7) Align the Chart Paper with the Sprocket Drum.

Align the holes in the chart paper with the sprocket drum teeth. Set the chart paper along with the

sprocket drum. Put the first ply of the chart paper into the chart receiver.

Fig. 5.1-7 Aligning the Chart Paper with the Sprocket Drum (Chart Holder Sectional View)

(8) Close the Chart Cover and Chart Guide.

Close the chart cover and the chart guide in the arrow directions.

Fig. 5.1-8 Closing the Chart Cover and Chart Guide

Ensure that the left and right holes are parallel with each other.

Chart Paper

Chart Receiver

Storage Chamber

Align the holes in the

paper properly with the

sprocket drum teeth.

Sprocket Drum Teeth

Chart Guide

Chart Cover

Page 28

(9) Turn the Sprocket Drum Gear.

Check paper feed using your hand. Turn the sprocket drum gear to feed out the chart paper.

(4 sections of chart paper should be fed out.)

Fig. 5.1-9 Checking Paper Feed

(10) Put the Chart Holder back.

Insert the chart holder horizontally into the case until it is locked.

Fig. 5.1-10 Putting Back the Chart Holder

Turn the gear at the left end

of the sprocket drum in the

arrow direction.

Chart receiver

Chart guide

Push the Chart receiver for insertion.

Page 29

(11) Close the Door.

Close the door and check that it is locked.

(12) Press the “FEED” key to check Paper Feed.

Press the “FEED” key on the display keyboard to feed the chart paper.

Fig. 5.1-11 Pressing the “FEED” key

(13) Press the “REC” Key to restart Operation.

The chart paper is fed while

pressing the key. Releasing

the key stops paper feed.

The paper begins a slow

feed when the key is

pressed.

Prior to operation of the instrument, be sure to confirm that the chart paper is being fed.

ＬＭ

Caution

Be careful when opening the door more than 90 degrees. Also make sure that the display cable does not get caught.

Page 30

5.2 Setting the Ribbon Cassette

(1) Press the “REC” key for 3 seconds or longer.

Recording stops. With the power turned on, press the “REC” key for 3 seconds or longer.

Once recording stops, the REC indicator goes off.(See Fig. 5.1-1 on page 23.)

(2) Open the Door.

Push the door hook to unlock the door. Pull the door to open it. (See Fig.5.1-2 on page 23.)

(3) Pull out the Ribbon Cassette.

Grab the left side of the ribbon cassette. Holding down the ribbon holder, pull the ribbon cassette

toward you.

Fig. 5.2-1 Taking Out the Ribbon Cassette

CAUTION

If recording operation is activated while the chart holder is removed, the ink ribbon may be damaged. To replace the ribbon cassette, be sure to press the “REC” key to stop recording. If the ribbon cassette is not set properly, the recording color may change or the ribbon may be damaged.

Ribbon Cassette

Ribbon Holder

Ribbon Cassette

CAUTION

Maximum angle of the fully opened door is 135 degrees. Do not open the door any further, as the hinge will break.

WARNING

To avoid injury of fingers by getting caught, be careful when opening/closing the door.

Page 31

(4) Tighten the Ink Ribbon.

Set the new ink ribbon. Turn the knob in the arrow direction to tighten the ink ribbon.

Fig. 5.2-2 Tightening the Ink Ribbon

(5) Set the Ribbon Cassette.

Push the ribbon cassette into the ribbon holder until the latch clicks. When the ribbon feeding shaft does not easily fit in, turn the gear in the direction of an arrow to adjust the position. When this is done, push the ribbon cassette until the latch clicks.

Fig. 5.2-3 Setting the Ribbon Cassette

(6) Close the Door.

(7) Press the “REC” key to restart Operation.

Turn the knob in the

arrow direction.

Knob

Slack

Ribbon feeding shaft

First, push the

right side.

Second, push the left

side until it firmly fits in

the ribbon holder.

Caution

Be careful when opening the door more than 90 degrees. Also make sure that the display cable does not get caught.

Page 32

6. OPERATION

6.1 Operation

Once the power is turned on, the display on the front of the door lights. The instrument will be ready to run (user mode) in about 5 seconds, including the initial screen. If the REC indicator is unlit, press the “REC” key to start recording operation.

6.1.1 Status after Initial Screen

(1) Display: The “REC” indicator retains its status prior to power-off. (2) Printout data: All printing data and analog recording data are cleared after the power has

been switched off.

(3) Alarm and Diagnosis: Alarm indications and output information are not recoverable after the

power has been switched off.

(4) Data and Channel number are displayed as the following Fig. 6.1.1.

Fig. 6.1.1 Screen at Power-on

[Note]

(1) If electric power failure occurs, the initialization is performed after power recovery.

The recorder reverts to the initial status above.

(2) The printout data is eliminated in initialization. Printout operation does not continue after power

recovery when the power is turned off during printout.

(3) When the power is turned on, the display indicates “ ” while reading data in Fig. 6.1.1.

The number of indicated digits differs depending on the setting.

CAUTION

(1) This recorder has no power switch. (2) Prior to switching the power on, make sure that the chart paper is set in the chart holder.

If the printer is activated with no chart paper set, the sprocket drum (cylindrical part) of the chart holder may be damaged.

WARNING

When calibrating data, connect the equipment according to Section 9.5 of the instruction manual. Data calibration must be performed correctly. Operators possessing knowledge of electricity and control related matters should perform the calibration after careful reading of Sections 7.2 and 9.5 of the instruction manual. (Shinko Technos Co., Ltd. is not liable for damages incurred if calibration is performed other than prescribed in the instruction manual.)

Returns to the mode before power-OFF.

WARNING

Prior to switching the power on, make sure that the supply voltage meets the specifications for the instrument, and the instrument is properly grounded.

REC ALM

Page 33

6.2 Recording

6.2.1 Recording Colors

Table 6.2.1 lists the recording colors for each channel in analog recording.

The recording color can be selected from 6 colors for every channel.

Table 6.2.1 Recording Colors (standard)

Channel No. Color

1 Purple

2 Red

3 Green

4 Blue

5 Brown

6 Black

6.3 How to Record

6.3.1 Starting/Stopping Recording

To start/stop recording, press the “REC” key.

To stop, press the “REC” key for 3 seconds or longer.

The “REC” indicator goes off when recording stops.

6.3.2 Feeding the Chart Paper

The chart paper is fed while the “FEED” key is pressed, and stops when released.

CAUTION

(1) The instrument checks zero point for every recording. If the printer block is manually moved

during recording, the recording position may be dislocated.

(2) In order to protect the chart paper, dot printing is not performed when the distance between the

previous dot printing position and the current one for an identical channel is less than 0.4 mm

in the chart paper feed direction or less than 0.5 mm in the scale direction.

[Note]

(1) When the power is turned on, the recorder continues from the state in which it was turned off.

(2) When controlling recording start/stop through Digital Input (DI function, option: RE6),

recording start/stop cannot be switched by the “REC” key.

Page 34

2L2 19:37

1H1 19:35

1H1 19:33

2L2 19:32

5.000 V

2L2 19:28

1H1 19:27

May.10.06 19:00Start

1H1 18:25

2L2 18:24

6.3.3 Printing Sample

Logging printing, Alarm printing

Recording Start/Stop printing examples

May.10.06 20:00End

Fig. 6.3.3 Printing Sample

[Reference]

When other printing is active with current job, Alarm printing, Comment printing, Date-and-Time

printing and Recording Start/Stop printing will queue.

HR-706 can store up to six items of Alarm Occurrence/Recovery printing and up to five items of

Comment/Date-and-Time printing.

If printing commands exceed those numbers, HR-706 prints “ ” at the end of the last printing.

This mark means that any following items after the item with a “ ” mark could not be printed.

For priority of respective printings, see “Priority” in Reference on the next page.

Synchronous printing: Performs digital printing with the same speed as the analog recording.

Asynchronous printing: Stops analog recording and performs digital printing. After digital

printing is completed, restarts analog printing.

[Note]

Logging printing will not be in the printing queue. At the start time of Logging printing, if prior

Logging printing is printing, the next log will not print. In this case, prolonging the printing interval

of the Logging printing is recommended.

May.10.06

19:30

1: 1.532V 2: 2.105V 3: 1.856V 4: 3.790V

0.000 3CH

100mm/h

Date/Time

Process variable:

Prints " " if skipped.

Chart speed

Scale

Logging Printing:

Prints date, channel number, process variable, engineering unit and chart speed. The scale is printed sequentially from Ch1 in printing color.

Alarm Printing:

Prints alarm occurrence/recovery, channel number, alarm type, and level. denotes alarm occurrence (in red) and denotes alarm recovery (in purple), respectively.

See the [Reference]

below.

Recording start

printing

Recording stop

printing

Page 35

6.4 Digital Printing

Digital printings listed below are performed by key operation.

Manual printing List printing Engineering list printing Recording Start/Stop printing

Digital printings listed below are performed by DI input.

DI Manual printing DI Date/Time printing DI Comment printing

6.4.1 Manual Printing

Prints the following data on the chart paper:

Time/date (year, month, day) Channel number/Tag setting characters Activated alarm type/latest process variable/engineering unit (all channels)

(1) Manual printing operating procedure

1) Press the “PRINT” key.

2) Use the “PRINT” key to display “ ”, and press the “ENT” key.

3) Use the “PRINT” key to select “ ”. Pressing the “ENT” key executes manual printing.

Once manual printing starts, the display automatically returns to the Data Display screen.

When manual printing is finished, the display returns to the status prior to starting manual printing.

[Note]

(1) Analog recording is interrupted while manual printing is running. However, measurement/alarm

detection remains effective.

(2) If an alarm is activated while manual printing is running, alarm printing will start from the time

when manual printing finished.

[Reference]

Printing is activated in the following priority order. When multiple types of printing are activated simultaneously, higher-priority printing takes effect first by following the priority order. However, while alarm printing is performed, lower category (Logging, DI Manual) is activated at the same time.

(See Fig. 6.3.3. Alarm Time printing and Logging printing are performed at the same time).

The Synchronous printout synchronizes with the analog recording, and executes digital printout.

In the case of asynchronous printout, an analog recording stops and a digital printout is executed.

After the digital printout is completed, the analog recording resumes.

High

Priority

Low

Alarm

Occurrence

Printing

Alarm Recovery

Printing

DI Comment

Printing (Sync.)

DI Date and Tim

Printing (Sync.)

Recording

Start/Stop printing

(Syn)

Logging printing

(Sync.)

DI Manual Printing

(Sync.)

List printing

Manual printing

Engineering list

printing

DI Comment

printing (Async.)

DI Date and Time

printing (Async.)

Recording

Start/Stop printing

(Asyn)

DI Manualprinting

(Async.)

Logging printing

(Async.)

Page 36

(2) Manual printing stopping procedure

1) Press the “PRINT” key.

2) Use the “PRINT” key to display “ ” , and press the “ENT” key.

3) Use the “PRINT” key to select “ ” . Pressing the “ENT” key stops manual printing.

However, for the line during printing, printing will continue until the line is completely printed. Then

manual printing will stop, and the display will return to the status prior to starting manual printing.

Fig. 6.4.1 Manual Printing

6.4.2 List Printing

Prints the following setting data of the instrument on the chart paper:

Date/time/Chart feed speed/2nd chart feed speed/Printing cycle Channel number/range/scaling value/engineering unit Setting alarm type

(1) List printing operating procedure

1) Press the “PRINT” key.

2) Use the “PRINT” key to display “ ”, and press the “ENT” key.

3) Use the “PRINT” key to select “ ”. Pressing the “ENT” key executes the list printing.

Once list printing starts, the display automatically returns to the Data Display screen.

Upon termination of the list printing, the display returns to the status prior to starting list printing.

[Note]

(1) Analog recording is interrupted while list printing is running. However, measurement/alarm

detection remains effective.

(2) If an alarm is activated while list printing is running, alarm printing starts when recording

restarts.

Nov.12.99.11:08

1: 11.25 mV 2: 0.45 mV

3: 0.07 mV 4: –0.00 mV

5: –1.12 mV 6: –0.39 mV

Page 37

(2) List printing stopping procedure

1) Press the “PRINT” key.

2) Use the “PRINT” key to display “ ”, and press the “ENT” key.

3) Use the “PRINT” key to select “ ” . Pressing the “ENT” key stops list printing.

However, printing continues until the line is completely printed. Then list printing is stopped, and

the display returns to the status prior to starting list printing.

Fig. 6.4.2 List Printing

Dec.01.99 06:00

CHART SPEED (1)50mm/h (2)100mm/h

CH RANGE LEFT END SCALE LEFT TAG NO. RIGHT END SCALE RIGHT

1 10V -10.000V

10.000

2 10V -10.000V

ABCD 10.000

3 10V -10.000V

10.000

4 10V -10.000V

10.000

5 TYPE K -200.00

100.00

＊6 10V -10.000V

10.000

CH ALARM1 RLY ALARM2 RLY

ALARM3 RLY ALARM4 RLY UNIT

1 H 8.000

L -5.000 V

CH DIGITAL ZONE(mm) PARTIAL

1 ON 0-100 2 OFF 0- 50 80% 0.000V 3 OFF 0-100 4 OFF 0-100 5 ON 50-100 6 OFF 0-100

COMMENT 1 = OPEN

2 = 3 =

Digital printing ON/OFF, zone recording, and partial compression/expansion set value for each channel.

Prints Input range, Tag, Measurement range, and Scaling value for each channel. If skipped, the channel number is prefixed by “ ”.

Comment printing values.

Effective for the DI function (optional).

Prints alarm set values, relays and unit.

Date and Time for List Printing

Chart feed Speed Set value. The 2nd Chart Speed (2) is effective for DI function (optional).

Page 38

6.4.3 Engineering List Printing

Engineering list printing provides the following setting data of the instrument on the chart paper.

Analog recording Digital printing Burnout/RJC, etc.

(1) Engineering list printing operating procedure

1) Press the “MENU” key.

2) Use the “PRINT” key to display “ ”, and press the “ENT” key.

3) Use the “PRINT” key to select “ ”. Pressing the “ENT” key executes engineering

list printing.

Once engineering list printing starts, the display automatically returns to the Data Display screen.

Upon termination of the engineering list printing, the display returns to the status prior to starting

engineering list printing.

[Note]

Analog recording is interrupted while engineering list printing is running.

However, measurement/alarm detection remains effective.

If an alarm is activated while engineering list printing is running, alarm printing is performed

when recording restarts.

Page 39

(2) Engineering list printing stopping procedure

1) Press the “MENU” key.

2) Use the “PRINT” key to display “ ”, and press the “ENT” key.

3) Use the “PRINT” key to select “ ”. Pressing the “ENT” key stops engineering list printing.

However, the printing continues until the line is completely printed.

Then Engineering list printing stops. And the display returns to the status prior to starting

engineering list printing.

Fig. 6.4.3 Engineering List Printing

ENGINEERING LIST

RUN CH／TAG ALM_PR INT CH ON1

DGT_PR START INTERVAL SCL_PR SYNC/ASYNC ON 00:00 6h OFF SYNC

ALM _HYS TEMP ON

CH B.OUT RJC V(REFCH) OFFSET COLOR

1 OFF INT 0.0 PRP 2 OFF INT 0.0 RED 3 OFF INT 0.0 GRN 4 OFF CH 0.0 BLU 5 OFF EXT 798 0.0 BRN 6 OFF CH (CH5) 0.0 BLK

COM_ADR SPEED DATA PARITY STOP 01 9600bps 8bit NONE 1bit

DI 1:OFF 2:OFF 3:OFF

Alarm Printing:

ON1 (occurrence/recovery)

Settings of Logging Printing ON/OFF, Start Time, Interval, Scale Printing ON/OFF, Printing Sync/Async:

Logging Printing: ON Start Time: 00:00 Interval: 6h Scale Printing: OFF Printing Sync/Async: Sync

Channel Number/Tag Number setting: CH

RUN/STOP Internal/External Switching setting: INT (key)

Alarm Hysteresis setting: ON

DI function settings. Effective when the DI function (optional) is ordered.

Setting of Burnout Protection, RJC, and Constant value in external RJC, Offset, and Recording Color for each channel.

Communication settings

Temperature Unit:

Page 40

6.4.4 Recording Start/Stop Printing

Recording Start and Stop times are printed on the chart paper when recording starts and stops. Recording Start/Stop printing can be set in Engineering Mode. Refer to Section 7.2.6 (6) Recording Start/Stop printing.

[ ]: Recording Start synchronous printing

Recording Stop printing is asynchronous. [ ]: Recording Start/Stop asynchronous printing [ ]: Recording Start/Stop times are not printed.

(1) Recording start printing

Press the REC key in the Recording Stop status in order to enable recording status. Printing will start. If Recording Start/Stop printing is set to OFF, printing will be disabled.

(2) Recording stop printing

Press the REC key for 4 seconds or longer in the Recording Start status in order to enable

recording stop status.

Printing will start.

If Recording Start/Stop printing is set to OFF, printing will be disabled.

6.4.5 DI Manual Printing (DI option)

DI Manual printing occurs by turning the DI from OFF to ON. Current measured value and time will be printed on the chart paper. Printing contents are the same as Section 6.4.1 Manual Printing. (1) Select Manual Printing of DI function in Engineering Mode.

For detailed setting method, refer to Section 7.2.9 DI Functions.

[MAN-P]: Synchronous Manual printing [AMAN-P]: Asynchronous Manual printing

(2) Turn the DI input ON.

DI Manual printing starts by turning the DI input from OFF to ON.

6.4.6 DI Date/Time Printing (DI option)

DI Date/Time printing starts by turning the DI input from OFF to ON. Current date and time will be printed on the chart paper.

(1) Select Date/Time printing of DI function in Engineering mode.

For detailed setting method, refer to 7.2.9 DI Functions.

[TIM-P]: Synchronous Date/Time printing [ATIM-P]: Asynchronous Date/Time printing

(2) Turn the DI input ON.

DI Date/Time printing starts by turning the DI input from OFF to ON.

[Note]

If DI function is used for Recording Start/Stop, printing will start by DI function, not via the keypad.

Page 41

6.4.7 DI Comment Printing (DI option)

DI Comment printing starts by turning the DI input from OFF to ON. Comment printing

can be performed on the chart paper.

(1) Select Comment Printing of DI function in Engineering mode.

For detailed setting method, refer to 7.2.9 DI Functions.

[CMNT1], [CMNT2], [CMNT3]: Synchronous comment printing

[ACMT1], [ACMT2], [ACMT3]: Asynchronous comment printing

(2) Turn the DI input ON.

DI Comment printing starts by turning the DI input from OFF to ON.

Fig. 6.4.7 Date/Time Printing, Comment Printing

May.10.06 20:30

20:10 No.01 OPEN

Comment Printing

Date/Time Printing

Page 42

6.5 Changing the Display

Display selection procedure

(1) Press the “MENU” key to display " ", then press the “ENT” key.

(2) Use the “PRINT” key to select a required screen from the menu below.

Then press the “ENT” key.

(3) " " is displayed in the case of manual display. Use the “PRINT” key to select the channel

number, then press the “ENT” key.

“ ”(AUTO): Auto display “ ”(MAN): Manual display “ ”(DATE): Date display “ ”(TIME): Time display “ ”(OFF): Display OFF

6.5.1 <Auto Display>

Displays the process variable of each channel sequentially at intervals of 2.5 seconds.

6.5.2 <Manual Display>

Displays the process variable of the specific channel, and updates it every measurement cycle.

The data is the same as that of Auto display. Pressing the “ENT” key changes to the next displayed

channel number.

6.5.3 <Date Display>

Displays the month and day. Leap year is adjusted automatically.

(e.g.) October 18

6.5.4 <Time Display>

Displays the hour and minute.

(e.g.) 12:15

6.5.5 <Display Off>

Turns off the process variable display. Key operation is the same as usual.

To switch to other displays, repeat steps (1) through (3) mentioned above.

Process Variable (5

digt)

Channel Number (1-digit)

H: Upper limit Alarm L: Lower limit Alarm

Month Day

Hour Minute

Page 43

7. DEVICE SETTING

7.1 Setting the Setup Mode

Key Operation for Entering Setup Mode

Press the “MENU” key for 3 seconds or longer to enter setup mode. The software version is displayed approximately 1 second as below. After that, the setting screen of the range is displayed.

(e.g.) Version number: 2.10

To return from setup mode to recording mode (user mode), press the “MENU” key for 3 seconds or longer again.

The following describes how to set the following items.

The following shows a display map of the setup mode. Use the key for operation.

7.1.1 Setting the Range

7.1.2 Setting the Alarm

Setting

. . . .

Channel Mode

. . . .

Setting Channel ON／ OFFLevel Set valueType Relay ON／ OFF Relay No.

Option

WARNING

When calibrating data, connect equipment according to Section 9.5 of the instruction manual.

Data calibration must be performed correctly.

Operators possessing knowledge of electricity and control related matters should perform the

calibration after careful reading of Sections 7.2 and 9.5 of the instruction manual.

(Shinko Technos Co., Ltd. is not liable for damages incurred if calibration is performed other than

prescribed in the instruction manual.)

Current/Voltage input Thermocouple input Resistance temperature detector input Scaling Square Root Decade Difference Sum Average Skip

Page 44

7.1.3 Setting the Unit

7.1.4 Setting the Chart Feed Speed

7.1.5 Setting the Date and Time

7.1.6 Copying the Setting Data

7.1.7 Setting Other Functions (Printing Cycle, Zone Recording, Partial Compression/Expansion,

Digital Printing, Tag, Comments)

Shift to the engineering mode

Printing Cycle Zone Recording Partial Compression/Expansion Digital Printing Tag Comments

Setting Mode

Setting

Channel to copy from

Channel to copy to

. .

Setting 1st/2nd Chart speed Chart speed

TimeSetting Year Month, Day

. . . .

Setting Channel Code No.Char. No.

( )

End

Setting Password

Input the password to enter engineering mode. See the key operation on page 69.

Page 45

Table 7.1 Default value of the setup mode

Setting items Default value Remarks

Range (all channels)

10 mV

Scaling 0 to 100.0 ( )

Alarm (all channels)

All levels alarm OFF, relay

OFF

Engineering unit (all channels)

(BF 43 00)

Chart feed speed

1st speed: 20 mm/h

2nd speed: 20 mm/h

Time 2000/01/01, 00:00

The present time has

been set.

(Japan standard time)

GMT + 09:00

Dot point interval 10 (sec)

Zone setting (all channels) 0 to 100 (%)

Partial compression/expansion

(all channels)

OFF

Digital printing (all channels) ON

Tag printing character (all channels)

“Blank up to the 7th

character”

Comment printing word (1 to 3)

“Blank up to the 16th

character”

Page 46

7.1.1 Setting the Range

(1) Setting method

With a multirange system, setting the range for each channel is possible.

Use the key to shift the mode1to10shown in the Table below.

Set the range from the following input signals. (Modes1to3)

DC voltage: 10 mV DC, 0 to 20 mV DC, 0 to 50 mV DC, 200 mV DC,

1 V DC, 0 to 5 V DC, 10 V DC

Direct current: 4 to 20 mA DC (External shunt resistor: 250 )

Thermocouple: B, R, S, K, E, J, T, C, Au-Fe, N, PR10-20, PL- , U, L

RTD: Pt100, JPt100

For the thermocouple and RTD, an optimum range is automatically selected depending on

the set span point.

Sets scaling, square root, decade, interchannel sum/difference/average. (Modes4to9)

Unnecessary channels can be skipped. (Mode10)

Setting Channel Mode Key

(Voltage, Current)

(Thermocouple)

(Resistance temperature detector)

(Scaling)

(Square root)

(Decade)

(Difference)

(Sum)

(Average)

(Skip)

key

Can be set for

all channels.

[Note]

A decimal point arbitrary position can be set only in "scaling" and "square root" modes. When altering the decimal point position in Voltage/Current/Thermocouple/RTD input, set it in the "scaling" mode. To fix the decimal point position, set it as follows.

Input Digits after decimal point Input Digits after decimal point

1, 0 to 5 V

10 V

2 digits

3 digits

2 digits

.00

.000

.00

Thermocouple

RTD

200 mV DC

1 digit

Page 47

(2) (Current/Voltage), (Thermocouple), (Resistance Temperature Detector)

[Note]: When changing a decimal point position, change it during (3) Scaling (pp. 48, 49).

Measures Current, Voltage, Thermocouple and RTD.

Example: When setting Thermocouple T for Channel 1 (T: -100 to 300 )

Press the “MENU” key for 3 seconds or longer to enter

setup mode. " " is displayed, then press the

“ENT” key.

Use the key to select the desired channel. Press the

“ENT” key.

Use the key to select the mode. Press the “ENT”

key.

Use the key to select a type. Press the “ENT” key.

Use the key to select a sign and numeral.

Use the key to shift a digit. Press the “ENT” key.

Use the key to select a sign and numeral.

Use the key to shift a digit. Press the “ENT” key.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

Display Operation keys Description

ESC

3 sec

ENT

FEED

ENT

FEED

ENT

(Span setting)

(Zero setting)

[Note]

• When an incorrect numeral is entered, or

is displayed.

Press the “ENT” key and re-enter the correct numeral.

• Perform range settings that do not need the scaling at this step (2) , , .

(Be especially sure to perform the thermocouple and RTD range settings for which decimal

point position change is not necessary.) (One digit after the decimal point is standard.)

Do not perform scaling here.

Page 48

「」

[Note]

In , , or mode, press the “ENT” key to select the range.

Use the key to select a range type.

“ENT” key

10 mV 0 to 20 mV 0 to 50 mV

200 mV

1 V 0 to 5 V

10 V 4 to 20 mA

RangeMode

B R S K E J T C Au-Fe N PR40-20 PLU L

Pt100 JPt100

[Reference]

The following ranges (input types) have more than one measurement range, and their accuracy is different depending on the measurement range. An optimum range (input type) is automatically selected by the set span point.

Thermocouple ( ): R, K, E, J, T

RTD ( ): Pt100, JPt100

Page 49

(3) (Scaling)

Converts the input of VOLT, TC and RTD to a corresponding value.

Setting the unit is possible. (See 7.1.3 on page 58)

Example: When setting the voltage of 0 to 40 mV and scale of 000.00 to 100.00 for Channel 1.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. " " is displayed, then press the

“ENT” key.

Use the key to select the desired channel.

Press the “ENT” key.

Use the key to select " ".

Press the “ENT” key.

Use the key to select " ".

Press the “ENT” key. If or is selected

here, temperature input scaling is possible.

Use the key to select a range (50 mV).

Press the “ENT” key.

Use the key to select a numeral.

Use the key to shift a digit. Press the “ENT” key.

Use the key to select a numeral.

Use the key to shift a digit. Press the “ENT” key.

FEEDPRINT

ENT

(Span input value)

Display Operation keys Description

ESC

3 sec

ENT

FEED

ENT

(Zero input value)

[Note]

In the case of TC and RTD inputs, set the Zero input value equal to the Zero-side scale value. See

1 on the next page.

[Note]

In the case TC and RTD inputs, set the Span input value equal to the Span-side scale value.

See 2 on the next page.

Page 50

Use the key to select a numeral.

Use the key to shift a digit.

Press the key again in the lowest digit (at right)

to flash a decimal point. Use the key to select a

decimal point position. Press the “ENT” key.

Use the key to select a numeral.

Use the key to shift a digit. Press the “ENT” key.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

FEED

ENT

FEED

ENT

(Decimal point)

(Zero-side scale value) ( 1)

(Span-side scale value) ( 2)

[Note]

When an incorrect numeral is entered, , or

is displayed.

Press the “ENT” key and re-enter the correct numeral.

Page 51

(4) (Square Root)

Caluclates the square root of Volt input, and scales the value.

The unit can be set. (See 7.1.3 on page 58.)

Example: Setting the voltage of 0 to 40 mV and scale of 000.00 to 100.00 for Channel 1.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. " " is displayed, then press the

“ENT” key.

Use the key to select the desired channel. Press

the “ENT” key.

Use the key to select " ". Press the “ENT”

key.

Use the key to select a range (50mV). Press the

“ENT” key.

Use the key to select a numeral. Use the key

to shift a digit. Press the “ENT” key.

Use the key to select a numeral. Use the key

to shift a digit. Press the “ENT” key.

Use the key to select a numeral. Use the key

to shift a digit.

Press the key again at the lowest digit (at right) to

flash a decimal point. Use the key to select a

decimal point position. Press the “ENT” key.

Use the key to select a numeral. Use the

key to shift a digit. Press the “ENT” key.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

FEED

ESC

3 sec

ENT

FEED

ENT

FEED

ENT

FEED

ENT

FEED

(Span input value)

(Zero input value)

(Zero-side scale value)

(Decimal point)

(Span-side scale value)

Display Operation keys Description

[Note]

If an incorrect numeral is entered, ,

or is displayed.

Press the “ENT” key and re-enter a correct numeral.

Page 52

About Square Root Computation

The square root computation is as follows:

Each item is defined as follows:

SPANL: Span lower-limit value (Span L)

SPANR: Span upper-limit value (Span R)

SCALL: Scaling lower-limit value (Scale L)

SCALR: Scaling upper-limit value (Scale R)

IN : Input voltage

OUT : Output (Scaling value)

When an input value is 1% or more (1 to 100%)

OUT = (SCALR– SCALL) x + SCAL

When an input value is less than 1%

OUT = x (IN – SPANL) + SCAL

Example: When setting on the previous page is performed, the display is shown as below.

Input voltage (mV) 0 10 20 30 40

Display (%) 0.00 50.00 70.71 86.63 100.00

[Note]

The relation between scaling factor and displaying digit may stagger the accuracy rating.

IN – SPAN

SPAN

– SPAN

10 x (SCALR– SCALL)

SPAN

– SPAN

Page 53

(5) (Decade)

Scaling the VOLT input and displays the index number. Setting the unit is possible. (See 7.1.3 on

page 58)

Example: When setting the voltage of 0 to 5 V and decade of 1.0 x 100to 1.0 x 105for Channel 1.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. " " is displayed, then press the

“ENT” key.

Use the key to select the desired channel. Press

the “ENT” key.

Use the key to select " ". Press the “ENT”

key.

Use the key to select a range (5V). Press the “ENT”

key.

Use the key to select a numeral. Use the

key to shift a digit. Press the “ENT” key.

Use the key to select a numeral. Use the

key to shift a digit. Press the “ENT” key.

Use the key to select a numeral. Use the

key to shift a digit. Press the “ENT” key.

Use the key to select a numeral. Use the

key to shift a digit. Press the “ENT” key.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

ESC

3 sec

ENT

FEED

ENT

FEED

ENT

FEED

ENT

(Span input value)

(Zero input value)

(Zero-side scale value)

(Span-side scale value)

Display Operation keys Description

[Note]

When an incorrect numeral is entered, ,

or is displayed.

Press the “ENT” key, and re-enter a correct numeral.

Page 54

About Decade Display

Each item is defined as follows:

SPANL: Span lower limit value (Span L)

SPANR: Span upper limit value (Span R)

SCALL: Scaling lower limit value (Scale L)

SCALR: Scaling upper limit value (Scale R)

IN : Input voltage

OUT : Output (Scaling value)

Decade display adheres to the following relational expression.

OUT1= IN x +

OUT = 10

OUT1

LGSCALL: Log10(SCALL)

LGSCALR: Log10(SCALR)

Example: When setting on the previous page is performed, the display is shown as below.

Input voltage (V) 0.0 1.0 2.5 3.0 5.0

Display 1.0E0 1.0E1 3.2E2 1.0E3 1.0E5

LGSCALR–LGSCAL

SPANR– SPAN

SPANRx LGSCALL– SPANLx LGSCAL

SPANR– SPAN

XXEYY

XX: Mantissa section (1.0 to 9.9)

YY: Exponent section (-19 to 19)

Up to 5 decades.

(Scaling upper limit)–

(Scaling lower limit) is

1.0E5 or less.

[Note]

Decade output is used for display and printing. It is not reflected in a printing position.

Page 55

(6) (Difference), (Sum), (Average)

Caluclates the input of VOLT, TC, RTD or SCALE, and outputs it.

Example: Subtracting Ch1 input data from Ch6 input data to set the difference value to Ch6. (0 to 40 mV)

“Ch6 (input) - Ch1 (input)” is recorded and displayed on Ch6.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. " " is displayed, then press the

“ENT” key.

Use the key to select the desired channel. Press

the “ENT” key.

Use the key to select " ". Press the “ENT”

key.

Use the key to select the desired channel

subtracted. Press the “ENT” key.

Use the key to select a numeral. Use the

key to shift a digit. Press the “ENT” key.

Use the key to select a numeral. Use the

key to shift a digit. Press the “ENT” key.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

About Difference, Sum and Average

• The channel to be set must be larger than the one which computes the "difference, sum or average" value. (e.g.) When setting to Ch6, a value from Ch1 to Ch5 can be subtracted from Ch6.

• The range and scale of the channel to be set is the same as those of the reference channel which computes the "difference, sum or average" value.

• The range value after computation cannot exceed the maximum range of the instrument.

• For the reference channel, only the voltage, current, thermocouple, RTD, and their scaling ranges can be set.

(Reference channel)

(Channel to be set)

(Span input value after difference computation)

(Zero input value after difference computation)

ESC

3 sec

ENT

FEED

ENT

FEED

ENT

Display Operation keys Description

[Note]

If an incorrect numeral is entered, ,

or is displayed.

Press the “ENT” key and re-enter a correct numeral.

Page 56

(7) (Skip)

Set SKIP to the channel for which display and recording are not required.

Example: When skipping Channel 6.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. Use the key to display " ".

Press the “ENT” key.

Use the key to select the desired channel.

Press the “ENT” key.

Use the key to select " ". Press the “ENT”

key.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

[Note]

• If all channels are set to “Skip”, is displayed. At least one channel should be set to Measurement.

• Measurement can be conducted on a skipped channel, however, display, printing or alarm assessment cannot be performed. If input is not connected, be sure to short-circuit the input terminal.

• To return the skipped settings to the measurement settings, set the measurement range again.

ESC

3 sec

ENT

Display Operation keys Description

Page 57

7.1.2 Setting the Alarm

Setting items

The following 2 alarm types can be set to each channel.

Up to 4 alarm points (4 levels) can be set per channel. Once alarm point is set, the “ALM” lights when PV (process variable) reaches alarm point, and simultaneously, the alarm is printed on the chart paper, indicating an alarm occurrence.

: Upper limit alarm --- When the process variable is higher than the alarm set point,

an alarm is issued.

: Lower limit alarm --- When the process variable is lower than the alarm set point,

an alarm is issued.

Operation

Example: When setting Channel 1 alarm point (Level 1) to the following:

Upper limit alarm, set value of -2.000, Alarm output relay No. 1

Press the “MENU” key for 3 seconds or longer to enter

the setup mode. Use the key to display

" ". Press the “ENT” key.

Use the key to select the desired channel. Press

the “ENT” key.

Use the key to select an alarm level. Press the

“ENT” key. Up to 4 levels can be set.

Use the key to select alarm setting ON. Press the

“ENT” key. Setting to " " displays

" " and completes setting.

Use the key to select an alarm type. Press the

“ENT” key.

Set an alarm point. Use the key to shift a digit, and

use the key to select a numeral. Once setting is

completed, press the “ENT” key. A decimal point position

is fixed depending on the range.

ESC

3 sec

ENT

FEED

ENT

Display Operation keys Description

[Note]

When the “ENT” key is pressed during the alarm point setting process, display will switch to the

next setting display.

. . . .

Setting Channel ON/OFFLevel Setting valueType Relay ON/OFF Relay No.

Option

Page 58

Setting hereinafter is valid only for the model to which an alarm output (option: LH6) has been

ordered. If the option has not been ordered, press the “ENT” key until " " is displayed.

Then, press the “ENT” key again. Setting is completed.

When an alarm occurs, the alarm output is issued from

the alarm output relay. Use the key to select alarm

output ON, and press the “ENT” key.

If the alarm output is not used, select OFF, and press

the “ENT” key.

If the alarm output is set to ON, set the relay number.

Use the key to select a relay number (1 to 6), and

press the “ENT” key.

Press the “ENT” key. Setting is completed.

To continue to set other channels, press the key to

select a channel, and start setting. To return to user

mode, press the “MENU” key for 3 seconds or longer.

[Note]

For Alarm printing, the channel number is printed even if the tag printing has been set.

ENT

Display Operation keys Description

ENT

Page 59

7.1.3 Setting the Unit

Setting Items

Sets the temperature unit for each channel.

Operation

Example: Setting the unit ( ) for Channel 1.

Press the “MENU” key for 3 seconds or longer to enter

the setup mode. Use the key to display " ".

Then, press the “ENT” key.

Use the key to select the desired channel. Then,

press the “ENT” key.

Use the or key to select the 1st character of

the code number, and press the “ENT” key.

See Character code table on the next page.

Set the 2nd character in the same manner.

When the number of unit characters is less than 6, enter

the code ( ) to finish. Press the “ENT” key.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

[Note]

To change the unit in the range of , or , set the range to .

[Note]

The unit setting is effective only when the range setting is , , ,

, and (For the , and , the unit setting is

effective only when reference channel range is set to ).

For other range settings, the unit is automatically determined according to the range.

ESC

3 sec

ENT

FEED

ENT

FEED

ENT

FEED

ENT

(Code No.)

Display Operation keys Description

. . . .

Setting Channel Code No.Char. No.

( )

End

Page 60

(1) Character code table

2 3 4 5 6 7 A B C D E F

0 SP 0 @ P p

Π π

1 ! 1 A Q a q

A P α ρ

2 " 2 B R b r

B Σ β σ

3 # 3 C S c s

Γ T γ τ

4 $ 4 D T d t

Y δ υ

5 % 5 E U e u

E Φ ε φ

6 & 6 F V f v

Z X ζ χ

7 ' 7 G W g w

H Ψ η ψ

8 ( 8 H X h x

Θ θ ω

9 ) 9 I Y i y

I ι

A : J Z j z K κ

B + ; K [ k {

Λ λ

C , < L l ｜ M μ

D – = M ] m } N ν

E . > N ＾ n ￣

Ξ ξ

F / ? O ＿ o

ｏ

Ο o

Setting example: The code number for "C" is "43".

Page 61

7.1.4 Setting the Chart Feed Speed

Setting Items

Sets the chart feed speed. Select it from the table below.

Table 7.1.4 Chart Speed (Unit: mm/h)

0 1 2 3 4 5 10 15 20 25

30 40 50 60 75 80 90 100 120 150 160 180 200 240 300 360 375 450 600 720 750 900 1200 1500

Operation

Example: When setting the 1st chart feed speed to 1500 mm/h.

Press the “MENU” key for 3 seconds or longer to enter

the setup mode. Use the key to display " ",

and press the “ENT” key.

Use the key to select the 1st chart feed speed, and

press the “ENT” key.

Use the key to set the 1st chart feed speed, and

press the “ENT” key.

Press the “ENT” key. To return to user mode, press the

“MENU” key for 3 seconds or longer.

[Note]

When changing the chart feed speed using the DI function (option: RE6), set the 2nd chart feed speed. If the DI function (option: RE6) is not ordered, setting of the 2nd chart feed speed becomes invalid.

Setting 1st/2nd Chart feed speed Chart feed speed

ESC

3 sec

ENT

Display Operation keys Description

ENT

Display Operation keys Description

FEED

Page 62

7.1.5 Setting the Date and Time

Operation

The following figure describes how to set the date/time of the internal clock.

Example: When setting the date and time to January 1st, 2000, 6:00.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. Use the key to display " ",

and press the “ENT” key.

Set the year. Use the key to select a numeral, and

use the key to shift a digit. Press the “ENT” key.

Set the month and day.

Follow the same process as above.

Set the time (Hour:Minute).

Follow the same process as above.

Press the “ENT” key. To return to user mode, press the

“MENU” key for 3 seconds or longer.

[Note]

Restriction of printing

by chart feed speed:

When the chart speed is 0 mm/h, it is printed with forcible chart feed. (When the chart feed speed is higher than 120 mm/h, the table shown above is not printed.). List Printing, Engineering List Printing, Manual Printing (key), DI Comment printing (Asynchronous), DI Date and Time printing (Asynchronous), DI Manual printing (Asynchronous) and Logging printing (Asynchronous) are printed regardless of the chart feed speed.

Printing type Chart speed (mm/h)

Alarm occurrence printing, Alarm recovery printing, Affix printing, DI Comment printing (Synchronous), DI Date and Time printing (Synchronous), DI Manual printing (Synchronous), Recording start printing (Synchronous)

1 to 100 (mm/h)

Logging printing (Synchronous) 10 to 100 (mm/h)

[Note]

If a non-existent date or time is entered, is displayed.

Press the “ENT” key and re-enter a correct numeral.

ESC

3 sec

ENT

FEED

ENT

FEED

ENT

FEED

ENT

Display Operation keys Description

TimeSetting Year Month, Day

Page 63

7.1.6 Copying the Setting Data

Setting Items

The following describes how to copy the setting data of any channel to another channel.

The number of the channel to be copied must be bigger than the channel to copy from.

Operation

Example: When copying the setting data of Channel 1 to Channel 2.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. Use the key to display " ", and

press the “ENT” key.

Use the key to select the channel to copy from, and

press the “ENT” key.

Use the key to select the channel to copy to, and

press the “ENT” key.

Press the “ENT” key. To return to user mode, press the

“MENU” key for 3 seconds or longer.

ESC

3 sec

ENT

Display Operation keys Description

Setting

Channel to copy from

. .

Channel to copy to

Page 64

7.1.7 Setting Other Functions

Other functions can be set as follows.

Setting Items

(1) (Printing cycle)

Selects a printing cycle from 10, 20, 30, and 60 seconds.

(2) (Zone recording)

The data for each channel can be recorded separately in another area so as not to overlap.

(3) (Partial compression/expansion)

Records the measured data of the channel, partially compressed or expanded.

(4) (Digital printing)

Specify ON or OFF whether the measured data for each channel is printed or not.

(5) (Tag)

Sets the tag, which is to be printed instead of a channel number, for logging printing or manual

printing.

For tag setting, up to 7 characters can be used (select from Character code table on page 59)

for each channel.

(6) (Comments)

Sets the comments to be printed by DI function (Option: RE6).

There are 3 kinds of comments, and settings of up to 16 characters (select from Character

code table on page 59) for each DI are possible.

Operation

Printing Cycle Zone Recording Partial Compression/Expansion Digital Printing Tag Comments

Setting Mode

Page 65

(1) (Printing Cycle)

Example: Setting the printing cycle to 60 seconds.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. Use the key to display " ", and

press the “ENT” key.

Use the key to display " ", and press the

“ENT” key.

Use the key to select the printing cycle " ", and

press the “ENT” key.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

(2) (Zone Recording)

Example: Setting the instrument so that Channel 1 zero/span will be recorded at the position of

20 to 50 %.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. Use the key to display " , and

press the “ENT” key.

Use the key to display " ", and press the

“ENT” key.

Use the key to select the desired channel, and

press the “ENT” key.

Set a zero point printing position in percentage (%).

Use the key to select a numeral, and use the

key to shift a digit. Press the “ENT” key.

Set the span point printing position in percentage (%).

Use the same process as the zero point printing position

setting.

Press the “ENT” key. Setting is completed.

To return to user mode, hold down the “MENU” key for 3

seconds or longer.

[Note]

If an incorrect numeral is entered, or

is displayed.

Press the “ENT” key and re-enter a correct numeral.

ESC

3 sec

ENT

Display Operation keys Description

FEED

ENT

ESC

3 sec

ENT

FEED

ENT

(Setting of Left-end position)

(Setting of Right-end position)

Display Operation keys Description

Page 66

(3) (Partial Compression/Expansion)

Example: Setting Channel 1 scale of 0 to 1000.0 to 500.0 at a boundary point of 30%.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. Use the key to display " ", and

press the “ENT” key.

Use the key to select " ", and press the

“ENT” key.

Use the key to select the desired channel, and

press the “ENT” key.

Use the key to select " ", and press the “ENT”

key.

Set a boundary point position in percentage (%).

Use the key to select a numeral, and use the

key to shift a digit. Press the “ENT” key.

Set a boundary point position to "0500.0". Use the

key to select a numeral, and use the key to shift a

digit. Press the “ENT” key.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

[Note]

If an incorrect numeral is entered, is displayed.

Press the “ENT” key and re-enter a correct numeral.

ENT

ESC

3 sec

ENT

FEED

ENT

FEED

ENT

Display Operation keys Description

0 500.0

1000.0

(0%) (30%)

(100%)

Page 67

(4) (Digital Printing)

Example: Setting logging channel data printing to "ON" (printing enabled) for all channels.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. Use the key to display " ", and

press the “ENT” key.

Use the key to display " ", and press the

“ENT” key.

Use the key to select the desired channel, and

press the “ENT” key.

Use the key to switch from " " to " ", and

press the “ENT” key.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

Repeat the setting for other channels.

[Note]

When the channel for which skip is selected during the range setting is set to ON, " " is printed.

ENT

ESC

3 sec

ENT

PRIN

ENT

Display Operation keys Description

Page 68

(5) (Tag)

Example: Setting "ABCD" for Channel 1.

Press the “MENU” key for 3 seconds or longer to enter

setup mode. Use the key to display " ", and

press the “ENT” key.

Use the key to display " ", and press the “ENT”

key.

Use the key to select the desired channel, and

press the “ENT” key.

Set " " as the 1st character. Use the key to

select a code, and use the key to shift a digit. Press

the “ENT” key.

Set the 2nd to 4th characters in the

same manner.

Set " " as the 5th character and press the “ENT” key.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

[Note]

When the number of tag characters is less than 7, add " " code next to the last character.

See page 59 for Character code table.

ESC

3 sec

ENT

FEED

ENT

FEED

ENT

FEED

ENT

FEED

ENT

FEED

ENT

(Setting of 1st Character)

(Setting of 2nd Character)

(Setting of 3rd Character)

(Setting of 4th Character)

(Setting of 5th Character)

Display Operation keys Description

Page 69

(6) (Comments)

Example: Setting "ON" for Comment 1 ( ).

Press the “MENU” key for 3 seconds or longer to enter

setup mode. Use the key to display " ", and

press the “ENT” key.

Use the key to display " ", and press the

“ENT” key.

Use the key to select a comment number. Display

" " and press the “ENT” key.

Set " " as the 1st character. Use the key to

select a code, and use the key to shift a digit.

Press the “ENT” key.

Set " " as the 2nd character.

Operate in the same manner as the 1st character

setting.

Set " " as the 3rd character.

Operate in the same manner as setting the 1st

character.

Repeat the settings up to the 16th Characters.

Press the “ENT” key. Setting is completed.

To return to user mode, press the “MENU” key for 3

seconds or longer.

[Note]

• When the number of tag characters is less than 16, add " " code next to the last character.

See page 59 for Character code table.

• When DI (option: RE6) is not ordered, comment printing does not function.

Do not set the comment setting.

ENT

ESC

3 sec

ENT

INT

ENT

FEED

ENT

FEED

ENT

FEED

ENT

(Setting of the 1st Character)

(Setting of the 2nd Character)

(Setting of the 3rd Character)

(Setting of the 9th Character)

(Setting of the 10th Character)

(Setting of the 11th Character)

(Setting of the 16th Character)

Display Operation keys Description

Page 70

7.2 Setting Engineering Mode

Key Operation to Enter Engineering Mode

Press the “MENU” key for 3 seconds or longer to enter setup mode. Use the key to select " ", and press the “ENT” key to display "0000". Use the key to alter a numeral, and the key to shift a digit. Enter the password "2222", then press the “ENT” key. " " will be flashing. Press the “ENT” key. After reset, the unit enters engineering mode.

The following shows a display map of the Engineering mode. Use the key to operate.

• 7.2.1 Alarm Hysteresis

• 7.2.2 Burnout ON/OFF

• 7.2.3 Channel Offset

• 7.2.4 Reference Junction Compensation

Setting ON/OFF

Sets the hysteresis width. Cancels the hysteresis width.

Setting

Channel

ON/OFF

Sets burnout. Cancels burnout.

Internal Compensation External Compensation External Channel Input Compensation

Setting

Channel

Function

Enters an offset value.

Setting

Channel

OFFSET

WARNING

When calibrating data, connect the equipment as written in Section 9.5 of the instruction manual. Data calibration must be performed correctly. Operators possessing knowledge of electricity and control related matters should perform the calibration after careful reading the Sections 7.2 and 9.5 of the instruction manual. (Shinko Technos Co., Ltd. is not liable for any damages incurred if calibration is performed other than described in the instruction manual.)

Page 71

• 7.2.5 Changing the Printing Color

• 7.2.6 Settings Related to Recording

• 7.2.7 Setting the Communication Function

• 7.2.8 Initializing the Setup Data and Calibration Data

• 7.2.9 DI Functions

• 7.2.10 Temperature Unit selection

Purple Red Green Blue Brown Black

Setting

Channel

COLOR

Setting

Setting the Communication Function

Protocol Local address Communication speed Data length Parity bit

Setting

YES/NO

Setting

Function

Recording start/stop INT/EXT selection Channel/tag printing selection Alarm printing ON/OFF Logging printing ON/OFF Scale printing ON/OFF Recording Start/Stop printing (OFF/Synchronous/Asynchronous)

Setting

Centigrade Unit Fahrenheit Unit

Temp Unit

No function RUN/STOP trigger Chart feed speed selection Comment 1 printing (Synchronous) Comment 2 printing (Synchronous) Comment 3 printing (Synchronous) Manual printing (Synchronous) Date and time printing (Synchronous) Comment 1 printing (Asynchronous) Comment 2 printing (Asynchronous) Comment 3 printing (Asynchronous) Manual printing (Asynchronous) Date and time printing (Asynchronous)

Setting

No.

Function

Data in Setup mode is initialized.

Calibration data returns to the default value.

Page 72

• 7.2.11 Point Calibration

• 7.2.12 Data Calibration

• 7.3 Terminating the Engineering Mode

Table 7.2 Default value of the engineering mode

Setting items Default value Remarks

Alarm hysteresis ON (0.5%)

Burnout (all channels) OFF

Channel offset (all channels) 0.0

RJC (all channels) Internal compensation INT

Dot printing color (Ch1 to Ch6)

Purple(1), Red(2), Green(3), Blue(4),

Brown(5), Black(6) REC (recording): RUN/STOP trigger Channel/Tag printing Alarm printing Logging printing Logging printing interval Logging printing reference time Logging scale printing Logging printing Sync/Async Recording Start/Stop printing

INT

OFF

00:00

OFF

Sync (Synchronous)

OFF

Use the “REC” key

COM (communication): Address Communication speed Data length Parity bit Stop bit

9600

8 bits

None

1 bit DI function (Ch1 to Ch3) OFF

Temperature unit (centigrade unit)

Setting

Zero point calibration

Span point calibration Hysteresis at left/right move (Factory adjustment item) Ribbon select calibration (Factory adjustment item)

Function

[Note]

Upon termination the Engineering mode, if " " is selected and the power was turned off without selecting " ", the setting will become invalid.

For " " operation, see Section 7.3 on p.85.

Setting

Function

Voltage calibration RTD (Resistance temperature detector) calibration Internal reference junction compensation calibration

Setting

Function

Saves the set value Cancels the set value

Page 73

7.2.1 Alarm Hysteresis

0.5 % hysteresis can be set as a value upon alarm activation and alarm recovery. (Common to all

alarms)

Example: Turning alarm hysteresis OFF.

Enter engineering mode (See the key operation on page

67). Use the key to display " ", and press

the “ENT” key.

Use the key to display " ", and press the “ENT”

key.

7.2.2 Burnout ON/OFF

Burnout High for each channel (to deflect the recording over the span) can be set.

Example: Setting Burnout High for Channel 4.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press

the “ENT” key.

Use the key to display " ", and press the “ENT”

key.

Use the key to select " ", and press the “ENT”

key.

7.2.3 Channel Offset

For channel offset setting, set the value to be added to an actual process variable.

Input value can be set from -19999 to 99999.

Example: Adding the value (3.0) to Channel 3.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press

the “ENT” key.

Use the key to select " ", and press the “ENT”

key.

Use the key to alter a sign/numerical value or shift

a decimal point. Use the key to shift a digit. Once

the numerical value is determined, press the “ENT” key.

ENT

Display Operation keys Description

ENT

Display Operation keys Description

ENT

FEED

ENT

Display Operation keys Description

Page 74

7.2.4 Reference Junction Compensation

The following describes how to compensate an electromotive force generated between a thermocouple wire or compensation lead wire and a terminal. There are 3 compensating methods as follows:

• A method of compensation using the built-in temperature sensing element (INT: Internal compensation)

• A method of compensation by keeping an external compensator’s temperature constant (EXT: External compensation). For external reference junction compensation voltage, -19999 to 19999 V can be set as an input.

• By connecting the terminal of the external junction box to one input of the recorder, compensates the input of other channels. (CH: Channel input compensation)

For this recorder, Internal compensation (INT) default value has been set. Example: Setting the external compensator’s temperature constant voltage for Ch6 to 391 V.

(Thermocouple T input, external compensator’s compensating temperature 10 , Electromotive force input 391 V)

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press the

“ENT” key

Use the key to select " ", and press the “ENT”

key.

Use the key to select " ", and press the “ENT”

key.

Use the key to alter a numerical value, and the

key to shift a digit. Once the numerical value is

determined, press the “ENT” key.

Once setting is completed, the recorder will return to

Channel setting mode.

Example: When Channel 1 input compensates Channel 6 reference junction.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press the

“ENT” key.

Use the key to select " ", and press the “ENT”

key.

Use the key to select " ", and press the “ENT”

key.

Use the key to select " ", and press the “ENT”

key.

Once setting is completed, the recorder will return to

Channel setting screen.

ENT

INT

ENT

FEED

ENT

Display Operation keys Description

ENT

Display Operation keys Description

Page 75

7.2.5 Changing the Printing Color

Set a printing color for each channel.

Example: Setting black as a printing color.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press

the “ENT” key.

Use the key to select " ", and press the “ENT”

key.

Use the key to display " ", and press the “ENT”

key.

Once setting is completed, the recorder will return to

Printing Color Setting screen.

7.2.6 Settings Related to Recording

Recording RUN/STOP trigger, channel/tag printing, alarm printing, logging printing, scale printing

ON/OFF and Recording start/stop printing can be set.

(1) Recording RUN/STOP Trigger setting

Recording RUN/STOP Trigger can be set by the “REC” key or by the DI.

Example: Setting Recording RUN/STOP Trigger by the DI.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press the

“ENT” key.

Use the key to select " ", and press the

“ENT” key.

Use the key to display " ", and press the “ENT”

key.

Once setting is completed, the recorder will return to

Recording RUN/STOP Setting screen.

ENT

Display Operation keys Description

FEED

ENT

[Note]

Default value: (REC key) If Recording Start/Stop is set to “ (EXT)” as in the example above, select “RUN/STOP trigger (RCD)” as the DI function. See pages 79, 80 for the DI function.

If " " is selected, the “REC” key will not function.

Display Operation keys Description

ENT

FEED

ENT

Page 76

(2) Channel/Tag printing Selection

In the case of logging printing or manual printing, this sets either a tag printing or a channel printing. Example: Setting the tag printing.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press the

“ENT” key.

Use the key to select " ", and press the “ENT”

key.

Use the key to display " ", and press the “ENT”

key.

Once setting is completed, the recorder will return to

Channel/Tag Setting screen.

(3) Alarm printing ON/OFF

Sets the alarm printing ON/OFF.

ON1: Prints the alarm occurring and alarm recovering. ON2: Prints only the alarm occurring.

Example: When setting both alarm occurring and alarm recovering printings.

Enter engineering mode (See the key operation on page

69). Use the key to display “ ”, and press the

“ENT” key.

Use the key to select “ ”, and press the

“ENT” key.

Use the key to display “ ”, and press the “ENT”

key.

Once setting is completed, the recorder will return to the

Alarm Printing Setting screen.

ENT

Display Operation keys Description

ENT

Display Operation keys Description

Page 77

(4) Logging Printing ON/OFF

Sets the logging printing ON/OFF. In the case of logging printing ON, this sets the printing start time, printing interval and Synchronous/Asynchronous.

Setting ON/OFF Printing Start time Interval Sync/ASync

Example: When setting the logging printing Synchronous (synchronizing with the analog recording)

to start at 18:00 every day.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press the

“ENT” key.

Use the key to select " ", and press the

“ENT” key.

Use the key to display " ", and press the “ENT”

key.

Use the key to alter a numeral, and key to

shift a digit. Then, set the time and press the “ENT” key.

Use the key to display " ", and press the

“ENT” key. (Select from 10 min, 15 min, 20 min, 30 min,

1H, 2H, 3H, 4H, 6H, 8H, 12H and 24H)

Select with the key, and press the “ENT”

key.

: Synchronous

: Asynchronous

Once setting is completed, the recorder will return to

Logging Printing Setting screen.

ENT

FEED

ENT

(Print Start Time)

(Interval)

Display Operation keys Description

(Synchronous/Asynchronous)

ENT

Page 78

(5) Scale Printing ON/OFF

Set scale printing to ON/OFF. Example: Setting the Scale printing to OFF.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press the

“ENT” key.

Use the key to select " ", and press the

“ENT” key.

Use the key to display " ", and press the “ENT”

key.

Once setting is completed, the recorder will return to

Scale Printing Setting screen.

(6) Recording Start/Stop Printing (OFF/Synchronous/Asynchronous)

Prints recording start and stop time on the chart paper. For Recording Start/Stop printing, OFF, Synchronous or Asynchronous can be selected. Example: Recording Start is printed with the chart feed speed (Synchronous printing)

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press the

“ENT” key.

Use the key to select " ", and press the

“ENT” key.

Use the key to display " ", and press the

“ENT” key.

Once setting is completed, the recorder will return to

Recording Start/Stop Printing Setting screen.

Selection item:

(Recording Start/Stop OFF): Recording Start/Stop is not printed.

(Recording Start/Stop Synchronous printing): Recording Start is printed at preset chart speed. However, Recording Stop can be printed regardless of the preset Chart feed speed.

(Recording Start/Stop Asynchronous printing):

Recording Start/Stop is printed regardless of the preset Chart feed speed.

How to print Recording Start:

Press the “REC” key after recording stops. Recording Start time will be printed automatically. It will not be printed if “Recording Start/Stop OFF” has been set.

How to print Recording Stop:

Stop recording by pressing the “REC” key for more than 3 sec. Recording Stop time will be printed automatically. It will not be printed if “Recording Start/Stop OFF” has been set.

DI function:

If DI function is used for Recording RUN/STOP, Recording Start/Stop cannot be performed with the REC key. Perform Recording RUN/STOP using external DI terminals.

ENT

Display Operation keys Description

ENT

Display Operation keys

Description

Page 79

Printing sample:

7.2.7 Setting the Communication Function

Sets Protocol, Local Address, Communication Speed, Data Length, Parity Bit, and Stop Bit. Example: Original Protocol, Local Address: 02, Communication Speed: 1200 bps, Data Length: 7

bits, Parity Bit: Even, Stop Bit: 2 bits.

Enter engineering mode (See the key operation on page

69). Use the key to display “ ”, and press the

“ENT” key.

Use the key to display “ ”, and press the

“ENT” key. (Select either Original or Modbus RTD.)

Use the key to display " ", and press the

“ENT” key. (Select from to )

Use the key to display " ", and press the “ENT”

key. (Select from 1200, 2400, 4800, 9600, 19200, 38400.)

Use the key to display " ", and press the

“ENT” key. (Select 7 bits or 8 bits)

Use the key to display " ", and press the

“ENT” key. (Select from EVEN, ODD and NONE)

Use the key to display " ", and press the

“ENT” key. (Select 1 bit or 2 bits)

Once setting is completed, the recorder will return to

Communication Function Setting screen.

7.2.8 Initializing the Setup Data and Calibration Data

If “ ” is selected, all setup mode data will revert to the default value. If “ ” is selected, calibration data will revert to the default value. Since this function initializes all setup data and calibration data, take care when executing this function. Example: Initializing the Setup Data.

Enter engineering mode (See the key operation on

page 69). Use the key to display " ", and

press the “ENT” key.

Use the key to select " ", and press the “ENT”

key.

Initialization is completed.

ENT

Display Operation keys Description

ENT

Display Operation keys Description

ENT

Recording Stop printing

(e.g.) 2006.5.10 20:00

Recording Start printing

(e.g.) 2006.5.10 19:00

May.10.06 19:00Start

May.10.06 20:00End

(Local address)

(Communication speed)

(Data length)

(Parity)

(Stop bit)

ENT

(Parity bit)

Page 80

7.2.9 DI Functions

Allocates functions to 3 DI terminals. There are 12 DI functions as follows.

About DI function

By closing 3 DI terminals (D1, D2, D3) and the COM terminal, the following operations can be carried out.

Setting method

(1) Manual printing (Sync.) (MAN-P)

Temporary channel value, date and time are printed on the chart paper. Printing channel will be determined depending on whether the Digital printing function is turned ON or OFF in Setup mode. Refer to Section “7.1.7 Setting other functions: (4) Digital printing”. Preset Chart feed speed is used for printing. Printing starts upon closing the DI terminals and the COM terminal (ON).

(2) Manual printing (Async.) (AMAN.P)

Temporary channel value, date and time are printed on the chart paper. Printing channel will be determined depending on whether the Digital printing function is turned ON or OFF in Setup mode. Refer to Section “7.1.7 Setting other functions: (4) Digital printing”. Temporary channel value, date/time are printed regardless of the preset Chart feed speed. During printing, measured value recording will not be performed. Printing starts upon closing the DI terminals and the COM terminal (ON).

(3) RUN/STOP trigger (RCD)

Recording RUN/STOP can be operated externally by DI terminals. Recording starts upon closing the DI terminals and the COM terminal (ON). Recording stops upon opening the DI terminals and the COM terminal (OFF).

(4) Date/Time printing (Sync.) (TIM-P)

Current date and time are printed on the chart paper. Preset Chart feed speed is used for printing. Printing starts upon closing the DI terminals and the COM terminal (ON).

(5) Date/Time printing (Async.) (ATIM.P)

Current date and time are printed on the chart paper. Date and time will be printed regardless of the preset Chart feed speed. During printing, measured value recording will not be performed. Printing starts upon closing the DI terminals and the COM terminal (ON).

No function :

Manual printing (Sync.) : (Positive edge: Printing starts)

Manual printing (Async.) : (Positive edge: Printing starts) RUN/STOP trigger : (ON: RUN, OFF: STOP) Date/Time printing (Sync.) : (Positive edge: Printing starts) Date/Time printing (Async.) : (Positive edge: Printing starts) Chart feed speed selection : (ON: Spd-1, OFF: Spd-2) Comment printing 1 to 3 (Sync.) : , , (Positive edge: Printing starts) Comment printing 1 to 3 (Async.): , , (Positive edge: Printing starts)

Page 81

(6) Chart feed speed selection (SPEED)

Chart feed speed can be operated in 2 stages by DI terminals. Refer to Section “7.1.4 Setting the Chart feed speed”. The 1st chart feed speed can be selected by closing the DI terminals and the COM terminal (ON). The 2nd chart feed speed can be selected by opening the DI terminals and the COM terminal (OFF).

(7) Comment printing 1 to 3 (Sync.) , , (CMNT 1 to 3)

The preset comments (comment 1, 2, 3) are printed on the chart paper. Refer to Section “7.1.7 Setting other functions: (6) Comments”. Comments are printed by the preset Chart feed speed. Depending on the Chart feed speed, some comments may not be printed (e.g. where Chart feed speed is too slow.). Refer to Section “7.1.4 Setting the Chart feed speed”. Printing starts upon closing the DI terminals and the COM terminal (ON). It is possible to print up to 16 characters for Dot printing type, and up to 12 characters for Pen writing type.

(8) Comment printing 1 to 3 (Async.) , , (ACMT 1 to 3)

The preset comments (comment 1, 2, 3) are printed on the chart paper. Refer to Section “7.1.7 Setting other functions: (6) Comments”. Comments are printed regardless of the preset Chart feed speed. During printing, measured value recording will not be performed. Printing starts upon closing the DI terminals and the COM terminal (ON). It is possible to print up to 16 characters for Dot printing type, and up to 12 characters for Pen writing type.

Notes when operating Recording RUN/STOP

When operating Recording RUN/STOP externally using the DI function, select “(3) RUN/STOP trigger (RCD)” of the DI function (p.79), and DI setting in engineering mode has to be set to (EXT). [Refer to Section “7.2.6 Settings related to Recording (1) Recording RUN/STOP trigger setting” on page 74.]

For priority order and buffer action of Comment, Manual and Date/Time Printing, refer to

Sections “6.3.3 Printing sample” and “6.4 Digital printing”. Example: Setting Comment printing 3 for DI3

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press the

“ENT” key.

Use the key to select " ", and press the “ENT”

key.

Use the key to display " ", and press the

“ENT” key.

Once setting is completed, the recorder will return to the

DI3 Function Setting screen.

[Note]

Although DI synchronous does not print in STOP status, DI asynchronous does print in STOP

status. Be sure to set to OFF if the DI function (Option: RE6) is not ordered. Do not set to any other setting except OFF.

ENT

Display Operation keys Description

Page 82

7.2.10 Temperature Unit Selection

Sets the temperature unit. Example: Setting the temperature unit to Fahrenheit ( ).

Enter engineering mode (See the key operation on page

69). Use the key to indicate " ", and press

the “ENT” key.

Use the key to select " ", and press the “ENT” key.

Once setting is completed, the recorder will return to the

Temperature Unit Setting screen.

7.2.11 Point Calibration

Calibrates a dot printing position.

: Calibration of the zero point position

: Calibration of the span point position

Example: Calibrating the zero point.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press

the “ENT” key.

Use the key to select " ", and press the

“ENT” key.

The instrument starts to feed and print the chart paper.

With the (move left) and (move right), adjust

the 0 mm position of the chart paper and the recording

position. Press the “ENT” key. Display indicates the

preset counter value.

Once setting is completed, the recorder will return to the

Zero Point Calibration screen.

ENT

Display Operation keys Description

[Note]

Point calibration “ ” and ” ” have been set before shipment. Do not change these

value

Display Operation keys Description

ENT

FEED

[Note]

If the temperature unit is changed, all setup data will revert to default values.

Page 83

Example: Calibrating the span point.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press

the ”ENT” key.

Use the key to select " ", and press the

“ENT” key.

The instrument starts to feed and print the chart paper.

With the (move left) and (move right), adjust

the 100 mm position of the chart paper and the

recording position. Press the “ENT” key.

Display indicates the preset counter value.

Once setting is completed, the recorder will return to the

Span Point Calibration screen.

Display Operation keys Description

ENT

FEED

Page 84

7.2.12 Data Calibration

Calibrates the voltage, RTD(resistance temperature detector), and reference junction compensation.

: Calibration of voltage : Calibration of RTD (resistance temperature detector) : Calibration of RJC (reference junction compensation)

Example: Calibrating the voltage at Channel 1.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press

the “ENT” key.

Use the key to select " ", and press the

“ENT” key. Select a channel to which equipment for

calibration such as an mV generator is connected, and

then, press the “ENT” key.

Enter 0 mV. After 30 seconds, make sure that the ALM

indicator is unlit and press the “ENT” key.

Enter 15 mV. After 10 seconds, make sure that the ALM

indicator is unlit and press the “ENT” key.

Enter 25 mV. After 10 seconds, make sure that the ALM

indicator is unlit and press the “ENT” key.

Enter 35 mV. After 10 seconds, make sure that the ALM

indicator is unlit and press the “ENT” key.

Enter 55 mV. After 10 seconds, make sure that the ALM

indicator is unlit and press the “ENT” key.

Enter 200 mV. After 10 seconds, make sure that the

ALM indicator is unlit and press the “ENT” key.

Enter 1 V. After 10 seconds, make sure that the ALM

indicator is unlit and press the “ENT” key.

Enter 5 V. After 10 seconds, make sure that the ALM

indicator is unlit and press the “ENT” key.

Enter 10 V. After 10 seconds, make sure that the ALM

indicator is unlit and press the “ENT” key.

If the calibration is correct, select " " with the

key, and if incorrect, select " " with the

key. Then, press the “ENT” key.

[Note]

For calibration of voltage input, calibrate only one channel.

ENT

Display Operation keys Description

[Note]

This recorder is carefully calibrated, however, if an indicated value is not normal, check the settings

again.

Page 85

Example: When calibrating the RTD at Channel 2

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press

the “ENT” key.

Use the key to select " ", and press the “ENT”

key.

Select a channel to which equipment for calibration such

as a dial resistor is connected, and press the “ENT” key.

Enter 100 . After 10 seconds, make sure that the ALM

indicator is unlit and press the “ENT” key.

Enter 150 . After 10 seconds, make sure that the ALM

indicator is unlit and press the “ENT” key.

Enter 300 . After 10 seconds, make sure that the ALM

indicator is unlit and press the “ENT” key.

If the calibration is correct, select " " with the

key, and if incorrect, select " " with the

key. Then, press the “ENT” key.

[Note]

When calibrating RTD for a channel, short-circuit the other input terminals except the calibrating channel. RTD calibration is required for every channel.

[Note]

During calibration, the ALM indicator shows the following conditions.

(1) When the ALM indicator is unlit: (2) When the ALM indicator is flashing:

The calibration is within the range. The recorder is assessing the input value.

(3) When the ALM indicator is lit:

The calibration is out of the range.

Make sure that the connection

is proper and input is correct.

If calibration is performed out of the input range, calibration value out of the input range will be fixed, and (Voltage) or (RTD) will be displayed when the unit returns to measurement mode. At this time, return the calibration value to the default value using the function in Section 7.2.8 Initializing the Setup Data and Calibration Data.

: The indicator is unlit.

: The indicator is lit.

ENT

Display Operation keys Description

CH.No

Page 86

Example: Setting the terminal temperature for Channel 1.

Enter engineering mode (See the key operation on page

69). Use the key to display " ", and press

the “ENT” key.

Use the key to select " ", and press the “ENT”

key.

Select a channel to be set, and press the “ENT” key.

Measures and displays the current terminal temperature.

Press the “ENT” key, and the unit moves to temperature

input display.

Use the key to change a numeral, and key to

shift a digit. Then, press the “ENT” key. See Section 9.5

(3) Calibration of Reference Junction Compensation.

If calibration is performed correctly, select " "

with the key, and if calibration is performed

incorrectly, select " " with the key.

Then, press the “ENT” key.

7.3 Terminating the Engineering Mode

Example: The following describes how to save the setting data.

Use the key to display " ", and press the “ENT”

key.

Use the key to select " ", and press the

“ENT” key. The settings of the engineering mode have

been saved. Recording starts under the new settings.

[Note]

For terminal temperature calibration, select a channel from Ch1 to Ch3, and select another channel from Ch4 to Ch6. Calibrate these two channels separately.

[Note]

When terminating Engineering mode, if " " is selected and the power was turned off without

selecting " ", the settings will become invalid.

Selecting " " invalidates the settings, and starts recording under the previous settings.

ENT

Display Operation keys Description

ENT

Display Operation keys Description

ENT

FEED

Page 87

8. COMMUNICATION

8.1 General Description

8.1.1 General Description of Functions

This Recorder has the following communication functions: (1) Process variable output

Process variable, alarm status, etc.

(2) Setting value output

Reading the setup data such as a range and chart feed speed.

(3) Setting value input

Writing the setup data such as a range and chart feed speed.

(4) Recorder controlling (Partial)

Switching to printing, recording start/stop and changing display are possible via the

communication function. For functions (2) to (4), see the separate volume “Communication Command Manual”. Settings in Engineering mode cannot be performed by the communication function.

8.1.2 Transmission Specifications

(1) Communication method: Half-duplex communications (2) Synchronization method: Start-stop synchronization (3) Connection: One-to-one (RS-232C), One-to-N (RS-485); N = 1 to 32 (4) Protocol: Original protocol, Modbus RTU (5) Communication speed: 1200, 2400, 4800, 9600, 19200, 38400 bps (6) Start bit: 1 bit (7) Stop bit: 1, 2 bits (8) Parity: Even, Odd or None (9) Data length: 7, 8 bits (Modbus RTU: 8 bits fixed)

8.2 Original Protocol

8.2.1 Data Structure

(1) Character structure

In order to send 1 data (byte) in start-stop synchronization communication, the following data format is assumed.

Start Bit (1) + Data Bit (7 or 8) + Parity Bit (1) + Stop Bit (1 or 2)

(2) Data format

As a communication data, multiple characters are sent by adding terminators to them. Upon receiving these terminators, the recorder starts analyzing the communication data.

A B C CR LF

Terminator

1 Character

Page 88

8.2.2 Opening/Closing the Link

To communicate with the recorder, a connection between the host computer and the recorder

must be established. In the case of one-to-N communications, it is necessary to inform each

recorder to which recorder the text is being sent. If a link open command is sent to multiple

recorders through their sending function, all recorders which have received the command will

send data. As a result, normal data cannot be received.

1) Open Command

(ESC)O 01 (CR)(LF)

Address (01 to 32)

Space (20 Hex.)

To communicate with the recorder, the host computer must issue this command and must

memorize that it has issued this command.

2) Close Command

(ESC)C 01 (CR)(LF)

Address (01 to 32)

Space (20 Hex.)

When sending data to the recorder to which the open command has not been issued, the host

computer must issue this command to the reocrder to which the open command has been issued.

Page 89

8.2.3 Outputting the Process Variable

1) Specifying the Process Variable Output

TS0(CR)(LF)

Once this command is received, the recorder transfers the process variable to the

transmission buffer when the (ESC) T command is received.

2) Updating the Data

(ESC)T(CR)(LF)

Once this command is received, the recorder transfers the updated process variable to the

transmission buffer.

3) Specifying the Process Variable Output Order (At BINARY Mode Output)

BO0(CR)(LF) Outputs start from the upper byte.

BO1(CR)(LF) Outputs start from the lower byte.

The recorder outputs from the lower byte, unless otherwise specified.

4) Outputting the Data

FM0, S CH, E CH (CR) (LF) Specifies the ASCII mode output.

FM1, S CH, E CH (CR) (LF) Specifies the BINARY mode output.

S CH: Output start channel 01 to 06

E CH: Output end channel 01 to 06

When the number of channel is 1, specify (S_CH) = (E_CH).

(e.g.) FM0, 01, 02(CR) (LF) ASCII, Ch1 to Ch6 output

Page 90

5) Process Variable Transmission Format (ASCII)

DATE (YY) (MM) (DD) (CR) (LF) Date

Year Month Day

TIME (HH) (MM) (SS) (CR) (LF) Time

Hour Minute Second

(DS1) (DS2) (ALM1) (ALM2) (ALM3) (ALM4) (UNIT 1 to 6) (CHNo.), (DATA) (CR) (LF)

(1) DS1: Data information 1 (1 byte)

N: Normal

D: Difference computation data

S: Sum computation data

M: Average computation data

R: Square root computation data

C: Decade computation data

S: Skip (All data: Space)

(2) DS2: Data information 2 (1 byte)

E: Final data

_(Space): Other data

(3) ALM 1 to 4: Alarm information (1 byte each, 4 bytes in total)

H: Upper limit alarm

L: Lower limit alarm

_(Space): Alarm OFF or alarm setting OFF

(4) UNIT 1 to 6: UNIT (6 bytes)

Returns the setting unit with codes. (When sending the 7-bit data, 1 bit information is

omitted.)

(5) CH No.: Channel number (2 bytes)

01 to 06

(6) DATA: Process variable

Sign (1 byte): “+” or “–“

Data mantissa section (6 bytes): 00000 to 99999

Data exponent section (4 bytes): E (Sign: 1 byte) (Multiplier: 2 bytes)

(Example) +99999E 02

Page 91

6) Process Variable Transmission Format (BINARY)

Output bytes (2 bytes): 5 x n (specified number of channels)+6

(1) Date and time (6 bytes):

Year: 00H to 63H (00H for the year 2000)

Month: 01H to 0CH

Day: 01H to 1FH

Hour: 00H to 17H (24-hour system)

Minute: 00H to 3BH

Second: 00H to 3BH

(2) Process variable (5 bytes):

CH No. (1 byte): Channel number 01H to 06H

A1 to A4 (2 bytes): Alarm type activated at each alarm level

1: Upper limit alarm

2: Lower limit alarm

0: Alarm OFF or alarm setting OFF

(Example) Bit Sequence.

LEVEL2H LEVEL1H LEVEL4H LEVEL3H

LEVEL2L LEVEL1L LEVEL4L LEVEL3L

LEVELxH: Upper limit alarm bit at the alarm level x

LEVELxL: Lower limit alarm bit at the alarm level x

DATA1, DATA2 (2 bytes): Process variable

-32000 to + 32000 (2-byte hexadecimal data) The higher and lower bytes can be reversed by the BO command. If Skip is specified, 8080H will be outputted.

0 0 1 0 0 0 0 1 0 0 0 1 0 0 1 0

Output bytes Date and time Process variable 1 Process variable 6

CH No. A2 A4A1 A3 DATA1 DATA2

[Note]

Output data over -32000 to +32000 constitutes overflow. The overflow 7E7EH is output on

the plus side, and 8181H is output on the minus side (Excluding the Decade channel).

Irrespective of the BO command, data output of the Decade channel is as follows.

The upper byte outputs a mantissa (10 to 99). The lower byte outputs an exponent

(-19 to 19). A decimal point position is fixed on the 1st digit after the decimal point.

2 3 4 5 61

Page 92

8.2.4 Outputting the Unit and Decimal Point Position Data

1) Specifying the Unit and Decimal Point Position Data Output

TS2(CR) (LF)

Once this command is received, the recorder transfers the unit and decimal point position data

to the transmission buffer, when the (ESC) T command is received.

2) Updating the Data

(ESC)T (CR) (LF)

Once this command is received, the recorder transfers the updated unit and decimal point

position data to the transmission buffer

3) Outputting the Data

LF, S CH, E CH (CR) (LF)

S CH: Output starting channel 01 to 06

E CH: Output ending channel 01 to 06

(e.g.) LF, 01, 06(CR) (LF) Unit and decimal point place data output for Ch1 to Ch6

When the number of channels is 1, specify (S_CH) = (E_CH).

4) Data Format

(DS1)(DS2)(CHNo.) (UNIT1 to 6)(DP) (CR) (LF)

(1) DS1 : Data information 1 (1 byte)

N : Normal

D : Difference computation data

S : Sum computation data

M : Average computation data

R : Square root computation data

C : Decade computation data

S : Skip (All data: Space)

(2) DS2: Data information 2 (1 byte)

E: Final data

(Space): Other data

(3) CHNo.: Channel number (2 bytes); 01 to 06

(4) UNIT 1 to 6: UNIT

Returns the set unit by codes.

(When sending the 7-bit data, 1 bit information is omitted.)

(5) DP: Decimal point information (1 byte); 0 to 4

[Note]

Depending on the range setting, a decimal point position may differ from that of the display screen.

Page 93

8.2.5 Outputting the Status

If the open-link recorder has a data error on its link, it will save the error as a communication

error in the internal status area. The (ESC S) command reads this status. Issuing the command

clears an on-going error.

1) Status Output Command

ESC S(CR) (LF)

Upon receiving this command, outputs will be the status of commands received so far.

2) Status Output

XX: 00 to 19

Table 8.2.5 Status output list

Status factor

Status output

A/D END Syntax error Chart paper-empty

ER 00 CRL

ER 01 CRL

ER 02 CRL

ER 03 CRL

O O

ER 04 CRL

ER 05 CRL

ER 16 CRL

ER 17 CRL

O O

ER 18 CRL

O O

ER 19 CRL

O O O

O: Factor by which the status is ENABLED.

A/D END: This occurs when AD conversion is completed.

Syntax error: This occurs during a communication error or a command error.

Chart paper-empty: This occurs when chart paper-empty is detected.

(When chart paper-empty option has been ordered.)

E R X X CR LF

Page 94

8.2.6 Data Reception Example

Host Computer Recorder

Open Command

Process Variable Output Designation Command (TS0)

Data Update Command (ESC T)

Data Output Request Command (FM)

Process Variable Output Order Designation (BO); BINARY Mode only

Close Command

Opens the Link.

Prepares for the Process Variable Output.

Prepares the updated data.

Sends the updated data.

Determines the Process Variable Output

Order.

Closes the link.

Send once to the recorder. Then, it is not necessary to send it any more.

Send to the recorder each time.

Send the command when sending to another recorder.

Send the command to the recorder from which data transmission starts.

Page 95

8.3 Modbus RTU Protocol

The Modbus protocol is a communication protocol developed for PLCs by Modicon Inc. (AEG Schneider

Automation International S.A.S). It is described in the protocol specification (PI-MBUS-300 Rev. J). Refer

to this document for information on the Modbus protocol specification.

8.3.1 Data Construction

Slave address

(1 byte)

Function code

(1 byte)

Data

(variable)

CRC

(2 bytes)

8.3.2 Function Codes

The following function codes are available on this product:

Code Function

Maximum data

length

Modbus-specific function (reference)

03H Setting data read 123 words Data read from holding register 04H Input data read 123 words Data read from input register

06H One-time data write 1 word Data write to holding register

10H Continuous data writes 123 words Data write to holding register

8.3.3 Error Response

In accordance with the communication protocol for the pertinent function code, if an error

occurs during command transmission, an error response is returned in the fixed format

described in this section.

Example of slave response (function code = 06H, command error = 10H)

Component

Data

length

Data

Slave address (only for Modbus RTU) 1 Function code + 80H

1 86H

Error code

1 10H Error check (only for Modbus RTU) 2 CRC Total number of bytes 5 -

Error codes and their occurrence conditions

Error code

Description Occurrence condition(s)

01H Invalid function code An unsupported function code is specified.

02H Invalid register address

The relative address range exceeds "9999."

03H

Invalid number of registers

- The length of the accessed data is "0" or the sum of the relative address and data length exceeds the limit.

- It is assumed that two or more function codes, each executable for one area, are involved.

- Data longer than 2 words is specified for a one-time write command.

- The data length exceeds 123 words.

04H Device error The received data is shorter than the predefined data length.

10H Command error An attempt at a write over an area exceeding the writable range.

Page 96

8.3.4 Reading from the Input Register Area

The input register area is a read-only area. The current measured value and the current

time are mapped. Specify the start address (relative) and data count (assuming that one

word is two bytes) of the data to be read.

Function code: 04H

Example of master transmission (with a start address of 0032H and a data count of 2 words)

Component

Data

length

Data

Slave address 1

–

Function code 1 04H

Relative start address (high-order) 1 00H Relative start address (low-order) 1 32H Read data count (high-order) 1 00H

Data

Read data count (low-order) 1 02H Error check 2 CRC (16 bits) Total number of bytes 8

Example of slave response (with a start address of 0032H and a data count of 2)

Component

Data

length

Data

Slave address 1

–

Function code 1 04H

Number of data bytes 1 04H

Data 1 (high-order) 1 00H

Data 1 (low-order) 1 09H

Data 2 (high-order) 1 00H

Data

Data 2 (low-order) 1 0AH Error check 2 CRC (16 bits) Total number of bytes

Page 97

[Input Register Area Map] Function code: 04H

Address

Relative address

(HEX)

Name

Arrange-

ment

Description Remarks

30001 0 Model type (1/8) 1 ASCII

Multipoint type："MULTI"

30002 1 Model type (2/8) 2

Pen type："PEN"

30003 2 Model type (3/8) 3 After the blank 30004 3 Model type (4/8) 4 30005 4 Model type (5/8) 5 30006 5 Model type (6/8) 6 30007 6 Model type (7/8) 7 30008 7 Model type (8/8) 8 30009 8 Software version (1/16) 1 ASCII Version information on a system. 30010 9 Software version (2/16) 2 30011 A Software version (3/16) 3 30012 B Software version (4/16) 4 30013 C Software version (5/16) 5 30014 D Software version (6/16) 6 30015 E Software version (7/16) 7 30016 F Software version (8/16) 8 30017 10 Software version (9/16) 9 30018 11 Software version (10/16) 10 30019 12 Software version (11/16) 11 30020 13 Software version (12/16) 12 30021 14 Software version (13/16) 13 30022 15 Software version (14/16) 14 30023 16 Software version (15/16) 15 30024 17 Software version (16/16) 16 30025 18 Modbus map version 1 Binary 30026 19 Reserve 1 30027 1A Reserve 2 30028 1B Reserve 3 30029 1C Reserve 4 30030 1D Reserve 5 30031 1E Reserve 6 30032 1F Reserve 7 30033 20 Reserve 8 30034 21 Reserve 9 30035 22 Reserve 10 30036 23

Reserve

30037 24

Reserve

30038 25

Reserve

3 30039 26 Reserve 30040 27 Reserve 30041 28 Reserve 30042 29 Reserve 30043 2A Reserve 30044 2B Reserve 30045 2C Reserve 30046 2D Reserve 30047 2E Reserve 30048 2F Reserve 30049 30 Reserve

Page 98

Address

Relative address

(HEX)

Name

Arrange-

ment

Description Remarks

30050 31 Reserve 30051 32 Year 0 to 99 30052 33 Month 1 to 12 30053 34 Day 1 to 31 30054 35 Hour 0 to 24 30055 36 Minute 0 to 59 30056 37 Second 0 to 59

Every second update

30057 38 Recording status 0 to 1

0：Recording not in progress 1：Recording in progress

30058 39 Chart sensor status 0 to 1

0：With chart 1：Without chart

30059 3A Manual print status 0 to 1

0：Print stops 1：During printing

30060 3B List print status 0 to 1

0：Print stops 1：During printing

30061 3C Engineering

list print status

0 to 1

0：Print stops 1：During printing

30062 3D Reserve 30100 63 Reserve 30101 64 CH01 30102 65 CH02 30103 66 CH03 30104 67 CH04 30105 68 CH05

30106 69

Channel status

CH06

00bit：

Alarm 1 1= ON 0= OFF

01bit：

Alarm 2 1= ON 0= OFF

02bit：

Alarm 3 1= ON 0= OFF

03bit：

Alarm 4 1= ON 0= OFF

30107 6A CH01 30108 6B CH02 30109 6C CH03 30110 6D CH04 30111 6E CH05 30112 6F

Measurement data(BIN)

CH06

-32000 to 32000

Data of more than 32000: The minus side will be 8181H, the plus side will be 7E7EH.

30113 70 CH01 30114 71 CH02 30115 72 CH03 30116 73 CH04 30117 74 CH05 30118 75

Decimal point

CH06

0 to 4

30119 76 30120 77

CH01

30121 78 30122 79

CH02

30123 7A 30124 7B

CH03

30125 7C 30126 7D

CH04

30127 7E 30128 7F

CH05

30129 80 30130 81

Measurement data (Float)

CH06

Float (high-order 2 byte) Float (low-order 2 byte)

Page 99

Address

Relative address

(HEX)

Name

Arrange

ment

Description Remarks

30131 82 Unit (1/4) 30132 83 Unit (2/4) 30133 84 Unit (3/4) 30134 85 Unit (4/4)

CH01

Current unit

30135 86 Unit (1/4) 30136 87 Unit (2/4) 30137 88 Unit (3/4) 30138 89 Unit (4/4)

CH02

Current unit

30139 8A Unit (1/4) 30140 8B Unit (2/4) 30141 8C Unit (3/4) 30142 8D Unit (4/4)

CH03

Current unit

30143 8E Unit (1/4) 30144 8F Unit (2/4) 30145 90 Unit (3/4) 30146 91 Unit (4/4)

CH04

Current unit

30147 92 Unit (1/4) 30148 93 Unit (2/4) 30149 94 Unit (3/4) 30150 95 Unit (4/4)

CH05

Current unit

30151 96 Unit (1/4) 30152 97 Unit (2/4)

30153 98 Unit (3/4) 30154 99 Unit (4/4)

CH06

Current unit

30155 9A Reserve

・・・・・・

8.3.5 Reading from or Writing to the Holding Register Area

The holding register area is a read-write area. Parameter settings and the start and stop

command of the recording state are mapped. For read, specify the start address (relative) and

data count (assuming that one word is two bytes) of the data to be read. For write, specify the

start address and the data to be written.

For details, see the separate ”RM10C HYBRID RECORDER COMMUNICATION COMMAND

INSTRUCTION MANUAL (HXPRM10mnC0005E) ”.

Page 100

9. MAINTENANCE

Check the following items in order to use this instrument effectively.

 Inspection

 Cleaning

 Replacing Consumables

 Adjusting Dot Printing Position

 Calibration

9.1 Inspection

Inspect the condition of operation periodically for effective use.

When any defect is found, see Chapter “10. Troubleshooting”.

Check whether trend recording is out of range.

Check whether the recording indication is off course.

• Check whether there are any large errors in indicated values or the dot printing position.

• Check whether there is improper dot printing.

• Check whether there are any blurred dot printings or printouts.

• Check whether printout is correct. Check whether the chart paper has been fed properly.

• Check whether the chart paper is folded properly.

• Check whether the feed holes in the chart paper are torn off or broken.

• Check whether the chart feed speed is normal. Check whether there are any abnormal sounds.

9.2 Cleaning

Many parts of this instrument are made of plastic. Use a dry cloth to wipe the parts clean.

[Note]

Never use any organic solvents.