Page 1
HYBRID RECORDER
HR-700
(DOT PRINTING TYPE)
INSTRUCTION MANUAL
Page 2
1
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 underst a nd thi s instru ction
manual thoroughly before using the instrument.
The symbols below are used on this instrument for the cautioning information.
Symbols used on the instrument
This indicates “Caution for handling”. Please refer to the instruction manual
when handling parts with this symbol on it for protecting human body and the
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.
Be sure to observe the following warnings/cautions and those written in this
manual in order to secure safety when using this instrument.
WARNING
In order to prevent electric shock, be sure to disconnect this instrument from the
main power source when wiring it.
(1) In order to prevent electric shock, be sure to provide protective grounding
prior to turning on this instrument.
(2) Do not cut a protective grounding conductor or disconnect protective
grounding.
(1) Make sure that the supply voltage for this instrument conforms to the
voltage of the supply source.
(2) Attach protective covers prior to turning on this instrument.
Do not operate this instrument in the environment where it is exposed to a
combustible/explosive/corrosive gas or water/steam.
Provide input and output wiring after turning off the pow er.
General
Protective Grounding
Power Source
Working Environment
Input and Output Wiring
Page 3
2
CAUTION
Do not use unused terminals for other purposes such as relaying.
When transporting this instrument or the equipment with this instrument
incorporated in it, take measures to prevent opening the door and falling out the
inner module.
Do not touch the switches, etc. inside this instrument. Also, do not replace the
main unit or printed circuit boards. When this is neglected, we cannot guarantee
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 on this manual or find any errors or omissions in
this manual, contact our sales representative.
(4) After reading this manual, keep it carefully by the instrument.
(5) When the manual is 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 a protective gear such as safety
shoes and helmet for safety.
(2) Do not step on the installed instrument or get on it, because this is
dangerous.
Only our servicemen or engineers authorized by Shinko are allowed to remove
and take the inner module, the main unit and printed circuit boa rds ap art.
(1) Dispose the replaced batteries in a correct way.
(2) Do not incinerate plastics of maintenance parts and replacement parts.
A harmful gas may be produced.
(1) Use 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 manual before using this instrument.
• This instrument is intended to be used for industrial machinery, machine tools and measuring equipment. Verify correct
usage after consulting purpose of use with our agency or main office. (Never use this instrument for medical purposes
with which human lives are involved.)
• External protection devices such as protection equipment against excessive temperature rise, etc. must be installed,
as malfunction of this product could result in serious damage to the system or injury to personnel.
Also proper periodic maintenance is required.
• This instrument must be used under the conditions and environment described in this manual. Shinko Technos 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
3
Using this manual
1. 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 for your purpose to use this instrument.
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
O
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.
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 an information about the functions of this instrument for effective
use.
2. Guide of Instruction manual
The instruction manuals of this instrument are as the table below.
Name Edition No. Outline
1 HR-700 Hybrid Recorder
(Multipoint type) instruction
manual
No.HR71E
Explanation for installation, wiring,
standard operation. Setting and
operation for using this instrument.
2
HR-700 Hybrid Recorder
Communication Command
instruction manual
No.HR7CE
Explanation for reading and writing
data of the recorder by
communication function.
This
manual
Page 5
4
CONTENTS
1. INTRODUCTION..............................................................6
1.1 Checking the Accessories.......................................................6
1.2 Checking the Model Type and Specifications........................ 7
1.3 T emporary S torage.................................................................. 8
1.4 Indication Card........................................................................8
2. CONSTRUCTION............................................................9
2.1 Appearance............................................................................. 9
2.2 Display Screen and Operation Keys.................................... 10
2.2.1 Display Screen ................................................................10
2.2.2 Operation Keys.................................................................11
3. INSTA LLATION..............................................................12
3.1 External dimensions
and panel cutout .................................................................... 12
3.2 Mounting to the Panel........................................................... 13
3.2.1 Procedure for Mounting to the Panel.............................. 13
3.2.2 Mounting to the Panel in compliance with the IP65.......14
4. WIRING ..........................................................................15
4.1 Terminal arrangement and Power Wiring.............................15
4.1.1 T erminal arrangement..................................................... 15
4.1.2 Power Wiring...................................................................15
4.1.3 Wiring Procedure............................................................. 16
4.2 Input Wiring............................................................................17
4.2.1 Wiring Procedure............................................................. 18
4.3 DI function/Alarm Output Wiring (Option)............................. 20
4.3.1 DI function/Alarm Output Wiring Example ..................... 20
4.3.2 Alarm Output Wiring Procedure...................................... 21
4.3.3 DI function Wiring Procedure..........................................21
4.4 Communication Wiring.......................................................... 22
4.4.1 RS-232C Wiring .............................................................. 22
4.4.2 RS-485 Wiring................................................................. 22
5. PREPA RATIONS FOR OPERATION ...........................23
5.1 Setting the Chart Paper ........................................................ 23
5.2 Setting the Ribbon Cassette................................................. 29
6. RUNNING.......................................................................31
6.1 Running .................................................................................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/S topping Recording .........................................32
6.3.2 Feeding the Chart Paper................................................. 32
6.3.3 Print Sample.................................................................... 33
6.4 Digital Print.............................................................................34
6.4.1 Manual Print.....................................................................34
6.4.2 List Print........................................................................... 35
6.4.3 Engineering List Print...................................................... 37
6.5 Changing the Display ........................................................39
6.5.1 Auto Display <
>...............................................39
6.5.2 Manual Display <
>.............................................. 39
6.5.3 Date Display <
> .............................................. 39
6.5.4 Time Display <
>.............................................. 39
6.5.5 Display Off <
>...................................................... 39
7. DEVICE SETTING.......................................................40
7.1 Setting the Setup Mode.........................................................40
7.1.1 Setting the Range ............................................................43
(1) Setting method .................................................................43
(2)
(Current/Voltage), (Thermocouple),
(Resistance Temperature Detector)..................44
(3)
(Scaling)......................................................46
(4)
(Square Root)..................................................48
(5)
(Decade)......................................................50
(6)
(Difference), (Sum),
(Average)........................................................52
(7)
(Skip) ...............................................................53
7.1.2 Setting the Alarm..............................................................54
7.1.3 Setting the Unit.................................................................56
(1) Character Code T able......................................................57
7.1.4 Setting the Chart feed Speed..........................................58
7.1.5 Setting the Date and Time...............................................59
7.1.6 Copying the Setting Data.................................................60
7.1.7 Setting Other Functions...................................................61
(1)
(Printing Cycle)............................................62
(2)
(Zone Recording)............................................62
(3)
(Partial Compression/Expansion)...................63
(4)
(Digital Print)................................................64
(5)
(Tag).....................................................................65
(6)
(Comment Words)...........................................66
7.2 Setting the Engineering Mode...............................................67
7.2.1 Alarm Hysteresis ..............................................................70
7.2.2 Burnout ON/OFF..............................................................70
7.2.3 Channel Offset.................................................................70
7.2.4 Reference Junction Compensation.................................71
7.2.5 Changing the Printing Color ...........................................72
7.2.6 Settings Related to Recording.........................................73
(1) Trigger setting for recording start/stop.............................73
(2) Tag/channel print selection...............................................73
(3) Alarm print ON/OFF .........................................................74
(4) Logging print ON/OFF......................................................74
(5) Scale print ON/OFF..........................................................75
(6) Logging print Synchronous/Asynchronous .....................75
7.2.7 Setting the Communication Function..............................76
7.2.8 Initializing the Setup Data ..............................................76
7.2.9 DI functions.......................................................................77
7.2.10 Temperature Unit selection............................................77
7.2.11 Point Calibration.............................................................78
7.2.12 Data Calibration .............................................................79
7.3 Terminating the Engineering Mode .......................................81
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5
8. COMMUNICATION ......................................................82
8.1 General Description .............................................................. 82
8.1.1 General Description of Functions...................................82
8.1.2 Transmission Specifications............................................82
8.1.3 Data Structure..................................................................82
8.2 Opening/Closing the Link...................................................... 83
8.2.1 Open Command.............................................................. 83
8.2.2 Close Command ............................................................. 83
8.3 Outputting the Process Variable........................................... 84
8.3.1 Specifying the Process Variable Output ......................... 84
8.3.2 Updating the Data ........................................................... 84
8.3.3 Specifying the Process Variable Data Output
Order (At BINARY Mode Output).................................. 84
8.3.4 Outputting the Data......................................................... 84
8.3.5 Process Variable T ransmissio n Format (ASCII)............ 85
8.3.6 Process Variable T r ansmission Format (BINARY)........ 86
8.4 Outputting the Unit and Decimal Point Position Data..........87
8.4.1 Specifying the Unit and Decimal Point Position
Data Output.................................................................... 87
8.4.2 Updating the Data ........................................................... 87
8.4.3 Outputting the Data......................................................... 87
8.4.4 Data Format..................................................................... 87
8.5 Outputting the Status.............................................................88
8.5.1 Status Output Command................................................88
8.5.2 Status Output................................................................... 88
8.6 Data Reception Example...................................................... 89
9. MAINTENANCE.............................................................90
9.1 Inspection ..............................................................................90
9.2 Cleaning................................................................................. 90
9.3 Replacing Consumables....................................................... 91
9.4 Adjusting Dot Printing Position (Point Calibration)............... 91
9.5 Calibration (Data Calibration)................................................91
(1) Calibration of Voltage......................................................92
(2) Calibration of RTD (Resistance temperature detector).. 92
(3) Calibration of Reference Junction Compensation ......... 93
10. TROUBLESHOOTING................................................94
10.1 Troubleshooting...................................................................94
10.1.1 Problems........................................................................94
10.1.2 When the Recorder Dose not Work at All.....................94
10.1.3 When there is a Major Error ..........................................95
10.1.4 When the Trend Recording is Deflected.......................95
10.1.5 When Nothing is Recorded ...........................................96
10.1.6 When Recording is Faint...............................................96
10.1.7 When the Chart Paper is not fed at All..........................97
10.1.8 When the Chart Paper is not fed Properly....................97
10.2 Self Diagnosis Function (ERROR)......................................98
10.2.1 Self Diagnosis Items......................................................98
10.2.2 Error Display...................................................................99
11. SPECIFICATIONS.....................................................100
11.1 Common Specifications.................................................... 100
11.1.1 Input Signal.................................................................. 100
11.1.2 Performance and Characteristics............................... 100
11.1.3 Structure ......................................................................101
11.1.4 Power Source.............................................................. 101
11.1.5 Normal Operating Conditions..................................... 101
11.1.6 Alarm Output (Optional: LH6)..................................... 102
11.1.7 Safety Standard and EMI Standard............................ 102
11.1.8 DI Function (Option : RE6)..........................................102
11.1.9 Paper-empty Detection Function (Option: FL)........... 102
11.2 Standard Specifications..................................................... 103
11.2.1 Measurement Range.................................................. 103
11.2.2 The Accuracy at the Computation .............................. 106
(1) Scaling........................................................................... 106
(2) Square root computation............................................... 106
(3) Decade........................................................................... 107
(4) Difference, Sum, and Average...................................... 107
11.2.3 Individual Specifications.............................................. 108
11.2.4 Standard Functions ..................................................... 109
11.3 Standard Setting Functions................................................110
11.3.1 Standard Setting Functions..........................................110
11.4 Optional Functions.............................................................110
11.4.1 Remote Function of DI.................................................110
11.4.2 Alarm Output function...................................................110
11.4.3 Communication unit.....................................................110
Page 7
6
1. INTRODUCTION
1.1 Checking the Accessories
Upon delivery of this instrument, unpack and check its a ccessories and appearan ce.
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 bracket
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 upon shipment.
Page 8
7
1.2 Checking the Model Type and Specifications
A nameplate has been secured on the inside of the in strument. Remove the chart holde r 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
FL Paper-empty detection function
Options
LH6 Alarm output function
Page 9
8
1.3 Temporary Storage
Store the instrument in the following envir onment.
When installed within another machine, ensure that the operating e nvironment conform s to the
following conditions.
1.4 Indication Card
An indication card has been affixed to the door upon delivery. Enter a name as required.
CAUTION
Storage in a poor environ ment may damage the appearance, functio ns, and service life of the
instrument.
Storage Environment
• A place free from excess dust
• A place free from combustible, explosive, or corrosive gases (SO
2
, H2S, etc.)
• A place free from vibrations or shocks
• A place frees 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 p art.
Page 10
9
2. CONSTRUCTION
2.1 Appearance
Fig. 2.1 Appearance
Ribbon cassette
Door
Chart holder
Display keyboard
Terminal block
Printer
Case
Mounting bracket
Indication card
Page 11
10
2.2 Display Screen and Operation Keys
2.2.1 Display Screen
The following describes the display screen. 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 Ty pe Display
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 Display
The "REC" lamp (orange) is lit when
recording. The "ALM" lamp (red) is lit while
the alarm is being activated.
denotes that the lamp goes out, and
denotes that it is lit.
Page 12
11
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/stop s recording.
T o stop , press the “REC” key for 3 seconds or longer .
(The “REC” lamp goes out.) To start, press the “REC” key.
(The “REC” lamp lights.)
“MENU” key MENU function
Selects engineering list print and changes the mode
to the setting mode.
“ESC” key ESC function
While selecting a function, exits that menu without
finishing.
“PRINT” key PRINT function Used to perform manual print or list print.
“ ” 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 pre ssed, and
stopped when released.
“ “ key function Used to shift a digit in setting a numeral.
“ENT” key
Used to register a setting parameter (numeral or built-in command) after
selecting it, or executing a function. Pressing this key executes the setting.
REC
ESC
MENU
PRINT
FEED
ENT
REC
PRINT
FEED
ENT
ESC
MENU
Page 13
12
3. INSTALLA TION
3.1 External dimensions and panel cutout
Fig. 3.1 External dimensions and panel cutout
CAUTION
For the maintenance and safety of the instrument, spaces larger than the size written in the bracket
( ) should be secured to unit.
Dimension required
when the door is full
y
open (135 degrees).
(Wall on the left side).
Unit: mm
<Front> <Rear>
<Side>
<Panel Cutout>
137
137
(128)
(128)
7 max
(Pannel thickness)
25
150
(56)
144
144
3.5
2.5
(100)
200 min.
200 min.
138
+1
-0
138
+1
-0
LN
1A 2C2A1C
3A 4C4A3C
5A 6C6A5C
4+
B4-B4A
5+
B
5-B5A6+
B
6B
6
A
1+
B
1B
1
A
2+
B
2B
2
A
3+
B
3B3A
SG
RDTD
+
-
DI
COM
DI
3DI2DI1
Page 14
13
3.2 Mounting to the Panel
3.2.1 Procedure for Mounting to the P anel
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 b ottom 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 an excessive force, the case may be distorted and the mounting bracket may be
defaced. An adequate tightening torque i s about 0.2 to 0.3 N・m (2 to 3 kgf・cm).
WARNING
Do not install the instrument in a place exposed to combustible, explos ive, or corrosive gas (S O2,
H
2
S, etc.).
CAUTION
Install the instrument in the following places
• A place without rapid humidity change.
• A place of normal temperature (around 25
).
• A place exposed to as little mechanical vibrations as possible.
• A place with as little dusts as possible.
• A place affected by the electromagnetic field as little as possible.
• A place not directly exposed to high radiant heat.
• A place where the altitude is up to 2000m.
• Humidity has an effect on the chart paper and ink. Use the instrumen t in a humidity range of
20 to 80%RH (60%RH is the optimum).
• This instrument needs the inside inst allation.
Mounting to the Panel
• A steel plate not thinner than 1.2mm is recommended as a mounting panel.
• The maximum thickness of the mounting panel is 7mm.
Inclination
• Install the instrument horizontally.
• The instrument should be installed so that it s inclination sh ould be 0
at the front and within 30 at
the rear.
A
ssemble in such a manne
r
that the screw nose will be
almost aligned with the plate
surface.
Mounting Claw
Body
Mounting Claw
Page 15
14
Fig. 3.2.1-2 Mounting to the Panel
3.2.2 Mounting to the Panel in compliance with the IP65
Prior to mounting the instrument to the panel, attach a packing to the position shown in the figure.
The rest of the procedure is the same.
Fig. 3.2.2 Mounting to the Panel (in compliance with the IP65)
Mounting of Packing
Packing
Panel
Mounting bracket
Packing
Panel
Screw
Panel
Mounting bracket
Screw
Page 16
15
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
Power source
terminal block
Communication
terminal block (RS-232C)
Input terminal block
A
larm output terminal block
(Option: LH6)
Communication
terminal block (RS-485)
(Op
tion: C5)
DI terminal block
(Option: RE6)
LN
1A 2C2A1C
3A 4C4A3C
5A 6C6A5C
4+
B
4-
B
4
A
5+
B
5-
B
5
A
6+
B
6-
B
6
A
1+
B
1-
B
1
A
2+
B
2-
B
2
A
3+
B
3-
B
3
A
SG
RDTD
+
-
DI
COM
DI
3
DI
2
DI
1
WARNING
(1) In order to prevent an electric shock, be sure to provide protective gro unding prior to the powe
r
supply 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 suppl
y
source.
(4) Attach a transparent protective cover prior to switching on power to the instrument.
(5) Any interruption to the protective conductor inside or outside the instrument or disconnection
of the protective grounding terminal is likely to make the instrument dangerous under faul
t
conditions. Intentional interruption is prohibited.
Page 17
16
4.1.3 Wiring Procedure
(1) Put your fingers on the left and right (both sides) hooks of the tr ansparent pr otective cover on
the power source terminal block. Pushing them inside, pull out 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 Power source Terminal block
L
N
CAUTION
(1) As an electric wire for the power source, use a 600V vinyl insulated wire (IEC 227-3) or its
equivalent or above.
(2) Attach a round 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, a minimum diameter of a
grounding conductor: 1.6mm) to the protective grounding terminal.
(4) If another instrument shares the protective grounding conductor, there may be an effect
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 EN6 1010, 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,
IEC60947-2 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 IEC1010-1 in stallation Category
and pollution
degree 2.
CAUTION
For the transparent protective cover, remove the left and right (both sides) hooks simultaneously.
If they are removed in turn, the cover may be damaged.
Page 18
17
4.2 Input Wiring
CAUTION
(1) Precautions for the input electric wire
• Make sure that no noise is mixed in input wiring. For input wiring, a shielded wire or twisted wire
effective for noise should be used.
• In the case of thermocouple input, connect a thermocouple wire directly or use a compen sati ng
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 values mentioned below. A shielded input line should be used.
For Pt 100, JPt 100; 50m
max.
• When it is likely to be affected by induction noise, particularly when wiring near the
high-frequency power source, a shielded twisted wire should be used.
• Attach a rou nd 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 (25V or higher 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 in the case of RTD input.)
• Be sure to ground the connecting wire shield.
Page 19
18
4.2.1 Wiring Procedure
(1) Put your fingers on the left and right hooks of the transparent protective cover on the input
terminal block. Pushing them inside, pull out the cover toward you.
(2) Wire the input lines, referring to Fig. 4.2.1-1 (P.18), Fig. 4.2.1-2 and Fig. 4.2.1-3. (P.19)
(3) Attach transparent protective covers.
Fig. 4.2.1-1 Input Wiring (For mV, V and Thermocouple inputs)
LN
1A 2C2A1C
3A 4C4A3C
5A 6C6A5C
4+
B
4-
B
4
A
5+
B
5-
B
5
A
6+
B
6-
B
6
A
1+
B
1-
B
1
A
2+
B
2-
B
2
A
3+
B
3-
B
3
A
SG
RDTD
+
-
DI
COM
DI
3
DI
2
DI
1
LN
1A 2C2A1C
3A 4C4A3C
5A 6C6A5C
4+
B
4-
B
4
A
5+
B
5-
B
5
A
6+
B
6-
B
6
A
1+
B
1-
B
1
A
2+
B
2-
B
2
A
3+
B
3-
B
3
A
SG
RDTD
+
-
DI
COM
DI
3
DI
2
DI
1
Shielded wire
Shielded wire
(+) (-) (+) (-)
Ground Ground
DC voltage input
Thermocouple input
Connecting lead wire
Connecting compensating lead wire
Input
terminal
block
CAUTION
For the transparent protective cover, remove the left and right (both sides) hooks simultaneously.
If they are removed in turn, the cover may be damaged.
Page 20
19
LN
1A 2C2A1C
3A 4C4A3C
5A 6C6A5C
4+
B
4-
B
4
A
5+
B
5-
B
5
A
6+
B
6-
B
6
A
1+
B
1-
B
1
A
2+
B
2-
B
2
A
3+
B
3-
B
3
A
SG
RD
TD
+
-
DI
1
DI
2
DI
3
DI
COM
B
B
A
Shielded wire
3-core cord
(Identical wire diameter and length)
Ground
RTD (Resistance temperature detector)
Input terminal block
LN
1A 2C2A1C
3A 4C4A3C
5A 6C6A5C
4+
B
4-
B
4
A
5+
B
5-
B
5
A
6+
B
6-
B
6
A
1+
B
1-
B
1
A
2+
B
2-
B
2
A
3+
B
3-
B
3
A
SG
RD
TD
+
-
DI
1
DI
2DI3DICOM
(+)
(-)
Shunt resistor
Connecting lead wire
DC current input
Input terminal block
Shielded wire
Ground
Fig. 4.2.1-2 Input Wiring (For RTD)
Fig. 4.2.1-3 Input Wiring (For mA input)
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: 1/4W, Tolerance: 0.1% max.
Temperature coefficient:
50ppm max.
Page 21
20
4.3 DI function/Alarm Output Wiring (Option)
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 off the POWER.
(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 round pressure terminal connectors with an insulation cover for wire, whereb
y
preventing a loose connection.
CAUTION
Precautions for Wiring the DI function
(1) DI function input has the built-in drive power source. Do not apply a voltage to a DI function
input terminal from the outside.
(2) A DI function input contact capacity should be a withstanding voltage of 50V DC, 16mA 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 co ntact capacity is as follows:
250V AC : 3A at maximum (Resistive load)
30V DC : 3A at maximum (Resistive load)
125V DC : 0.5A at maximum (Resistive load)
0.1A at maximum L/R= 7ms at maximum (Indu ctive 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
Page 22
21
4.3.2 Alarm Output Wiring Procedure
Wire the Alarm output (option: LH6), referrin g 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
6-Relay output
1C
1A
Relay No.1
(
Normallyopen
)
6C
6A
Relay No.6
(
Normally open)
L
N
1A 1C
2A 2C
3A 3C
4A 4C 5A
5C 6A 6C
+
-
DI1
DI2
DI3
DI.COM
(COMMON to DI1 to DI3)
LN
1A 2C2A1C
3A 4C4A3C
5A 6C6A5C
4+
B
4-
B
4
A
5+
B
5-
B
5
A
6+
B
6-
B
6
A
1+
B
1-
B
1
A
2+
B
2-
B
2
A
3+
B
3-
B
3
A
SG
RDTD
DI
COMDI3DI2DI1
+
-
CAUTION
The DI function (Option) consists of 3 Digital inputs.
The alarm output consists of 6-Relay output (Normally open).
Page 23
22
1A 2C2A1C
3A 4C4A3C
5A 6C6A5C
4+
B
4-
B
4
A
5+
B
5-
B
5
A
6+
B
6-
B
6
A
1+
B
1-
B
1
A
2+
B
2-
B
2
A
3+
B
3-
B
3
A
SG
RDTD
DI
COMDI3DI2DI1
+
-
L
N
1A 1C
2A 2C
3A 3C
4A 4C 5A
5C 6A 6C
+
-
-
+
Host computer
HR-706
………
HR-706
R
R
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
[Note]
(1) Be sure to attach terminating
resistance (Rt 200
) to a host
computer side.
(2) Connection is a maximum of 32
units including a host computer.
(3) Cable length is a maximum of 1.2
km.
(4) Use the UL20620-SB (M) cable
made by HITACHI CABLE LTD.
or equivalent.
CAUTION
Precautions for the communication wiring
(1) Make sure that no noise is mixed in communication wiring. For communication wiring,
a shielded wire effective for noise should be used.
(2) When it is likely to be affected by induction noise, particularly when wiring ne ar the
high frequency power source, a shielded twisted wire should be used.
(3) Attach a round solderle ss t ermi nal with an in sul ation sl eeve (for M3.5) to the end of the electric
wire.
(4) Be sure to ground the shield of a connecting wire.
[Note]
Cable length is a maximum
of 15m.
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
8 CD
⑬ RD
⑫ TD
⑭ SG
Host computer
D sub 9-pin connecto
r
D sub 25-pin connector
Page 24
23
5. PREP ARATIONS FOR OPERA TION
5.1 Setting the Chart Paper
(1) Press the “REC” key for 3 seconds or longer
Stop recording operation. With the power turned on, press the “REC” key for 3 seconds or longer.
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 paper holder is taken out with recording operation being 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.
The REC lamp goes off
if recording stops.
Press the key for 3
seconds or longer.
CAUTION
Maximum angle of the fully opened door is 135 degrees. Do not open the doo r any further, as the
hinge will break.
L
M
Page 25
24
(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 arro
w
direction.
Open the chart cover
in the arrow direction.
Page 26
25
(5) Loosen the chart paper
The chart paper may not be properly fed, if stuck. Be sure to loosen the p aper.
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
26
(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 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 parallel with each other.
Chart Paper
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
27
(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 Paper 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
When inserting it, push
the paper receiver.
Page 29
28
(11) Close the Door
Close the door and check a door lock.
(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 the operation of
the instrument, be sure to
confirm that the chart
paper is being fed!!
L
M
Page 30
29
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 lamp 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 out the ribbon
cassette toward you.
Fig. 5.2-1 Taking Out the Ribbon Cassette
CAUTION
If the chart holder is taken out with recording operation being activated, 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 doo r any further, as the
hinge will break.
Page 31
30
(4) Unslack the Ink Ribbon
Set the new ink ribbon. Turn the knob in the arrow direction to unslack the ink ribbon.
Fig. 5.2-2 Unslacking 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
Turn the knob in the
arrow direction.
Knob
Slack
Ribbon feeding shaf
t
First, push the
right side.
Second, push the left
side until it firmly fits in
the ribbon holder.
Page 32
31
6. RUNNING
6.1 Running
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 lamp is unlit, press the
“REC” key to start recording operation.
6.1.1 Status after Initial Screen
(1) Display screen : The “REC” lamp keeps the status of before power-off.
(2) Printout data : All printing dat a and analog recordi ng dat a of before power-of f are cleared.
(3) Alarm and Diagnosis : Alarm indications and output information are not rcoverable after the
power has been switched off.
(4) Data and Channel number are displayed as the fol lowing Fig. 6.1.1.
Fig. 6.1.1 Screen at Power-on
[Note]
(1) If electric power failed, the initialization is performed after power recovery. And the
recorder reverts to the initial status above.
(2) The printout data is eliminated in initialization. Printout operation does not continue afte
r
power recovery when the power is turned off during printout.
(3) When the power is turned on, the display indicates “0” while reading data in Fig.6.1.1.
The number of indicated digits differs depending on the setting.
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.
CAUTION
This recorder has no power switch.
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.
Therefore, 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 othe
r
than prescribed in the instruction manual.)
REC ALM
H
L
Returns to the mode before
power-OFF.
Page 33
32
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.
“REC” lamp is unlit 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 0.3mm in the chart paper feed direction or less than 0.5mm 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 a start/stop of recording through Digital Input DI function (option: RE6),
start/stop cannot be switched by the “REC” key.
Page 34
33
6.3.3 Print Sample
Logging on print and Alarm on print example
Fig. 6.3.3 Print Sample
[Reference]
When other printing is active with current job, Alarm print, Comment print and Date-and-Time
print will queue.
HR-706 stores up to six items of Alarm Occurrence/Recovery print and up to five items of
Comment/Date-and-Time print. If printing commands exceed those numbers, HR-706 prints
“
” on the last printing.
This mark means that the item with a “
” mark and following items could not be printed.
For priority of respective printings, see “Priority” in Reference on the next page.
[Note]
Logging print will not be in the printing queue. At the start time as Logging print, if prior
Logging print is printing, the next log will not print. In this case, to prolong the printing
interval of the Logging print is recommended.
2L2 19:37
1H1 19:35
1H1 19:33
2L2 19:32
5.000
V
2L2 19:28
1H1 19:27
1H1 19:25
2L2 19:24
May.12.99
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 Print:
Prints date, channel number, process variable
engineering unit and chart speed. T he scale is
printed sequentially from 1CH in printing color.
Alarm Print:
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.
Page 35
34
6.4 Digital Print
Digital prints listed below are performed by key operation.
Manual print
List print
Engineering list print
6.4.1 Manual Print
Prints the following data on the chart paper:
Time/date (year, month, day)
Channel number/Tag setting character
Activated alarm type/latest process variable/engineering unit (all channels)
(1) Manual print 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 print.
Once manual print starts, the display automatically returns to the Data Display screen.
When manual print is finished, the display returns to the status prior to starting manual print.
[Note]
(1) Analog recording is interrupted while manual print is running. However,
measurement/alarm detection remains effective.
(2) If an alarm is activated while manual print is running, alarm print starts from the time when
manual print 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 print 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 Pri nt
Alarm Recovery
Print
DI Comment
Print (Sync.)
DI Date and Time
Print (Sync.)
Logging print
(Sync.)
DI Manual Print
(Sync.)
List print
Manual print
Engineering list
print
DI Comment print
(Async.)
DI Date and Time
print (Async.)
DI Manual print
(Async.)
Logging print
(Async.)
Page 36
35
(2) Manual print 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 print.
However, printing will continue until the line is completely printed. Then manual print will stop,
and the display will return to the status prior to starting manual print.
Fig. 6.4.1 Manual Print
6.4.2 List Print
Prints the following setting data of the instrument on the chart p aper:
Date/time/Chart feed speed/2nd chart feed speed/Printing cycle.
Channel number/range/scaling value/engineering unit
Setting alarm type
(1) List print 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 print.
Once list print starts, the display automatically returns to the Data Display screen.
Upon terminatin of the list print, the display returns to the status prior to starting list print.
[Note]
(1) Analog recording is interrupted while list print is running. However, measurement/alarm
detection remains effective.
(2) If an alarm is activated while list print is running, alarm print starts when recording
restarts.
Nov.12.99.11:08
1: 11.25mV 2: 0.45mV
3: 0.07mV 4: –0.00mV
5: –1.12mV 6: –0.39mV
Page 37
36
(2) List print 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 print .
However, prin ting continues until the line is completely printed. Then list print is stopped, and
the display returns to the status prior to starting list print.
Fig. 6.4.2 List Print
Dec.01.00 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 print ON/OFF, zone record, an d
partial compression/expansion setting
value for each channel.
Prints Input range, Tag,
Measurement range, and
Scaling value for each
channel. If skipped, the
channel number is
prefixed by “
”.
Setting values of the
comment print.
Effective with the DI
function (option).
Print alarm setting values
and relay.
Date and Time
for List Print
Chart feed Speed Set value.
The 2nd Chart Speed (2) is
effective for DI function
(Option).
Page 38
37
6.4.3 Engineering List Print
Engineering list print provides the following setting data of the instrument on the chart pape r.
Analog recording
Digital printing
Burnout/RJC, etc.
(1) Engineering list print 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 print.
Once engineering list print starts, the display automat ically returns to the Data Display screen.
Upon termination of the engineering list print, the display returns to the status prior to starting
engineering list print.
[Note]
(1) Analog recording is interrupted while engineering list print is running.
However, measurement/alarm detection remains effective.
(2) If an alarm is activated while engineering list print is running, alarm print is performed
when recording restarts.
Page 39
38
(2) Engineering list print 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 print.
However, the printing continues until the line is completely printed.
Then Engineering list print stops. And the display returns to the status prior to starting engineering
list print.
Fig. 6.4.3 Engineering List Print
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
A
larm Print Setting value
: ON1 (occurrence/recovery)
Logging Print setting value:
ON/OFF,
Start Time, Interval, Scale Print:
ON/OFF,
Printout: Sync./Async.
Logging Print: ON,
Start: 00:00,
Interval: 6h,
Scale Print: OFF
Channel Number /Tag Number
Setting value: CH
RUN/STOP Internal/External
Switch setting value: INT (key)
A
larm Hysteresis setting
value: ON
DI Function setting value.
Effective when the DI function (option)
is added.
Setting of Burnout
Protection, RJC, and
Constant value in external
RJC, Offset, and Recording
Color for Each Channel.
Communication setting value
Temperature U nit:
Page 40
39
6.5 Changing the Display
Display selection procedure
(1) Press the “MENU” key to display "
", and press the “ENT” key.
(2) Use the “PRINT” key to select a required screen from the menu below.
Press the “ENT” key.
(3) "
" is displayed in the case of manual display. Use the “PRINT” key to select the channel
number. 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 the displayed
channel number (it increments).
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 varia ble 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
H: Upper limit Alarm
L: Lower limit Alarm
Month Day
Hour Minute
Page 41
40
7. DEVICE SETTING
7.1 Setting the Setup Mode
Key Operation for Entering the Setup Mode
Press the “MENU” key for 3 seconds or longer to enter the setup mode.
The software version is displayed approximately 1 second as below. After that, the setting
screen of the range is displayed.
To return from the setup mode to the 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 to operate.
7.1.1 Setting the Range
7.1.2 Setting the Alarm
Setting
.
.
.
.
Channel
Mode
.
.
.
.
.
.
.
.
Setting Channel ON/OFF Level Setting 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.
Therefore, 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/ Volt age input
Thermocouple input
Resistance temperature detector input
Scaling
Square Root
Decade
Difference
Sum
Average
Skip
Page 42
41
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 Re cording, Partial Compression/Expansion,
Digital Print, Tag, Comment Words)
Shift to the engineering mode
Printing Cycle
Zone Recording
Partial Compression/Expansion
Digital Print
Tag
Comment Words
Setting
Mode
Setting
Channel to copy from
Channel to copy to
.
.
.
.
.
.
Setting
1st/2nd Chart speed Chart speed
Time Setting
Y
ear
Month, Day
.
.
.
.
Setting Channel Code No. Char. No.
( )
(
)
End
Setting
Password
Input the password to enter the engineering mode.
See the key operation on page 67.
Page 43
42
Table 7.1 Default value of the setu p mode
Setting items Default value Remarks
Range (all channels)
10mV
Scaling 0 to 100.0 (
)
Alarm (all channels)
All levels are alarm OFF,
relay OFF
Engineering unit (all channels) (BF 43 00)
Chart feed speed
(1) 20mm/h
(2) 20mm/h
Time 2000/01/01, 00:00
The present time has
been set.
(Japan standard time)
GMT + 09:00
Dot point interval 10 (s)
Zone setting (all channels) 0 to 100 (%)
Partial compression/expansion
(all channels)
OFF
Digital print (all channels) ON
Tag print character (all channels)
“Blank up to the 7th
character”
Comment print word (1 to 3)
“Blank up to the 16th
character”
Page 44
43
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 mode 1 to 3 shown in the Table below.
Set the range from the following input signals. (mode
1
to 3)
DC voltage :
10, 0 to 20, 0 to 50, 200 mV DC, 1, 0 to 5, 10 V DC
DC current : 4 to 20 mA DC (External shunt resistor: 250
)
Thermocouple : B, R, S, K, E, J, T, C, Au-Fe, N, PR40-20, PL-
, U, L
RTD : Pt100, JPt100
Sets scaling, decade, square root, interchannel sum/difference/average. (mode
4
to 9)
Unnecessary channels can be skipped. (mode
10
)
Setting Channel Mode Key
1
(Voltage, Current)
2
(Thermocouple)
3
(Resistance temperature detector)
4
(Scaling)
5
(Square root)
6
(Decade)
7
(Difference)
8
(Sum)
9
(Average)
10
(Skip)
key
Setting for all
channels
[Note]
A decimal point arbitrary position can be set only in the "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 Decimal point place Input Decimal point place
mV
1, 0 to 5V
10V
mA
2nd place
3rd place
2nd place
2nd place
.00
.000
.00
.00
Thermocouple
RTD
200mV DC
1st place
1st place
1st place
.0
.0
.0
Page 45
44
(2)
(Current/Voltage), (Thermocouple), (Resistance Temperature Detector)
[Note]: When changing a decimal point position, change it during (3) Scaling (pages 4 6, 47)
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
the setup mode. Displays "
", 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 the 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 the user mode, press the “MENU” key for
3 seconds or longer.
Display Operation keys Description
MENU
ESC
3sec
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
ENT
(Span setting)
(Zero setting)
[Note]
When an incorrect numeral is entered, or
is displayed.
Press the “ENT” key and re-enter a correct numeral.
Perform range settings which do not need the scaling at this step (2) , ,
(Especially the range setting of thermocouple and RTD for which decimal point
position change is not necessary). (One digit after the decimal point is standard.)
Do not perform scaling here.
Page 46
45
「」
[Note]
In the , , or mode, press the “ENT” key to select the range.
Use the
key to select a range type.
“ENT” key
10mV
0 to 20mV
0 to 50mV
200mV
1V
0 to 5V
10V
4 to 20mA
Range
Mode
B
R
S
K
E
J
T
C
Au-Fe
N
PR40-20
PL-
U
L
Pt100
JPt100
Page 47
46
(3)
(Scaling)
Changes the input of VOLT, TC and RTD into a quantity.
Setting the unit is possible. (See 7.1.3 on page 56)
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
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 " ".
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 (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.
Display Operation keys Description
FEED
PRINT
ENT
(Span input value)
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
FEED
PRINT
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 48
47
Use the
key to select a numeral.
Use the
key to shift a digit.
Press the
key again in the lowest digit (right end)
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 the user mode, press the “MENU” key for
3 seconds or longer.
FEED
PRINT
ENT
FEED
PRINT
FEED
PRINT
ENT
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 a correct numeral.
Page 49
48
(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 56.)
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
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 " ". 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 (right end)
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 the user mode, press the “MENU” key for
3 seconds or longer.
FEED
PRINT
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
PRINT
ENT
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 50
49
About Square Root Computation
The square root computation is as follows:
Each item is defined as follows:
SPAN
L
: Span lower-limit value (Span L)
SPAN
R
: Span upper-limit value (Span R)
SCAL
L
: Scaling lower-limit value (Scale L)
SCAL
R
: 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 = (SCAL
R
– SCAL L) x + SCAL L
When an input value is less than 1%
OUT = x (IN – SPAN
L
) + SCAL L
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
L
SPAN R – SPAN
L
10 x (SCAL R – SCAL L)
SPAN R – SPAN L
Page 51
50
(5)
(Decade)
Scaling the VOLT input and displays the index number. Setting the unit is possible. (See 7.1.3 on
page 56)
Example) When setting the voltage of 0 to 5V and decade of 1.0 x 10
0
to 1.0 x 10
5
for Channel 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 " ". 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 the user mode, press the “MENU” key for
3 seconds or longer.
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
ENT
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
FEED
FEED
PRINT
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 52
51
About Decade Display
Each item is defined as follows:
SPAN
L
: Span lower limit value (Span L)
SPAN
R
: Span upper limit value (Span R)
SCAL
L
: Scaling lower limit value (Scale L)
SCAL
R
: 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
LGSCAL
L
: Log10(SCAL L)
LGSCAL
R
: Log10(SCAL R)
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
LGSCAL
R
–LGSCAL
L
SPAN R– SPAN L
SPAN R x LGSCAL L– SPAN
L
x LGSCAL
R
SPAN R– SPAN L
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 print. It is not reflected in a printing position.
Page 53
52
(6)
(Difference), (Sum), (Average)
Caluclates the input of VOLT, TC, RTD or SCALE, and output it.
Example) Subtracting Ch1 input data from Ch6 input dat a to set the diff erence value to Ch6.
(0 to 40mV). “Ch6 (input) - Ch1 (input)” is recorded and displayed on Ch6.
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 " ". Press the “ENT”
key.
Use the
key to select the desired channel
subtract." 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 the 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 of from Ch1 to Ch5 can be subtracted from Ch6.
• The range and scale of the setting channel 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)
(Setting channel)
(Span input value after
difference operation)
(Zero input value after
difference operation)
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
FEED
PRINT
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 54
53
(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
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 " ". Press the “ENT”
key.
Press the “ENT” key. Setting is completed.
To return to the user mode, press the “MENU” key for
3 seconds or longer.
About Skip
Measurement can be conducted on a skipped channel, however, display, print or alarm
assessment cannot be performed.
If input is not connected, be sure to short-circuit the measurement terminal.
[Note]
If all channels are set to Skip, is displayed.
At least, one channel should be set to Measurement.
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
PRINT
ENT
ENT
Display Operation keys Description
Page 55
54
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.
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
FEED
PRINT
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/OFF Level Setting valueType Relay ON/OFF
Relay No.
Option
Page 56
55
Setting hereinafter is valid only for the model to which an alarm output (option: L H6) has been a dded.
If the option has not been added, 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 out of 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 the
user mode, press the “MENU” key for 3 seconds or
longer.
[Note]
With Alarm print setting, the channel number is printed even if the tag print has been set.
PRINT
ENT
Display Operation keys Description
PRINT
ENT
ENT
Page 57
56
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 the 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 (including the range setting of , and
only when
is selected as a range setting of the reference channel).
For other range settings, the unit is automatically determined according to the range.
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
ENT
(Code No.)
Display Operation keys Description
.
.
.
.
Setting Channel Code No. Char. No.
( )
(
)
End
Page 58
57
(1) Character code table
2 3 4 5 6 7 A B C D E F
0 SP 0 @ P p
0
0
Π π
1 ! 1 A Q a q
1
1
A P α ρ
2 " 2 B R b r
2
2
B Σ β σ
3 # 3 C S c s
3
3
Γ T γ τ
4 $ 4 D T d t
4
4
Y δ υ
5 % 5 E U e u
5
5
E Φ ε φ
6 & 6 F V f v
6
6
Z X ζ χ
7 ' 7 G W
g
w
7
7
H Ψ η ψ
8 ( 8 H X h x
8
8
Θ
θ ω
9 ) 9
I
Y i y
9
9
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
o
Ο o
Setting example) The code number for "C" is "43".
Page 59
58
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 the 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 added, setting of the 2nd chart feed speed becomes
invalid.
Setting
1st/2nd Chart feed speed Chart feed speed
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
Display Operation keys Description
ENT
Display Operation keys Description
PRINT
FEED
Page 60
59
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
the 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.
Operate in the same manner as setting the year.
Set the time (Hour:Minute).
Operate in the same manner as setting the year.
Press the “ENT” key. To return to the user mode, press
the “MENU” key for 3 seconds or longer.
[Note]
Restriction of printing
by chart feed speed
When the chart speed is 0mm/h, it’s printed with forcible chart feed. (When the chart feed
speed is higher than 120mm/h, the table shown above is not printed.) List Print, Engineering
List Print, Manual Print (key), DI Comment print (Asynchronous), DI Date and Time print
(Asynchronous), DI Manual print (Asynchronous) and Logging print (Asynchronous) are
printed regardless of the chart feed speed.
Print type Chart speed (mm/h)
Alarm occurrence print, Alarm recovery print, Affix print,
DI Comment print (Synchronous), DI Date and Time
print (Synchronous), DI Manual print (Synchronous)
1 to 100 (mm/h)
Logging print (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.
MENU
ESC
3sec
PRINT
ENT
FEED
PRINT
ENT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
Display Operation keys Description
Time Setting
Y
ear
Month, Day
Page 61
60
7.1.6 Copying the Setting Data
Setting Items
The following describes how to copy the setting data of any channel to another cha nnel.
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
the 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 the user mode, press
the “MENU” key for 3 seconds or longer.
MENU
ESC
3sec
PRINT
ENT
ENT
PRINT
ENT
PRINT
ENT
Display Operation keys Description
Setting
Channel to copy from
.
.
.
.
.
.
Channel to copy to
Page 62
61
7.1.7 Setting other functions
Other functions can be set as the following.
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 be overlapped.
(3)
(Partial compression/expansion)
Records the measured data of the channel, partially compressed or expanded.
(4)
(Digital print)
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 print or manual print.
For tag setting, up to 7 characters can be used (select from chara cter co de table on page 57) for
each channel.
(6)
(Comment words)
Sets the comment word s to be printed by DI function (Option: RE6).
There are 3 kinds of comment words and setting u p to 16 characters (select from Character
code table on page 57) for each DI is possible.
Operation
Printing Cycle
Zone Recording
Partial Compression/Expansion
Digital Print
Tag
Comment Words
Setting
Mode
Page 63
62
(1)
(Printing Cycle)
Example) Setting the printing cycle to 60 seconds.
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 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 the 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
the 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 a span printing position in percentage (%).
Operate in the same manner as setting the zero point
printing position.
Press the “ENT” key. Setting is completed.
To return to the 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.
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
ENT
PRINT
ENT
Display Operation keys Description
FEED
PRINT
ENT
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
PRINT
ENT
FEED
PRINT
ENT
ENT
(Setting of Left-end position)
(Setting of Right-end position)
Display Operation keys Description
Page 64
63
(3)
(Partial Compression/Expansion)
Example) Setting Channel 1 scale of 0 to 1,000.0
to 500.0 at a boundary point of 30 %.
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 " ", 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 the 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
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
Display Operation keys Description
0
500.0
1000.0
(0%) (30%)
(100%)
Page 65
64
(4)
(Digital Print)
Example) Setting logging channel data print to "ON" (print enabled) for all channels.
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 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 the 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
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
ENT
Display Operation keys Description
Page 66
65
(5)
(Tag)
Example) Setting "ABCD" for Channel 1.
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 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 the 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 the user mode, press the “MENU” key for
3 seconds or longer.
[Note]
When the number of tag characters is less than 7, following the last character, set the " " code.
See page 57 for Character code table.
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
PRINT
ENT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
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 67
66
(6)
(Comment Words)
Example) Setting "ON" for Comment 1(
).
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 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 setting the 1st
character.
Set "
" as the 3rd character.
Operate in the same manner as setting the 1st
character.
Repeat the setting up to 16th characters.
Press the “ENT” key. Setting is completed.
To return to the user mode, press the “MENU” key for
3 seconds or longer.
[Note]
• When the number of tag characters is less than 16, following the last character, set the " "
code. See page 57 for Character code table.
• When DI (option: RE6) is not designated, comment print does not function.
Do not set the comment setting.
ENT
MENU
ESC
3sec
PRINT
ENT
PRINT
ENT
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
ENT
FEED
PRINT
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 68
67
7.2 Setting the Engineering Mode
Key Operation to Enter the Engineering Mode
Press the “MENU” key for 3 seconds or longer to enter the 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 mode becomes the engineering mode.
The following shows a display map of the Enginneering 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 Compensat i on
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 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 69
68
• 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
• 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
Local Address
Communication speed
Data Length
Parity Bit
Stop Bit
Setting
Y
ES/NO
Setting Function
Recording start/stop INT/EXT selection
Tag/channel print selection
Alarm print ON/OFF
Logging print ON/OFF
Scale print ON/OFF
Logging print Synchronous/Asynchronous print selection
Setting
Centigrade Unit
Fahrenheit Unit
Temp Unit
No function
Recording start/stop
Chart feed speed selection
Comment 1 print (Synchronous)
Comment 2 print (Synchronous)
Comment 3 print (Synchronous)
Manual print (Synchronous)
Date and time print (Synchronous)
Comment 1 print (Asynchronous)
Comment 2 print (Asynchronous)
Comment 3 print (Asynchronous)
Manual print (Asynchronous)
Date and time print (Asynchronous)
Setting DI No. Function
Page 70
69
• 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 print color (Ch1 to Ch6)
Purple(1), Red(2), Green(3), Blue(4),
Brown(5), Black(6)
REC record
RUN/STOP trigger
Channel/Tag print
Alarm print
Logging print
Logging printing interval
Logging print reference time
Logging print scale print
Logging print Sync/Async
INT
Ch
OFF
ON
6H
00:00
OFF
Sync (Synchronous)
Use the
“REC” key
COM (communication)
Address
Communication speed
Data length
Parity bit
Stop bit
01
9600
8bit
None
1bit
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)
Ribb on 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 Page 81.
Setting Function
Voltage calibration
RTD (Resistance temperature detector) calibration
Internal reference junction compensation calibration
Setting Function
Saves the setting value
Can cels the setting value
Page 71
70
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 the 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
Setting Burnout High (to deflect the recording over the span) for each channel is possible.
Example) Setting Burnout High for Channel 4.
Enter the 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.
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 canbe set from -19999 to 99999.
Example) Setting the value (3.0) to be added to Channel 3.
Enter the engineering mode (See the key operation on
page 67). 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
PRINT
ENT
PRINT
ENT
Display Operation keys Description
PRINT
ENT
PRINT
ENT
ENT
PRINT
ENT
Display Operation keys Description
PRINT
ENT
FEED
PRINT
ENT
ENT
PRINT
ENT
Display Operation keys Description
Page 72
71
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. The re 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)
• A method of compensation by one input for the recorder temperature which receives from
external junction box. (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 the engineering mode (See the key operation on
page 67). 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
the Channel setting mode.
ENT
PRINT
ENT
ENT
PRINT
PRINT
ENT
FEED
PRINT
ENT
Display Operation keys Description
Page 73
72
Example) When Channel 1 input compensates Channel 6 reference junction.
Enter the engineering mode (See the key operation on
page 67). 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.
7.2.5 Changing the Printing Color
Set a printing color for each channel.
Example) Setting the black color as a printing color.
Enter the engineering mode (See the key operation on
page 67). 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.
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
Display Operation keys Description
ENT
PRINT
ENT
ENT
PRINT
PRINT
ENT
Display Operation keys Description
FEED
PRINT
ENT
Page 74
73
7.2.6 Settings Related to Recording
Recording start/stop trigger, tag/channel print, alarm print, logging print, and scale print ON/OFF can
be set.
(1) Trigger setting for recording start/stop
Sets whether the recording start/stop trigger should be performed by the “REC” key or by the DI.
Example) Setting DI as a recording start/stop trigger.
Enter the engineering mode (See the key operation on
page 67). 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 Setting screen.
(2) Tag/channel print selection
In the case of logging print or manual print, this sets either a tag print or a channel print.
Example) Setting the tag print.
Enter the engineering mode (See the key operation on
page 67). 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
Tag/Channel Setting screen.
[Note]
When " " is displayed, the “RUN/STOP” key does not function. Set DI to “ ”.
See DI functions on page 77.
Display Operation keys Description
ENT
PRINT
ENT
ENT
PRINT
PRINT
ENT
Display Operation keys Description
ENT
PRINT
ENT
ENT
PRINT
PRINT
ENT
FEED
PRINT
ENT
Page 75
74
(3) Alarm print ON/OFF
Sets the alarm print ON/OFF.
When ON1, prints the alarm occurring and the alarm recovering. When ON2, prints only the alarm
occurring.
Example) When setting both the alarm occurring and the alarm recovering.
Enter the engineering mode (See the key operation on
page 67). 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 Print Setting screen.
(4) Logging print ON/OFF
Sets the logging print ON/OFF.
In the case of logging print ON, this sets the print start time and print interval.
Example) When setting the logging print to start at 18:00 every day.
Enter the engineering mode (See the key operation on
page 67). 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 10min, 15min, 20min, 30min,
1H, 2H, 3H, 4H, 6H, 8H, 12H and 24H)
Once setting is completed, the recorder will return to
the Logging print Setting screen.
ENT
PRINT
ENT
ENT
PRINT
PRINT
ENT
Display Operation keys Description
ENT
PRINT
ENT
ENT
PRINT
PRINT
ENT
FEED
PRINT
ENT
ENT
PRINT
(Print Start Time)
(
Interval)
Display Operation keys Description
Page 76
75
(5) Scale print ON/OFF
Set scale print to ON/OFF.
Example) Setting the Scale print to OFF.
Enter the engineering mode (See the key operation on
page 67). 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 Scale Print Setting screen.
(6) Logging print Synchronous/Asynchronous
Sets logging print to synchronous print/asynchronous.
Example) Setting logging print to synchronous.
Enter the engineering mode (See the key operation on
page 67). 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 Logging print Sync/Async Setting screen.
ENT
PRINT
ENT
PRINT
ENT
ENT
PRINT
Display Operation keys Description
ENT
PRINT
ENT
PRINT
ENT
ENT
PRINT
Display Operation keys Description
Page 77
76
7.2.7 Setting the Communication Function
Sets Local Address, Communication speed, Data Length, Parity Bit, and Stop Bit.
Example) Local Address: 02, Commu nication speed: 1200bps, Data Length: 7 bits,
Parity Bit: even, Stop Bit: 2 bits.
Enter the 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. (Select from
to )
Use the
key to display " ", and press the
“ENT” key. (Select from 1200, 2400, 4800, 9600)
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
The setup data reverts to the default value.
Since this function initializes all setup data, take care when executing this function.
Calibration data is not initialized.
Example) Initializing the Setup Data.
Enter the engineering mode (See the key operation
on page 67). Use the
key to display " ",
and press the “ENT” key.
Use the
key to select " ", and press the
“ENT” key.
Initialization is completed.
ENT
PRINT
ENT
Display Operation keys Description
ENT
PRINT
ENT
PRINT
ENT
Display Operation keys Description
PRINT
ENT
ENT
PRINT
PRINT
ENT
ENT
PRINT
PRINT
ENT
Page 78
77
7.2.9 DI Functions
Allocates functions to 3 DIs. There are 12 DI functions as follows.
Example) Setting comment print 3 for DI3
Enter the engineering mode (See the key operation on
page 67). 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.
7.2.10 Temperature Unit selection
Sets the temperature unit.
Example) Setting the temperature unit to Fahrenheit.
Enter the engineering mode (See the key operation on
page 67). 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.
[Note]
Although DI synchronous does not print in STOP status, DI asynchronous prints in STOP
status.
Be sure to set to OFF when DI function (Option: RE6) is not designated.
Do not set any setting except for OFF.
ENT
PRINT
ENT
ENT
PRINT
PRINT
ENT
Display Operation keys Description
ENT
PRINT
ENT
PRINT
ENT
Display Operation keys Description
No function :
Manual print (Sync.) :
(Positive edge: running start)
Manual Print (Async.) :
(Positive edge: running start)
RUN/STOP trigger function :
(ON: RUN, OFF: STOP)
Date/Time Print (Sync.) :
(Positive edge: running start)
Date/Time Print (Async.) :
(Positive edge: running start)
Chart feed speed selection :
(ON: Spd-1, OFF: Spd-2)
Comment print 1 to 3 (Sync.) :
, , (Positive edge: running start)
Comment print 1 to 3 (Async.) :
, , (Positive edge: running start)
[Note]
If the temperature unit is changed, all setup data will revert to default values.
Page 79
78
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 the engineering mode (See the key operation on
page 67). 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 pap er.
With the
(left move) and (right move), adjust
the 0mm position of the chart paper and the recording
position. Press the “ENT” key . Display indicate s the set
counter value.
Once setting is completed, the recorder will return to
the Zero Point Calibration screen.
Example) Calibrating the span point.
Enter the engineering mode (See the key operation on
page 67). 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 pap er.
With the
(left move) and (right move), adjust
the 100mm position of the chart paper and the
recording position. Press the “ENT” key.
Display indicates the set counter value.
Once setting is completed, the recorder will return to
the Span Point Calibration screen.
Display Operation keys Description
[Note]
Point calibration “ ” and ” ” are setup item before shipment. Do not change
the setup value.
Display Operation keys Description
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
FEED
ENT
PRINT
ENT
PRINT
ENT
PRINT
ENT
FEED
Page 80
79
7.2.12 Data Calibration
Calibrates the voltage, RTD(resistan ce temperature detector), an d referen ce junction co mpensatio n.
: Calibration of the voltage
: RTD (Calibration of the resistance temperature detector)
: Calibration of reference junction compensation
Example) alibrating the voltage at Channel 1.
Enter the engineering mode (See the key operation on
page 67). Use the
key to display " ", and
press the “ENT” key.
Use the
key to select " ", and press the
“ENT” key. Selects the channel where an instrument
for calibration such as an mV generator is connected,
and then, press the “ENT” key.
Enter 0mV. After 30 seconds, make sure that the ALM
lamp is unlit and press the “ENT” key.
Enter 15mV. After 10 seconds, make sure that the
ALM lamp is unlit and press the “ENT” key.
Enter 25mV. After 10 seconds, make sure that the
ALM lamp is unlit and press the “ENT” key.
Enter 35mV. After 10 seconds, make sure that the
ALM lamp is unlit and press the “ENT” key.
Enter 55mV. After 10 seconds, make sure that the
ALM lamp is unlit and press the “ENT” key.
Enter 200mV. After 10 seconds, make sure that the
ALM lamp is unlit and press the “ENT” key.
Enter 1V. After 10 seconds, make sure that the ALM
lamp is unlit and press the “ENT” key.
Enter 5V. After 10 seconds, make sure that the ALM
lamp is unlit and press the “ENT” key.
Enter 10V. After 10 seconds, make sure that the ALM
lamp 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
ENT
PRINT
PRINT
ENT
ENT
PRINT
ENT
ENT
ENT
ENT
ENT
ENT
ENT
ENT
ENT
ENT
PRINT
Display Operation keys Description
Page 81
80
Example) When calibrating the RTD at Channel 2.
Enter the engineering mode (See the key operation on
page 67). Use the
key to display " ", and
press the “ENT” key.
Use the
key to select " ", and press the
“ENT” key . Select the channel where th e instrument for
calibration such as dial resistor is connected and then,
press the “ENT” key.
Enter 100
. After 10 seconds, make sure that the
ALM lamp is unlit and press the “ENT” key.
Enter 150
. After 10 seconds, make sure that the
ALM lamp is unlit and press the “ENT” key.
Enter 300
. After 10 seconds, make sure that the
ALM lamp 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 channels except the calibrating
channel. RTD calibration is required for every channel.
[Note]
During calibration, the ALM lamp displays the following conditions.
(1) When the ALM lamp is unlit: (2) When the ALM lamp is flashing:
The calibration is within range. Assessing the input value.
(3) When the ALM lamp is lit:
The calibration is not within range.
Make sure that the connection
is proper and input is correct.
REC
CH.No
REC
CH.No
REC
CH.No
: The lamp is unlit.
: The lamp is lit.
ENT
ENT
PRINT
PRINT
ENT
ENT
PRINT
ENT
ENT
ENT
ENT
PRINT
Display Operation keys Description
Page 82
81
Example) Setting the terminal temperature for Channel 1.
Enter the engineering mode (See the key operation on
page 67). Use the
key to display " ", and
press the “ENT” key.
Use the
key to select " ", and press the
“ENT” key.
Select the Channel to set, and press the “ENT” key.
Measures and displays the current terminal
temperature. Press
the “ENT” key, and the display
turns to temperature setting.
Use the
key to alter a numeral, and key to
shift a digit. Then, press the “ENT” key. See 9.5 (3)
Calibration of Reference Junction Compensation.
If the calibration is correct, select "
" with the
key, and if incorrect, 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]
When calibrating the terminal temperature, select a channel to calibrate from channel 1 to
channel 3, and select another channel from channel 4 to channel 6. Calibrate these channels
separately.
[Note]
When terminating the 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.
PRINT
ENT
ENT
Display Operation keys Description
ENT
PRINT
ENT
ENT
PRINT
PRINT
ENT
ENT
PRINT
ENT
Display Operation keys Description
PRINT
ENT
FEED
Page 83
82
8. COMMUNICA TION
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 control (Partial)
Switching to print, recording start/stop and changing display.
For functions (2) to (4), see the separate volume “Communication Command Manual”.
The engineering mode cannot be set by communication function.
8.1.2 Transmission Specifications
(1) Communication system : Start-stop synchronous, half-duplex communications
(2) Connection : One-to-one(RS-232C), One-to-N(RS-485); N = 1 to 32
(3) Communication speed : 1200, 2400, 4800 or 9600 bps
(4) Start bit : 1 bit
(5) Stop bit : 1 or 2 bits
(6) Parity : Even, Odd or None
(7) Data length : 7 or 8 bits
8.1.3 Data structure
(1) Character structure
In order to send 1 data (byte) in start-stop synchronous 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
The communication data is sent with data terminators added to multiple characters.
Upon receiving these terminators, the recorder starts analyzing the communication data.
A
B C CR LF
Terminator
1 Character
Page 84
83
(3) Error Detection
If the recorder receives data as a result of a signal error such as parity error and framing error
due to noise or hardware problems, this data will be ignored. Consequently, a data format
error will result, as the data was not sent in the normal data format. That command will not be
executed in the receiving function, and no response will be resulted in the transmitting
function. The data format error status can be confirmed by the ESC S command (described
later).
(4) Control codes
ESC: 1B HEX (hexadecimal)
This code is used for an escape sequence such as opening/closing the link.
This code cannot be treated as a part of the text data.
CR: 0D HEX (hexadecimal)
This data is added to the end of the text data together with the LF data.
This code cannot be treated as a part of the text data.
LF: 0A HEX (hexadecimal)
This data is added to the end of the text data together with the CR data.
This code cannot be treated as a part of the text data.
8.2 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.
8.2.1 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.
8.2.2 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 85
84
8.3 Outputting the Process Variable
8.3.1 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.
8.3.2 Updating the Data
(ESC)T(CR)(LF)
Once this command is received, the recorder transfers the updated process variable to the
transmission buffer.
8.3.3 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.
8.3.4 Outputting the Data
FM0, S
CH, E CH Specifies the ASCII mode output.
FM1, S
CH, E CH 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).
“_” means Space.
Page 86
85
8.3.5 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) CHNo.: 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 87
86
8.3.6 Process Variable Transmission Format (BINARY)
Output bytes (2 bytes): 5 x n (specified number of channels)+6
(1) Date and time (6 bytes):
1
Year : 00H to 63H (00H for the year 2000)
2
Mouth : 01H to 0CH
3
Day : 01H to 1FH
4
Hour : 00H to 17H (24-hour system)
5
Minute : 00H to 3BH
6
Second : 00H to 3BH
(2) Process variable (5 bytes):
CHNo. (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.
0010000100010010
Output bytes Date and time Process variable 1 Process variable 6
CHNo. A2 A4A1 A3 DATA1 DATA2
[Note]
(1) Output data over -32000 to +32000 constitutes overflow. The overflow 7E7E is output on
the plus side, and 8181 is output on the minus side (Excluding the Decade channel).
(2) 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.
2 3 4 5 6 1
Page 88
87
8.4 Outputting the Unit and Decimal Point Position Data
8.4.1 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.
8.4.2 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
8.4.3 Outputting the Data
LF, S
CH, E CH
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). “_” means Space.
8.4.4 Data Format
(DS1)(DS2)(CHNo.) (UNIT1 to 6)(DP)
(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 with 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 89
88
8.5 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 the
on-going error.
8.5.1 Status Output Command
ESC S(CR) (LF)
Upon receiving this command, outputs will be the status of commands received so far.
8.5.2 Status Output
XX: 00 to 19
Table 8.5.2 Status output list
Status factor
Status factor
Status output
A/D END Syntax error Chart paper-empty
ER 00 CRLF
ER 01 CRLF O
ER 02 CRLF O
ER 03 CRLF O O
ER 04 CRLF
ER 05 CRLF O
ER 16 CRLF O
ER 17 CRLF O O
ER 18 CRLF O O
ER 19 CRLF 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 added.)
E R X X CR LF
Page 90
89
8.6 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
Open the Link
Prepares For
the Process
Variable Output
Prepares the
Update Data
Sends the
Update 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 every time.
Sends the command when
sending to another recorder.
Send the command to the
recorder to which data
transmission starts.
Page 91
90
9. MAINTENANCE
Check the following items in order to use this instrument effectively.
Inspection
Cleaning
Replacing Consumables
Adjustment of the 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 deflected.
Check whether the recording indication is proper.
• Check whether there are any large errors in indicated values or dot printing position.
• Check whether there is improper dot printing.
• Check whether there are any blurred dot printing or printout.
• Check whether printout is proper.
Check whether the chart paper is 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 speed is normal.
Check whether there are any abnormal sound.
9.2 Cleaning
Many parts of this instrument are made of plastic. Use a dry cloth to wipe the parts clean.
[Note]
Do not use any organic solvents.
Page 92
91
9.3 Replacing Consumables
Replace consumables according to the following list.
No. Name Type Period Remarks Quantity
1 Chart paper H-10100 33 days
When chart feed speed is
20mm/h
1
2 Ribbon cassette
WPSR188A000001A 3 months
When chart feed speed is
20mm/h
1
9.4 Adjusting Dot Printing Position (Point Calibration)
The following describes how to adjust a printing position on the chart paper.
It is advised to adjust recording position annually for accurate recording.
How to Adjust
It is unnecessary to enter the reference. Leave the recorder as it is, and adjust it according to the
instructions in 7.2.11 Point Calibration. (See page 78)
9.5 Calibration (Data Calibration)
Calibrate a process variable input every year in order to keep measurement accurate.
Devices required for calibration
Precision voltage (current) generator (Jointly use a digital voltmeter with accuracy of
0.02 % or less as required)
Precision dial resistor
[Note]
(1) When recording with a ribbon, a dot printing color phases out. To ensure clear recording,
replace the ribbon cassette as soon as possible.
(2) Use the ribbon cassette within one year after its purchase. Due to evaporation of ink,
printing color phases out over time.
[Note]
Prior to calibration, allow for at least 30 minutes warm-up after switching the power on.
Page 93
92
(1) Calibration of Voltage
Conduct calibration in the case of voltage, current or thermocouple input. For thermocouple
input, calibrate reference junction compensation together.
Calibrate the voltage according to the instructions in Section “7.2.12 Data Calibration”
(Calibration of the voltage).(See page 79)
(2) Calibration of RTD (Resistance temperature detector)
Calibrate RTD according to the instructions in Section “7.2.12 Data Calibration” (Calibration of
the RTD). (See page 80)
[Note]
The dispersion of resistance for each wire must be 6 m or less.
Calibrate RTD at ev ery channel.
Short-circuit the input terminals except calibrating channels.
[Note]
(1) Calibrate at any one channel.
(2) When a shunt resistor is attached to the input terminal block in the case of current input,
detach it prior to calibration.
W
irin
g
Precision
Voltage (Current)
Generato
r
+
-
Digital Voltmeter
HR-706 Recorder
Input Terminals
+
-
+
-
Precision Dial
Resisto
r
HR-706
Recorder
Input Terminals
Wiring
A
B
B
Page 94
93
(3) Calibration of Reference Junction Compensation
Calibrate the reference junction compensation in the case of thermocouple input.
Example) Connecting the input to Channel 1, and setting the calibration when the thermocouple
input value (RMC measurement) is -0.5
(input 0 ), and the measured RJC
temperature is 24.5
.
1) Check the Process variable when impressing 0.000mV±2
V to Channel 1 by the
voltage generator beforehand. (In this example, it is -0.5
.)
2) Check the terminal temperature of Channel 1 at the data calibration in the engineering
mode (Reference junction compensation). (In this example, it is 24.5
.)
3) Set the value which is added the difference (0.5
) to the true value as a correct RJC
temperature.
[24.5 – (–0.5)=25.0
]
Calibrate RJC according to the instructions in 7.2.12 Data Calibration (Calibration of reference
junction compensation).(See page 81)
Freezing Point
Cold Junction
Compensator
(Iced Water)
Precision
Voltage(Current)
Generator
HR-706 Recorder
Input Terminals
Digital
Voltmeter
+
+
-
-
-
-
+ +
Be sure to attach terminal covers.
Thermocouple wires or Compensation lead wires
Copper wires
Wiring
+
+
-
+
-
[Note]
(1) This calibration is conducted when compensation by the recorder's built-in temperature
sensing element (INT: internal compensation) is selected as a reference junction
compensation method.
(2) Wire Channel 1 and Channel 4 to calibrate.
(3) After wiring, attach the terminal covers and wait for 5 minutes or longer, then calibrate it.
Calibration
Page 95
94
10. TROUBLESHOOTING
10.1 Troubleshooting
10.1.1 Problems
10.1.2 When the Recorder does not Work at all
Problems
Does not work at all
Major error
Recording
error
Chart paper
feed error
Trend recording is deflected
Nothing is printed at all
Faint printing
Flowchart 1 (Page 94)
Chart paper is not fed at all
Improper feed
Inaccurate feed rate
Flowchart 2 (Page 95)
Flowchart 3 (Page 95)
Flowchart 4 (Page 96)
Flowchart 5 (Page 96)
Flowchart 6 (Page 97)
Flowchart 7 (Page 97)
Contact our dealer where you
purchased the instrument, o
r
our sales representative.
Remedy
Flowchart 1
Does not work at all
Power terminal
connected
properly?
Power supplied
properly?
Power turned on?
Turn on the power
Connect properly
(See 4.1 on Page 15)
Supply the power properly
85 to 264V AC
45 to 65Hz
NO
NO
NO
YES
YES
YES
Contact our dealer where you
purchased the instrument, or ou
r
sales representative.
Page 96
95
10.1.3 When there is a Major Error
10.1.4 When the Trend Recording is deflected
Flowchart 2
Major error
Scaling setting
proper?
Calibration
correct?
Calibrate again.
(See 9.5 on Page 91)
Set it properly.
(See 7.1.1 on Page 46)
Zero/span position
of chart pape
r
prop
er?
NO
YES
YES
YES
YES
NO
NO
NO
Calibrate again.
(See 7.2.11 on
Page 78)
(Dot printing error)
Contact our dealer where you purchased
the instrument, or our sales representative.
Display or printed
value matches dot
p
rinting value?
Flowchart 3
Trend Recording is Deflected (0 or 100%
)
Input signal wiring
correct?
Wire it correctly.
(See Section 4.2
on Pa
g
e 17 and 18
)
NO
(Sensor burnout, etc)
Input value and
signs (+/-) are
correct ?
Range and scale
setting proper?
NO
NO
YES
YES
YES
Input them correctly.
(See Section 4.2
on Page 17 and 18)
Set them correctly.
(See Section 7.1.1
on Page 43)
Contact our dealer where you purchased
the instrument, or our sales representative.
Page 97
96
10.1.5 When nothing is recorded
10.1.6 When Printing is Faint
Flowchart 4
No printing at all
Ribbon cassette
set properly?
Error message
displayed?
See 10.2 on Page 98.
NO
NO
NO
YES
YES
Select the RUN mode
(See 2.2.2 on Page 11)
Set it properly.
(See 5.2 on Page 29)
Ribbon fed
properly?
YES
NO
YES
NO
Replace the ribbon cassette.
(See 5.2 on Page 29)
(See 6.4 on Page 34 to 37)
YES
RUN mode
selected?
Digital printout
enabled?
Contact our dealer where you
purchased the instrument, or our
sales re
p
resentative.
Flowchart 5
Faint printing
Ribbon ink
shortage?
YES
NO
Ribbon fed
prop
erly?
NO
YES
Replace the ribbon cassette.
(See 5.2 on Page 29)
Contact our dealer where you
purchased the instrument, or ou
r
sales representative.
Page 98
97
10.1.7 When the Chart Paper is not fed at all
10.1.8 When the Chart Paper is not fed properly
Flowchart 6
No chart paper is fed
Chart holder set
properly?
YES
YES
NO
Set it properly.
(See 5.1 on Page 23)
Chart paper fed
b
y
FEED key?
DI contact for
remote operation
OFF?
A
lter chart paper feed
start/stop setting.
Turn on the DI contact.
(See 7.2.9 on Page 77)
YES
NO
NO
Contact our dealer where you
purchased the instrument, or ou
r
sales representative.
Flowchart 7
Chart paper feed improper
Chart cover
locked properly?
Chart paper set
properly?
Chart guide
attached
properly?
A
ttach properly.
(See 5.1 on Page 23)
NO
NO
NO
YES
YES
YES
Lock properly.
(See 5.1 on Page 23)
Used in adequate
environment?
Set properly.
(See 5.1 on Page 23)
NO
Secure an adequate
environment.
(See 11.1.5 on Page
101)
YES
Contact our dealer where you
purchased the instrument, or ou
r
sales representative.
Page 99
98
10.2 Self Diagnosis Function (ERROR)
This instrument always diagnoses itself on the items listed in the T able 10.2.1 below. When an error
is found after self diagnosis, a relevant error number is displayed.
10.2.1 Self diagnosis Items
Table 10.2.1 List of Diagnosis Items
Type
Error
message
Part Diagnosis Remedy
Zero point
sensor
Zero point position of servomotor
cannot be detected.
ADC
AD conversion end error,
Initialization error
IC for clock
The clock battery is used up
[Note 1]
WDT Watchdog timer error
EEP WRITE Non-volatile memory Writing error
EEP READ1
Non-volatile memory Reading
error (Setup data)
EEP READ2
Non-volatile memory Reading
error (Engineering data)
Hard ware error
EEP READ3
Non-volatile memory Reading
error (ADC Calibration data)
Contact our
dealer where
you purchased
the instrument or
our sales
representative.
Area error
Input value is outside of the setting
range.
Time error Clock time setting error
Setting range
error
Setting the channel (CH1) to which
sum/difference/average operation
cannot be set.
Area error Span L Span R
Area error Scale L Scale R
Area error
Zone L
Zone R or
Zone R–Zone L is less than 5mm.
Reference
channel setting
error
The reference channel range of the
sum/difference/average operation
is not for Volt, TC, RTD and
SCALE.
Operation error
All channels
skip error
Setting all channels to Skip
Set properly
Other
Calibration
value input
error
Not calibrated with the specified
input.
Calibrate it with
a correct input.
[Note 1] The battery life lasts approx.10 years, however, this is subject to the type of environment
in which it is used.
Page 100
99
10.2.2 Error Display
When multiple errors occur, their serial error numbers are automatically displayed.
When an error is recovered, the error display can be canceled by pressing the “REC” key.
CAUTION
While an error is indicated, Auto, Manual and Data/Time are not indicated.
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