Yokogawa 436001, 436002, 436003, 436004, 436006 µR1000 Recorder Instruction Manual
Below you will find brief information for µR1000 Recorder 436001, µR1000 Recorder 436002, µR1000 Recorder 436003, µR1000 Recorder 436004, µR1000 Recorder 436006. The µR1000 Recorder is a compact sized, high reliability, precision measuring instrument that is equipped with many outstanding features. Users can utilize a variety of inputs like DC-voltage, Thermocouple (TC), Resistance Temperature Detector (RTD), and Digital Input (contact). The µR1000 Recorder features a large informative operator display that shows measured data (including the engineering units) and bargraph. In addition, the µR1000 Recorder is equipped with many functions such as trend, zone, partial, pen offset compensation (POC), channel printout, list printout, manual printout, alarm printout, periodic printout, message printout, recording start printout, chart speed change, SET UP List printout, type of alarms, hysteresis, alarm output relay, reflash, FAIL/Chart-end output, type of inputs, burnout, filter, moving average, difference calculation (DELT), linear scaling (SCL), square root (SQRT), MATH, computer interface and memory card, remote control.
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Instruction
Manual
Models 436001, 436002,
436003, 436004, 436006
µ
R1000 Recorder
IM 4D5B1-01E
Yokogawa Electric Corporation
*4D5B101E1
IM 4D5B1-01E
12th Edition
INTRODUCTION
Thank you for purchasing the
µ
R1000 Recorder.
To take full advantage of all functions of the
µ
R1000 Industrial Recorder, and to operate this instrument correctly and efficiently, please read this Instruction Manual carefully before use.
NOTES
• YOKOGAWA reserves the right to change this manual at any time without notice.
• If you find any ambiguities or errors in this manual, please inform YOKOGAWA.
• This manual is the eleventh edition, July 1998.
Previous editions were released as follows:
July ’92
August ’92
January ’93
May ’93
October ’93
April ’94
February ’95
October ’95
April ’96
May ’98
July ’98
January ’2000 first edition second edition third edition fourth edition fifth edition sixth edition seventh edition eighth edition ninth edition tenth edition eleventh edition twelve edition
Disk No. MR06
12th Edition : January 2000 (YG)
All Rights Reserved, Copyright
©
1992, Yokogawa Electric Corporation
IM 4D5B1-01E
1
2
SAFETY PRECAUTIONS
The
µ
R1000 (except portable type) conforms to IEC 348 under the following conditions:
This recorder certified CSA22.2 No.1010.1.
This recorder complies with EN61010-1.
• This instrument complies with inatallation category II .
The following general safety precautions must be observed during all phases of operation, service, and repair of this instrument. Failure to comply with these precautions or with specific WARNINGS given elsewhere in this manual violates safety standards of design, manufacture, and intended use of the instrument.
YOKOGAWA Electric Corporation assumes no liability for the customer’s failure to comply with these requirements.
General definitions of safety symbols used on equipment and in manuals
Explanation: To avoid injury, death of personnel or damage to the instrument, the operator must refer to an explanation in the instruction manual.
WARNING
CAUTION
Protective grounding terminal: To protect against electrical shock in case of a fault.
This symbol indicates that the terminal must be connected to ground before operation of equipment.
High temperature: To avoid injury caused by hot surface, don't touch the heatsink.
A WARNING sign denotes a hazard. It calls attention to a procedure, practice, condition or the like, which, if not correctly performed or adhered to, could result in injury or death of personnel.
A CAUTION sign denotes a hazard. It calls attention to a procedure, practice, condition or the like, which, if not correctly performed or adhered to, could result in damage to or destruction of part of the product.
IM 4D5B1-01E
WARNING
Power Supply
Ensure the source voltage matches the voltage of the power supply before turning on the power.
Protective Grounding
Make sure to connect the protective grounding to prevent an electric shock before turning on the power.
Necessity of Protective Grounding
Never cut off the internal or external protective grounding wire or disconnect the wiring of protective grounding terminal. Doing so poses a potential shock hazard.
Defect of Protective Grounding and Fuse
Do not operate the instrument when protective grounding or fuse might be defective.
Fuse
To prevent a fire, make sure to use the fuse with specified standard (current, voltage, type). Before replacing the fuse, turn off the power and disconnect the power source. Do not use a different fuse or short-circuit the fuse holder.
Do not Operate in an Explosive Atmosphere
Do not operate the instrument in the presence of flammable liquids or vapors.
Operation of any electrical instrument in such an environment constitutes a safety hazard.
Never Touch the Interior of the Instrument
Inside this instrument there are areas of high voltage; therefore, never touch the interior if the power supply is connected. This instrument has an internal changeable system; however, internal inspection and adjustments should be done by qualified personnel only.
External Connection
To ground securely, connect the protective grounding before connecting to measurement or control unit.
IM 4D5B1-01E
3
4
CONTENTS
INTRODUCTION
.................................................................................................
SAFETY PRECAUTIONS
..................................................................................
HOW TO USE THIS MANUAL
.........................................................................
1
Chapter 1 FEATURES AND FUNCTIONS
1.1 Features .............................................................................................
1 - 1
1.2 Summary of Functions .......................................................................
1 - 2
Chapter 2 BEFORE OPERATION
2
6
2.1 Handling Precautions .........................................................................
2 - 1
2.2 Checking the Contents .......................................................................
2 - 2
2.2.1
Checking Accessories and Appearance
.....................................................
2 - 2
2.2.2
Removing Packings
................................................................................
2 - 3
2.2.3
Checking Model Code
.............................................................................
2 - 4
Chapter 3 INSTALLATION
3.1 Installation Site/Mounting ...................................................................
3 - 1
3.1.1
Installation Site
.......................................................................................
3 - 1
3.1.2
Mounting
...............................................................................................
3 - 2
3.1.3
Dimensional Drawings
.............................................................................
3 - 3
3.2 Wiring
3.2.1
Rear Panel Arrangement
3 - 4
.........................................................................
3 - 4
3.2.2
Power Supply Wiring .........................................................................................
3 - 5
3.2.3
Input Wiring .......................................................................................................
3.2.4
Alarm Output Wiring ..........................................................................................
3 - 6
3 - 9
3.2.5
FAIL/Chart End Wiring ......................................................................................
3.2.6
Remote Control Wiring
3 - 10
............................................................................ 3 - 11
Chapter 4 COMPONENT NAMES AND FUNCTIONS
4.1 Front Panel .........................................................................................
4 - 2
4.2 Display ...............................................................................................
4 - 4
Chapter 5 DAILY OPERATION
5.1 How to Switch the Power ON/OFF .....................................................
5 - 1
5.2 How to Install (& Replace) Chart, Pens, Ribbon Cassette and Battery
5 - 2
5.2.1
How to Load (& Replace) the Chart
...........................................................
5 - 2
5.2.2
How to Install (& Replace) Pens and Ribbon Cassette
.................................
5 - 6
5.2.3
How to Replace the Battery
......................................................................
5 - 8
5.3 Basic Operation (Operation Mode) ....................................................
5 - 9
5.3.1
How to Start/Stop the Recording
...............................................................
5 - 9
5.3.2
How to Feed the Chart
............................................................................
5 - 9
5.3.3
How to Get a Manual Printout
..................................................................
5 - 9
5.3.4
How to Get a List Printout
........................................................................ 5 - 10
5.3.5
How to Get a SET UP List Printout
............................................................ 5 - 12
5.3.6
How to Get a Message Printout
................................................................ 5 - 14
5.3.7
How to Acknowledge an Alarm
................................................................. 5 - 15
5.3.8
How to Select the Display .................................................................................
5.3.9
How to Cope with FAIL/Chart End
5 - 16
............................................................ 5 - 18
5.4 How to Use the Key-lock ....................................................................
5 - 19
Chapter 6 HOW TO ENTER SETTINGS
6.1 Explanation of Modes .........................................................................
6 - 1
6.2 Concept of Setting Parameters ..........................................................
6 - 2
6.3 Flow Charts ........................................................................................
6 - 3
6.3.1
Flow Chart of Operation Mode
..................................................................
6 - 3
6.3.2
Flow Chart of SET Mode
.........................................................................
6 - 4
6.3.3
Flow Chart of SET UP Mode
....................................................................
6 - 5
6.4 Setting Parameters in SET Mode .......................................................
6 - 6
6.5 List of Initial Setting Values ................................................................
6 - 7
Chapter 7 BASIC SETTINGS
7.1 How to Set Input Range and Recording Span ...................................
7 - 1
7.1.1
SKIP Setting
..........................................................................................
7 - 2
7.1.2
Voltage Measurement Setting (VOLT Setting)
............................................
7 - 3
7.1.3
Thermocouple and Resistance Temperature Detector Setting
(TC, RTD Setting)
...................................................................................
7 - 4
7.1.4
Digital Input Setting (DI Setting)
................................................................
7 - 5
7.1.5
Difference Computation Setting (DELT Setting)
..........................................
7 - 6
IM 4D5B1-01E
IM 4D5B1-01E
7.1.6
Scale Setting (SCL Setting)
......................................................................
7 - 7
7.1.7
Setting to Obtain Square Root (SQRT Setting)
...........................................
7 - 8
7.2 How to Set Alarms .............................................................................
7 - 10
7.3 How to Assign Units ...........................................................................
7 - 12
7.4 How to Set the Chart Speed ..............................................................
7 - 13
7.5 How to Set the Clock ..........................................................................
7 - 14
7.6 How to Copy Channel Settings to Another Channel ..........................
7 - 15
7.7 How to Set the Remote RJC ..............................................................
7 - 16
Chapter 8 AUXILIARY SETTINGS (AUX)
8.1 Settings for Analog Recording ...........................................................
8 - 1
8.1.1
How to Adjust the Trend Recording Format (Dot Model)
..............................
8 - 2
8.1.2
How to Set Zone Recording
.....................................................................
8 - 3
8.1.3
How to Set Partial Expanded Recording
....................................................
8 - 4
8.2 Settings for Digital Printing .................................................................
8 - 6
8.2.1
How to Select the Periodic Printout ON/OFF
..............................................
8 - 6
8.2.2
How to Set a Tag
....................................................................................
8 - 7
8.2.3
How to Set Messages
.............................................................................
8 - 8
8.3 How to Set the Chart Speed Used When Change-on-alarm or Remote Control is Selected ...........................................................
8 - 9
Chapter 9 CHANGING INITIAL SETTINGS
These settings are entered during manufacturing and seldom need to be changed.
9.1 How to Change Initial Settings for the Alarm Function .......................
9 - 1
9.1.1
How to Select the Reflash Function ON/OFF
..............................................
9 - 2
9.1.2
How to Select the Output Relay to be of AND/OR Type
...............................
9 - 3
9.1.3
How to Select the Output Relay to be Energizing/De-energizing on Alarm
.....
9 - 4
9.1.4
How to Select the Alarm Output Relay to be of HOLD/NON-HOLD Type
.......
9 - 5
9.1.5
How to Select the Alarm Indicator to be of HOLD/NON-HOLD Type
..............
9 - 6
9.1.6
How to Set the Sampling Interval for Rate-of-change Alarms ...........................
9 - 7
9.1.7
How to Select Alarm Hysteresis ON/OFF
...................................................
9 - 8
9.2 How to Change Initial Settings for the Input .......................................
9 - 9
9.2.1
How to Set the A/D Integration Time
.........................................................
9 - 9
9.2.2
How to Set Upscale/Downscale TC Burnout .....................................................
9 - 10
9.2.3
How to Set Internal or External RJC
.......................................................... 9 - 11
9.2.4
How to Select the Input Filter (Pen Model)
................................................. 9 - 12
9.2.5
How to Select a Moving Average (Dot Model)
............................................ 9 - 13
9.3 How to Change Initial Settings for Analog Recording ........................
9 - 14
9.3.1
How to Select Pen Offset Compensation ON/OFF (Pen Model)
.................... 9 - 14
9.3.2
How to Assign Different Colors to Channels (Dot Model)
............................. 9 - 15
9.4 How to Change Initial Settings for Digital Printouts ............................
9 - 16
9.4.1
How to Select Channel Numbers or Tag Printout
........................................ 9 - 16
9.4.2
How to Select Scales Printout ON/OFF
..................................................... 9 - 16
9.4.3
How to Select the New Chart Speed Printout ON/OFF
................................ 9 - 17
9.4.4
How to Select the Record Start Time Printout ON/OFF
................................ 9 - 17
9.4.5
How to Select Alarm Settings and Alarm Printout .............................................
9.4.6
How to Select to Trigger the Periodic Printout ..................................................
9 - 18
9 - 18
9.5 How to Select the Type of Bargraph ..................................................
9 - 20
9.6 How to Change the Temperature Unit (for USA) ...............................
9 - 21
9.7 How to Initialize Settings ....................................................................
9 - 21
9.8 How to Change Initial Settings for the REMOTE Option ....................
9 - 22
9.9 How to Select to Trigger the Recording to Start/Stop ........................
9 - 23
9.10 How to Change Key-lock Settings ......................................................
9 - 24
Chapter 10 GENERAL SPECIFICATIONS
Chapter 11 MAINTENANCE
11.1 Periodic Maintenance .........................................................................
11 - 1
11.2 Fuse Replacement .............................................................................
11 - 2
11.3 Pen Adjustment (Pen Model) .............................................................
11 - 3
11.4 Printer Carriage Adjustment (Dot Model) ...........................................
11 - 4
11.5 Calibration ..........................................................................................
11 - 5
11.6 Cleaning the Plotter Carriage Shaft (Pen Model) ...............................
11 - 8
11.7 Cleaning the Plotter Carriage Shaft (Dot Model) ................................
11 - 8
Chapter 12 TROUBLESHOOTING
12.1 Error Message Table ..........................................................................
12 - 1
12.2 Troubleshooting Flow Chart ...............................................................
12 - 2
TERMINOLOGY
INDEX
5
6
HOW TO USE THIS MANUAL
This manual describes the standard functions, operation procedures and some of the optional functions of the pen and dot printing model of the
µ
R1000 recorder.
To use this manual in the most efficient way, please refer to the following table. In this table the aim of the user is broken down into five broad categories. Please check which are applicable to you and refer to the corresponding chapters.
Purchase &
Installation
First Time
Setting
Daily
Operation
Changing
Settings
Maintenance
& Troubleshooting
Chapters
Safety Precautions
1 Features and
Functions
2 Before Operation
3 Installation
4 Component Names and Functions
5 Daily Operation
6 How to Enter
Settings
7 Basic Settings
8 Auxiliary Settings
(AUX)
9 Changing Initial
Settings
10 General
Specifications
11 Maintenance
12 Troubleshooting
: necessary to read : optional to read
For operation procedures of options, which are not described in this manual, refer to specific option manuals.
IM 4D5B1-01E
1.1 Features
Chapter 1 FEATURES AND FUNCTIONS
This chapter describes the main features and functions of the
µ
R1000 recorder. The
µ
R1000 is equipped with all the functions which can be expected in a modern recorder, whereas its functions also reflect the latest user requirements.
1.1 Features
The
µ
R1000 recorder is a precision measuring instrument that is equipped with many outstanding features:
Compact sized, high reliability:
Its compact size (depth 220mm) allows you to install the
µ
R1000 where only a limited space is available. In case of the pen model, a contact-free potentiometer and a brushless-DC servomotor contribute to its high reliability. In case of the dot printing model, high reliability is obtained by the use of high break down voltage solid-state relays.
Universal inputs:
Inputs like DC-voltage, Thermocouple (TC), Resistance
Temperature Detector (RTD), and Digital Input (contact) can all be conveniently used.
There is no need to change any dipswitches; the type of input can be set using the keyboard.
Easy interactive setting:
The setting procedure has been made very easy, by using only panel keys. The
µ
R1000 asks you to select the desired settings, without the need for remembering difficult setting-codes.
Large informative operator display:
The large sized, VFD, display shows the measured data (including the engineering units) or clock, and bargraph at the same time.
There are two types of bargraph available: percentage-display, and center-zero display.
Because of its 1%-resolution, the bargraph displays very accurately.
Continuous pen recording for up to four channels (pen model only):
Depending on your
µ
R1000 model type, the
µ
R1000 can measure up to four channels simultaneously. This allows you to decrease the number of recorders you require.
Universal power supply (except for /P1 and /P5 model):
The
µ
R1000 accepts
90 to 250VAC (except 132 to 180VAC), and 50/60Hz without any problems, or need to turn switches. Therefore the
µ
R1000 is compatible with a wide variety of power supplies.
High performance:
The sampling speed of the
µ
R1000 pen model is high at 125 ms, whereas the recording cycle of the
µ
R1000 dot printing model is 6ch./10seconds.
The
µ
R1000 is equipped with many functions. Special functions can be ordered as an option. Furthermore, its power consumption is low (dot model; 18VA under normal operation conditions).
Easy maintenance:
Because of the use of many contact-free parts, the need for maintenance has been decreased. The
µ
R1000 is designed in modules, which decreases the time needed for maintenance extensively.
Closed case:
The closed case of the
µ
R1000 allows it to be used in many environments. The front door is in accordance with DIN 40050-IP54.
Computer interface and memory card:
If equipped with this option, the
µ
R1000 can store and retrieve measured data as well as setting data, using an IC memory card or directly from your PC. The available interface is RS-422-A.
Compliance with international safety standards:
The
µ
R1000 (except portable type) is based on international safety standards, such as the IEC 348.
1 - 1
IM 4D5B1-01E
1.2 Summary of Functions
This paragraph describes a summary of the main functions, together with a recording example.
RECORDING
Trend: records in a way that the dots do not overlap (dot model only)
Zone: records on different bands (zones) for individual channels
Partial: expands part of the recording range for detailed examination
POC: Pen Offset Compensation: removes the time-axis offset between pens (pen model only)
PRINTOUT
Channel printout: Contains channel No. besides analog recording (dot model only)
List printout: contains date, time, chart speed (1 & 2), channel No. or tag, range, span values, scale values, partial values and contents of messages (for example, see 5.3.4)
Manual printout: contains date and time, channel No., type of alarm, latest measured values, units (for all channels)
Alarm printout: contains channel or tag No., type of alarm, level, mark ( for occurence, for recover; in case of the dot model, red and blue respectively) and alarm ON/OFF-time
Periodic printout: contains date & time, tag or channel No., POC ON mark ( ; for pen model only), unit, scale markings (may not be printed while alarm occurs), chart speed, measured values and recording color (for pen model) and time tick (for dot model)
Message printout: contains time and message
Recording start printout: contains time when recording starts
Chart speed change: contains time and new chart speed
SET UP List printout: contains initial settings concerning analog recording, digital printing, alarms, burnout,
RJC and options (for example, see 5.3.5)
NOTE
The alarm, channel (for dot model), periodic, message, recording start and chart speed change printout depend on the chart speed. The size of the characters varies depending on the chart speed.
1 - 2
Time tick (–)
(always corresponding to pen No.1)
Figure 1.1 Recording Example for Pen Model
Manual printout
Alarm printout
Note: When an asterisk appears (
*
), the memory buffer is full and some data will not be printed. This asterisk may appear in the alarm printout, message printout, recording start time printout and the chart speed change printout.
Chart speed change printout
Message printout
Time tick cancel mark (!) appears when chart feed/speed has been changed during periodic printout
POC ON mark
Scale printout and Recording color
Periodic printout
Recording start time
IM 4D5B1-01E
1.2 Summary of Functions
Channel printout
Manual printout
Chart speed change printout
Time tick (–)
*1
Alarm printout
Note: When an asterisk appears
( ), the memory buffer is fulland
some data will not be printed. This
asterisk may appear in the alarm
printout, message printout,
recording start time printout and
the chart speed change printout.
Message printout
Periodic printout
Scale printout
Time tick (–)
*1
Recording start time
Time tick (–)
*1
*
1 : will not be printed when the time does not correspond with the correct place on the chart.
Figure 1.2 Recording Example for Dot Model
ALARM
Type of alarms: H: high limit
L: low limit h: high difference limit l: low difference limit
R: rate-of-change limit on increasing signal r: rate-of-change limit on decreasing signal
Hysteresis: hysteresis value as a % of span which can be 0% or approx. 0.5%
Alarm output relay: when alarm occurs, the relay will be activated (optional)
Reflash: monitors repeating alarm occurrences among a group of alarms sharing the same output relay (optional)
FAIL/Chart-end output: output relay is activated when chart reaches its end and/or when failure of equipment occurs (optional)
INPUT
Type of inputs: TC: Thermocouple
RTD: Resistance Temperature Detector
DC-voltage
DC-current: using optional external shunt resistor
DI: Digital Input (contact)
Burnout: when TC-wire is broken, pens will move to left or right side
Filter: (signal damping) selects the time constant of signal damping (for pen model)
Moving average: selects the number of samples for moving average (for dot model)
IM 4D5B1-01E
1 - 3
DISPLAY
Left-referenced bargraph: measured data are displayed as a %, on a 0 to 100% scale
Center-zero bargraph: center of the recording span is reference and deviation is displayed as a bargraph
Clock: year/month/day and hours/minutes/seconds
Measured data: AUTO: all channels will be shown alternately
MAN: a specified channel only will be shown
Alarm: channel No., type of alarm (display), channel No. (underneath bargraph, for dot model)
Status indicators: RCD: illuminated when recording is in progress
POC: illuminated when POC is being used (for pen model)
SET: illuminated when in SET Mode
ALM: illuminated/flashing when alarm occurs
CHT: illuminated when approx. 2cm are left till chart end (option)
BAT: illuminated/flashing when battery needs to be replaced
CALCULATION
Difference calc (DELT): takes the difference between the measured values of two channels
Linear scaling (SCL): sets different scale (and unit) to a specific range
Square root (SQRT): takes the square root of measured data
MATH: calculates basic arithmetic computations, SQRT, ABS, LOG, EXP, logical and relational computation (optional)
TLOG: calculates statistic computation for time axis (optional)
COMPUTER INTERFACE (Optional)
RS-422-A
IC MEMORY CARD (Optional)
Storage and retrieval of setting parameters and measured data
REMOTE CONTROL (Optional)
Message printout, manual printout, periodic printout, recording ON/OFF, chart speed change, TLOG START/STOP, IC memory card trigger.
1 - 4
IM 4D5B1-01E
2.1 Handling Precautions
Chapter 2 BEFORE OPERATION
This chapter describes the preparations to be made before you can operate the
µ
R1000 recorder. To use the
µ
R1000, it is necessary to read this chapter first.
2.1 Handling Precautions
Cleaning
This recorder contains many plastic parts. To clean, use a soft, dry cloth. Do not use chemicals such as benzene or thinner, since these may cause discoloration or damage.
Static electricity
Do not bring any objects charged with static electricity near the signal terminals. This might cause malfunction.
Insecticide sprays, etc.
Do not allow any volatile substances such as insecticides etc. to come in contact with the front door, the operation panel, etc. Do not allow rubber or vinyl to remain in contact with the recorder for long periods.
After use
Ensure that the power switch is turned to the OFF position.
In case of malfunction
Never continue to use the instrument if there are any symptoms of malfunction such as unusual sounds, smell, or smoke coming from the instrument. Immediately disconnect the power supply and stop further use of the instrument. If such abnormal symptoms occur, contact your sales representative or nearest service center.
2 - 1
IM 4D5B1-01E
2.2 Checking the Contents
This
µ
R1000 was thoroughly inspected before it was shipped from the factory.
However, when you receive the
µ
R1000, check that all accessories are present and in the correct quantities. Also check the external appearance of the
µ
R1000 to ascertain that no damage has occurred.
2.2.1 Checking Accessories and Appearance
The
µ
R1000 should be accompanied by the accessories indicated in figure 2.1.
Check that all are present in the correct quantities. Also check the external appearance of the
µ
R1000 to ascertain that no damage has occurred. If you discover any problem concerning the quantity of accessories or external appearance, please contact your sales representative or the nearest service center. Addresses may be found on the back cover of this Instruction Manual.
1
3
4 5 6 7 8
5.
6.
7.
8.
No.
1.
2.
3.
4.
2
Description
disposable felt pen (for pen model)
• 1 pen model
• 2 pen model
• 3 pen model
• 4 pen model plotter pen (for pen model) ribbon cassette (for dot model) fuse key mounting brackets
Z-fold chart paper roll chart paper
Instruction Manual and Quick Reference power cord
1
1
1
3
4
1
2
1
Quantity Remarks
1
1
2
2
1
1
1
1 red red, green red, green, blue red, green, blue, violet purple
250V 500mA time lag
(except for /P1 and /P5 model)
250V 5A time lag
(for /P1 and /P5 model)
Recorders with a gray power switch
250V 800mA time lag
(except for /P1 and /P5 model)
250V 5A time lag
(for /P1 and P5 model)
Recorders with a white power switch key-lock approx. 16 meters for /H1 model one each for portable type
Figure 2.1 Accessories
2 - 2
IM 4D5B1-01E
2.2 Checking the Contents
Name
Table 2.1 Spares
Z-fold chart paper roll chart paper disposable felt-pen disposable felt-pen disposable felt-pen disposable felt-pen plotter pen ribbon cassette fuse mounting brackets key (for key-lock)
Part Number
B9565AW
B9902MY
B9902AM
B9902AN
B9902AP
B9902AQ
B9902AR
B9901AX
B9901YA*
A1360EF
A1102EF
A1512EF
A1513EF
B9900BX
B9900HZ
Description
(1 chart/unit), order quantity: 6 units, except for /H1 model
(1 chart/unit), order quantity: 6 units, for /H1 model red (3 pcs./unit), order quantity: 1 unit green (3 pcs./unit), order quantity: 1 unit blue (3 pcs./unit), order quantity: 1 unit violet (3 pcs./unit), order quantity: 1 unit
(3 pcs./unit), order quantity: 1 unit
(1 pc./unit), order quantity: 1 unit
(1 pc./unit), order quantity: 1 unit for TAIWAN
(4pcs./unit), order quantity : 1 unit
250V 500mA time lag
(except for /P1 and /P5 model)
(4pcs. /unit), order quantity : 1 unit
250V 5A time lag
(for /P1 and /P5 model)
Recorders with a gray power switch
(4pcs. /unit), order quantity : 1 unit
250V 800mA time lag
(except for /P1 and /P5 model)
(4pcs. /unit), order quantity : 1 unit
250V 5A time lag
(for /P1 and P5 model)
Recorders with a white power switch
(1 pc./unit), order quantity: 2 units
(3 pcs./unit), order quantity: 2 units
* In case of orders for spares for TAIWAN, please order the * part No.
2.2.2 Removing Packings
The internal assembly is secured in position by a lock screw and by packings to safeguard against damages during transit. When you unpack the recorder, remove the lock screw which is located at the left side of the recorder. See figure 2.2.
IM 4D5B1-01E
Lock screw
(1 pc.)
Figure 2.2 Location of Lock Screw
Then remove the packings as follows:
Open the
µ
R1000 front door and swing open the display at the lower left corner and the keyboard at the upper left corner. Then remove all the packings as shown in figure 2.3.
Display
Figure 2.3a Removing Packings in case of Pen Model
Packings
2 - 3
Display
CAUTION
Packings
Figure 2.3b Removing Packings in case of Dot Model
Please take care not to apply any undue pressure in an upward or downward direction to the display and keyboard. This may cause a strain on the hinges.
2.2.3 Checking Model Code
When you receive your
µ
R1000, check the information on the nameplate to make sure that it is as specified by your order. If you open the front door and remove the chart cassette, you will find the model code mentioned on the nameplate located as shown in figure 2.4. Please check if the model code (MODEL) is correct.
Nameplate
Figure 2.4 Checking Model Code
2 - 4
IM 4D5B1-01E
3.1 Installation Site/Mounting
Chapter 3 INSTALLATION
This chapter describes the installation of the
µ
R1000, like the installation site, the mounting and wiring. To install the
µ
R1000 properly, it is necessary to read this chapter.
3.1 Installation Site/Mounting
3.1.1 Installation Site
The
µ
R1000 installation site should be chosen to meet the following conditions as close as possible:
Installation site should be panel-mounted only. The
µ
R1000 is especially designed for panel mounting.
The
µ
R1000 should be placed in a well ventilated area.
The
µ
R1000 will be adversely affected if the unit is exposed to direct sunlight or installed near a heater. Choose a location near room temperature (23
°
C) with minimal temperature fluctuations.
To expose the
µ
R1000 to soot, steam, moisture, dust, corrosive gases etc. will adversely affect it.
To use the
µ
R1000 within strong electro-magnetic fields may cause malfunction. Please avoid installing near electro-magnetic objects.
To install the
µ
R1000 in a location susceptible to mechanical vibrations will adversely affect the mechanical parts and the quality of recording. Please choose an installation site characterized by minimal mechanical vibrations.
This
µ
R1000 must be installed horizontally (however, mounting may be inclined up to
30
°
backwards from vertical).
To use the
µ
R1000 within domestic establishments and within establishments directly connected to a low voltage power supply network which supplies buildings used for domestic purposes may cause malfunction of other equipments. Please avoid using in domestic environment.
3 - 1
IM 4D5B1-01E
3.1.2 Mounting
1 The
µ
R1000 should be mounted on at least 2mm (and up to 26mm) thick steel panel.
2 Insert the
µ
R1000 into the panel cutout.
3 Hold the bottom of the
µ
R1000 and mount it on the panel using the mounting brackets supplied, as shown in figure 3.1. (If still in place, remove the seals covering the holes for the mounting brackets.)
4 Tighten the screw of the mounting bracket with 8 to 12kg
• cm.
Mounting bracket
CAUTION
Figure 3.1 Mounting
Overtightening can damage the case and mounting brackets.
3 - 2
IM 4D5B1-01E
3.1.3 Dimensional Drawings
3.1 Installation Site/Mounting
IM 4D5B1-01E
Figure 3.2 Panel Cutout and Dimensions (including mounting brackets)
NOTE
• The
µ
R1000 should be mounted by only two brackets, either on the top & bottom of the recorder, or on the left & right side of the recorder.
• The portable type has different dimensions.
3 - 3
3.2 Wiring
CAUTION
This paragraph describes the wiring at the rear panel.
3.2.1 Rear panel arrangement
3.2.2 Power supply wiring
3.2.3 Input wiring
3.2.4 Alarm output wiring
3.2.5 FAIL/Chart end output wiring
3.2.6 Remote control wiring
Make sure to fasten the wiring at the rear wall of the mounting panel and employ some kind of strain relief between the rear wall and the recorder.
3.2.1 Rear Panel Arrangement
Power supply terminal block
Input terminal block
Power supply terminal block
Input terminal block
L
N for /P1 model
+
DC24V
–
/B
-/b
+/A
Option terminal block
1
2
3
4
Each terminal block can be removed for easy wiring by loosening these screws.
To ensure proper contact, make sure to fasten the screws properly.
Used terminal screws: ISO M4, length: 6mm
Figure 3.3a Rear Panel Arrangement in case of Pen Model
L
N for /P1 model
+
DC24V
–
/b
-/B
+/A
4
5
6
1
2
3
Option terminal block
Each terminal block can be removed for easy wiring by loosening these screws.
To ensure proper contact, make sure to fasten the screws properly.
Used terminal screws: ISO M4, length: 6mm
Figure 3.3b Rear Panel Arrangement in case of Dot Model
3 - 4
IM 4D5B1-01E
3.2 Wiring
3.2.2 Power Supply Wiring
1 Make sure the power switch is turned OFF and remove the transparent cover at the rear of the
µ
R1000.
2 Connect the power supply wires and the protective ground wire to the power terminals and the ground terminals as shown in figure 3.4.
3 Replace the transparent cover.
Power supply wires for /P1 model
+
DC24V
–
L
N
Protective ground wire
Figure 3.4 Power Supply Wiring
NOTE
• Do not apply power supply of 132 to 180VAC. This might affect the measuring accuracy.
• In case of portable type, plug the female end of the power cord into the socket on the rear panel.
• To prevent an emission of electromagnetic disturbances, separate the power supply wires from the other wires at least 0.1m. Over 0.5m is recommended.
WARNING
To prevent an electric shock, ensure the main power supply is turned OFF and connect the ground terminal using a class 3 resistance of 100
Ω
or less.
For power and ground wiring termination, use “crimp on” lugs (for 4mm screws) with insulation sleeves (see figure 3.5).
To prevent fire, use 600V PVC insulated wire (AWG18) for power and ground wiring (cross sectional area of 0.83mm
2
or thicker, anti-galvanic corrosion finish, insulation thickness should be more than 0.8mm, insulation resistance should be more than 50M
Ω
Km at 20
°
C, approved EN60 320 (VDE0625), and do not remove the transparent cover.
Make sure to apply a power switch in the power supply cord with the following characteristics:
Others than /P1 or /P5 model
• rated power current > 1A
• rated rush current > 60A
• fuse(s) of 2A to 15A is (are) necessary.
/P1 or /P5 model
• rated power current > 3A
• rated rush current > 70A
• fuse(s) of 5A to 15A is (are) necessary.
The power switch and fuse used in the power supply cord should be
• CSA approved (for use in North America)
• VDE approved (for use in Europe).
IM 4D5B1-01E
3 - 5
3.2.3 Input Wiring
1 Make sure the power switch is turned OFF and remove the transparent cover at the rear of the
µ
R1000.
2 Connect the input wires to the input terminal.
3 Replace the transparent cover.
It is recommended that “crimp on” lugs (for 4mm screws) with insulation sleeves be used for leadwire ends. See figure 3.5.
Figure 3.5 “Crimp on” Lugs
In case of clamped input terminals, do not use “crimp on” lugs.
Since the input terminal will be affected by changes in temperature (e.g. because of wind), make sure to replace the transparent cover after wiring.
Even after replacement, take care not to expose the terminals to fans, etc.
Suggestions to minimize noise pickup:
• The measuring circuit wiring should be run as remote as possible from the power and ground wires.
• It is recommended that shielded wires be used to minimize noise pickup from an electrostatic induction source. The shielding wire of the cable should be connected to the
µ
R1000 ground terminal (only one ground line).
• To minimize noise from an electromagnetic induction source, twist the measuring line cables in short and equal spaces.
• The to be measured object should be free from noise. However, if it isn’t, make sure the measuring circuit is isolated and the to be measured object is grounded.
If TC and RJC is used, the temperature of the input terminals should be as stable as possible. Therefore, make sure to use the transparent cover. The thermal capacity of the wiring should be small (recommended ø
≤ 0.3
mm).
Refrain from wiring the input parallel. However, if you do, then
• do not use the burnout function
• ground the equipments at the same point
• turning ON/OFF the power might cause malfunction
• RTD cannot be wired parallel.
WARNING
CAUTION
To prevent an electric shock, ensure the main power supply is turned OFF and connect the ground terminal using a class 3 resistance of 100
Ω
or less.
If you have an input of DC
≤
2V or a TC, don’t apply an input voltage exceeding
±
10VDC.
Do not apply a max. common mode voltage more than 250VAC rms (50/
60Hz). The recorder and measured values will be adversely affected.
This instrument complies with Inatallation Category ll.
NOTE
To prevent an emission of electromagnetic disturbances, separate the input wires from the other wires at least 0.1m. Over 0.5m is recommended.
3 - 6
IM 4D5B1-01E
Pen Model
3.2 Wiring
–
+
max. wiring ø
≤
2.5mm
1 ch.
2 ch.
3 ch.
4 ch.
2 ch.
+
–
4 ch.
+
–
+
–
1 ch.
+
–
3 ch.
Standard Input Terminal Clamped Input Terminal (/H2 option)
Figure 3.6 DC V, Thermocouple and Contact Input in case of Pen Model
B b
A max. wiring ø
≤
2.5mm
1 ch.
2 ch.
3 ch.
4 ch.
2 ch.
A b
B
4 ch.
A b
B
A b
B
A b
B
1 ch.
3 ch.
Standard Input Terminal Clamped Input Terminal (/H2 option)
Figure 3.7 Resistance Temperature Detector Input in case of Pen Model
DC Voltage Input/DI Input (contact)
–
+
Thermocouple Input
Compensation lead
+
–
+
DC voltage input
–
IM 4D5B1-01E
Resistance Temperature Detector Input
B A b
DC Current Input
+
–
+
DC current input
–
B b
A
Shunt resistor
Leadwire resistance:
10
Ω
max./leadwire
Three wire resistances
should be approx. equal.
Figure 3.8 Wiring Input Terminals in case of Pen Model
NOTE: For 4 to 20mA input, shunt resistance value should be 250
Ω ±
0.1%.
3 - 7
Dot Printing Model
–
+
max. wiring ø
≤
2.5mm
1 ch.
2 ch.
3 ch.
4 ch.
5 ch.
6 ch.
2 ch.
+
–
4 ch.
+
–
6 ch.
+
–
+
–
1 ch.
+
–
3 ch.
+
–
5 ch.
Standard Input Terminal Clamped Input Terminal (/H2 option)
Figure 3.9 DC V, Thermocouple and Contact Input in case of Dot Model
b B A max. wiring ø
≤
2.5mm
1 ch.
2 ch.
3 ch.
4 ch.
5 ch.
6 ch.
2 ch.
A
B b
4 ch.
A
B b
6 ch.
A
B b
A
B b
1 ch.
A
B b
3 ch.
A
B b
5 ch.
Standard Input Terminal Clamped Input Terminal (/H2 option)
Figure 3.10 Resistance Temperature Detector Input in case of Dot Model
DC Voltage Input/DI Input (contact)
–
+
Thermocouple Input
Compensation lead
+
–
+
DC voltage input
–
3 - 8
Resistance Temperature Detector Input
B
A b
DC Current Input
+
–
+
DC current input
–
B b
A
Shunt resistor
Leadwire resistance:
10
Ω
max./leadwire
Three wire resistances
should be approx. equal.
NOTE: For 4 to 20mA input, shunt resistance value should be 250
Ω ±
0.1%.
Figure 3.11 Wiring Input Terminals in case of Dot Model
IM 4D5B1-01E
3.2 Wiring
3.2.4 Alarm Output Wiring
1 Make sure the power switch is turned OFF and remove the transparent cover at the rear of the
µ
R1000.
2 Connect the alarm output wires to the alarm output terminal.
3 Replace the transparent cover.
Depending on your option, your alarm output terminal will look like one of the following:
ALARM
1
NO C NC
2
NO C NC
ALARM
1
NO C NC
2
NO C NC
3
NO C NC
4
NO C NC
ALARM
1
NO C NC
2
NO C NC
3
NO C NC
4
NO C NC
5
NO C NC
6
NO C NC
WARNING
IM 4D5B1-01E option /A1
2 contacts option /A2
4 contacts
Figure 3.12 Alarm Output Terminals
option /A3
6 contacts
CHARACTERISTICS:
Output type: relay transfer contact (energize/de-energize type switchable)
Output capacity: 250VAC (50 or 60Hz), 3A
250VDC, 0.1A (resistive load)
Dielectric strength: 1500VAC (50 or 60Hz) for one minute between output terminal and ground terminal
To adjust initial settings, see 9.1.
• To prevent an electric shock, ensure the main power supply is turned OFF during wiring and ensure the ground terminal is connected using a class 3 resistance of 100
Ω
or less.
• Ensure the ground terminal is connected using a class 3 resistance of 100
Ω
or less.
• Use "crimp-on" lugs with insulation sleeves for all connections if a voltage of more than 30 VAC or 60 VDC is applied to the alarm output or fail/memory end output. Furthermore, use doubleinsulated wires (withstand voltage performance: more than 2300VAC) for those wires which apply 30 VAC or
60VDC. All other wires can be basic-insulated (withstand voltage performance: more than 1350VAC). To prevent electric shock, do not touch the terminal after wiring and make sure to re-attach the cover.
NOTE
To prevent an emission of electromagnetic disturbances, separate the alarm output wires from the power supply and input wires at least 0.1m. Over 0.5m is recommended.
3 - 9
3.2.5 FAIL/Chart End Wiring
1 Make sure the power switch is turned OFF and remove the transparent cover at the rear of the
µ
R1000.
2 Connect the FAIL/Chart end output wires to the FAIL/Chart end output terminal.
3 Replace the transparent cover.
The FAIL/Chart end terminals (option) are as follows:
CHART
NO C NC
FAIL
NO C NC
WARNING
Figure 3.13 FAIL/Chart End Output Terminal
The FAIL output relay is of the de-energize type. See 5.3.9 for details.
• To prevent an electric shock, ensure the main power supply is turned OFF during wiring and ensure the ground terminal is connected using a class 3 resistance of 100
Ω
or less.
• Ensure the ground terminal is connected using a class 3 resistance of 100
Ω
or less.
• Use "crimp-on" lugs with insulation sleeves for all connections if a voltage of more than 30 VAC or 60 VDC is applied to the alarm output or fail/memory end output. Furthermore, use doubleinsulated wires (withstand voltage performance: more than 2300VAC) for those wires which apply 30 VAC or
60VDC. All other wires can be basic-insulated (withstand voltage performance: more than 1350VAC). To prevent electric shock, do not touch the terminal after wiring and make sure to re-attach the cover.
NOTE
To prevent an emission of electromagnetic disturbances, separate the FAIL/Chart end wires from the power supply and input wires at least 0.1m. Over 0.5m is recommended.
3 - 10
IM 4D5B1-01E
3.2 Wiring
3.2.6 Remote Control Wiring
1 Make sure the power switch is turned OFF and remove the transparent cover at the rear of the
µ
R1000.
2 Connect the REMOTE output wires to the REMOTE output terminal. Make sure to connect every terminal with the c(ommon) terminal. Use shielded wires to prevent electromagnetic interference.
3 Replace the transparent cover.
The remote control terminal (option) looks as follows:
REMOTE
1 2 3
4 5 C
WARNING
Figure 3.14 Remote Control Terminal
CHARACTERISTICS:
Input signals: dry contact or open-collector (TTL or transistor)
Input types for each function
(1) recording start/stop
(2) change chart speed level level
(3) start/stop TLOG computation level
(4) printout messages
(5) get a manual printout trigger trigger
(6) get a periodic printout
(7) trigger IC Memory Card trigger trigger
250 msec minimum
Input conditions: ON voltage (0.5V maximum) (30mA DC)
Leakage current in OFF state (0.25mA maximum)
Signal duration (250 msec minimum)
Input type: Photocoupler isolation (one side common)
Internal isolated power source (5V
±
5%)
Dielectric strength: 500VDC between input terminal and ground terminal, 1min.
To adjust initial settings, see 9.8.
To prevent an electric shock, ensure the main power supply is turned OFF during wiring and ensure the ground terminal is connected using a class 3 resistance of 100
Ω
or less.
The outer conductor must be grounded at the ground terminal.
NOTE
To prevent an emission of electromagnetic disturbances, separate the remote control wires from the power supply and input wires at least 0.1m. Over 0.5m is recommended.
IM 4D5B1-01E
3 - 11
Chapter 4 COMPONENT NAMES AND
FUNCTIONS
This chapter describes the names of components, together with a short summary of their functions.
IM 4D5B1-01E
Figure 4.1 External View (Pen Model)
4 - 1
4.1 Front Panel
3
4
6
2
1
5
Figure 4.2 Front Panel (4 pen model)
1 Power switch
Pressing this button will result in switching the power ON or OFF.
2 Keyboard
The keyboard consists of six keys:
RCD
(RCD-key)
Pressing this key will result in starting or stopping the recording.
ESC
MENU
(Menu-key/Esc-key)
The MENU function is to select the type of display (see 5.3.8), to start SET UP List printout and message printout (see 5.3.5, 5.3.6) etc., and to switch between Operation and SET modes (see 6.1).
The ESC function is to escape to the previous level in the (setting) flow while entering parameters.
(Print-key/Cursor Up-key)
The PRINT function is used to get a manual printout or list printout printed onto the chart (see 5.3.3, 5.3.4).
The function: The display is designed in an interactive way, which means that it will ask you to enter the necessary data. In case there are several possibilities to choose from (e.g. ON or OFF), use this key to show the next choice.
4 - 2
IM 4D5B1-01E
IM 4D5B1-01E
4.1 Front Panel
ALARM
ACK
(Ack-key/Cursor Down-key)
The ‘ACK’-function is used to acknowledge alarms. Note that this function is only effective if the alarm relay is in the hold-mode (see 5.3.7), and if the indicator status is in the hold-mode (see 5.3.7). When you press this key in case an alarm occurs and the ALM-indicator is flashing, the current alarm situation will be indicated and the relay will be reset.
The function: The display is designed in an interactive way, which means that it will ask you to enter the necessary data. In case there are several possibilities to choose from (e.g. ON or OFF), use this key to show the previous choice.
FEED (Feed-key/Move to Next Digit-key)
The ‘FEED’-function feeds the chart paper until this key is released (see also 5.3.2).
The function moves the cursor to the next digit while setting parameters. Please note that there is not a back-space key provided. For that reason, the cursor moves from the last digit to the first digit again (see 6.2).
(Ent-key)
The ‘ENT’-function allows you to keep the data you entered during the setting procedure. Pressing ‘ENT’ results in moving to the next display in the same
(setting-) flow. Pressing ‘ENT’ after the ‘SET OK’-display appears, results in starting the same (setting-) flow again.
To take out the chart, use this keyboard like a door by pulling the upper left corner.
3 Large sized VFD (Vacuum Fluorescent Display)
The display can show characters, bargraphs, and functions. In case you want to exchange pens or the ribbon cassette, use the display as a door by pulling the lower left corner.
The backside of this display also illuminates the chart.
4 Chart and chart cassette
The recorder uses a Z-fold chart, 16 meter in length, with an effective analog trend recording width of 100mm. The chart is stored inside a chart cassette.
5 IC Memory card drive (optional)
IC Memory cards are inserted into this drive port for use.
6 Key-lock
The key supplied with the recorder should be removed from the key-hole to lock the recorder. See 5.4. To use the key-lock, see 9.10.
4 - 3
4.2 Display
4 - 4
1
3
RCD
POC
SET
2
3
4
1
2
Figure 4.3a Display (4 pen model)
ALM
CHT
BAT
3
1
3
RCD
SET
ALM
CHT
BAT
3
2
1 2 3 4 5 6
Figure 4.3b Display (Dot model)
1 5
×
7 dot matrix (11 characters)
Used for data display, clock display, monitor display and setting display (see also
5.3.8).
Data display:
Clock display:
Channel No., type of alarm, measured data, units
(year, month, day) or (hour, minutes, seconds) selectable
Monitor display: Operating conditions of IC Memory Card and TLOG function
Setting display: Every parameter can be set by interactive display.
2 Bargraph
Measured values of each channel will be displayed with 1% resolution (analog display).
The alarm set points will also be displayed. The colors of the bargraph correspond to the colors of the pens. Two ways of display can be selected:
Left-referenced (%) bargraph
1
2
Center-zero bargraph
(center of the recording span is reference and the deviation is displayed as a bargraph)
1
2
The six squares underneath the bargraph show the occurence of an alarm in the corresponding channel. They illuminate/flash in the same way as the ALM-indicator.
3 Status indicators
RCD: Illuminated when recording is in progress.
POC: Illuminated when Pen Offset Compensation is being used. (only for pen model)
SET: Illuminated when you are working in the SET Mode.
ALM: This VFD will flash or illuminate when an alarm occurs.
Hold-mode: If the
ACK
-key is pressed, the flashing will stop and the VFD will illuminate. After the alarm stops, the VFD will turn off. (If the
ACK
-key is not pressed, the flashing stays even if the alarm recovers, see also 5.3.7).
Non-hold-mode: VFD will illuminate until the alarm recovers (pressing the
ACK
-key in this case will have no effect, see also 5.3.7).
CHT: Illuminated when there are approx. 2cm left till chart end (option).
BAT: Illuminated when the battery for setting data backup needs to be replaced.
Flashes when the battery of the IC Memory Card needs to be replaced.
IM 4D5B1-01E
5.1 How to Switch the Power ON/OFF
Chapter 5 DAILY OPERATION
This chapter describes the daily operation of the
µ
R1000, excluding settings.
Please read this chapter carefully before operation.
5.1 How to Switch the Power ON/OFF
The power switch is located behind the door, at the front side, in the lower right corner
(see figure 5.1a.). The power is supplied to the instrument when the power switch is in the position as shown in figure 5.1b. The power is OFF when the power switch is in the position as shown in figure 5.1b. The power can be turned ON/OFF by alternately pressing the switch. When you do not use the instrument, please turn ‘OFF’ the power.
ON
CAUTION
Power switch
OFF
Figure 5.1b
igure 5.1a
NOTE
After turning ON the power, the
µ
R1000 will first perform a self diagnostic check for several seconds.
The warm-up time is approx. 30 minutes. (However, just after finishing the wiring, it might take longer. Especially if you removed the input terminals during wiring.)
If the input wiring is connected parallel with other equipments, switching the power ON/OFF should not be done.
If error message appears on the display or is printed on the chart, please refer to the Error Message Table at sect. 12.1.
5 - 1
IM 4D5B1-01E
5.2 How to Install (& Replace) Chart, Pens, Ribbon Cassette and
Battery
5.2.1 How to Load (& Replace) the Chart
In case of /H1 model (roll chart cassette), see the pages 5-4, 5-5.
1 Open the front door of the unit.
2 The power can be either ‘ON’ or ‘OFF’, but recording should be ‘OFF’.
3 Fan chart paper thoroughly at both ends before loading.
4 Swing the keyboard open by grasping the upper left corner. While gently pressing the chart paper compartment lock tabs, located at the lower right and left front, in the direction of the arrow, swing and lift the compartment away from the unit (see figure
5.2).
Lock tabs
Figure 5.2
5 Press the sides of the chart guide plate at the top rear of the chart compartment and swing the guide plate up (see figure 5.3).
6 At the front, pull/swing the front transparent chart guide down (see figure 5.3).
Top hopper
When your model is equipped with the
Chart End option, you will find a black sheet here. Take care not to damage or remove the sheet.
Exercise care when using cassettes from other
µ
R1000’s that a sheet is also applied.
Front transparent chart guide
Figure 5.3
7 Load the chart paper into the top hopper making sure that the sprocket teeth of the chart drive are properly engaged in the chart paper perforation holes. Take care not to insert the paper backwards (see figure 5.4).
5 - 2
Figure 5.4
IM 4D5B1-01E
5.2 How to Install (& Replace) Chart, Pens, Ribbon Cassette and Battery
8 Place the rear chart guide plate back into position. Press the rear chart guide plate down and towards you and load the chart.
9 Place the front transparent chart guide back into position (see figure 5.5).
Must be close the front transparent chart guide before replace the chart paper compartment.
Figure 5.5
10 Replace the chart paper compartment back into the unit. Slide the protruding knurls of the chart paper compartment into the cutout grooves located on the support brackets.
Push/swing the compartment into the unit until the lock tabs click shut (see figure 5.6).
Figure 5.6
11 Close the keyboard.
12 Press the
FEED
-key (when the power is ON) until 2 leaves of paper are fed (or until the chart is not curled anymore) and confirm that the chart is fed continuously. If not, repeat the procedure from step 4.
CAUTION
NOTE
A red band is printed at the end of the chart with the heading ‘ RENEW CHART ’ to notify you when it is time to prepare a new chart.
If you replace the chart paper compartment back into the unit without closing the front transparent chart guide, the lock tabs might be damaged.
IM 4D5B1-01E
5 - 3
5 - 4
How to install the roll chart
The following explains the method to install the optional (/H1) roll chart cassette to the
µ
R1000 recorder.
Since the way to install and remove the cassette to and from the recorder is the same as for the standard chart cassette, only the way to load the paper will be explained here.
1 Press the levers, located at the left and right side, to open the cover of the chart compartment.
lever lever
2 Remove the shaft for loading the paper in the direction of the arrow shown in the figure below.
shaft shaft
3 Insert the shaft into the center of the paper roll.
4 Insert the shaft into the chart cassette as shown below in figure a. Press the shaft into place until you hear it click. Verify that the shaft is properly installed as shown in figure b.
shaft
Verify that there isn't any gap.
figure b figure a
5 Engage the sprocket teeth of the chart guide properly in the chart paper perforation holes. Then close the cover by pressing it until the levers click into place.
pin
IM 4D5B1-01E
5.2 How to Install (& Replace) Chart, Pens, Ribbon Cassette and Battery
6 Grasp the left and right side of the transparent at the front side and open it.
7 Feed the paper through the transparent cover as shown in the figure below.
cover
8 Open the black cover located at the front side.
9 Remove the winding shaft in the direction of the arrow shown in the figure below.
IM 4D5B1-01E black cover winding shaft winding shaft
10 Wind the chart on the shaft.
Insert the tip of the chart paper into the slit of the shaft as shown in the figure below, and turn the shaft two or three times. (In case you are installing a previously used chart, prepare a tip, as similar as the one below, at the end of the chart.)
If necessary, remove old chart paper from the shaft by pulling the right part of the shaft.
When this part is removed, you can easily remove the chart paper. When re-installing this part, make sure the holes fit the tabs inside the shaft.
Gearless side
11 Insert the shaft into the chart cassette. Press the shaft into place until you hear it click.
Verify that the shaft is properly installed as shown in the figure below.
Verify that there isn't any gap.
12 Close the covers.
13 Turn the shaft one or two times in order to tighten the chart paper.
14 Insert the chart cassette into the main unit.
5 - 5
5.2.2 How to Install (& Replace) Pens and Ribbon Cassette
In case of felt-tip pens:
Normal procedure:
1 Open the front door and make sure the recording is not in progress (by pressing the
RCD
-key; power can be either ‘ON’ or ‘OFF’).
2 Swing open the display by grasping and pulling the lower left corner.
3 Grasp the protruding part of the felt-tip pen cartridge and gently pull/slide it out of the cartridge holder (see figure 5.7).
4 Remove the pen cap before replacing the cartridge with a new one.
Insert a new felt pen cartridge in the pen cartridge holder (see figure 5.7). Start with the smallest pen.
CAUTION
Pen cartridge holder
Felt pen
Pen 1 : red
Pen 2 : green
Pen 3 : blue
Pen 4 : violet
Figure 5.7
5 To (re)start the recording, press the RCD -key.
2nd procedure when the pens are located at a place where it is difficult to replace them:
1 Open the front door and make sure the recording is not in progress (by pressing the
RCD -key; power must be ‘ON’).
2 Press the MENU -key. Use the UP/DOWN -keys to select the display ‘ MENU=FUNC ’.
Press the ENT -key.
3 Use the UP/DOWN -keys to select the display ‘ CHANGE PEN ’. Press the ENT -key.
The pens will move to 40% of the chart, where it is easy to replace them. Note that this will leave a line on the chart.
4 Handle as described in ‘Normal procedure’, steps 2, 3 and 4.
5 The display ‘ PRESS ENT ’ will appear. After finishing, press the ENT -key.
6 To (re)start the recording, press the RCD -key.
To protect the pens and the internal mechanism, never grasp the pen tip nor apply excessive force to the cartridge holder. Always make sure to remove the pen cap.
5 - 6
IM 4D5B1-01E
5.2 How to Install (& Replace) Chart, Pens, Ribbon Cassette and Battery
In case of plotter pen:
1 Open the front door and make sure the recording is not in progress (by pressing the
RCD
-key; power can be either ‘ON’ or ‘OFF’).
2 Swing open the display at the lower left corner.
3 While grasping the plotter holder, gently slide the plotter out of the holder (see figure
5.8).
4 Remove the pen cap and insert a new plotter pen in the holder (see figure 5.8).
If it is difficult to replace the plotter pen, try the 2nd procedure as described above.
Pen holder
Plotter pen
Figure 5.8
In case of the ribbon cassette:
1 Open the front door and make sure the power is OFF.
2 Swing open the display by grasping and pulling the lower left corner.
3 Hold the back section of the carriage assembly and move the assembly to the right.
4 Press the left lock tab to the left and use the lower left part of the cassette as a handle to pull it out of the holder. See figure 5.9.
Lock tabs
Ribbon cassette
CAUTION
Printer carriage
Figure 5.9
5 Insert the right side of the new ribbon cassette into the cassette holder. Make sure the lock tabs are shut correctly.
6 Insert the left side of the ribbon cassette into the cassette holder (clicking it into its place). If the ribbon cassette does not click into its place easily, adjust the ribbon feeding knob so that the peg fits the hole.
7 If necessary, turn the ribbon feeding knob to stretch/tighten the ribbon.
If the ribbon cassette is not inserted correctly:
• data may be printed in the wrong color
• ribbon edge is used to print out data, which damages the ribbon.
IM 4D5B1-01E
5 - 7
5.2.3 How to Replace the Battery
The ‘
BAT
’ indicator on the VFD-display can either remain illuminated or flash.
In case of illumination, the lithium battery needs to be replaced. However, this battery will last for ten years under normal operation conditions. For replacement, please contact the nearest Sales & Service Office. Addresses may be found on the back cover of this manual.
In case of flashing, you have to replace your IC Memory Card battery (option).
In case of replacement, please refer to the IC Memory Card Instruction Manual IM
4D5B1-30E.
To avoid injury, never replace the lithium battery yourself.
WARNING
5 - 8
IM 4D5B1-01E
5.3 Basic Operation (Operation Mode)
5.3 Basic Operation (Operation Mode)
5.3.1 How to Start/Stop the Recording
Pressing the
RCD
-key will cause the recording to start or stop. However, if the Start/
Stop function is controlled by remote control, this key will not work.
(For the status of the initial recording settings, see 6.5)
5.3.2 How to Feed the Chart
The paper can be fed by operating the FEED -key. The paper will be fed as long as the
FEED -key is pressed.
5.3.3 How to Get a Manual Printout
A manual printout contains:
• date & time
• channel number or tag / type of occured alarm / latest measured values / units (for all channels)
To get a manual printout, press the
-key, and the ‘
MAN START
’ display will appear. Then press the
ENT
-key.
When the writing of this printout starts, the display will return to the previous one.
When the writing of this printout is finished, the manual printout function is cancelled automatically and the
µ
R1000 returns to the recording previously in progress.
When you want to cancel the manual printout function while in progress, press the
-key again, and the display ‘
MAN STOP
’ will appear. Press the
ENT
-key, and the instrument returns to the recording previously in progress.
During the writing of the manual printout, the analog recording will stop. However, scanning of the input and detection of alarms will still continue. When alarms occur during the manual printout, the printing of these alarms will be done after the analog recording (re)starts.
Figure 5.10a Manual Printout Example in case of Pen Model
Figure 5.10b Manual Printout Example in case of Dot Model
IM 4D5B1-01E
5 - 9
5.3.4 How to Get a List Printout
A list printout contains:
• date, time and chart speed (1 & 2) and in case of dot model, trend recording interval
• Ch.No. / tag / range / span / scaling values / unit
• type of alarm and values, zone values, partial values, periodic printout ON/OFF
• contents of messages (for all channels).
To get a list printout, press the
-key, select ‘
LIST START
’ using the
key and press the
ENT
-key.
When the writing of this printout starts, the display will return to the previous one.
When the writing of this printout is finished, this list printout function is cancelled automatically and the
µ
R1000 returns to the recording previously in progress.
When you want to cancel this list printout function while in progress, press the
key again, and the display ‘
LIST STOP
’ will appear. Press the
ENT
-key and the
µ
R1000 returns to the recording previously in progress.
During the writing of the list printout, the analog recording will stop. However, scanning of the input and detection of alarms will still continue. When alarms occur during this printout, the printing of these alarms will be done after the analog recording
(re)starts.
5 - 10
Figure 5.11a List Printout Example in case of Pen Model
IM 4D5B1-01E
5.3 Basic Operation (Operation Mode)
IM 4D5B1-01E
Figure 5.11b List Printout Example in case of Dot Model
5 - 11
5.3.5 How to Get a SET UP List Printout
A SET UP list printout contains:
• initial settings; analog recording
• initial settings; digital printing
• initial settings; alarms
• initial settings; burnout, RJC and others
• initial settings; options, if installed.
To get the SET UP list printout, proceed as follows:
Press the
MENU
-key and select the ‘
MENU=FUNC
’ display using the
UP/DOWN
keys. Then press the
ENT
-key. Select the ‘
PR S/U LIST
’ display using the
UP/
DOWN
-keys. Press the
ENT
-key, and the printing will start.
When the writing of this printout starts, the display will return to the previous one.
When the writing of this printout is finished, this SET UP list printout function is cancelled automatically and the
µ
R1000 returns to the recording previously in progress.
When you want to cancel this SET UP list printout function while in progress, press the
MENU
-key again, select the ‘
MENU=FUNC
’ display and press the
ENT
-key. Then the
‘
STOP S/U L
’ display will appear and press the
ENT
-key. The
µ
R1000 returns to the recording previously in progress.
During the writing of the SET UP list printout, the analog recording will stop.
However, scanning of the input and detection of alarms will still continue. When alarms occur during this printout, the printing of these alarms will be done after the analog recording (re)starts.
5 - 12
Figure 5.12a SET UP List Printout Example in case of Pen Model
IM 4D5B1-01E
5.3 Basic Operation (Operation Mode)
Figure 5.12b SET UP List Printout Example in case of Dot Model
IM 4D5B1-01E
5 - 13
5.3.6 How to Get a Message Printout
The contents of a message must be entered first.
To set or change a message, see Section 8.2.3.
To get a message printed on the chart, proceed as follows:
Press the MENU -key and select the ‘ MENU=FUNC ’ display using the UP/DOWN keys. Then press the ENT -key.
Select the ‘ PR MESSAGE ’ display using the UP/DOWN -keys. Press the ENT -key, and select which message you want to print out, since up to five messages can be set.
Press the ENT -key and the printing will start.
Note that no messages will be printed when the chart speed exceeds 1500 mm/h in case of the pen model or 100 mm/h in case of the dot model, or when recording is OFF.
When the writing of this printout starts, the display will return to the previous one.
When the writing of this printout is finished, the
µ
R1000 returns to the recording previously in progress.
You cannot cancel this printout once started.
Messages can be triggered by the keyboard, as described above, and by remote control
(option). When several messages are triggered by remote control in a short time, they will be stored in a buffer memory before printing on the chart. It is possible to clear this buffer, which can be useful for example in case the printing will take too much time.
When the buffer is full, this will be indicated by an asterisk ( ) in the latest message printout. As a result the next message is lost and will not be printed.
To clear the buffer memory, proceed as follows:
Press the MENU -key.
Select the display ‘ MENU=FUNC ’ using the UP/DOWN -keys. Press the ENT -key.
Select the display ‘ CLR MSG BUF ’ using the UP/DOWN -keys. Press the ENT -key.
The buffer is cleared. The display will return to the previous one used.
Figure 5.13a Message Printout Example in case of Pen Model
Figure 5.13b Message Printout Example in case of Dot Model
NOTE
The
µ
R1000 will store up to 5 messages in a buffer memory, regardless whether recording is ON or OFF. If more messages are generated, the new ones will not be kept in the buffer memory.
5 - 14
IM 4D5B1-01E
5.3 Basic Operation (Operation Mode)
5.3.7 How to Acknowledge an Alarm
When an alarm occurs, the output relays (if installed) will be activated and the alarm indicator will behave as described below (see also figure 5.14):
Non-hold Type (for hold/non-hold selection, see Sections 9.1.4 and 9.1.5): when alarm occurs: the output relay will be activated the indicator will lighten when alarm recovers: the output relay will be reset the indicator will stop lighting
Pressing the
ACK
-key has no effect.
Hold Type (for hold/non-hold selection, see Sections 9.1.4 and 9.1.5): when alarm occurs: the output relay will be activated the indicator will start flashing; however, pressing the
ACK
-key results in showing the current alarm status (alarm in progress = ON, alarm recovered = OFF) when alarm recovers: the output relay will be kept activated; however, pressing the
ACK
-key results in resetting the relay.
the indicator will keep flashing; however, pressing the
ACK
-key results in showing the current alarm status (alarm in progress =
ON, alarm recovered = OFF)
HOLD
(see 9.1.4, 9.1.5)
ACK ACK ACK
NON-HOLD
(see 9.1.4, 9.1.5)
Alarm ON
Alarm OFF
Relay set
Relay reset
Indicator flash
Indicator ON
Indicator OFF or or or
Figure 5.14
When an alarm occurs, you will see this on the display and alarm data will be printed on the chart. See figure 1.2 for an example.
When several alarms are generated in a short time, they will be stored in a buffer memory before printing on the chart. It is possible to clear this buffer, which can be useful for example in case the printing will take too much time. When the buffer is full, this will be indicated by an asterisk ( ) in the latest alarm printout. As a result the next alarm is lost and will not be printed.
To clear the buffer memory, proceed as follows:
Press the MENU -key.
Select the display ‘ MENU=FUNC ’ using the UP/DOWN -keys. Press the ENT -key.
Select the display ‘ CLR ALM BUF ’ using the UP/DOWN -keys. Press the ENT -key.
The buffer is cleared. The display will return to the previous one used.
NOTE
The
µ
R1000 will store up to 8 (pen model) or 12 (dot model) alarms in a buffer memory. If more alarms are generated, the new ones will not be kept in the buffer memory.
IM 4D5B1-01E
5 - 15
5.3.8 How to Select the Display
Five different displays can be selected. These are:
DISPLAY AUTO:
Channel number, measured values and units will appear on the display alternately.
Every channel will be shown for approximately 2 sec. If the input is greater than the upper limit of the recording span,
+
****
will appear.
If the input is less than the lower limit of the recording span,
–
****
will appear.
engineering units (3 digits)
*
1 data (6 digits) type of alarm (1 digit)
*
2 channel number (1 digit)
*1 Units are fixed for Voltage-input (mV/V) and for TC and RTD-input (
°
C/
°
F), and settable for SCL
(scale input) and SQRT (square root input).
*2 Type of alarm: H: high limit
L : low limit
R: rate-of-change on increasing signal r : rate-of-change on decreasing signal h : high difference limit l : low difference limit
DISPLAY MAN:
Channel number, measured values and units will appear on the display for a specific channel only. This display looks the same as the AUTO display (not available on 1 pen model).
DISPLAY DATE:
Date, including the year will appear on the display. Leap years are provided.
day (2 digits) month (3 digits)
DISPLAY TIME:
Time will appear on the display.
year (2 digits) hours (2 digits) seconds (2 digits) minutes (2 digits)
DISPLAY VIEW:
Status of the IC Memory Card (option) and Mathematical functions (option) will appear on the display. If the option is not installed, the display will be black. For details concerning the VIEW display, see the option manual concerning the IC Memory Card
(IM 4D5B1-30E) or the option manual concerning the mathematical functions
(IM 4D5B1-20E).
5 - 16
IM 4D5B1-01E
5.3 Basic Operation (Operation Mode)
How to select the desired display is described below.
Starting from the basic operation display, press the
MENU
-key. Select the display
‘
MENU=DISP
’ using the
UP/DOWN
-keys. Then press the
ENT
-key. You have now entered the following flow:
DISP_AUTO
DISP_MAN
DISP_DATE
DISP_TIME
DISP_VIEW
MAN CH=?
Moving between the different displays can be done by using the
UP/DOWN
-keys.
Once you selected the desired display, press the
ENT
-key (In the case of the manual display, select the channel number by using the
UP/DOWN
-keys. Then press the
ENT
key again).
After having pressed the
ENT
-key, the selected display will appear.
If you want to change the channel number while displaying the measured values on the manual display. You can change the channel number by pressing the
ENT
-key.
IM 4D5B1-01E
5 - 17
5.3.9 How to Cope with FAIL/Chart End
When equipped with this option and the chart reaches its end or a CPU-error occurs, the output relay will be activated. There is one output relay for Chart end detection, and one for FAIL detection. For the wiring, see 3.2.5.
CHART END:
When there are approx. 2cm left till chart end, the ‘CHT’ indicator will be illuminated in the display and recording will stop. To change the chart, follow the steps as explained in 5.2.1.
At the same time the output relay will be activated. This output relay is of the energizing type and this cannot be changed. See also the explanation mentioned below.
NOTE
The end of the chart is detected using infrared. Therefore, strong illumination reflecting into the recorder may affect the functioning of the chart end option.
FAIL:
When a CPU-error occurs, the output relay will be activated. This relay is of the deenergizing type and this cannot be changed. Therefore this relay will also be activated when the power is off. The activating of this relay will not be shown on the display.
See also the explanation mentioned below.
When a CPU-error occurs, contact the nearest Sales & Service Office. Addresses may be found on the back cover of this manual.
Explanation:
Chart end output relay (energize type):
NO C NC
Normal operation
NO C NC
Chart end occurs
FAIL output relay (de-energize type):
NO C NC
Power OFF
NO C NC
Normal operation
NO C NC
Chart end occurs
(FAIL)
NO C NC
Power OFF
5 - 18
IM 4D5B1-01E
5.4 How to Use the Key-lock
5.4 How to Use the Key-lock
In order to use this function, the settings for the key-lock must be set to ‘ USE ’. See
9.10.
The key-lock is located in the keyboard at the left, top side. The keyboard is disabled when the plastic key is removed from the key-hole (see figure 5.15).
Key
CAUTION
Figure 5.15 Key-lock
When you do not intend to operate the keyboard for a long time, you may lock the recorder to prevent operation by mistake. If the keys are disabled by the key-lock, you can still
• change the displays (as explained in 5.3.8)
• enter the SET UP Mode (as explained in 6.1)
• use the ESC function (as explained in 6.2).
You can set which keys will be affected by the key-lock. See 9.10.
NOTE
• If keys are disabled by the key-lock, you cannot enter the SET Mode (as explained in
6.1). Pressing the
MENU
-key for three seconds has no result.
• Remote control signals and communication signals (optional) are not affected by the key-lock.
When locking, the key must be removed from the key-hole. Keep it in a safe place. Settings cannot be changed when the key is lost.
IM 4D5B1-01E
5 - 19
6.1 Explanation of Modes
Chapter 6 HOW TO ENTER SETTINGS
This chapter describes the idea behind the settings of the
µ
R1000 Recorder. It is important to read this chapter carefully before entering or changing settings for the first time.
6.1 Explanation of Modes
To make the operation of the
µ
R1000 Recorder as easy as possible, the operation and setting are broken down into three modes. These are:
Operation Mode:
This mode is for basic operation, which is the operation on a daily basis, excluding settings. It includes operations like recording, chart feed, acknowledging alarms, printing out messages, lists and values.
When the power to the
µ
R1000 is turned ON, the recorder will be automatically in the operation mode. The operations within this mode are described in chapter 5.
SET Mode:
This mode will be used when setting parameters must be entered or changed. The parameters include not only settings of range and span, units, alarms, chart speed and clock, but also auxiliary settings which allow you to use the
µ
R1000’s many functions.
To enter the SET Mode, press the
MENU
-key for three seconds. To return to the operation mode, press the
MENU
-key for three seconds again.
The settings of range and span, units, alarms, chart speed and clock are all described in chapter 7.
The auxiliary settings (like for example zone recording settings) are all described in chapter 8.
SET UP Mode:
This mode will be used when initial settings must be changed. These settings are entered during the manufacturing of the recorder and seldom need to be changed. These settings include for example alarm relay adjustments, etc. To enter the SET UP Mode, press the
ENT
-key while turning ON the power.
Note that when you are in the SET UP Mode, the recording cannot be ON, and alarms will not be detected.
For a detailed overview of the initial settings, see 6.5.
For a description on how to perform the settings, see chapter 9.
The following figure shows the structure of modes.
Power ON
Operation
Mode
SET
Mode
Power ON while pressing the ENT-key
SET UP
Mode
MENU-key move between modes by pressing this key for three seconds escape by selecting
‘SETUP = END’ and to
STORE or ABORT
(During the SET Mode, the SET-indicator on the display will be illuminated.)
6 - 1
IM 4D5B1-01E
6.2 Concept of Setting Parameters
DISPLAY
The user interface is interactive, which means that you will be asked to enter the necessary data. All data can be entered using the keyboard. When entering data, the functions which are pictured above the actual keys are valid.
The display usually consists of two parts:
SET=
RANGE
menu to be set parameter
The parameters which need to be entered are shown in black with white letters in this manual. These parameters will flash on the actual display.
In this manual, you can also find another type of display:
1
:MODE=
menu previously set parameter
The blank means that the actual display will show your previously set data.
The display ‘* SET OK *’ will appear once all the necessary parameters have been entered succesfully. Pressing the ENT , UP , DOWN or RIGHT -key at those times will result in returning to the beginning of the same flow.
Pressing the ESC -key will result in returning to the previous level in the menu.
KEYS
The five keys on the right side of the keyboard can be used when entering data:
ESC
MENU PRINT
ALARM
ACK
FEED
ESC
MENU
ALARM
ACK
FEED
(The
MENU
-key is used to enter the SET Mode.)
The ESC-key can be used to abort the setting before the ‘*SET OK*’ display appears.
The display will return to the previous level in the menu. After the ‘*SET OK*’ display appears, pressing the ESC-key will take you to the beginning of the same setting again.
The UP/DOWN -keys can be used for moving through a menu. In the case of setting e.g.
messages or units, these keys are used to select alphanumerical characters. UP shows the next choice, DOWN shows the previous choice.
The
RIGHT
-key can be used for moving the cursor to the next digit while entering parameters (e.g. in case of 0.000). Since there is no backspace key provided, this key will move to the first digit after the last digit.
6 - 2
NOTE
In the case the decimal point is fixed, make sure to enter all digits.
Example: you entered result will be
2.
2.00
0.02 (entered value will be placed at last digit)
2.00
The ENT -key is used for keeping the set parameters. After pressing this key, you will be asked to enter the next parameters.
In the case you entered incorrect data, but haven’t pressed the ENT -key yet, use the UP/
DOWN/RIGHT -keys to correct your error.
If you have pressed the ENT -key already, press the ESC -key and enter all necessary data again.
IM 4D5B1-01E
6.3 Flow Charts
MENUS
In the paragraphs where the setting procedures are explained, you will find menus, like for example (as in chapters 7 and 8):
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
1
2
3
4
SKIP
VOLT
TC
RTD
DI
DELT
SCL
SQRT
These menus will not be shown on the actual display. These are to make clear which steps need to be taken to set that parameter. Once you are familiar with the way to operate the
µ
R1000, these menus may be sufficient to you. Note that most of the menus used in this manual show the menu of the pen model.
6.3 Flow Charts
This paragraph describes the setting flows of the three modes. These are Operation
Mode (6.3.1), SET Mode (6.3.2) and SET UP Mode (6.3.3).
6.3.1 Flow Chart of Operation Mode
This flow can be entered by pressing the corresponding function keys.
(5.3.3)
MANUAL PRINTOUT START
(5.3.4)
LIST PRINTOUT START
MANUAL PRINTOUT STOP
LIST PRINTOUT STOP
ESC
MENU
(5.3.8) DISPLAY DISPLAY_AUTO
DISPLAY_MANUAL
DISPLAY_DATE
DISPLAY_TIME
DISPLAY_VIEW
MANUAL CH=1
FUNCTION
(5.3.6)
PRINT MESSAGE
(5.3.6)
CLEAR MESSAGE BUFFER
MESSAGE No.=1
(5.3.7)
CLEAR ALARM BUFFER
(5.3.5)
PRINT SETUP LIST
(5.3.5)
STOP SETUP LIST
(5.2.2)
CHANGE PEN
(pen model only)
IM 4D5B1-01E
6 - 3
6.3.2 Flow Chart of SET Mode
This flow can be entered by pressing the MENU -key for three seconds.
(7.1)
RANGE
(7.2) ALARM
CH.No.
VOLT
TC
RTD
DI
DELTA
SCALE
SQRT
RANGE
TYPE
TYPE
DI TYPE
SPAN LEFT
SPAN LEFT
SPAN LEFT
SPAN RIGHT
SPAN RIGHT
SPAN RIGHT
REFERENCE CHANNEL
MODE RANGE
SPAN LEFT
SPAN LEFT
SPAN RIGHT
SPAN RIGHT SCALE LEFT
SCALE RIGHT
RANGE SPAN LEFT
SQRT SCALE RIGHT
SPAN RIGHT SQRT SCALE LEFT
(7.7)
CH.No.
SKIP
OPT
LEVEL(1-4)
RRJC REF. CH.
SPAN-L SPAN-R
ALARM ON/OFF TYPE VALUE RELAY ON/OFF RELAY No.
(7.3)
UNIT
CH.No.
UNIT CHARACTERS
(7.4) CHART CHART SPEED
(7.5)
CLOCK
(7.6)
COPY
DATE TIME
FROM CH? TO CH?
(not for 1 pen model)
AUX
TREND
(8.1.2) ZONE
PARTIAL
(8.1.3)
(8.2.1) PRINT
TAG
(8.2.2)
(8.2.3)
(8.3)
MESSAGE
CHART2
AUTO/FIX (dot model only)
(8.1.1)
CH.No.
CH.No.
CH.No.
CH.No.
MESSAGE 1-5
ZONE (LEFT)
PARTIAL ON/OFF
DIGITAL PRINT ON/OFF
TAG CHARACTERS
CHART SPEED2
CHARACTERS
ZONE (RIGHT)
RATE BOUNDARY
6 - 4
IM 4D5B1-01E
STORE/ABORT
6.3 Flow Charts
6.3.3 Flow Chart of SET UP Mode
This flow can be entered by turning ON the power while pressing the
ENT
-key.
(9.1)
ALARM
(9.2.1)
INTEGRATION
(9.2.2) BURNOUT
(9.2.3) RJC
(9.2.4)
(9.2.5)
(9.3.1)
FILTER
MOVING
AVERAGE
POC
(9.3.2)
COLOR
(9.4)
RECORD
REFLASH ON/OFF AND/OR RELAY
INDICATOR HOLD/NONHOLD
ENERGIZE/DE-EN RELAY HOLD/NONHOLD
SCAN R TIME
SCAN r TIME
ALARM HYSTERESIS
A/D FREQUENCY
UP/DOWN
CH.No.
CH.No.
RJC MODE
BURNOUT ON/OFF
RJC VOLT(
µ
V)
CH.No.
DIGITAL DAMPING TIME (pen model)
CH.No.
SET MOVING AVERAGE (dot model)
PEN OFFSET COMPENSATION
(pen model)
CH.No.
PURPLE, RED, GREEN, BLUE, BROWN, BLACK (dot model)
RECORD INT/EXT
CH or TAG SCALES ON/OFF SPEED ON/OFF
RCD ON/OFF
(9.5)
BAR
(9.6)
INITIALIZE
(9.7) REMOTE
(9.9)
LOCK
(11.3)
(11.4)
ADJUSTMENT
ALARM ON1/ON2/OFF DIGITAL PRINT ON/OFF STARTING TIME MODE
INTERVAL
CH.No.
NORMAL/CENTER ZERO
YES/NO
CONTACT 1-5 SELECT TYPE
USE/NOT LOCK KEYS
ZERO/FULL CH.No.
POSITION ADJUSTMENT (pen model)
ZERO/FULL/HYS POSITION ADJUSTMENT (dot model)
END
IM 4D5B1-01E
6 - 5
6.4 Setting Parameters in SET Mode
RANGE
Setting Parameters
MODE
VOLT
TC
RTD
DI
20mV
6V
R
E
W
JPT
LEVL
60mV
Values
200mV
20V
S
J
L
PT
CONT
B
T
U
2V
K
N
DC voltage input
Thermocouple input
Remarks
DELT
SCL
SQRT
VOLT
20mV
6V
TC
60mV
20V
RTD
200mV 2V
Input by Resistance Temperature Detector
Digital Input
LEVL: voltage input CONT: contact input
Differential computation
Assigning a different scale
Taking square root of measured data
ALARM
LEVEL
Alarm (ALM)
TYPE
SKIP
1
ON
H
R
2
OFF r
L
3 h l
4
Skips a channel
Alarm setting ON/OFF h and l can only be selected in combination with ‘DELT’ input.
Alarm value
Relay (RLY)
Relay No. (R.N.)
ON
I01 to I12
OFF
UNIT
CHART
CLOCK
COPY
AUX
TREND (dot model only)
ZONE
PARTIAL partial rate boundary
TAG
MESSAGE periodic printout
AUTO
FIX
ON
ON
OFF
OFF
MSG1 MSG2
MSG5
Chart speed 2
Relay 1 to 12, depending on option
Assigning unit to scales. Only possible in case of
SCL or SQRT. Max 6 characters.
Setting chart speed
Setting date and time
MSG3 MSG4
Selecting analog recording interval
Zone recording
Partial compression ON/OFF
Compression rate
Boundary value
Periodic printout ON/OFF
Tag setting, max 7 characters
Max 5 messages, each up to 16 characters
Chart speed for change-on-alarm & remote
6 - 6
IM 4D5B1-01E
6.5 List of Initial Setting Values
6.5 List of Initial Setting Values
SET Mode
RANGE
ALARM
UNIT
CHART
TREND
ZONE
PARTIAL
TAG
MESSAGE
CHART2
VOLT (–2.000V to 2.000V)
OFF all spaces
20 mm/h
AUTO
0 to 100mm
OFF
ON all spaces all spaces
20 mm/h
SET UP Mode
Function
REFLASH function
Output relay AND/OR
Output relay ENERG/DE-EN
Output relay HOLD/NONHOLD
Alarm indicator HOLD/NONHOLD
Sampling interval for rate-of-change alarm R
Sampling interval for rate-of-change alarm r
Alarm hysteresis
A/D INTEGRATION TIME
BURNOUT
BURNOUT
RJC
Filter (pen model)
Moving average (dot model)
Pen Offset Compensation (pen model)
COLOR (dot model)
REFLASH=
AND=
ALARM=
RLY=
IND=
R TIME= r TIME=
ALM HYS=
Display
INTG=
B.OUT=
B.OUT=
RJC=
FILT=
M AVE=
POC=
COLOR=
Record trigger
CH/TAG Printout
Scale Printout
New chart speed Printout
Record start time Printout
Alarm Printout
Periodic Printout
Periodic Printout Mode
Periodic Printout Interval
Bargraph
Remote control
RECORD=
CH/TAG=
SCL PR=
SPD PR=
RCD PR=
ALM PR=
DGT PR=
MODE=
INTVL=
BAR=
CONT.No.=
Key Lock
Key Lock Record key
Key Lock FEED key
Key Lock ACK key
Key Lock PRINT key
LOCK=
RCD=
FEED=
ACK=
PRINT=
Initial Value
OFF
NONE
ENERG
NONHOLD
NONHOLD
01
01
ON (approx. 0.5%)
AUTO (pen model) 100 msec (dot model)
UP
OFF for every channel
INT for every channel
OFF for every channel
OFF fot every channel
OFF
1=purple, 2=red, 3=green,
4=blue, 5=brown, 6=black
INT
CH
ON
OFF
OFF
ON1
INT, START 00:00
AUTO
1h
NORML for every channel
1=RECORD 2=CHART SPEED
3=MANUAL PR 4=MESSAGE1
5=MESSAGE2
NOT
LOCK
LOCK
LOCK
LOCK
IM 4D5B1-01E
6 - 7
7.1 How to Set Input Range and Recording Span
Chapter 7 BASIC SETTINGS
This chapter explains how to perform the settings of:
(Initial values are given in parentheses.)
7.1 Input range and recording span (VOLT, –2V to +2V)
7.2 Alarms (OFF)
7.3 Units (all spaces)
7.4 Chart speed (20 mm/h)
7.5 Clock
The last paragraph (7.6) explains how settings can be copied to other channels.
7.1 How to Set Input Range and Recording Span
One of the following parameters can be set for every channel:
SKIP
Prevents the specified channel from being measured, recorded and displayed
(7.1.1).
VOLT
Measures and records DC-voltage (7.1.2).
TC
Measures and records temperatures using Thermocouple (7.1.3).
RTD
Measures and records temperatures using Resistance Temperature Detector
DI
(7.1.3).
Accepts Digital Input (contact/voltage level) and performs ON/OFF recording (7.1.4).
DELT
Performs difference computation between two channels which have same
SCL input range (7.1.5).
Performs scaling on voltage, TC and RTD measurements (7.1.6).
Scaling results in appending a different scale to the measured values.
SQRT
Takes the square root ( ) of DC-voltage measured data (7.1.7).
IM 4D5B1-01E
7 - 1
7.1.1 SKIP Setting
Unused channels can be skipped, which means that these channels will not be measured, recorded or displayed.
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
1
2
3
4
SKIP
VOLT
TC
RTD
DI
DELT
SCL
SQRT
ESC
MENU
3 sec
ALARM
ACK
ALARM
ACK
SETTING PROCEDURE:
SET= RANGE
Press the MENU-key for three seconds to enter the SET mode.
Select the ‘
SET=RANGE
’ display by using the
UP/DOWN
-keys.
Then press the
ENT
-key.
1 :MODE=
Use the
UP/DOWN
-keys to select the desired channel.
Press the
ENT
-key.
ALARM
ACK
1:MODE= SKIP
Use the
UP/DOWN
-keys to select ‘
SKIP
’.
Press the
ENT
-key.
ESC
MENU
3 sec
*
SET OK
*
The setting is completed.
Press the
ENT
-key to return to the ‘
1:MODE=SKIP
’ display; or press the
ESCkey to go to the ‘
SET=RANGE
’ display; or press the
MENUkey for three seconds to return to the Operation mode.
7 - 2
IM 4D5B1-01E
7.1 How to Set Input Range and Recording Span
7.1.2 Voltage Measurement Setting (VOLT Setting)
In the case that the measured signal is a DC-voltage, the range can be set as follows:
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
3
4
1
2
SKIP
VOLT
TC
RTD
DI
DELT
SCL
SQRT
RANGE
2V
SPAN-L
0.000
SPAN-R
2.000
ESC
MENU
3 sec
ALARM
ACK
SETTING PROCEDURE:
SET= RANGE
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=RANGE ’ display by using the UP/DOWN -keys.
Then press the ENT -key.
ALARM
ACK
ALARM
ACK
ALARM
ACK
ALARM
ACK
FEED
ALARM
ACK
FEED
ESC
MENU
3 sec
1 :MODE=
Use the UP/DOWN -keys to select the desired channel.
Press the ENTkey.
1:MODE= VOLT
Use the UP/DOWN -keys to select ‘ VOLT ’.
Press the ENT -key.
*
1:RNG= 2V
1:L= 0.000
1:R= 2.000
SET OK
*
Select the desired range using the UP/DOWN -keys and press the
ENT -key.
Table 7.1 VOLT Input Ranges
Display
20mV
60mV
200mV
2V
6V
20V
Range
-20.00 to 20.00mV
-60.00 to 60.00mV
-200.0 to 200.0mV
-2.000 to 2.000V
-6.000 to 6.000V
-20.00 to 20.00V
Select the minimum value of the recording span (SPAN L) using the
UP/DOWN
and
RIGHT
-keys. Then press the
ENT
-key.
The display which appears will allow you to enter the maximum value of the recording span (SPAN R). Select it the same way as for the minimum value and press the
ENT
-key.
Note that the recording span cannot be beyond the input range, nor can SPAN L be equal to SPAN R.
The setting is completed.
Press the
ENT
-key to return to the ‘
1:MODE=VOLT
’ display; or press the
ESC
-key to go to the ‘
SET=RANGE
’ display; or press the
MENU
-key for three seconds to return to the Operation mode.
IM 4D5B1-01E
7 - 3
7.1.3 Thermocouple and Resistance Temperature Detector Setting
(TC, RTD Setting)
In the case that the measured signal is a TC (Thermocouple) or RTD (Resistance
Temperature Detector) the range can be set the same way as if it were a DC-voltage.
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
3
4
1
2
SKIP
VOLT
TC
RTD
DI
DELT
SCL
SQRT
TYPE
N
SPAN-L
0.0
SPAN-R
800.0
ESC
MENU
3 sec
ALARM
ACK
SETTING PROCEDURE:
SET= RANGE
Press the
MENU
-key for three seconds to enter the SET mode.
Select the ‘
SET=RANGE
’ display by using the
UP/DOWN
-keys.
Then press the
ENT
-key.
ALARM
ACK
ALARM
ACK
1 :MODE=
1:MODE= TC
Use the
UP/DOWN
-keys to select the desired channel.
Press the
ENT
-key.
Use the
UP/DOWN
-keys to select ‘
TC
’, or ‘
RTD
’.
Press the
ENT
-key.
ALARM
ACK
ALARM
ACK
FEED
1:TYPE= N
1:L= 0.0
1:R= 800.0
Select the desired type (R, S, B, K, E, J, T, N, W, L, U in case of
TC, or PT, JPT in case of RTD) using the
UP/DOWN
-keys and press the
ENT
-key.
Table 7.2 TC Type Description and RTD Type Description
TC Type Description
R
S
B
K
E
J
T
N
W
L (Fe-CuNi)
U (Cu-CuNi)
PLT (PRATINEL)*1
PR (PR40-20)*1
Range
0.0 to 1760.0
°
C
0.0 to 1760.0
°
C
0.0 to 1820.0
°
C
–200.0 to 1370.0
°
C
–200.0 to 800.0
°
C
–200.0 to 1100.0
°
C
–200.0 to 400.0
°
C
0.0 to 1300.0
°
C
0.0 to 2315.0
°
C
–200.0 to 900.0
°
C
–200.0 to 400.0
°
C
0.0 to 1400.0
°
C
0.0 to 1900.0
°
C
32 to 3200
°
F
32 to 3200
°
F
32 to 3308
°
F
–328 to 2498.0
°
F
–328.0 to 1472.0
°
F
–328.0 to 2012.0
°
F
–328.0 to 752.0
°
F
32 to 2372
°
F
32 to 4199
°
F
–328.0 to 1652.0
°
F
–328.0 to 752.0
°
F
32 to 2552
°
F
32 to 3452
°
F
*1: For /N1 model
RTD Type Description
PT (pt100
Ω
)
JPT (Jpt100
Ω
)
JP50 (JPt50
Ω
)*1
CU1 to 6 (Cu10
Ω
)*2
CU25 (Cu25
Ω
)*2
*1: For /N3 model
Range
–200.0 to 600.0
°
C
–200.0 to 550.0
°
C
–200.0 to 600.0
°
C
–200.0 to 300.0
°
C
–200.0 to 300.0
°
C
–328.0 to 1112.0
°
F
–328.0 to 1022.0
°
F
–328.0 to 1112.0
°
F
–328.0 to 572.0
°
F
–328.0 to 572.0
°
F
*2: For /N1 model
The Pt and JPt type can’t be set together with the Cu types.
Cu1: Cu10
Ω
GE
Cu2: Cu10
Ω
L&N
Cu3: Cu10
Ω
WEED
Cu4: Cu10
Ω
BAILAY
Cu5: Cu10
Ω α
=0.0392 at 20
°
C
Cu6: Cu10
Ω α
=0.0393 at 20
°
C
Cu25: Cu25
Ω α
=0.00425 at 0
°
C
Select the desired minimum value (SPAN L) and maximum value of the recording span (SPAN R) in the same way as described under ‘ VOLT setting ’.
Note that the recording span cannot be beyond the input range, nor can SPAN L be equal to SPAN R.
ESC
MENU
3 sec
*
SET OK
*
The setting is completed.
Press the ENT -key to return to the ‘1:MODE=TC ’ display; or press the ESC -key to go to the ‘ SET=RANGE ’ display; or press the MENU -key for three seconds to return to the Operation mode.
NOTE
There is no need to set the temperature unit in case of TC or RTD input, since
°
C will be automatically provided. To change the setting of the temperature unit, which can only be changed in the SET UP Mode, see 9.6.
7 - 4
IM 4D5B1-01E
7.1 How to Set Input Range and Recording Span
7.1.4 Digital Input Setting (DI Setting)
If a Digital Input (contact input/voltage level input) is being used, the setting can be done as follows:
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
1
2
3
4
SKIP
VOLT
TC
RTD
DI
DELT
SCL
SQRT
TYPE
LEVL
ESC
MENU
3 sec
ALARM
ACK
SETTING PROCEDURE:
SET= RANGE
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=RANGE ’ display by using the UP/DOWN -keys.
Then press the ENT -key.
ALARM
ACK
ALARM
ACK
1 :MODE=
1:MODE= DI
Use the UP/DOWN -keys to select the desired channel.
Press the ENT -key.
Use the UP/DOWN -keys to select ‘ DI ’.
Press the ENT -key.
ALARM
ACK
1:TYPE= LEVL
There are two types, namely LEVEL and CONTACT.
LEVL : (VOLT) Records ON/OFF status of a voltage input (0 to 2.4V is OFF (0), 2.4V and higher is ON
(1)).
CONT : (Contact) Records ON/OFF status of a contact (close is
ON (1), open is OFF (0)).
Select the desired type using the UP/DOWN -keys and press the
ENT -key.
ESC
MENU
3 sec
*
SET OK
*
The setting is completed.
Press the ENT -key to return to the ‘ 1:MODE=DI ’ display; or press the ESC -key to go to the ‘ SET=RANGE ’ display; or press the
MENU -key for three seconds to return to the Operation mode.
NOTE
The above mentioned selections will result in a recording trace from 0mm to 100mm between the contact statuses OFF and ON, which is from the extreme left side of the chart to the extreme right side. If desired, a zone for the ON/OFF recording can be set.
See 8.1.2.
IM 4D5B1-01E
7 - 5
7.1.5 Difference Computation Setting (DELT Setting)
To obtain the difference between the measured values of two channels, proceed as follows. Note that this setting can only be applied if the reference channel is of the
VOLT, TC or RTD type.
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
1
2
3
4
SKIP
VOLT
TC
RTD
DI
DELT
SCL
SQRT
REF CH
1
SPAN-L
-2.000
SPAN-R
2.000
ESC
MENU
3 sec
ALARM
ACK
SETTING PROCEDURE:
SET= RANGE
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=RANGE ’ display by using the UP/DOWN -keys.
Then press the ENT -key.
7 - 6
ALARM
ACK
ALARM
ACK
ALARM
ACK
ALARM
ACK
FEED
ALARM
ACK
FEED
ESC
MENU
3 sec
2 :MODE=
2:MODE= DELT
Use the UP/DOWN -keys to select the desired channel.
Note that channel No.1 cannot be of the ‘ DELT ’ type.
Press the ENT -key.
Use the UP/DOWN -keys to select ‘ DELT ’.
Press the ENT -key.
2:REF CH= 1
*
2:L= -2.000
2:R= 2.000
SET OK
*
The display which appears will allow you to enter a reference channel number. Note that the reference channel number must be lower than that of the channel being set. Therefore channel No.1
cannot be of the ‘ DELT ’ type.
Use the UP/DOWN -keys to select the desired reference channel number.
Press the ENT -key.
The display which appears will show the same minimum value of the recording span as of the reference channel.
Use the UP/DOWN and RIGHT -keys to select the minimum value.
Press the ENT -key.
Note that in case of VOLT, the input range of the DELT-channel must be within the range of the reference channel. The difference in measured value from the reference channel will be recorded on the DELT-channel.
The display which appears will show the same maximum value of the recording span as of the reference channel.
Use the UP/DOWN and RIGHT -keys to select the maximum value. Note that SPAN L cannot be equal to SPAN R.
Press the ENT -key.
Note that in case of TC, RTD, the maximum span values can be found by taking the
± value of the input range width. E.g. input range of TC type L = –200 to 900
°
C: maximum span values will be at
±
1100
°
C.
The setting is completed.
Press the ENT -key to return to the ‘ 2:MODE=DELT ’ display, or press the ESC -key to go to the ‘SET=RANGE’ display; or press the MENU -key for three seconds to return to the Operation mode.
IM 4D5B1-01E
7.1 How to Set Input Range and Recording Span
7.1.6 Scale Setting (SCL Setting)
To assign a different scale to the measured data, the range can be set as described below. Note that the measured data which can get a different scale must be of the voltage (VOLT), Thermocouple (TC) or Resistance Temperature Detector (RTD) type.
To assign a unit to this new scale, refer to UNIT setting (7.3).
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
1
2
3
4
SKIP
VOLT
TC
RTD
DI
DELT
SCL
SQRT
MODE
VOLT
RANGE
2V
SPAN-L
0.000
SPAN-R
2.000
SCL-L
-100.0
SCL-R
100.0
ESC
MENU
3 sec
ALARM
ACK
ALARM
ACK
SETTING PROCEDURE:
SET= RANGE
Press the
MENU
-key for three seconds to enter the SET mode.
Select the ‘
SET=RANGE
’ display by using the
UP/DOWN
-keys.
Then press the
ENT
-key.
1 :MODE=
Use the
UP/DOWN
-keys to select the desired channel.
Press the
ENT
-key.
ALARM
ACK
ALARM
ACK
ALARM
ACK
1:MODE= SCL
Use the
UP/DOWN
-keys to select ‘
SCL
’.
Press the
ENT
-key.
1:MOD'= VOLT
Select the input type using the
UP/DOWN
-keys and press the
ENT
-key.
1:RNG= 2V
Select the desired range (using the
UP/DOWN
-keys) and press the
ENT
-key.
ALARM
ACK
FEED
1:L= 0.000
The display which appears will allow you to enter the minimum value of the recording span. Select the desired minimum value using the
UP/DOWN
and
RIGHT
-keys. Then press the
ENT
-key.
ALARM
ACK
FEED
ALARM
ACK
FEED
ALARM
ACK
FEED
ESC
MENU
3 sec
1:R= 2.000
1:l= -100.0
1:r= 100.0
*
SET OK
*
The display which appears will allow you to enter the maximum value of the recording span. Select it the same way as the minimum value and press the
ENT
-key. Note that the decimal point will be in the same position as for SPAN L. SPAN L and
SPAN R cannot be same.
This display allows you to enter the minimum value of the scale corresponding to the minimum value of the recording span. Select it using the
UP/DOWN
and the
RIGHT
-keys. Note that the allowable range is –20000 to 20000. Then press the
ENT
-key.
This display allows you to enter the desired maximum value of the scale corresponding to the maximum value of the recording span.
Select it the same way as the minimum value. Then press the
ENT
-key. Note that the decimal point will be in the same position as for SCL L. SCL L and SCL R cannot be same.
The setting is completed.
Press the
ENT
-key to return to the ‘
1:MODE=SCL
’ display; or press the
ESC
-key to go to the ‘
SET=RANGE
’ display; or press the
MENU
-key for three seconds to return to the Operation mode.
IM 4D5B1-01E
NOTE
In this example, 0.000V input will be scaled to –100.0. 2.000V input will be scaled to 100.0.
7 - 7
7.1.7 Setting to Obtain Square Root (SQRT Setting)
To obtain the square root of the measured value, proceed as follows:
Note that the measured data of which the square root can be taken, can only be of the voltage type. To assign a unit, refer to UNIT setting (7.3).
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
1
2
3
4
SKIP
VOLT
TC
RTD
DI
DELT
SCL
SQRT
RANGE
2V
SPAN-L
0.000
SPAN-R
2.000
SQRT SCL-l
-2000.0
SQRT SCL-r
2000.0
ESC
MENU
3 sec
ALARM
ACK
SETTING PROCEDURE:
SET= RANGE
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=RANGE ’ display by using the UP/DOWN -keys.
Then press the ENT -key.
ALARM
ACK
ALARM
ACK
ALARM
ACK
ALARM
ACK
FEED
ALARM
ACK
FEED
ALARM
ACK
FEED
ALARM
ACK
FEED
ESC
MENU
3 sec
1 :MODE=
Use the UP/DOWN -keys to select the desired channel.
Press the ENT -key.
1:MODE= SQRT
Use the UP/DOWN -keys to select ‘ SQRT ’.
Press the ENT -key.
1:R= 2.000
1:l= -2000.0
*
1:RNG= 2V
1:L= 0.000
1:r= 2000.0
SET OK
*
Select the desired range (using the UP/DOWN -keys) and press the
ENT -key.
The display which appears will allow you to enter the minimum value of the recording span. Select the desired minimum value using the UP/DOWN and RIGHT -keys. Then press the ENT -key.
The display which appears will allow you to enter the maximum value of the recording span. Select it the same way as for the minimum value and press the ENT -key. Note that the decimal point will be in the same position as for SPAN L. SPAN L and
SPAN R cannot be same.
This display allows you to enter the minimum value of the scale corresponding to the minimum value of the recording span. Select it using the UP/DOWN and the RIGHT -keys. Note that the allowable range is –20000 to 20000. Then press the ENT -key.
This display allows you to enter the maximum value of the scale corresponding to the maximum value of the recording range.
Select it the same way as for the minimum value. Then press the
ENT -key. Note that the decimal point will be in the same position as for SCL l. SCL l and SCL r cannot be same.
The setting is completed.
Press the ENT -key to return to the ‘ 1:MODE=SQRT ’ display; or press the ESC -key to go to the ‘ SET=RANGE ’ display; or press the MENU -key for three seconds to return to the Operation mode.
7 - 8
IM 4D5B1-01E
IM 4D5B1-01E
7.1 How to Set Input Range and Recording Span
EXPLANATION OF SQUARE ROOT:
The
µ
R1000 uses the following square rooting-method:
Let us define the items as follows:
V
min
= minimum value of recording span (SPAN L)
V
max
= maximum value of recording span (SPAN R)
F
min
= minimum value of scale (SQRT SCL l)
F
max
= maximum value of scale (SQRT SCL r)
V
x
= input voltage
F
x
= scaling value
The relationship between V
x
(input voltage) and F
x
(scaling value) is as shown in the graph below (the graph configuration is approximate).
F
F max c b
(F max
- F min
) x 10%
F min a b'
- V min
) x 1%
V
V min
V max
Between b and c in the graph, the following relation exists between F
x
and V
x
:
F = (F - F ) + F
max min min
And between a and b, the relation is:
F = (V - V ) + F
max min min min
7 - 9
7.2 How to Set Alarms
Alarms can be set on the measured data of any channel.
If an alarm is set, and an alarm occurs, the ALM indicator will be illuminated and alarm printout will occur.
If equipped with the optional alarm output relays, these will be activated by the occurence of an alarm.
Up to four alarm levels can be set per channel.
Six types of alarms are available. These are: r
H
L
R
High limit alarm: alarm is generated when the measured value is higher than, or equal to, the alarm value.
Low limit alarm: alarm is generated when the measured value is lower than, or equal to, the alarm value.
Rate-of-change limit on increase: high alarm is generated when the measured value variation in the ascending direction during a selected interval is greater than, or equal to, the alarm setting.
Rate-of-change limit on decrease: low alarm is generated when the measured value variation in the descending direction during a selected interval is greater than, or equal to, the alarm setting.
R alarm
Measured
value
T
2
Measured
value
T
1
Variation
T -T
1
T
2
Variation
1
T
1 l t
1 t
2
Time t
1 t
2
Selected interval (Note)
1
Selected interval (Note)
1
Note: the selected interval is determined during rate-of-change alarm set-up. See 9.1.6.
r alarm
Time h
Difference high-limit alarm: alarm is generated when the difference between the measured values of two channels is more than the alarm setting. (This type of alarm can only be set when the corresponding channel is of the DELT-type.)
Difference low-limit alarm: alarm is generated when the difference between the measured values of two channels is less than the alarm setting. (This type of alarm can only be set when the corresponding channel is of the DELT-type.)
NOTE
Alarm settings are automatically canceled on the affected channel, when any of the following changes occur:
• the input type (VOLT, TC, etc.) or input range (2V, etc.) is changed.
• decimal point for linear scaling and square root is changed.
• minimum or maximum value of the recording span is changed (in case of linear scaling and square root).
• minimum or maximum value of the scale is changed (in case of linear scaling and square root).
Difference alarm settings (h, l) are canceled when any of the following changes occur:
• the reference channel is changed.
• the input type or range of the reference channel is changed.
7 - 10
IM 4D5B1-01E
ESC
MENU
3 sec
ALARM
ACK
7.2 How to Set Alarms
The initial value is ‘
OFF
’ for all channels and all levels.
To set an alarm, proceed as follows:
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
1
2
3
4
LEVEL
1
ALARM ON/OFF
ON
TYPE
H
VALUE
2.000
RELAY ON/OFF
ON
RELAY No.
I01
SETTING PROCEDURE:
SET= ALARM
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=ALARM ’ display by using the UP/DOWN -keys.
Then press the ENT -key.
ALARM
ACK
ALARM
ACK
1 :LEVEL=
1:LEVEL= 1
Select the desired channel using the UP/DOWN -keys, and press the ENT -key.
Select the desired level of the alarm using the UP/DOWN -keys.
Up to four levels can be set. Then press the ENT -key.
ALARM
ACK
ALARM
ACK
ALARM
ACK
FEED
ALARM
ACK
ALARM
ACK
1/1:ALM= ON
1/1:TYPE= H
1/1: 2.000
1/1:RLY= ON
1/1:R.N= I01
Select the status of the alarm (ON or OFF) by using the UP/
DOWN -keys. Initially all are set to OFF. Then press the ENT -key.
When OFF is selected, setting is completed. Alarms cannot be set for a SKIP or DI channel.
The display which appears will allow you to enter the type of alarm. Six types are available. After selection by using the UP/
DOWN -keys, press the ENT -key. h, l will appear only if the corresponding channel is of the DELT -type.
The display which appears will allow you to enter the alarm value.
Set the alarm value using the UP/DOWN and RIGHT -keys. After setting, press the ENT -key.
The display which appears will allow you to specify whether an output relay should be activated (ON) or not (OFF). Note that output relays are optional (/A1, 2 or 3). If the option is not installed, data entry will be ignored. After selection, using the UP/
DOWN -keys, press the ENT -key.
The display which appears will prompt you to specify the output relay number. Up to 12 output relays I01 to I12 can be specified, depending on the option.
Note that when you specify a relay, with which your
µ
R1000 is not equipped, data entry will be ignored.
Select by using the UP/DOWN -keys and press the ENT -key.
ESC
MENU
3 sec
*
SET OK
*
The setting is completed.
Press the ENT -key to return to the ‘ 1:LEVEL=1 ’ display; or press the ESC -key to go to the ‘ SET=ALARM ’ display; or press the
MENU -key for three seconds to return to the Operation mode.
NOTE
Provided that your
µ
R1000 is equipped with the Remote Control /R1 option and the
/A1, 2 or 3 option, the chart speed can be changed when an alarms occurs. See 8.3.
The alarm relay can be of 2 types, the ‘HOLD’ type and ‘NON-HOLD’ type. See 9.1.4.
IM 4D5B1-01E
7 - 11
7.3 How to Assign Units
When you are using scaling (SCL) or the square root setting (SQRT), it is possible to assign a different unit to the scales. Up to six characters can be set. Note that only three characters will be shown on the display, but all six will be printed on the chart.
The initial value is all spaces. To set, proceed as follows:
ESC
MENU
3 sec
ALARM
ACK
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
1
2
3
4
CHARACTERS
Kg
SETTING PROCEDURE:
SET= UNIT
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=UNIT ’ display by using the UP/DOWN -keys.
Then press the ENT -key.
ALARM
ACK
ALARM
ACK
FEED
1 :UT=
1:UT= Kg
Specify the desired channel using the UP/DOWN -keys, and press the ENT -key. If the selected channel is not of the SCL or SQRTtype, data entry will be ignored.
Type the desired unit (up to six characters) using the UP/DOWN and RIGHT -keys. Press the ENT -key. Refer to table 7.3.
ESC
MENU
3 sec
*
SET OK
*
The setting is completed.
Press the
ENT
-key to return to the ‘
1:UT=Kg
’ display; or press the
ESC
-key to go to the ‘
SET=UNIT
’ display; or press the
MENU
-key for three seconds to return to the Operation mode.
Table 7.3 Characters
A
-key
B
K L
-key o y
8
U e
.
f
V p z
9
° q
0
#
µ
C D E
M N O
W X g h i
Y r s
1 2
%
(
Ω
Ω t j
Z
3
)
F
P
G
Q a k u
4
+ v
5
l b
H I
R S c d m n
J
T w x
6
*
/
7
7 - 12
IM 4D5B1-01E
7.4 How to Set the Chart Speed
7.4 How to Set the Chart Speed
The chart speed can be set within a range of 1 to 12000 mm/h, depending on your model. The initial value is 20 mm/h. To set the chart speed, proceed as follows:
ESC
MENU
3 sec
ALARM
ACK
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
SPEED
1000
SETTING PROCEDURE:
SET= CHART
Press the
MENU
-key for three seconds to enter the SET mode.
Select the ‘
SET=CHART
’ display by using the
UP/DOWN
-keys.
Then press the
ENT
-key.
ALARM
ACK
mm/h= 1000
In case of the pen model, select the desired chart speed using the
UP/DOWN
-keys, and press the
ENT
-key. The different possible chart speeds are listed below in table 7.4.
In case of the dot model, set the desired chart speed using the
UP/
DOWN
and
RIGHT
-keys, and press the
ENT
-key.
Check in table 7.5 that all the printouts will be printed as expected.
Table 7.4 Chart Speeds in mm/h (pen model)
5
24
60
135
320
720
1500
3600
10800
6
25
64
150
360
750
1600
4000
12000
8
30
72
160
375
800
1800
4320
9
32
75
180
400
900
2000
4500
10
36
80
200
450
960
2160
4800
12
40
90
225
480
1000
2250
5400
15
45
96
240
500
1080
2400
6000
16
48
100
250
540
1200
2700
7200
18
50
120
270
600
1350
2880
8000
20
54
125
300
675
1440
3000
9000
Table 7.5 Chart Speeds for which Printouts will not be Performed
Model Periodic Printout
Alarm Printout/Message Printout/
Recording Start/Chart Speed Change
pen model 5 to 9 mm/h, 1600 to 12000 mm/h
1600 to 12000 mm/h dot model 1 to 9 mm/h, 101 to 1500 mm/h
101 to 1500 mm/h
ESC
MENU
3 sec
*
SET OK
*
The setting is completed.
Press the ENT -key to return to the ‘ mm/h=1000 ’ display; or press the ESC -key to go to the ‘ SET=CHART ’ display; or press the
MENU -key for three seconds to return to the Operation mode.
NOTE
Setting the chart speed which goes into effect following a remote control signal (/R1 option), or following an alarm occurrence (/A1, 2 or 3 option + /R1 option), is performed under the AUX-settings. See 8.3.
If the chart speed is high (600 to 1500 mm/h) in case of the pen model, the time tick in the periodic printout will contain an error (e.g. if speed is 1500 mm/h, error will be approx. 2cm).
If you selected a chart speed of 1 to 5 mm/h in case of the dot model, select AUTO for the trend recording format to prevent chart paper damage (see 8.1.1).
IM 4D5B1-01E
7 - 13
7.5 How to Set the Clock
To set the date and the time of the internal clock, proceed as follows:
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
DATE
92/06/30
TIME
13:30:00
ESC
MENU
3 sec
ALARM
ACK
SETTING PROCEDURE:
SET= CLOCK
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=CLOCK ’ display by using the UP/DOWN -keys.
Then press the ENT -key.
ALARM
ACK
FEED
ALARM
ACK
FEED
ESC
MENU
3 sec
D= 92/06/30
T= 13:30:00
*
SET OK
*
The display which appears will allow you to enter the correct date, which is written as year/month/day (YY/MM/DD). Select the correct date using the UP/DOWN/RIGHT -keys. Then press the
ENT -key. The date will be automatically updated, regardless whether the power is turned ON or OFF. Leap years are automatically provided.
The display which appears allows you to enter the correct time, which is written as hour:minute:second (HH:MM:SS). Select the correct time using the UP/DOWN/RIGHT -keys and press the
ENT -key. When pressing the ENT -key, the clock will start.
The setting is completed.
Press the ENT -key to return to the ‘ D=92/06/30 ’ display; or press the ESC -key to go to the ‘ SET=CLOCK ’ display; or press the
MENU -key for three seconds to return to the Operation mode.
7 - 14
IM 4D5B1-01E
7.6 How to Copy Channel Settings to Another Channel
7.6 How to Copy Channel Settings to Another Channel
It is possible to copy settings from one channel to another. If executed, all settings concerning range, alarm, unit, zone recording, partial expanded recording, periodic printout and tag will be copied. For the settings concerning zone recording, partial expanded recording, periodic printout and tag, see 8.1, 8.2. These settings will then all be copied; it is therefore impossible to copy e.g. alarm-settings only.
The exact contents of these settings will be copied to the specified channel.
Data entry will be ignored for the 1 pen model. To copy, proceed as follows:
ESC
MENU
3 sec
ALARM
ACK
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
FROM CH
1
TO CH
4
SETTING PROCEDURE:
SET= COPY
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=COPY ’ display by using the UP/DOWN -keys.
Then press the ENT -key.
ALARM
ACK
ALARM
ACK
ESC
MENU
3 sec
COPY 1 TO
COPY 1 TO 4
*
SET OK
*
The display which appears will prompt you to enter the channel number from which you want to copy. Select this using the UP/
DOWN -keys. Note that you can only copy from a lower channel number to a higher channel number. Then press the ENT -key.
Then select the channel number to which you want to copy. Select this using the UP/DOWN - keys. Then press the ENT -key.
The setting is completed.
Press the ENT -key to return to the ‘ COPY _ TO _ ’ display; or press the ESC -key to go to the ‘ SET=COPY ’ display; or press the MENU -key for three seconds to return to the Operation mode.
IM 4D5B1-01E
7 - 15
7.7 How to Set the Remote RJC (For /N5 Model)
When measuring a temperature by thermocouple (TC) and the object of measurement is located at a big distance, it is possible to measure the temperature without using a lot of expensive TC wires by establishing a relay terminal near the measurement object.
The relay terminal and object of measurement are connected by TC. The relay terminal and input terminal of the main unit are connected by a compensating copper wire.
One other input terminal of the main unit is connected with the relay terminal by TC and by couducting standard setting compensation of the to be measured temperature, which is done by measuring the temperature of the relay terminal, the temperature of the measurement object can be calculated. (Refer to the figure below.)
main unit
TC*
relay terminal (to be prepared by customer)
reference channel
A measurement channels compensating copper wire
B
B
TC* compensating copper wire
B
B
TC*
* Please use the same type of TC
NOTES
The input mode of the reference channel should be same as the used TC.
The range of each measuring channel will become same as the range of the reference channel.
The limits of the span of the measuring channel are the same as for the usual TC input
(refer to the main IM, page 7-4).
Scaling is not possible.
In case you change the range or input mode of the reference channel, the input mode of the measurement channel being TC will not change, while the span becomes the upper/ lower value of the newly set range.
7 - 16
IM 4D5B1-01E
ESC
MENU
3 sec
ALARM
ACK
ALARM
ACK
ALARM
ACK
ALARM
ACK
ALARM
ACK
ALARM
ACK
FEED
7.7 How to Set the Remote RJC (For /N5 Model)
MENU
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
1
2
3
4
SKIP
VOLT
TC
RTD
DI
DELT
SCL
SQRT
OPT
RRJC
MATH
1
2
3
4
SPAN-L
0.0
SPAN-R
800.0
SETTING PROCEDURE:
SET= RANGE
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=RANGE ’ display by using the UP/DOWN -keys.
Then press the ENT -key.
2 :MODE=TC
Use the UP/DOWN -keys to select the desired measuring channel.
Press the ENT -key.
2:MODE= OPT
2:MOD'= RRJC
Use the UP/DOWN -keys to select ‘ OPT ’.
Press the ENT -key.
Use the UP/DOWN -keys to select ‘ RRJC ’.
Press the ENT -key.
2:RJC CH= 1
2:L= 0.0
Use the UP/DOWN -keys to select the reference channel.
Press the ENT -key.
Note that the number of the reference channel must be lower than that of the measuring channel. If not, an error will occur.
Select the minimum value of the recording span (SPAN L) using the
UP/DOWN
and
RIGHT
-keys. Then press the
ENT
-key.
ALARM
ACK
FEED
ESC
MENU
3 sec
2:R= 800.0
*
SET OK
*
The display which appears will allow you to enter the maximum value of the recording span (SPAN R). Select it the same way as for the minimum value and press the ENT -key.
Note that the recording span cannot be beyond the input range, nor can SPAN L be equal SPAN R.
The setting completed.
Press the ENT -key to return to the ‘ 2:MODE=TC ’ display for other channel using the remote RJC; or press the ESC -key to go to the ‘ SET=RANGE ’ display; or press the MENU -key for three seconds to return to the Operation mode.
IM 4D5B1-01E
7 - 17
8.1 Settings for Analog Recording
Chapter 8 AUXILIARY SETTINGS (AUX)
This chapter describes auxiliary settings, which are normally kept at their initial values but, in order to use the many functions of the
µ
R1000, might be changed. They are grouped into
8.1 Settings for analog recording
8.2 Settings for digital printing
8.3 How to set the chart speed used when change-on-alarm or remote control is selected
8.1 Settings for Analog Recording
This paragraph describes:
8.1.1 How to adjust the trend recording format
8.1.2 How to set zone recording
8.1.3 How to set partial expanded recording.
Trend recording can be done depending on a fixed interval or an interval which depends on the chart speed.
Zone recording enables you to define different bands (zones) for each channel, so the recording traces will not overlap.
Partial expanded recording enables you to compress a part of the recording range, in order to examine the other part of the range in more detail.
Initial values are:
TREND
AUTO
ZONE
0 to 100mm
PART
OFF
IM 4D5B1-01E
8 - 1
8.1.1 How to Adjust the Trend Recording Format (Dot Model)
The
µ
R1000 prints in FIX or AUTO mode.
In FIX mode, dot printing is performed with a constant interval regardless of the chart speed (approx. 10 sec).
AUTO mode is provided to prevent the chart from being damaged during repetitive dot printing. This mode is useful for low chart speeds. The chart is protected from damage because the printout timing changes with the chart speed (approx. 10 to 90 sec).
Single printout
(0.5mm dia.)
Repetitive dot printing
ESC
MENU
3 sec
ALARM
ACK
ALARM
ACK
ALARM
ACK
ESC
MENU
3 sec
FIX AUTO
The initial value is ‘ AUTO ’. To set the trend recording mode, proceed as follows:
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
TREND
ZONE
PART
TAG
MSG
CHART 2
TREND
AUTO
SETTING PROCEDURE:
SET= AUX
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=AUX ’ display using the UP/DOWN -keys, and press the ENT -key.
MODE= TREND
Select the ‘ MODE=TREND ’ display using the UP/DOWN -keys.
Then press the ENT -key.
TREND= AUTO
*
SET OK
*
Specify AUTO or FIX using the UP/DOWN -keys. Then press the
ENT -key.
The setting is completed. Press the ENT -key to return to the
‘ TREND=...
’ display, or press the ESC -key to go to the
‘ SET=AUX ’ display; or press the MENU -key for three seconds to return to the Operation mode.
8 - 2
IM 4D5B1-01E
8.1 Settings for Analog Recording
8.1.2 How to Set Zone Recording
Zone recording enables you to define different bands (zones) for each channel, so the recording traces will not overlap during analog recording.
The initial value is ‘ 0 to 100mm ’.
To set the zones, proceed as follows:
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
TREND
ZONE
PART
TAG
MSG
CHART 2
1
2
3
4
5
6 left boundary
30 m m right boundary
50 m m
ESC
MENU
3 sec
SETTING PROCEDURE:
SET= AUX
Press the
MENU
-key for three seconds to enter the SET mode.
Select the ‘
SET=AUX
’ display using the
UP/DOWN
-keys, and press the
ENT
-key.
ALARM
ACK
ALARM
ACK
MODE= ZONE
Select the ‘
MODE=ZONE
’ display using the
UP/DOWN
-keys.
Then press the
ENT
-key.
ALARM
ACK
ALARM
ACK
ALARM
ACK
ESC
MENU
3 sec
2 :L= mm
2:L= 30 mm
2:R= 50 mm
*
SET OK
*
The display which appears will prompt you to specify the desired channel. Use the
UP/DOWN
-keys to do so and press the
ENT
key.
Then specify the left boundary value using the
UP/DOWN
-keys.
On the chart paper this left boundary value will correspond with the left span value. (For example, if your channel 2 has a recording span of –2V to 2V, and you specify the zone to start from 30mm, then the recording at 30mm will correspond with the value of
–2V.) Then press the
ENT
-key.
Note that the minimum width of a zone is 5mm. The left boundary must be less than the right boundary.
The next display will prompt you to specify the right span value.
Use the
UP/DOWN
-keys to do this and then press the
ENT
-key.
Note that scales will only be printed for 40mm and bigger zones.
The setting is completed. Press the
ENT
-key to return to the
‘
2:L=...
’ display, or press the
ESC
-key to go to the ‘
SET=AUX
’ display; or press the
MENU
-key for three seconds to return to the
Operation mode.
EXPLANATION:
The next figure shows the chart after zone recording has been set (example).
IM 4D5B1-01E
Zone 1
Figure 8.1 Zone Recording Example
Zone 2 Zone 3
8 - 3
8.1.3 How to Set Partial Expanded Recording
Partial expanded recording enables you to compress a part of the recording span, in order to examine the expanded (other) part of the range in more detail. The initial value is ‘
OFF
’. To set partial expanded recording, proceed as follows:
ESC
MENU
3 sec
ALARM
ACK
ALARM
ACK
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
TREND
ZONE
PART
TAG
MSG
CHART 2
3
4
5
6
1
2 partial expanded recording
ON compressed percentage
25 % boundary value
0.000
SETTING PROCEDURE:
SET= AUX
Press the
MENU
-key for three seconds to enter the SET mode.
Select the ‘
SET=AUX
’ display using the
UP/DOWN
-keys, and press the
ENT
-key.
MODE= PART
Select the ‘
MODE=PART
’ display using the
UP/DOWN
-keys.
Then press the
ENT
-key.
ALARM
ACK
ALARM
ACK
ALARM
ACK
1 :PART=
1:PART= ON
1:PART= 25 %
The display which appears prompts you to specify the desired channel. Use the
UP/DOWN
-keys to do so and press the
ENT
key.
Then select ON (or OFF in case you had set partial expanded recording before and want to stop it now) using the
UP/DOWN
keys. Then press the
ENT
-key.
In the case you selected OFF, the setting is completed.
Specify the percentage (1 to 99%) of the full recording span which has to be compressed, using the
UP/DOWN
-keys. Press the
ENT
key.
ALARM
ACK
FEED
ESC
MENU
3 sec
1:B= 0.000
*
SET OK
*
The display which appears prompts you to set the boundary value.
The boundary value corresponds to the previous set compressed part. See also figure 8.3. Set this value by using the
UP/DOWN and the
RIGHT
-keys. Note that this boundary value must be within the recording span. (If scaling is ON, this value must be within the scaling range.) Then press the
ENT
-key.
The setting is completed. Press the
ENT
-key to return to the
‘
1:PART=...
’ display, or press the
ESC
-key to go to the
‘
SET=AUX
’ display; or press the
MENU
-key for three seconds to return to the Operation mode.
NOTE
Partial Expanded settings are automatically canceled, when any of the following changes occur:
• the input type (VOLT, TC, etc.) or input range (2V, etc.) is changed.
• decimal point for linear scaling and square root is changed.
• minimum or maximum value of the recording span is changed (in case of linear scaling and square root).
• minimum or maximum value of the scale is changed (in case of linear scaling and square root).
• the reference channel is changed.
• the input type or range of the reference channel is changed.
8 - 4
IM 4D5B1-01E
IM 4D5B1-01E
8.1 Settings for Analog Recording
EXPLANATION:
The next figures show the recordings before and after the above settings have been completed:
-6 -5 -4 -3 -2 -1
A
1 2 3 4 5 6 (V)
Measured value
B
D
C
t
E
F
Recording chart width
(100mm)
0 50
Figure 8.2 Normal Recording Example
100
% of full span
-6 -5 -4 -3 -2 -1 0
A’
1 2 3 4 5 6 (V)
Measured value
B’
D’
C’
t
E’
F’
Recording chart width
(100mm)
0 25
Figure 8.3 Partial Recording Example
100
% of full span
As can be seen from these figures, the left side of the boundary (D’) shows on 25% of the chart the data in the range –6V to 0V. On the right side of the boundary you can see the range 0V to 6V on 75% of the chart. Thus the scales differ on the left and right sides of the boundary.
8 - 5
8.2 Settings for Digital Printing
This paragraph describes how to select the periodic printout ON/OFF, how to set a tag and how to set a message.
Initial values are:
PRINT ON
TAG
MSG all spaces all spaces
8.2.1 How to Select the Periodic Printout ON/OFF
The printing of channel No., tag and the measured values in the periodic printout can be selected ON/OFF per channel. However, the periodic printout of date, time, chart speed, and for the pen model, pen color and POC ON mark( ) cannot be OFF. The initial value is ‘
ON
’.
8 - 6
ESC
MENU
3 sec
ALARM
ACK
ALARM
ACK
Figure 8.4a Periodic Printout (pen model) Figure 8.4b Periodic Printout (dot model)
To select this periodic printout ON or OFF, proceed as follows:
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
ZONE
PART
TAG
MSG
CHART 2
1
2
3
4
Periodic Printout
ON
SETTING PROCEDURE:
SET= AUX
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=AUX ’ display using the UP/DOWN -keys, and press the ENT -key.
MODE= PRINT
Select the ‘ MODE=PRINT ’ display using the UP/DOWN -keys.
Then press the ENT -key.
ALARM
ACK
ALARM
ACK
1 :DGT P=
1:DGT P= ON
The display which appears will prompt you to specify the desired channel. Use the UP/DOWN -keys to do so and press the ENT key.
Then select ON (or OFF in case you had set this periodic printout before and want to stop it now) using the UP/DOWN -keys. Then press the ENT -key.
ESC
MENU
3 sec
*
SET OK
*
The setting is completed. Press the ENT -key to return to the
‘ 1:DGT P=...
’ display, or press the ESC -key to go to the
‘ SET=AUX ’ display; or press the MENU -key for three seconds to return to the Operation mode.
NOTE
If set, this printout appears on the chart with a certain regularity. To change the interval between two printouts, see 9.4.6.
IM 4D5B1-01E
8.2 Settings for Digital Printing
8.2.2 How to Set a Tag
The following setting enables you to set tags to be recorded instead of the usual channel numbers. Tags will appear in the periodic printout, manual printout, channel printout and in the alarm printout. One tag can be set for every channel. The maximum length is seven characters. Note that these tags will not appear on the display.
To set a tag, proceed as follows:
ESC
MENU
3 sec
ALARM
ACK
ALARM
ACK
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
ZONE
PART
TAG
MSG
CHART 2
3
4
1
2
TAG
TAG 1
SETTING PROCEDURE:
SET= AUX
Press the
MENU
-key for three seconds to enter the SET mode.
Select the ‘
SET=AUX
’ display using the
UP/DOWN
-keys, and press the
ENT
-key.
MODE= TAG
Select the ‘
MODE=TAG
’ display using the
UP/DOWN
-keys.
Then press the
ENT
-key.
ALARM
ACK
ALARM
ACK
FEED
1 :
1: TAG 1
The display which appears will prompt you to specify the desired channel. Use the
UP/DOWN
-keys to do so and press the
ENT
key.
Then enter the desired characters using the
UP/DOWN
and the
RIGHT
-keys. Then press the
ENT
-key. Refer to table 8.1.
ESC
MENU
3 sec
*
SET OK
*
The setting is completed. Press the
ENT
-key to return to the ‘
1:...
’ display, or press the
ESC
-key to go to the ‘
SET=AUX
’ display; or press the
MENU
-key for three seconds to return to the Operation mode.
NOTE
It is also necessary to set the CH/TAG-setting in the SET UP Mode to get this tag printout. See 9.4.1.
Table 8.1 Characters
-key
-key
.
A
K
U e o y
8 f
V p z
9
°
B
L q
0
#
µ
C D
M N
W X g h r s
1 2
%
(
Ω
Ω i
Y
E F
O P t j
Z
3
)
H
R l b v
5
-
G
Q a k u
4
+ w
6
I
S c d m n
J
T
* x
/
7
IM 4D5B1-01E
8 - 7
8.2.3 How to Set Messages
The following setting enables you to set the messages. Up to five messages can be set, each of up to 16 characters. Messages can be printed onto the chart using the keyboard, or by remote control which is optional. Note that the printing of the messages will not be done when the chart speed is faster than 1500 mm/h (pen model) or 100 mm/h (dot model) or when recording is OFF.
To set a message, proceed as follows:
ESC
MENU
3 sec
ALARM
ACK
ALARM
ACK
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
ZONE
PART
TAG
MSG
CHART 2
Message Number
MSG 1 message
µ
R1000 pen model
SETTING PROCEDURE:
SET= AUX
Press the
MENU
-key for three seconds to enter the SET mode.
Select the ‘
SET=AUX
’ display using the
UP/DOWN
-keys, and press the
ENT
-key.
MODE= MSG
Select the ‘
MODE=MSG
’ display using the
UP/DOWN
-keys.
Then press the
ENT
-key.
ALARM
ACK
ALARM
ACK
FEED
MSG No.= MSG 1
M1=
µ
R 1000 pen model
The display which appears will prompt you to specify which message you want to set. Up to five messages can be set. Use the
UP/DOWN
-keys to specify message number and press the
ENT
key.
Then enter the desired characters (up to 16) using the
UP/DOWN and the
RIGHT
-keys. Then press the
ENT
-key.
See table 8.2 for the characters which can be used.
ESC
MENU
3 sec
*
SET OK
*
The setting is completed. Press the
ENT
-key to return to the
‘
MSG No.=...
’ display, or press the
ESC
-key to go to the
‘
SET=AUX
’ display; or press the
MENU
-key for three seconds to return to the Operation mode.
NOTE
If your
µ
R1000 is equipped with the /R1 option, and you want them to be triggered by remote control, the messages must be assigned to the /R1 terminals. See 9.8.
Table 8.2 Characters
A
-key
B
K L
-key
U e o y
8
.
V f p z
9
°
C D E
M N O
W X g q
0
#
µ h r
Y
1 2
%
(
Ω
Ω i s t j
Z
3
)
F
P
G
Q a k u
4
+ v
5
l b
H I
R S c d m n
J
T w x
6
*
/
7
8 - 8
IM 4D5B1-01E
8.3 How to Set the Chart Speed Used When Change-on-alarm or Remote Control is Selected
8.3 How to Set the Chart Speed Used When Change-on-alarm or Remote Control is Selected
The following describes the way to use a second chart speed which is activated by remote control or by the occurence of alarms. This function enables you to record data in more detail following a remote control trigger or following the occurence of an alarm. However, to use this second chart speed, it is necessary that your
µ
R1000 is at least equipped with the /R1 option. To be able to use the change-on-alarm function, it is necessary to have alarm output relays installed as well (option /A1, 2 or 3). If your
µ
R1000 is not equipped with the /R1 option, data entry will be ignored.
This second chart speed will stay in effect until the remote control status changes back again, or until the alarm turns OFF. The initial value is 20 mm/h.
To set this chart speed, proceed as follows:
ESC
MENU
3 sec
ALARM
ACK
ALARM
ACK
MENU:
RANGE
ALARM
UNIT
CHART
CLOCK
COPY
AUX
ZONE
PART
TAG
MSG
CHART 2 mm/h
1500
SETTING PROCEDURE:
SET= AUX
Press the MENU -key for three seconds to enter the SET mode.
Select the ‘ SET=AUX ’ display using the UP/DOWN -keys, and press the ENT -key.
MODE= CHART 2
Select the ‘ MODE=CHART2 ’ display using the UP/DOWN keys. Then press the ENT -key.
ALARM
ACK
ESC
MENU
3 sec mm/h= 1500
*
SET OK
*
In case of the pen model, select the desired chart speed using the
UP/DOWN -keys. You can select any of the below shown chart speeds. Then press the ENT -key.
In case of the dot model, set the desired chart speed using the UP/
DOWN and RIGHT -keys, and press the ENT -key.
Table 8.3 Chart Speeds in mm/h (pen model)
5
24
60
135
320
720
1500
3600
10800
6
25
64
150
360
750
1600
4000
12000
8
30
72
160
375
800
1800
4320
9
32
75
180
400
900
2000
4500
10
36
80
200
450
960
2160
4800
12
40
90
225
480
1000
2250
5400
15
45
96
240
500
1080
2400
6000
16
48
100
250
540
1200
2700
7200
18
50
120
270
600
1350
2880
8000
20
54
125
300
675
1440
3000
9000
Note that the interval between digital printouts will change according to the new chart speed. Therefore check in table 8.4 that all the printouts will be printed as expected.
Table 8.4 Chart Speeds for which Prinouts will not be Performed
Model Periodic Printout
Alarm Printout/Message Printout/
Recording Start/Chart Speed Change
pen model 5 to 9 mm/h, 1600 to 12000 mm/h
1600 to 12000 mm/h dot model 1 to 9 mm/h, 101 to 1500 mm/h
101 to 1500 mm/h
The setting is completed. Press the ENT -key to return to the
‘ mm/h=...
’ display, or press the ESC -key to go to the
‘ SET=AUX ’ display; or press the MENU -key for three seconds to return to the Operation mode.
IM 4D5B1-01E
8 - 9
9.1 How to Change Initial Settings for the Alarm Function
Chapter 9 CHANGING INITIAL SETTINGS
This chapter describes how to change initial settings. These settings are entered during the manufacturing of the recorder and seldom need to be changed.
See 6.3.3 for flow chart.
Note that while you are changing any of the following settings, recording cannot be performed and alarms will not be detected.
CAUTION
They are grouped into
9.1
How to change initial settings for the alarm function
9.2
How to change initial settings for the input
9.3
How to change initial settings for analog recording
9.4
How to change initial settings for digital printouts
9.5
How to select the type of bargraph
9.6
How to change the temperature unit
9.7
How to initialize settings
9.8
How to change initial settings for the REMOTE option
9.9
How to select to trigger the recording to start/stop
9.10 How to change key-lock settings
9.1 How to Change Initial Settings for the Alarm Function
This paragraph describes how to change initial settings for the alarm function.
9.1.1 How to select the reflash function ON/OFF (initial value = ‘
OFF
’)
9.1.2 How to select the output relay to be of AND/OR type (initial value = ‘
NONE
’)
9.1.3 How to select the output relay to be energizing/de-energizing on alarm (initial value = ‘
ENERG
’)
9.1.4 How to select the alarm output relay to be of HOLD/NON-HOLD type (initial value = ‘
NONHOLD
’)
9.1.5 How to select the alarm indicator to be of HOLD/NON-HOLD type (initial value = ‘
NONHOLD
’)
9.1.6 How to set the sampling interval for rate-of-change alarms (initial value = ‘
01
’)
9.1.7 How to select alarm hysteresis ON/OFF (initial value = ‘
ON
’)
When exiting SETUP MODE using “SETUP=END” and “STORE” statement. Donot turn the power OFF until the Recorder has returned to the OPERATION
MODE. Calibration data might be affected.
9 - 1
IM 4D5B1-01E
9.1.1 How to Select the Reflash Function ON/OFF
Reflash is a function to indicate repeating alarm occurrences among a group of alarms sharing the same output relay. When the optional alarm output relays are not installed, data entry will be ignored. Note that only I01 to I03 (which should be assigned in the allarm setting also) can be used for the reflash function.
The initial value is ‘
OFF
’.
(Suppose I 01 is assigned)
Channel 1
(level 1)
(Suppose
I
01 is assigned)
Alarm status Channel 2
(level 2)
(Suppose I 01 is assigned)
Channel 3
(level 3)
( I 01 output)
Relay status
(REFLASH=ON)
Output relay
(option)
Approx.
500ms
Approx.
500ms
( I 01 output)
Relay status
(REFLASH=OFF)
Figure 9.1
Output relay
(option)
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
Use the UP/DOWN -keys to select the display ‘ SETUP=ALARM ’. Press the ENT -key.
The display ‘
REFLASH=...
’ will appear. Select ON or OFF. Press the
ENT
-key.
The reflash setting has been completed, but has not been stored yet. Before you can adjust other settings in the SET UP Mode, you have to finish the alarm settings until the
‘*
ALARM SET
*’ display appears.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the alarm settings until the display ‘*
ALARM SET
*’ appears. Press the
ESC
-key to return to the
‘SETUP=ALARM
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
NOTE
When I01 to I03 are used for the reflash function, they cannot be used for the AND function, see 9.1.2.
I01 to I03 will be exclusively used for the reflash function, regardless of the number of alarm output relays.
9 - 2
IM 4D5B1-01E
9.1 How to Change Initial Settings for the Alarm Function
9.1.2 How to Select the Output Relay to be of AND/OR Type
The (optional) output relays can be specified to be AND or OR type, which is necessary when a group of alarms shares the same output relay. The initial value is ‘
NONE
’, which means that all relays are OR output. When the optional alarm output relays are not installed, data entry will be ignored. Note than when you set I01 to I03 to reflash, only I04 to I12 can be specified for AND/OR.
Alarm status
Channel 1
(level 1)
Channel 2
(level 2)
AND
Relay status
OR
Figure 9.2
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
Use the UP/DOWN -keys to select the display ‘ SETUP=ALARM ’. Press the ENT -key.
Press the ENT -key until the display ‘ AND =...’ appears. Select which relays must be of
AND type. Depending on your options, you can specify up to 12 relays (I01 to I12).
Relays which are not selected will be of OR type. ‘ NONE ’ means that all relays are OR output. After selection, press the ENT -key. Note that I01 will always be displayed at the left side of the display.
The AND/OR setting has been completed, but has not been stored yet. Before you can adjust other settings in the SET UP Mode, you have to finish the alarm settings until the
‘* ALARM SET *’ display appears.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the alarm settings until the display ‘* ALARM SET *’ appears. Press the ESC -key to return to the ‘ SETUP=ALARM ’ display and then select the ‘ SETUP=END ’ display.
Press the ENT -key. Select ‘ END=STORE ’ to keep your new settings or
‘ END=ABORT ’ and press the ENT -key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
9 - 3
9.1.3 How to Select the Output Relay to be Energizing/De-energizing on Alarm
The alarm output relays can be selected to be energizing or de-energizing on alarm.
Using de-energizing, alarm output relay is activated either when an alarm occurs, or when power off occurs (common for all relays). This enables simple monitoring of power supply.
The initial value is ‘
ENERG
’.
Energize
NO C NC NO C NC
NO C NC
De-energize NO C NC
Power OFF
Figure 9.3
NO C NC
Alarm OFF
NO C NC
Alarm ON
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
Use the UP/DOWN -keys to select the display ‘ SETUP=ALARM ’. Press the ENT -key.
Press the ENT -key until the display ‘ ALARM=ENERG ’ appears. Select energize
(ENERG) or de-energize (DE_EN). After selection, press the ENT -key.
The energize/de-energize setting has been completed, but has not been stored yet.
Before you can adjust other settings in the SET UP Mode, you have to finish the alarm settings until the ‘* ALARM SET *’ display appears.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the alarm settings until the display ‘* ALARM SET *’ appears. Press the ESC -key to return to the ‘ SETUP=ALARM ’ display and then select the ‘ SETUP=END ’ display.
Press the ENT -key. Select ‘ END=STORE ’ to keep your new settings or
‘ END=ABORT ’ and press the ENT -key. After a few seconds, the Operation Mode will appear.
9 - 4
IM 4D5B1-01E
9.1 How to Change Initial Settings for the Alarm Function
9.1.4 How to Select the Alarm Output Relay to be of HOLD/NON-HOLD Type
You can select whether or not to hold alarm output relays until reset.
The initial value is ‘
NON-HOLD
’, and common for all relays.
NON-HOLD:
Output relay turns ON and OFF together with alarm.
Alarm ON
Alarm OFF
Relay set
Relay reset
HOLD:
Once turned ON, the alarm output relay remains ON even if the alarm turns OFF.
The relay is turned OFF by pressing the
ACK
-key.
Alarm ON
Alarm OFF
Press ACK-key
Relay set
Relay reset
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=ALARM
’. Press the
ENT
-key.
Press the
ENT
-key until the display ‘
RLY=NONHOLD
’ appears. Select HOLD or
NONHOLD. After selection, press the
ENT
-key.
The relay HOLD/NONHOLD setting has been completed, but has not been stored yet.
Before you can adjust other settings in the SET UP Mode, you have to finish the alarm settings until the ‘*
ALARM SET
*’ display appears.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the alarm settings until the display ‘*
ALARM SET
*’ appears. Press the
ESC
-key to return to the ‘
SETUP=ALARM
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
9 - 5
9.1.5 How to Select the Alarm Indicator to be of HOLD/NON-HOLD Type
You can select whether or not to hold the indicator until reset.
The initial value is ‘
NON-HOLD
’, and common for all alarms.
NON-HOLD:
Indicator turns ON and OFF together with alarm.
Alarm ON
Alarm OFF
Ind. ON
Ind. OFF
HOLD:
Once flashing, the indicator remains flashing even if the alarm turns OFF. The indicator shows the current alarm status by pressing the ACK -key (in alarm = ON, alarm recovered = OFF).
Press ACK-key
Alarm ON
Alarm OFF
Press ACK-key
Ind. flash
Ind. ON
Ind. OFF
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=ALARM
’. Press the
ENT
-key.
Press the
ENT
-key until the display ‘
IND=NONHOLD
’ appears. Select HOLD or
NONHOLD. After selection, press the
ENT
-key.
The indicator HOLD/NONHOLD setting has been completed, but has not been stored yet. Before you can adjust other settings in the SET UP Mode, you have to finish the alarm settings until the ‘*
ALARM SET
*’ display appears.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the alarm settings until the display ‘*
ALARM SET
*’ appears. Press the
ESC
-key to return to the ‘
SETUP=ALARM
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
9 - 6
IM 4D5B1-01E
9.1 How to Change Initial Settings for the Alarm Function
9.1.6 How to Set the Sampling Interval for Rate-of-change Alarms
You can change the sampling interval for rate-of-change alarms by the following setting
(common for all alarms).
The initial value is ‘
01
’ sample (pen: 125 msec, dot: 2.5 sec).
R alarm
Measured
value
T
2
Variation
T –T
1
Measured
value
T
1
T
2
Variation
T –T
1
T
1 t
1 t
Sampling interval
2
Time t
1 t
2
Sampling interval r alarm
Time
Figure 9.4
If you want to change the sampling interval for rate-of-change on increasing signal:
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=ALARM
’. Press the
ENT
-key.
Press the
ENT
-key until the display ‘
R TIME=1
’ appears. Select the sampling interval
(min. is 1 sample interval, max. is 15 sample interval). After selection, press the
ENT
key.
The setting has been completed, but has not been stored yet.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the alarm settings until the display ‘*
ALARM SET
*’ appears. Press the
ESC
-key to return to the ‘
SETUP=ALARM
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
If you want to change the sampling interval for rate-of-change on decreasing signal:
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=ALARM
’. Press the
ENT
-key.
Press the
ENT
-key until the display ‘ r TIME=1
’ appears. Select the sampling interval
(min. is 1 sample interval, max. is 15 sample interval). After selection, press the
ENT
key.
The setting has been completed, but has not been stored yet.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the alarm settings until the display ‘*
ALARM SET
*’ appears. Press the
ESC
-key to return to the ‘
SETUP=ALARM
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
9 - 7
9.1.7 How to Select Alarm Hysteresis ON/OFF
The alarm hysteresis is the difference between the levels of alarm occurence and reset.
You can choose between two levels of hysteresis: 0% (=OFF) and approx. 0.5% of the recording span (=ON) (common for all alarms).
The inititial value is ‘
ON
’.
High Limit Alarm(H)
Alarm generated
1V
Alarm setting value
- - Hysteresis (approx. 0.5%)
Measured value
Alarm release
Low Limit Alarm(L)
Measured value
Alarm release
- - Hysteresis (approx. 0.5%)
1V
Alarm setting value
Alarm generated
Figure 9.5
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=ALARM
’. Press the
ENT
-key.
Press the
ENT
-key until the display ‘
ALM HYS=ON
’ appears. Select ON or OFF. After selection, press the
ENT
-key. The display ‘*
ALARM SET
*’ will appear.
The alarm hysteresis setting has been completed, but has not been stored yet. You can now adjust other settings in the SET UP Mode, by using the
ESC
-key.
Before leaving the SET UP Mode, you have to store your new settings. Press the
ESC
key to return to the ‘
SETUP=ALARM
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
NOTE
Hysteresis setting is only valid for High and Low alarms. Hysteresis setting for rate-ofchange alarms and difference alarms will be ignored.
9 - 8
IM 4D5B1-01E
9.2 How to Change Initial Settings for the Input
9.2 How to Change Initial Settings for the Input
This paragraph describes how to change initial settings for the input.
9.2.1 How to set the A/D integration time (initial value = ‘ AUTO ’ for pen model, and
‘100 ms’ for dot model)
9.2.2 How to set upscale/downscale TC burnout (initial value = ‘ UP ’,‘ OFF ’)
9.2.3 How to set internal or external RJC (initial value = ‘ INT ’)
9.2.4 How to select the input filter (initial value = ‘ OFF ’) (pen model)
9.2.5 How to select a moving average (initial value = ‘ OFF ’) (dot model)
9.2.1 How to Set the A/D Integration Time
The purpose of the following setting is to specify which A/D integration time will be used. Depending on the power supply, the integration time will affect the ability of noise rejection and therefore the recording.
In case of the pen model
If the power supply of the recorder and of the measuring object are the same, the effect of noise will be automatically minimized and the (initial) value of AUTO is the recommended one.
If the power supplies are different, you should select from 50Hz or 60Hz integration time. The choice depends on the power supply of the instrument with the highest noise level.
There are three possibilities:
• AUTO: integration time depends on the power supply of the recorder. However, in case of the /P1 model, the integration time is fixed to 50Hz.
• 50Hz
• 60Hz.
The initial value is ‘
AUTO
’.
In case of the dot model
The initial values is 100 ms, and this setting should only be changed when required because of specific optional functions. For details, see the option manuals.
There are four possibilities:
• AUTO: integration time depends on the power supply of the recorder. However, in case of the /P1 model, the integration time is fixed to 50 Hz.
• 50 Hz
• 60 Hz.
• 100 ms.
The initial value is ‘
100 ms
’.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=INTG
’. Press the
ENT
-key.
Select AUTO, 50Hz, 60Hz or 100ms according to your situation using the
UP/DOWN
keys.
Then press the
ENT
-key. The display ‘*
INTG SET
*’ will appear.
The A/D integration time setting has been completed, but has not been stored yet.
You can now adjust other settings in the SET UP Mode, by using the
ESC
-key.
Before leaving the SET UP Mode, you have to store your new settings. Press the
ESC
key to return to the ‘
SETUP=INTG
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
9 - 9
9.2.2 How to Set Upscale/Downscale TC Burnout
The purpose of the following setting is to specify where the pens will move in case of a
TC-burnout. You can choose from moving to the right (UP) or to the left (DOWN).
This is common for every channel. You can select ON or OFF for each channel.
The initial value is ‘
UP
’, and ‘
OFF
’ for every channel.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=B.OUT
’. Press the
ENT
-key.
Select UP or DOWN using the
UP/DOWN
-keys. Press the
ENT
-key.
This burnout processing is ON/OFF selectable per channel. Select the channel No. for which you want to specify this burnout processing. Then press the
ENT
-key.
Select ON or OFF. Then press the
ENT
-key. The display ‘*
B.OUT SET
*’ will appear.
The burnout setting has been completed, but has not been stored yet. You can now adjust other settings in the SET UP Mode, by pressing the
ESC
-key.
Before leaving the SET UP Mode, you have to store your new settings. Press the
ESC
key to return to the ‘
SETUP=B.OUT
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
9 - 10
IM 4D5B1-01E
9.2 How to Change Initial Settings for the Input
9.2.3 How to Set Internal or External RJC
The purpose of the following setting is to select whether internal or external reference junction compensation values are used.
In the case of INTernal, the reference junction compensation is based on the internal
RJC circuit.
In the case of EXTernal, the reference junction compensation is based on an external voltage input.
The initial value is ‘
INT
’.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=RJC
’. Press the
ENT
-key.
Select the channel No. for which you want to specify this RJC setting. Then press the
ENT
-key.
Select INT or EXT using the
UP/DOWN
-keys. Press the
ENT
-key.
If you selected INT:
The RJC setting has been completed, but has not been stored yet. The display
‘*
RJC SET
*’ will appear. You can now adjust other settings in the SET UP Mode, by pressing the
ESC
-key.
Before leaving the SET UP Mode, you have to store your new settings. Press the
ESC
key to return to the ‘
SETUP=RJC
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
If you selected EXT:
Set the input voltage to use for reference junction using the
UP/DOWN
-keys (must be within –20000
µ
V to +20000
µ
V range, initial value is 0
µ
V). Then press the
ENT
-key.
The RJC setting has been completed, but has not been stored yet. The display
‘*
RJC SET
*’ will appear.You can now adjust other settings in the SET UP Mode, by pressing the
ESC
-key.
Before leaving the SET UP Mode, you have to store your new settings. Press the
ESC
key to return to the ‘
SETUP=RJC
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
9 - 11
9.2.4 How to Select the Input Filter (Pen Model)
Noise in the measured signal can be suppressed in the final measurement by using an input filter. This is sometimes referred to as signal damping. The purpose of this setting is to select for each channel whether or not to use a filter, and if so, to select a time constant of damping.
A filter works as follows:
Filter OFF meas. values
63.2%
Filter
ON
2, 5 or 10 sec.
If a filter is used, the response time can be selected from 2, 5 or 10 seconds.
You can choose from three filters:
• 2 seconds
• 5 seconds
• 10 seconds.
The initial value is ‘ OFF ’.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
Use the UP/DOWN -keys to select the display ‘ SETUP=FILTR ’. Press the ENT -key.
Select the channel No. for which you want to specify a filter. Then press the ENT -key.
Select the type of filter you want to use. You can choose from no filter (OFF), 2 seconds, 5 seconds or 10 seconds. Press the ENT -key. The display ‘* FILTR SET *’ will appear.
The filter setting has been completed, but has not been stored yet. Press the ENT -key to continue the setting for other channels or the ESC -key to adjust other settings in the
SET UP Mode.
Before leaving the SET UP Mode, you have to store your new settings. Press the ESC key to return to the ‘ SETUP=FILTR ’ display and then select the ‘ SETUP=END ’ display.
Press the ENT -key. Select ‘ END=STORE ’ to keep your new settings or
‘ END=ABORT ’ and press the ENT -key. After a few seconds, the Operation Mode will appear.
9 - 12
IM 4D5B1-01E
9.2 How to Change Initial Settings for the Input
9.2.5 How to Select a Moving Average (Dot Model)
Noise in the measured signal can be suppressed in the final measurement by computing a moving average. It is possible to record a moving average calculated over the previous
X samples, selectable from the previous 2 samples up to the previous 16 samples. The purpose of the following setting is to select for each channel whether or not to compute a moving average, and if so, over how many samples.
The initial value is ‘
OFF
’.
Example: (let us assume a moving average over 5 samples is selected)
3
4
1
2
5
Buffer data for nth sample
10.0mV
5.0mV
0.0mV
–5.0mV
–10.0mV
new data erased
Buffer data for
(n+1)th sample
15.0mV
10.0mV
5.0mV
0.0mV
–5.0mV
new data erased
Buffer data for
(n+2)th sample
10.0mV
15.0mV
10.0mV
5.0mV
0.0mV
Average 0.0mV
5.0mV
8.0mV
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
Use the UP/DOWN -keys to select the display ‘ SETUP=M AVE ’. Press the ENT -key.
Select the channel No. for which you want to compute a moving average. Then press the ENT -key.
Select the number of samples. You can choose from 2 samples, 3 samples, ... up to 16 samples. Of course you can also select OFF. Press the ENT -key. The display
‘* M AVE SET *’ will appear.
The moving average setting has been completed, but has not been stored yet. Press the
ENT -key to continue the setting for other channels or the ESC -key to adjust other settings in the SET UP Mode.
Before leaving the SET UP Mode, you have to store your new settings. Press the ESC key to return to the ‘ SETUP=M AVE ’ display and then select the ‘ SETUP=END ’ display.
Press the ENT -key. Select ‘ END=STORE ’ to keep your new settings or
‘ END=ABORT ’ and press the ENT -key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
9 - 13
9.3 How to Change Initial Settings for Analog Recording
This paragraph describes how to change initial settings for analog recording.
9.3.1 How to select pen offset compensation ON/OFF (initial value = ‘ OFF ’) (pen model)
9.3.2 How to assign different colors to channels (dot model)
Related settings concern the way to adjust the position of pens and printer carriage, which is described in chapter 11 (see 11.3 and 11.4).
9.3.1 How to Select Pen Offset Compensation ON/OFF (Pen Model)
The POC function eliminates deviation (phase difference) between the pens on the time axis. Figure 9.6 shows a side view of the recording status for the 2 pen model (3 & 4 pen models are similar).
The initial value is ‘
OFF
’.
Reference pen (2nd pen)
1st pen
Front of Recorder
P
Recording chart
Chart feeding direction
Reference pen is
2nd pen for 2 pen model
3rd pen for 3 pen model
4th pen for 4 pen model
Figure 9.6 Side View of Recording Status
Figure 9.6 shows that, in any pen recorder (in order to prevent collision between pens) the pens must be offset by a distance p. Therefore, points recorded at the same time are separated on the time axis.
In the case of Pen Offset Compensation, a delay memory is used to store measurement data, equivalent to the time offset p of the pens (other than the reference pen).
The pens will start to record these stored data when the chart is fed by the amount of p (time offset).
9 - 14
NOTE
Immediately after the recording has been started, only the reference pen operates normally. The other pens might not seem to operate correctly, but this is due to the time offset.
When you stop the recording, the chart will stop and therefore data stored in the delay memory will not be recorded anymore. Therefore, these data will be lost.
Pen Offset Compensation is meaningless for the 1 pen model. Therefore POC setting will be ignored for the 1 pen model.
Note that an asterisk will be printed in the periodic printout when POC is ‘
ON
’.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=POC
’. Press the
ENT
-key.
Select ON or OFF. Then press the
ENT
-key. The display ‘*
POC SET
*’ will appear.
The POC setting has been completed, but has not been stored yet. You can now adjust other settings in the SET UP Mode, by using the
ESC
-key.
Before leaving the SET UP Mode, you have to store your new settings. Press the
ESC
key to return to the ‘
SETUP=POC
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
9.3 How to Change Initial Settings for Analog Recording
9.3.2 How to Assign Different Colors to Channels (Dot Model)
You can assign any of the six provided colors to any channel. The initial setting is as follows: ch.1 = purple ch.2 = red ch.3 = green ch.4 = blue ch.5 = brown ch.6 = black
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=COLOR
’. Press the
ENT
-key.
Select the channel No. for which you want to change a color. Then press the
ENT
-key.
Select the color. Then press the
ENT
-key. The display ‘*
COLOR SET
*’ will appear.
The color setting has been completed, but has not been stored yet. Press the
ENT
-key to set the color for other channels or press the
ESC
-key to adjust other settings in the SET
UP Mode.
Before leaving the SET UP Mode, you have to store your new settings. Press the
ESC
key to return to the ‘
SETUP=COLOR
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
9 - 15
9.4 How to Change Initial Settings for Digital Printouts
This paragraph describes how to change initial settings for digital printouts.
(Note that the selection to trigger the recording to start/stop is explained in 9.9)
9.4.1 How to select channel numbers or tag printout (initial value = ‘ CH ’)
9.4.2 How to select scales printout ON/OFF (initial value = ‘ ON ’)
9.4.3 How to select the new chart speed printout ON/OFF (initial value = ‘ OFF ’)
9.4.4 How to select the record start time printout ON/OFF (initial value = ‘ OFF ’)
9.4.5 How to select alarm settings and alarm printout (initial value = ‘ ON1 ’)
9.4.6 How to select to trigger the periodic printout (initial value = ‘ INT ’, ‘ AUTO ’)
9.4.1 How to Select Channel Numbers or Tag Printout
You can select channel numbers or tags printed out in the periodic, manual, channel and alarm printout.
The initial value is ‘
CH
’, and this setting is common for all channels.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=RCD
’. Press the
ENT
-key.
Press the
ENT
-key until the display ‘
CH/TAG=...
’ will appear. Select CH or TAG.
Press the
ENT
-key.
This setting has been completed, but has not been stored yet. Before you can adjust other settings in the SET UP Mode, you have to finish the recording settings until the
‘*
RCD SET
*’ display appears.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the recording settings until the display ‘*
RCD SET
*’ appears. Press the
ESC
-key to return to the ‘
SETUP=RCD
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
9.4.2 How to Select Scales Printout ON/OFF
You can select to get scales printed on the chart.
The initial value is ‘ ON ’.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
Use the UP/DOWN -keys to select the display ‘ SETUP=RCD ’. Press the ENT -key.
Press the ENT -key until the display ‘ SCL PR=...
’ will appear. Select ON or OFF.
Press the ENT -key.
This setting has been completed, but has not been stored yet. Before you can adjust other settings in the SET UP Mode, you have to finish the recording settings until the
‘* RCD SET *’ display appears.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the recording settings until the display ‘* RCD SET *’ appears. Press the ESC -key to return to the ‘ SETUP=RCD ’ display and then select the ‘ SETUP=END ’ display.
Press the ENT -key. Select ‘ END=STORE ’ to keep your new settings or
‘ END=ABORT ’ and press the ENT -key. After a few seconds, the Operation Mode will appear.
9 - 16
IM 4D5B1-01E
9.4 How to Change Initial Settings for Digital Printouts
9.4.3 How to Select the New Chart Speed Printout ON/OFF
You can select the new chart speed printed on the chart when the chart speed changes.
Note that the chart speed will not be printed when the chart speed exceeds 1500 mm/h
(pen model) or 100 mm/h (dot model).
The initial value is ‘
OFF
’.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=RCD
’. Press the
ENT
-key.
Press the
ENT
-key until the display ‘
SPD PR=..
.’ will appear. Select ON or OFF.
Press the
ENT
-key.
This setting has been completed, but has not been stored yet. Before you can adjust other settings in the SET UP Mode, you have to finish the recording settings until the
‘*
RCD SET
*’ display appears.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the recording settings until the ‘*
RCD SET
*’ display appears. Press the
ESC
-key to return to the ‘
SETUP=RCD
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
9.4.4 How to Select the Record Start Time Printout ON/OFF
You can select to get the time printed on the chart when the recording starts. Note that the time will not be printed when the chart speed exceeds 1500 mm/h (pen model) or
100 mm/h (dot model).
The initial value is ‘
OFF
’.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=RCD
’. Press the
ENT
-key.
Press the
ENT
-key until the display ‘
RCD PR=...
’ will appear. Select ON or OFF.
Press the
ENT
-key.
This setting has been completed, but has not been stored yet. Before you can adjust other settings in the SET UP Mode, you have to finish the recording settings until the
‘*
RCD SET
*’ display appears.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the recording settings until the ‘*
RCD SET
*’ display appears. Press the
ESC
-key to return to the ‘
SETUP=RCD
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
9 - 17
9.4.5 How to Select Alarm Settings and Alarm Printout
When alarms occur, the channel number, type of alarm and ON/OFF time can be printed on the right side of the chart. It is selectable to get the ON/OFF time of alarms (ON1), the ON time only (ON2) or to get no printout (OFF). Note that alarms will not be printed when the chart speed exceeds 1500 mm/h (pen model) or 100 mm/h (dot model).
The initial value is ‘
ON1
’, and this setting is common for all channels.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=RCD
’. Press the
ENT
-key.
Press the
ENT
-key until the display ‘
ALM PR=...
’ will appear. Select ON1 (ON/OFF time of alarms will be printed), ON2 (ON time only will be recorded) or OFF (no alarm will be recorded). Press the
ENT
-key.
This setting has been completed, but has not been stored yet. Before you can adjust other settings in the SET UP Mode, you have to finish the recording settings until the
‘*
RCD SET
*’ display appears.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the recording settings until the ‘*
RCD SET
*’ display appears. Press the
ESC
-key to return to the ‘
SETUP=RCD
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
9.4.6 How to Select to Trigger the Periodic Printout
The selections are structured as follows:
The first selection is to specify whether the periodic printout should be triggered internally or externally.
If you select INTernal, you should set the reference time of the first periodic printout
(initial value is ‘
00:00
’). Next you have to specify which interval should be used between two periodic printouts. You can choose from AUTO, which means that the interval depends on the chart speed, and MAN, which means that you can specify the interval yourself.
If you select EXTernal, you should also specify this at the settings for the REMOTE option (see 9.8) and the setting is completed.
The initial value is ‘ INT ’, ‘ AUTO ’.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
Use the UP/DOWN -keys to select the display ‘ SETUP=RCD ’. Press the ENT -key.
Press the
ENT
-key until the display ‘
DGT PR=...
’ will appear. Select INT (in the case of internal triggering) or EXT (in the case of external triggering). Press the
ENT
-key.
9 - 18
IM 4D5B1-01E
IM 4D5B1-01E
9.4 How to Change Initial Settings for Digital Printouts
If you selected INT:
The display ‘ START=00:00 ’ will appear. Specify the reference time of the first periodic printout using the UP/DOWN -keys. Press the ENT -key. Note that you cannot specify minutes.
Specify which interval between the periodic printouts you prefer. Choose from AUTO
(and the interval depends on the chart speed) or MAN (and you can specify the interval yourself). Then press the
ENT
-key. Note that in case of AUTO, the relation between the chart speed and the printing intervals of periodic printouts will be as shown in the tables below.
Pen Model
Chart Speed
5 to 9 mm/h
10 to 18 mm/h
20 to 36 mm/h
40 to 72 mm/h
75 to 135 mm/h
150 to 180 mm/h
200 to 320 mm/h
360 to 1500 mm/h more than 1500 mm/h
Printing Interval of Periodic Printout
no printout every 8 hours every 4 hours every 2 hours every hour every 30 minutes every 20 minutes every 10 minutes no printout
Dot Model
Chart Speed
1 to 9 mm/h
10 to 19 mm/h
20 to 39 mm/h
40 to 79 mm/h
80 to 100 mm/h
101 to 1500 mm/h
Printing Interval of Periodic Printout
no printout every 8 hours every 4 hours every 2 hours every hour no printout
If you selected MAN:
Specify the interval using the
UP/DOWN
-keys. You can choose from 10, 15, 20, 30 min and 1, 2, 3, 4, 6, 8, 12, 24 hrs. Then press the
ENT
-key.
This setting has been completed, but has not been stored yet.
The display ‘*
RCD SET
*’ will appear. You can now adjust other settings in the SET
UP Mode, by using the
ESC
-key.
If you selected EXT:
The setting has been completed, but has not been stored yet. The display ‘*
RCD SET
*’ will appear. You can now adjust other settings in the SET UP Mode, by using the
ESC
key. Make sure to specify this also at the settings of the REMOTE option (see 9.8).
Before leaving the SET UP Mode, you have to store your new settings. Press the
ESC
key to return to the ‘
SETUP=RCD
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
9 - 19
9.5 How to Select the Type of Bargraph
The
µ
R1000 can display two types of bargraphs:
1) Left-referenced (%) bargraph (NORML)
1
2
The left side of the bargraph represents the left span value, the right side of the bargraph represents the right span value. The display will show the measured value as a percentage of the span.
2) Center-zero bargraph (CENTR)
1
2
The center of the bargraph represents the center value of the span. The left side and the right side of the bargraph represent the left and right span values respectively.
This bargraph will display the deviation between the actual measured value and the center of span.
The type of bargraph can be selected for each channel individually.
The initial value for all channels is left-referenced bargraph (NORML).
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘
ON
’ the power while pressing and holding the
ENT
-key until the SET UP display appears.
Use the
UP/DOWN
-keys to select the display ‘
SETUP=BAR
’. Press the
ENT
-key.
Select the channel No. for which you want to change the type of bargraph.
Press the
ENT
-key.
Select ‘
NORML
’ (for the left-referenced bargraph) or ‘
CENTR
’ (for the center-zero bargraph) using the
UP/DOWN
-keys.
Press the
ENT
-key. The display ‘*
BAR SET
*’ will appear.
This setting has been completed, but has not been stored yet. Press the
ENT
-key to set the bargraph for other channels or press the
ESC
-key to adjust other settings in the SET
UP Mode.
Before leaving the SET UP Mode, you have to store your new settings. Press the
ESC
key to return to the ‘
SETUP=BAR
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT-key
. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
NOTE
The bargraph has the same resolution as the data shown on the display. By adding/ deleting a digit of the displayed data (done during setting of the recording span), you can affect the resolution of the bargraph. The maximum resolution is 1% (100 steps).
9 - 20
IM 4D5B1-01E
9.6 How to Initialize Settings
9.6 How to Change the Temperature Unit (for USA)
For the TC or RTD type, the mR1800 will automatically append the temperature unit
(˚C or ˚F).
The initial value is ‘˚C’, and common for all channels.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ON’ the power while pressing and holding the
ENT-key until the SET UP display appears.
Select ‘˚C’ or ‘˚F’ using the UP/DOWN-keys.
Press the ENT-key. The display ‘*TEMP SET*’ will appear.
This setting has been completed, but has not been stored yet. You can now adjust other settings in the SET UP Mode, by using the ESC-key.
Before leaving the SET UP Mode, you have to store your new settings. Press the ESCkey to return to the ‘SETUP=TEMP’ display and then select the ‘SETUP=END’ display.
Press the ENT-key. Select ‘END=STORE’ to keep your new settings or
‘END=ABORT’ and press the ENT-key. After a few seconds, the Operation Mode will appear.
CAUTION
When you change this setting, all settings in the SET Mode will return to their initial values. In the SET UP Mode, the RJC setting (9.2.3) and the input filter setting (9.2.4) will return to their initial values. Other settings in the SET UP Mode will not be affected. For a list, see 6.5
9.7 How to Initialize Settings
The settings which can be initialized concern the settings done in the SET Mode only.
This initialization does not affect any settings in the SET UP Mode.
For a list of initial settings of the SET Mode, see 6.5.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
Use the UP/DOWN -keys to select the display ‘ SETUP=INIT ’. Press the ENT -key.
Select ‘ YES’ or ‘ NO ’ using the UP/DOWN -keys.
Press the ENT -key. The display ‘* INIT SET *’ will appear.
This setting has been completed, but, in case you selected ‘ YES ’, settings have not been initialized yet. This will happen when you leave the SET UP Mode. You can now adjust other settings in the SET UP Mode, by using the ESC -key.
When leaving the SET UP Mode, and you want to initialize your settings, press the
ESC -key. You will return to the ‘ SETUP=INIT ’ display and then select the
‘ SETUP=END ’ display.
Press the ENT -key. Select ‘ END=STORE ’ to initialize or ‘ END=ABORT ’ and press the ENT -key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
9 - 21
9.8
How to Change Initial Settings for the REMOTE Option
This paragraph describes the way to change initial settings for the REMOTE option.
The settings concerning the REMOTE option are always accessible, and data entry will be ignored if your
µ
R1000 is not equipped with this option.
The /R1 option allows you to execute functions on the
µ
R1000 by a remote trigger
(contact input).
The functions which can be executed by a remote trigger are:
• start/stop the recording (see also 9.8)
• change the chart speed to a preset second chart speed
• have messages printed out (up to 5 messages)
• get a manual printout
• get a periodic printout (see also 9.4.6)
• start/stop TLOG computation (only in combination with the MATH option)
• trigger the IC memory card (only in combination with the IC memory card option).
However, the /R1 terminal has only five terminals, which means that only five functions can be triggered. The printing out of one message takes up one terminal.
Initially the functions are assigned to the terminals as follows:
1: start/stop the recording (RECORD)
2: change the chart speed to a preset second chart speed (CHART SPD)
3: get a manual printout (MANUAL PR)
4: have message 1 printed out (MESSAGE1)
5: have message 2 printed out (MESSAGE2)
The purpose of this setting is to assign the to be triggered functions to the five terminals.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
Use the UP/DOWN -keys to select the display ‘ SETUP=REM ’. Press the ENT -key.
Select the terminal No. (CONT 1 to 5) ( /R1 has five terminals.) Press the ENT -key.
Select the function which you want to assign to that terminal. You can choose from
RECORD (start/stop recording) (see also 9.9), CHART SPD (second chart speed),
MESSAGE1, 2, 3, 4 or 5 (message No. 1, 2, 3, 4, 5), MANUAL PR (manual printout),
DGT PR (periodic printout), TLOG or IC TRIG.
Press the ENT -key. The display ‘* REM SET *’ will appear.
This setting has been completed, but has not been stored yet. Press the ENT -key to set other terminals or press the ESC -key to adjust other settings in the SET UP Mode.
Before leaving the SET UP Mode, you have to store your new settings. Press the ESC key to return to the ‘ SETUP=REM ’ display and then select the ‘ SETUP=END ’ display.
Press the ENT -key. Select ‘ END=STORE ’ to keep your new settings or
‘ END=ABORT ’ and press the ENT -key. After a few seconds, the Operation Mode will appear.
9 - 22
IM 4D5B1-01E
9.8 How to Select to Trigger the Recording to Start/Stop
9.9
How to Select to Trigger the Recording to Start/Stop
The start/stop of the recording can be triggered by
• the RCD -key on the keyboard (INTernally triggered), or by
• remote control input (EXTernally triggered).
The initial value is ‘ INT ’.
Note that if you specify the recording to start/stop in the REMOTE set up (as
‘ RECORD ’ in 9.7), and you fail to specify EXT here, the recording start/stop will not be controlled by remote control.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
Use the UP/DOWN -keys to select the display ‘ SETUP=RCD ’. Press the ENT -key.
The display ‘ RECORD= ...’ will appear. Select INT or EXT. Press the ENT -key.
This setting has been completed, but has not been stored yet. Before you can adjust other settings in the SET UP Mode, you have to finish the recording settings until the
‘* RCD SET *’ display appears.
Before leaving the SET UP Mode, you have to store your new settings. Proceed with the recording settings until the ‘* RCD SET *’ display appears. Press the ESC -key to return to the ‘ SETUP=RCD ’ display and then select the ‘ SETUP=END ’ display.
Press the ENT -key. Select ‘ END=STORE ’ to keep your new settings or
‘ END=ABORT ’ and press the ENT -key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
9 - 23
9.10 How to Change Key-lock Settings
You can choose to use the key-lock or not.
‘NOT’
: all keys are operable, even when the key is removed from the key-hole.
‘USE’
: to select to ‘USE’ the key-lock affects the 3 modes in different ways.
Operation Mode:
• Even if you disable the keys (by removing the key from the key-hole), you can still change displays (as in 5.3.8).
• If you disable the keys (by removing the key from the key-hole), you cannot operate
FUNC in the Operation Mode.
• The keys RCD/PRINT/ALARM ACK/FEED can be unlocked/locked individually.
SET Mode:
If you disable the keys (by removing the key from the key-hole), you cannot enter the
SET Mode. If you try, the display will not change.
SET UP Mode:
Even if you disable the keys (by removing the key from the key-hole), you can always enter and operate the SET UP Mode.
The initial values are ‘ NOT ’ and ‘ LOCK ’ for all keys.
SETTING PROCEDURE:
Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
Use the UP/DOWN -keys to select the display ‘ SETUP=LOCK ’. Press the ENT -key.
Select to USE the key-lock or NOT. Press the ENT -key. In the case you selected NOT, the setting is completed.
Select for the RCD , FEED , ALARM ACK and PRINT -key respectively to have them
LOCKed or to have them FREE. Press the ENT -key after each selection.
The display ‘* LOCK SET *’ will appear.
This setting has been completed, but has not been stored yet. You can now adjust other settings in the SET UP Mode, by using the ESC -key.
Before leaving the SET UP Mode, you have to store your new settings. Press the ESC key to return to the ‘ SETUP=LOCK ’ display and then select the ‘ SETUP=END ’ display.
Press the ENT -key. Select ‘ END=STORE ’ to keep your new settings or
‘ END=ABORT ’ and press the ENT -key. After a few seconds, the Operation Mode will appear.
9 - 24
IM 4D5B1-01E
Chapter 10 GENERAL SPECIFICATIONS
MODELS
TYPES
1, 2, 3, 4 pen and 6 dot printing model
DCV : Direct Voltage input 20mV to 20V range.
TC : Thermocouple.
RTD : Resistance Temperature Detector.
DI : Digital Input (contact or DC Voltage, TTL level).
DCA : Direct Current Input (using external shunt resistor (10
Ω
, 100
Ω
, 250
Ω
)).
Measuring Range: selectable per channel
Input Type
DCV
Range
20mV
60mV
200mV
2V
6V
20V
Measuring Range
–20.00 to 20.00mV
–60.00 to 60.00mV
–200.0 to 200.0mV
–2.000 to 2.000V
–6.000 to 6.000V
–20.00 to 20.00V
TC
RTD
Range
R
*1
S
*1
T
*1
N
*2
W
*3
L
*4
U
*4
B
*1
K
*1
E
*1
J
*1
PLT
PR
Range
PT100
*5
JPT100
*5
JP50
CU1 to 6 (Cu10)
CU25 (Cu25)
Measuring Range
°
C
0.0 to 1760.0
°
C
0.0 to 1760.0
°
C
0.0 to 1820.0
°
C
–200.0 to 1370.0
°
C
–200.0 to 800.0
°
C
–200.0 to 1100.0
°
C
–200.0 to 400.0
°
C
0.0 to 1300.0
°
C
0.0 to 2315.0
°
C
–200.0 to 900.0
°
C
–200.0 to 400.0
°
C
0.0 to 1400.0
°
C
0.0 to 1900.0
°
C
Measuring Range
°
C
–200.0 to 600.0
°
C
–200.0 to 550.0
°
C
–200.0 to 600.0
°
C
–200.0 to 300.0
°
C
–200.0 to 300.0
°
C
Measuring Range
°
F
32 to 3200
°
F
32 to 3200
°
F
32 to 3308
°
F
–328 to 2498
°
F
–328.0 to 1472.0
°
F
–328.0 to 2012.0
°
F
–328.0 to 752.0
°
F
32 to 2372
°
F
32 to 4199
°
F
–328.0 to 1652.0
°
F
–328.0 to 752.0
°
F
32 to 2552.0
°
F
32 to 3452.0
°
F
Measuring Range
°
F
–328.0 to 1112.0
°
F
–328.0 to 1022.0
°
F
–328.0 to 1112.0
°
F
–328.0 to 572.0
°
F
–328.0 to 572.0
°
F
DI
(Digital Input)
Range
Voltage input
Contact input
Measuring Range
less than 2.4V is OFF, more than 2.4V is ON(TTL) contact ON/OFF
*1 R, S, B, K, E, J, T: ANSI, IEC 584, DIN IEC 584, JIS C 1602-1981
*2 N: Nicrosil-Nisil, IEC 584, DIN IEC 584
*3 W: W·5%Re / W·26%Re (Hoskins Mfg. Co.)
*4 L: Fe-CuNi, DIN 43710 U: Cu-CuNi, DIN 43710
*5 PT100: JIS C 1604-1989, JIS C 1606-1989, IEC 751, DIN IEC 751
JPT100: JIS C 1604-1981, JIS C 1606-1989
10 - 1
IM 4D5B1-01E
Calculation:
Differential computation: Between any two channels, however reference channel No.
must be less than measuring channel No.
Available for DCV, TC, and RTD range.
Both channels must have same range.
Linear scaling:
(scaling)
Available for DCV, TC and RTD range.
Scaling limits: –20000 to 20000
Data display & printout range: –19999 to 20000
Decimal point: user selectable (should be specified when
entering scale value)
Unit: user settable, up to 6 characters (alphanumerical &
special characters).
Square root: Available for DCV range.
Scaling limits: –20000 to 20000
Data display & printout range: –19999 to 20000
Decimal point: user selectable.
Unit: user settable, up to 6 characters (alphanumerical &
special characters).
Measuring and Recording Accuracy: (following specifications apply to operation of the recorder under standard operation conditions: temperature 23
±
2
°
C, humidity 55
±
10% RH, power supply voltage according to the specifications, power supply frequency 50/60Hz
±
1%, warmup time at least 30 minutes, other ambient conditions should not adversely affect the recording operation).
Input
DCV
Range
20mV
60mV
200mV
2V
6V
20V
Measuring (digital display)
Meas. Accuracy
±
(0.2% of rdg + 3 digits)
±
(0.2% of rdg + 2 digits)
±
(0.2% of rdg + 2 digits)
±
(0.1% of rdg + 2 digits)
±
(0.3% of rdg + 2 digits)
±
(0.3% of rdg + 2 digits)
Max. Resolution
10
µ
V
10
µ
V
100
µ
V
1mV
1mV
10mV
Rec. Accuracy
Recording (analog)
measurement accuracy
±
(0.3% of recording span)
Resolution
pen: dead band: 0.2% of
recording span dot: 0.1 mm
TC R
S
B
N
W
L
U
E
J
T
K
±
(0.15% of rdg + 1
°
C) but R, S: 0 to 100
°
C,
±
3.7
°
C
100 to 300
°
C,
±
1.5
°
C
B: 400 to 600
°
C,
±
2
°
C accuracy less than
400
°
C is not specified
±
(0.15% of rdg + 0.7
°
C) but –200 to 100
°
C
±
(0.15% of rdg + 1
°
C)
±
(0.15% of rdg + 0.5
°
C)
±
(0.15% of rdg + 0.5
°
C) but J: –200 to –100
°
C
±
(0.15% of rdg + 0.7
°
C)
±
(0.15% of rdg + 0.7
°
C)
±
(0.15% of rdg + 1
°
C)
±
(0.15% of rdg + 0.5
°
C) but L: –200 to –100
°
C
±
(0.15% of rdg + 0.7
°
C)
0.1
°
C
0.1
°
C
0.1
°
C
PR40-20
0 to 450
450 to 750
750 to 1100
1100 to 1900
PRATINEL not specified
±
(0.9% of rdg + 3.2
°
C)
±
(0.9% of rdg + 1.3
°
C)
±
(0.9% of rdg + 0.4
°
C)
±
(0.25% of rdg + 2.3
°
C)
0.1
0.1
°
°
C
C measurement accuracy
±
(0.3% of recording span) pen: dead band: 0.2% of
recording span dot: 0.1 mm
10 - 2
IM 4D5B1-01E
RTD PT100 meas. current JPT100
= 1mA
JPt50
Cu10
(Cu1 to 6)
Cu25
±
(0.15% of rdg + 0.3
°
C)
±
(0.3% of rdg + 0.5
°
C)
±
(0.4% of rdg + 1.0
°
C)
±
(0.3% of rdg + 0.8
°
C)
0.1
°
C measurement accuracy
±
(0.3% of recording span) pen: dead band: 0.2% of
recording span dot: 0.1 mm
Note :
Recording span is 100mm.
Accuracy in Case of Scaling:
Accuracy during scaling (digits) = measuring accuracy (digits)
× multiplier + 2 digits (rounded up) where the multiplier = scaling span digits / measuring span digits
Example: DCV 6V range measuring span: 1.000 to 5.000V
scaling span: 0.000 to 2.000
measuring accuracy =
±
(0.3%
×
5V + 2 digits)
±
(0.015V [15 digits] + 2)
±
(17 digits) multiplier = 2000 digits (0.000 to 2.000) / 4000 digits (1.000 to
5.000V) = 0.5
Accuracy during scaling = 17 digits
×
0.5 + 2 = 11 digits (rounded up)
Maximum Allowable Input Voltage:
Less than 2VDC ranges and TC ranges:
±
10VDC (cont.)
6V to 20VDC:
±
30VDC (cont.)
Reference Junction Compensation:
INT/EXT selectable (per channel)
Reference Junction Compensation Accuracy (above 0
Type R, S, B, W:
±
1
°
C
°
C):
Type K, J, E, T, N, L, U:
±
0.5
°
C
Measurement Interval:
pen: 125 ms/channel.
dot: 2.5 s/6 dot
A/D Integration Time:
AUTO: 20ms (50Hz) or 16.7ms (60Hz), selected automatically
50Hz: 20ms
60Hz: 16.7ms
100ms (dot model)
TC Burnout:
ON/OFF selectable (per channel).
Burnout upscale/downscale selectable (common for all channels).
Normal: less than 2k
Ω
, burnout: more than 10M
Ω
.
Measuring current: approx. 100nA.
Filter:
pen: Signal damping (ON/OFF selectable per channel, in case of ON: time constant from 2, 5, 10 sec selectable per channel).
dot: Moving average (ON/OFF selectable per channel, in case of ON: averaging times from 2 to 16).
RECORDING and PRINTING
Recording Method:
pen: Disposable felt pens, plotter pen dot: 6 color wire dot
Pen Offset Compensation: ON/OFF selectable, for pen model only
Effective Recording Width: 100mm
Chart:
plain-paper Z-fold chart (16m)
IM 4D5B1-01E
10 - 3
Step Response Time:
Recording Period:
Chart Speed:
Less than 1sec (acc. to IEC TC85 method), for pen model only pen: Continuous for each channel.
dot: max. 6 channel/10 sec, AUTO/FIX selectable
AUTO: Analog recording interval is depending on the chart speed.
FIX : Analog recording interval is set to shortest period.
pen: 5 to 12000 mm/h (82 increments) dot: 1 to 1500 mm/h (1 mm step)
Chart Speed Change:
speed 1, speed 2 change by remote control signals (option).
Chart Feed Accuracy:
within
±
0.1% (for recordings longer than 1000mm), related to the grid of the chart paper
Recording Colors:
pen: pen1=red, pen2=green, pen3=blue, pen4=violet, plotter pen=purple dot: ch1=purple, ch2=red, ch3=green, ch4=blue, ch5=brown, ch6=black (color can be assigned to any channel)
Recording Format:
1 Analog Recording:
Zone recording: span more than 5mm, 1mm step
Partial expanded recording: Boundary position: 1 to 99%
Boundary value: within recording span
2 Digital Printout:
Channel or tag prinout:
(dot model only)
Alarm printout:
Periodic printout:
Channel number or tag will be printed during analog recording. Every 25 mm this print will occur.
Selectable, common for all channels.
At the right side of the chart, channel No. or tag, type of alarm, ON/OFF time (h/m) will be printed. It is selectable to get ON/OFF-time of alarms printed, or
ON-time only, or no alarms (common for all channels).
At the left side of the chart, date (m/d), time (h/m), chart speed, and measured data of every channel will be printed. Printing interval is INT/EXT selectable.
INT: Using internal timer. Depending on chart speed or on interval which is selectable (up to 24 hours).
EXT: Using remote control option.
• Channel No. or TAG printout: Selectable, common for all channels.
• Printout of measured data: ON/OFF selectable for each channel.
• Scale printout: For 40mm zones and bigger, at 0% and 100% values
Message printout:
Record start time:
Chart speed printout:
List printout:
SET UP list printout:
Manual printout: will be printed. (When using partial expanded recording, boundary value will also be printed.)
ON/OFF selectable, common for all channels.
Printout of recording colors
Using keyboard or remote control option. Up to five messages.
Contents: time (h/m) and message (up to 16 characters).
Time (h/m) will be printed when recording starts, ON/
OFF selectable.
Time (h/m) when chart speed is changed will be printed.
ON/OFF selectable.
Listings of range and alarm settings, etc. will be printed.
Listings of settings in SET UP Mode will be printed.
Using keyboard or remote control option.
10 - 4
IM 4D5B1-01E
Relation between Chart Speed and Printout:
Pen Model
Recording Chart Speed Periodic Printout
5 to 9mm
10 to 1500mm
1600 to 12000mm no printout
Alarm Printout/
Message Printout/
Time of Chart Speed Change/
Channel or Tag Printout
printout printout no printout
Dot Model
Recording Chart Speed
1 to 9mm
10 to 100mm
101 to 1500mm
Periodic Printout
no printout
Alarm Printout/
Message Printout/
Time of Chart Speed Change/
Channel or Tag Printout
printout printout no printout
Relation between Chart Speed and Intervals of Periodic Printout:
Pen Model
Chart Speed Printing Interval of Periodic Printout
5 to 9 mm/h
10 to 18 mm/h
20 to 36 mm/h
40 to 72 mm/h
75 to 135 mm/h
150 to 180 mm/h
200 to 320 mm/h
360 to 1500 mm/h more than 1500 mm/h no printout every 8 hours every 4 hours every 2 hours
every hour every 30 minutes every 20 minutes every 10 minutes
no printout
Dot Model
Chart Speed
1 to 9 mm/h
10 to 19 mm/h
20 to 39 mm/h
40 to 79 mm/h
80 to 100 mm/h
101 to 1500 mm/h
Printing Interval of Periodic Printout
no printout every 8 hours every 4 hours every 2 hours every hour no printout
DISPLAY
Display Method:
Digital Display:
Bargraph Display:
Other Displays:
IM 4D5B1-01E
VFD (5
×
7 dot matrix, 11 characters).
AUTO
MAN
DATE
TIME
VIEW
Channel No., type of alarm, measured values, unit (front 3 digits), for each channel alternately
Channel No., type of alarm, measured values, unit (front 3 digits), for one specific channel
Year / month / date will be displayed
Hour / min / sec will be displayed
Status for IC Memory Card will be displayed
Measured data
Alarm
Left-centered (%) bargraph and center-zero bargraph
(selectable for each channel).
Setting level of alarm, in case of alarm: flashing display.
RCD: recording in progress
POC: Pen Offset Compensation (pen model only)
SET: SET Mode
ALM: shared alarm (not corresponding to any channel)
CHT: Chart end indicator (optional)
BAT: low battery
10 - 5
ALARM
Number of Levels:
Display:
Hysteresis:
Up to four levels for every channel (High, Low, Delta high, Delta low, High rate-ofchange, Low rate-of-change selectable)
Interval time of rate-of-change alarm is the measuring interval multiplied by 1 to 15
(selectable, and common for both rate-of-change alarms).
Set value: Is indicated as a segment on the bargraph.
In case of alarm: This segment will start flashing on the bargraph and the digital display will show the type of alarm. The alarm indicator in different display will show alarm.
Approx. 0.5% of recording span (only High, Low) and 0%, selectable (common for all channels and all levels).
Alarm Indication When ALARM ACK-key is Pressed:
Non-Hold type: Alarm display is not affected when the
ALARM ACK
-key is pressed.
Hold type: When alarm occurs, alarm indicator will start flashing. After pressing the
ALARM ACK
-key, the indicator will show the status of the alarm.
Hold type:
‘ACK’ ‘ACK’
Alarm ON
Alarm OFF
Indicator BLINK
Indicator ON
Indicator OFF
Non-Hold type:
ALM indicator depends on alarm status.
or
PERFORMANCE and CHARACTERISTICS
Input Resistance:
more than 10M
Ω
(TC, 20mV, 60mV, 200mV, 2V range) approx. 1M
Ω
(6, 20V range).
Input Source Resistance: DCV, TC input: less than 2k
Ω
RTD input: less than 10
Ω
/wire. (Resistance is balanced between 3 wires)
Input Bias Current:
less than 10nA (however, when burnout is specified for TC: 100nA).
Maximum Common Mode Voltage:
250VAC rms (50/60Hz)
Common Mode Rejection Ratio:
120dB (50/60Hz
±
0.1%, 500
Ω
imbalance between – terminal and ground)
Normal Mode Rejection Ratio:
40dB (50/60Hz
±
0.1%)
Insulation Resistance:
each terminal to ground terminal: more than 20M
Ω
(measured at 500VDC).
Dielectric Strength:
power supply to ground terminal: 1500VAC(50/60Hz), 1 min contact output terminal to ground: 1500VAC(50/60Hz), 1 min measuring input terminal to ground: 1000VAC(50/60Hz), 1 min between measuring input terminals: 1000VAC(50/60Hz), 1 min
(except for RTD)
REMOTE terminal to ground: 500VAC, 1mm
10 - 6
IM 4D5B1-01E
EMC Conformity Standard(for standard model except for /P1 and /P5 models)
EMI EN55011: Class A
EMS EN50082-2
IEC1000-4-2: Electrostatic Discharge 8 kV(Air )
4 kV(Contact)
Performance Criteria B
IEC1000-4-3: Radiated fields
IEC1000-4-4: Fast Transient
80MHz-1000MHz 10V/m Performance Criteria A
(Pen Model:
±
5% of Range)
(Dot Model:
±
20% of Range)
AC power line 2kV The others 1 kV Performance Criteria B
IEC1000-4-6: Conducted Disturbance 0.15MHz - 80MHz, 10V
IEC1000-4-8: Magnetic Field 50Hz, 30A/m
Performance Criteria A
(Pen Model:
±
5% of Range)
(Dot Model:
±
20% of Range)
Performance Criteria A
CONSTRUCTION
Mounting:
Flush Panel Mounting (vertical), mounting next to each other (horizontal).
Mounting may be inclined up to 30
°
, rear below front (with horizontal base).
Allowable Panel Thickness: 2 to 26mm.
Material:
Finish:
Door:
Dimensions:
Weight:
Case: drawn steel, front door: aluminium die casting.
Case and door-frame: lampblack (Mansell 0.8Y 2.5 / 0.4 or equivalent).
Splash-proof (in accordance with DIN 40050-IP54).
144(W)
×
144(H)
×
220(D) mm
1 pen model
2 pen model
3 pen model
4 pen model
6 dot model
3.2kg
3.4kg
3.6kg
3.8kg
3.5kg
POWER SUPPLY
Rated Power Voltage:
for others than /P1 model; 100 to 240VAC, automatically selected depending on the power supply voltage.
45 to 65Hz, automatically adjusted.
/P1 model; 24VDC
Usuable Power Voltage Ranges: for others than /P1 or /P5 model; 90 to 132, 180 to 250VAC
/P1 model: 21.6 to 26.4VDC
/P5 model: 21.6 to 26.4VAC
Rated Power Frequency: 50/60Hz, no need to change switches (for others than /P1 model)
Power Consumption:
(for others than /P1 or /P5 model)
100VAC
Power Source
240VAC
Power Source max.
24VA*
34VA* 70VA
4 pen
6 dot
18VA
24VA 50VA
*: in balance
/P1 model: 18VA (4 pen), 14VA (6 dot), max 50VA
/P5 model: max 60VA
IM 4D5B1-01E
10 - 7
NORMAL OPERATING CONDITIONS
Power Voltage:
for others than /P1 or /P5 model; 90 to 132, 180 to 250VAC
/P1 model: 21.6 to 26.4VDC
/P5 model: 21.6 to 26.4VAC
Power Frequency:
50Hz
±
2%, 60Hz
±
2% (for others than /P1 model)
Ambient Temperature:
0 to 50
°
C
Ambient Humidity:
20 to 80% RH (at 5 to 40
°
C)
Vibration:
10 to 60Hz, less than 0.02G
Shock:
Magnetic Field:
Noise:
Operating Position:
Warm-up Time:
not permissible less than 400AT/m (DC and 50, 60Hz)
Normal Mode (50, 60Hz)
DCV Peak value including signal must be less than 1.2 times the
TC measuring range.
Peak value including signal must be less than 1.2 times the
RTD measuring mV.
less than 50mV.
Common Mode (50, 60Hz) less than 250VAC rms for the whole range.
frontwards: 0
° backwards: within 30
° at least 30 minutes after the power has been turned ON.
EFFECT OF OPERATION CONDITIONS
Effect of Ambient Temperature:
Effect of ambient temperature variation of 10
°
C,
Digital display:
Recording: within
±
(0.1% of rdg + 1 digit) within Digital display
±
0.2% of recording span (excluding RJCerror)
Effect of Power Supply:
Effect of variation in rated power supply voltage: (50 or 60Hz is reference), rated power supply voltage is according to specifications)
Digital display: within
±
1 digit
Recording: within
±
0.1% of recording span
Effect of rated power frequency variation of
±
2Hz (100VAC is reference):
Digital display: within
±
(0.1% of rdg + 1 digit)
Recording: same as digital display
Effect of Magnetic Field: Effect of AC (50/60Hz) or DC 400AT/m field:
Digital display: within
±
(0.1% of rdg + 10 digit)
Recording: within
±
0.5% of recording span
Effect of Input Source Resistance:
Effect of Input Source Resistance variation of +1k
Ω
:
DCV range:
Ranges less than 2V: within
±
10
µ
V
Ranges more than 6V: within –0.1% of rdg
TC range: within
±
10
µ
V (However
±
100
µ
V when TC burnout protection is set)
RTD range:
Effect of 10
Ω
per wire (resistances of three wires must be equal):
Digital display:
Recording: within
±
(0.1% of rdg + 1 digit) within Digital display
±
0.1% of recording span
Effect of difference of three wires: Digital display: 0.1
°
C per 40m
Ω
(approx.)
10 - 8
IM 4D5B1-01E
Effect of Operating Position:
Vibration:
Digital display:
Recording:
within
±
(0.1% of rdg + 1 digit) (within 30
°
backwards)
within Digital display
±
0.1% of recording span (within 30
°
backwards)
Effect when sine-wave motion of frequency 10 to 60Hz and acceleration of 0.02G is applied to the instrument in the direction of three axes each for two hours:
Digtal display: within
±
(0.1% of rdg + 1 digit)
Recording: within Digital display
±
0.1% of recording span
TRANSPORT and STORAGE CONDITIONS
No malfunction will occur under these conditions, however when returning to normal operation conditions, calibration might be necessary.
Temperature:
–25 to 60
°
C
Humidity:
5 to 95% RH (no condensation)
Vibration:
Shock:
10 to 60Hz, 0.5G
less than 40G (inside packings)
OTHER SPECIFICATIONS
Clock:
with Calendar function
Accuracy:
±
100PPM, however not including error due to turning ON/OFF power
Panel Key-lock:
By actual key: panel keys which should not be locked can be assigned
Internal Illumination:
Using internal reflection of VFD display
Memory Backup:
Machine noise:
Lithium battery to preserve setting parameters. Life is approx. ten years (at room temperature, and for standard model) and is installed inside the recorder. If the battery runs out, this will be shown on the front panel indicator.
Machine Noise Information Ordinance 3. GSGV, January 18, 1991: The maximum sound pressure level is equal or less than 60dB (A) according to ISO7779.
SAFETY STANDARDS
Based on:
Certified CSA 22.2 No.1010.1
Complies with EN61010-1
IM 4D5B1-01E
10 - 9
11.1 Periodic Maintenance
Chapter 11 MAINTENANCE
11.1 Periodic Maintenance
Check the recorder operation periodically to keep the recorder in good operation condition.
Especially, check the following items and replace consumable parts such as chart, disposable felt-tip pens, fuse and batteries, etc. as needed.
• Are display and recording functioning properly?
If not, see chapter 12 ‘Troubleshooting’.
• Are there blurred or broken sections of recording or printout characters?
If so, replace the relevant felt-tip pen or plotter pen. For replacement, see 5.2.2.
• Is the chart paper feeding properly?
If not, see chapter 12 ‘Troubleshooting’.
• Is there enough chart paper left?
The remaining chart paper length is printed on the chart left side margin at intervals of
20cm. See figure 11.1.
For replacement of the chart paper, see 5.2.1.
Indication of remaining chart lenght
WARNING
Figure 11.1 Indication of Remaining Chart Length
• Is the indicator ‘
BAT
’ illuminated or flashing?
If the indicator is illuminated, the lithium battery needs to be replaced. For replacement, contact your nearest Sales & Service Office. Addresses may be found on the back cover of this manual.
If the indicator is flashing, the IC Memory Card battery needs to be replaced.
For replacement, see the IC Memory Card Instruction Manual IM 4D5B1-30E.
To avoid injury, never replace the lithium battery yourself.
IM 4D5B1-01E
11 - 1
11.2 Fuse Replacement
Replace the fuse at least once every two years for preventive maintenance. To replace the fuse, turn OFF the main power supply.
1 Remove the chart compartment.
Do this as follows:
Swing the keyboard open at the upper left corner. While gently pressing the chart paper compartment lock tabs, located at the lower right and left front, in the direction of the arrow, swing and lift the compartment from the unit.
2 The fuse is now visible in the right lower front of the plate. See also figure 11.2.
Turn the knob of the fuse holder counterclockwise, and the holder will slide out with the fuse.
3 Make sure that the new fuse rating is correct and mount the new fuse by turning the knob clockwise.
WARNING
Figure 11.2 Fuse Replacement
Before replacing the fuse, make sure to turn OFF the power supply and disconnect the power source. Use only specified fuses which should be obtained from your nearest Sales & Service Office. The use of other fuses might cause fire.
11 - 2
IM 4D5B1-01E
11.3 Pen Adjustment (Pen Model)
11.3 Pen Adjustment (Pen Model)
It is recommended to adjust the position of the pens once a year.
To adjust the pens, proceed as follows:
• Allow a warm-up time for the recorder of at least 30 minutes. Check that the ambient temperature and humidity are within Normal Operating Conditions (see chapter 10
‘General Specifications’).
• Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
• Use the UP/DOWN -keys to select the display ‘ SETUP=P ADJ ’. Press the ENT -key.
• You can now select to adjust the ZERO position of the pens (left side of the chart) or the
FULL position of the pens (right side of the chart). It is recommended to adjust the
ZERO position before the FULL position. After selection press the ENT -key.
• Select the channel number (= pen number) which you want to adjust. Then press the
ENT -key.
• Change the numeric value and the pen will move to its new position after having pressed the ENT -key. Continue this procedure until the pen is in its correct position.
Changing the value 1 digit will result in a pen movement of approximately 0.02mm. A
+ change will result in movement to the right. The correct position can be checked by use of the grid on the chart.
• This adjustment has been completed, but before leaving the SET UP Mode, you have to store these settings. Press the ESC -key to return to the ‘ SETUP=P ADJ ’ display and then select the ‘ SETUP=END ’ display.
Press the ENT -key. Select ‘ END=STORE ’ to keep your new settings or
‘ END=ABORT ’ and press the ENT -key. After a few seconds, the Operation Mode will appear.
IM 4D5B1-01E
11 - 3
11.4 Printer Carriage Adjustment (Dot Model)
It is recommended to adjust the position of the carriage once a year.
To adjust the carriage, proceed as follows:
• Allow a warm-up time for the recorder of at least 30 minutes. Check that the ambient temperature and humidity are within Normal Operating Conditions (see chapter 10
‘General Specifications’).
• Enter the SET UP Mode by turning ‘ ON ’ the power while pressing and holding the
ENT -key until the SET UP display appears.
• Use the UP/DOWN -keys to select the display ‘ SETUP=P ADJ ’. Press the ENT -key.
• You can now select to adjust the ZERO position of the carriage (left side of the chart),
HYS position of the carriage (middle of the chart) or the FULL position of the carriage
(right side of the chart). It is recommended to adjust the HYS position first, and ZERO position before the FULL position.
Select HYS and press the ENT -key.
The carriage should print a straight line, but might print as follows:
movement of carriage movement of carriage
Figure a Figure b
If the line looks like the one shown in figure a, adjust the value on the display to a bigger value. Then press the
ENT
-key.
If the line looks like the one shown in figure b, adjust the value on the display to a smaller value. Then press the
ENT
-key.
Continue this procedure until the carriage prints a straight line. Changing the value 1 digit will result in a carriage movement of approximately 0.1mm.
• Then select ZERO. The carriage will print a line on the left side of the chart. This line should be the ‘
0
’ position. If the line is printed before the ‘0’ position (which can be seen from the grid on the chart), adjust this by entering a bigger value.
After adjusting, press the
ENT
-key.
• Then select FULL. The carriage will print a line on the right side of the chart.
This line should be the ‘
100
’ position. If the line is printed before the ‘
100
’ position
(which can be seen from the grid on the chart), adjust this by entering a bigger value.
After adjusting, press the
ENT
-key.
• This adjustment has been completed, but before leaving the SET UP Mode, you have to store these settings. Press the
ESC
-key to return to the ‘
SETUP=P ADJ
’ display and then select the ‘
SETUP=END
’ display.
Press the
ENT
-key. Select ‘
END=STORE
’ to keep your new settings or
‘
END=ABORT
’ and press the
ENT
-key. After a few seconds, the Operation Mode will appear.
11 - 4
IM 4D5B1-01E
11.5 Calibration
11.5 Calibration
It is recommended to perform a calibration once a year to assure the measuring accuracy.
Required instruments:
DC Voltage Standard: YOKOGAWA Model 2552 or equivalent.
Decade Resistance Box: YOKOGAWA Model 2793-01 or equivalent.
Calibration procedure:
1 Connect the calibration instrument to the input terminals of the recorder as shown in figures 11.3, 4, 5 or 6 and allow the recorder to warm up for at least 30 minutes.
Allow the instrument to warm up according to its specifications.
2 Check that the ambient temperature and humidity are within Normal Operating
Conditions (see chapter 10 ‘General Specifications’).
3 Apply an input corresponding to 0, 50 and 100 percentage of the entered setting range, and calculate errors from the readings on the display.
4 If the error is at any point outside the accuracy limits (for accuracies, see chapter 10
‘General Specifications’), contact your nearest Sales & Service Office. Addresses may be found on the back cover of this manual.
NOTE
For a TC input, it is necessary to measure the temperature of the input terminals, and add a voltage corresponding to the reference temperature.
DC Voltage Measurement
The figure below shows the pen model, but connection should be done in the same way for the dot model.
Power Supply terminals
(for others than /P1 and /P5 model)
L
N
3
4
1
2
–
+
Input terminals
(DC V & TC inputs)
Figure 11.3 DC Voltage Measurement
DC Voltage Standard
G
+
–
IM 4D5B1-01E
11 - 5
11 - 6
Temperature Measurement Using RTD for the Pen Model
Power supply terminals
(for others than /P1 and /P5 model)
L
N
3
4
1
2
B b
A
Decade Resistance Box
(YOKOGAWA Model 2793-01)
Input terminals
(RTD inputs)
Figure 11.4 Temperature Measurement Using RTD (pen model)
Temperature Measurement Using RTD for the Dot Model
Power supply terminals
(for others than /P1 and /P5 model)
L
N
5
6
3
4
1
2
b B A
Decade Resistance Box
(YOKOGAWA Model 2793-01)
Input terminals
(RTD inputs)
Figure 11.5 Temperature Measurement Using RTD (dot model)
IM 4D5B1-01E
IM 4D5B1-01E
11.5 Calibration
Temperature Measurement Using TC
Copper wires
Thermocouple wires or compensation wires
Power supply terminals
(for others than /P1 and /P5 model)
+
Meter
–
+
Couple
–
L
N
+
–
DC Voltage Standard
Couple wires
•
Thermocopper wires
0
°
C
(Reference Junction Compensator
YOKOGAWA Model T-MJ)
–
+
3
4
1
2
Reference Junction Compensation for Thermocouple Input
As the temperature at the measurement terminal of the recorder is generally equal to the room temperature, a voltage is applied to the inside circuit to obtain the equivalent of 0
°
C. Therefore when the measurement terminals are shorted (equivalent to 0
°
C at detector tip in the reference table) the room temperature (equals the temperature at the measurement terminal) is displayed. As a result, the recorder is measuring the temperature of the input terminal and compensates this value. When calibrating the recorder, the input voltage without subtracting the compensation voltage should be applied (For example, use the YOKOGAWA Model T-MJ reference Junction compensator shown above).
Figure 11.6 Temperature Measurement Using TC
11 - 7
11.6 Cleaning the Plotter Carriage Shaft (Pen Model)
When using the recorder under normal operating conditions, periodically inspect the plotter carriage shaft for dirt. It is recommended that the plotter carriage shaft be cleaned at least once a year.
To clean, proceed as follows:
1 Remove the plastic plate at the plotter carriage shaft (see figure 11.7).
2 Two shafts (upside and downside of the plotter carriage) are visible (see figure 11.8).
Wipe off dirt with a soft cloth without fibers. If the dirt is persistent, you may use ethyl alcohol.
•
•
CAUTION
Plastic plate
Figure 11.7 Plastic Plate
Plotter carriage
Plotter carriage
shaft
Figure 11.8 Plotter Carriage Shafts
Exercise care not to damage the flexible wiring strip connected to the printer carriage. Do not apply any oil to the shafts.
11.7 Cleaning the Plotter Carriage Shaft (Dot Model)
To maintain proper recording functions, it is recomended to wipe up dust from the shaft of the printer carriage with apiece of soft cloth or paper without fluffing.
Carriage shaft
Figure 11.9 Lubrication
11 - 8
IM 4D5B1-01E
12.1 Error Message Table
Chapter 12 TROUBLESHOOTING
This chapter describes the cause and countermeasures to be taken in case errors or failures occur.
12.1 Error message table
12.2 Troubleshooting flow chart
12.1 Error Message Table
ERROR 012
ERROR 040
ERROR 041
ERROR 042
ERROR 043
ERROR 045
ERROR 046
ERROR 060
ERROR 061
ERROR 083
ERROR 084
ERROR 086
ERROR 087
ERROR 088
ERROR 160
ROM ERROR
RAM ERROR
NV ERROR 1
NV ERROR 2
AD NV ERR
Error Message
(on display)
ERROR 001
ERROR 002
ERROR 003
ERROR 004
ERROR 005
ERROR 006
ERROR 011
AD ADJ ERR
PLOTTER ERR
COMM ERR
COMM REMOVE
Error Description
Main recorder related errors other than those below
Value entered exceeds allowable setting range
Time setting error
Attempted to enter a channel which cannot be selected
Illegal parameter concerning IC Memory Card &
Communication
Attempted to select illegal option
Attempted to perform a list, setup, manual or message printout when out of chart
Attempted to change pens while recording
Reference channel number is larger than the DELTA channel number
DELTA reference channel set up for SKIP
DELTA reference channel set up for DI
DELTA reference channel set up for SCALE or SQRT
Left span value is same as right span value
Left scale value is same as right scale value
Attempted to set alarm on SKIP channel
Attempted to set alarm on DI channel
Channel set to PARTIAL has a range set to SKIP
Channel set to PARTIAL has a range set to DI
Left zone value is same as right zone value
Left zone value is bigger than right zone value
Band between left and right zone values is less than 5mm
Communication related error
System ROM failure
Main memory failure
Main NV RAM failure
All A/D NV RAM failure ch AD NV RAM failure
( ch will be skipped) ch A/D calibration data error
( ch will be skipped)
Plotter board failure
Communication board error
The communication function is now out of use
Countermeasure
contact your nearest Service center enter correct value enter correct time enter correct channel see special option manuals IM 4D5B1-10E/
IM 4D5B1-30E insert chart, see 5.2.1
stop recording, see 5.2.2
enter correct ref. channel, see 7.1.5
change range setting, see 7.1
change range setting, see 7.1
change range setting, see 7.1
change span value, see 7.1
change scale value, see 7.1.6
change range setting, see 7.1
change range setting, see 7.1
change range setting, see 7.1
change range setting, see 7.1
change zone value, see 8.1.1
change zone value, see 8.1.1
change zone value, see 8.1.1
see special option manual IM 4D5B1-10E contact your nearest Service center contact your nearest Service center contact your nearest Service center contact your nearest Service center contact your nearest Service center contact your nearest Service center contact your nearest Service center contact your nearest Service center contact your nearest Service center
Self Diagnosis Message
(printout)
STORE SET UP SETTINGS AGAIN
Description
SET UP settings must be reconfirmed to maintain reliability.
Proceed as follows:
12 - 1
IM 4D5B1-01E
12.2 Troubleshooting Flow Chart
Neither the pen nor the chart moves.
Is the power switch ON?
Does the switch work properly?
YES
NO
Are the connections at the power supply terminal correct?
YES
NO
Is the power being supplied properly?
YES
NO
Is the fuse blown?
YES
Replace the fuse (see 11.2)
YES
NO
Does the fuse stay intact when power is turned ON again?
YES
END
NO
Turn ON properly
Connect properly
Supply properly (Specified voltage and frequency)
Contact your nearest Sales &
Service center
Contact your nearest Sales &
Service center
12 - 2
IM 4D5B1-01E
IM 4D5B1-01E
12.2 Troubleshooting Flow Chart
The input value and measured value are very different.
(e.g. pens are staying at 0% or 100% of the chart, big fluctuations.)
Does the input satisfy the specifications? (signal source resistance, etc.)
YES
NO
NO
Are the span and range settings correct?
YES
Is the input free of noise?
NO
YES
Is the environmental temperature constant? (in case of temperature measurement)
YES
NO
Is the input wiring correct?
NO
YES
Is the recorder free of parallel wiring with other equipment?
YES
NO
RJC INT/EXT setting is correct?
(TC input)
YES
NO
Is position of pens or printer carriage correct?
YES
NO
Contact your nearest Sales & Service center
Meet the specifications
Adjust the span and range
Ground the recorder properly.
Ground the measuring object properly.
Insulate TC and measuring object.
Use shielded wire for input.
Correct A/D integration time (see 9.2.1).
Use an input filter (see 9.2.4).
Separate noise generating wire.
Use an input terminal cover.
Protect input terminal from wind or fan.
Stabilize room temperature around the input terminal.
Wire correctly (see 3.2.3).
Fix the terminal block again.
Fasten terminal screws.
Insulate RTD from ground.
If broken, replace TC.
Stop burnout function of other equipment.
Ground the recorder and other equipment at the same grounding place.
Disconnect parallel wiring.
(e.g. using double element TC)
Set correctly (see 9.2.3)
Adjust pen or printer carriage position (see 11.3 or 11.4)
12 - 3
12 - 4
Display and functions do not work properly.
Is the input free of noise?
YES
Contact your nearest Sales &
Service center
NO
Ground the recorder properly.
Use shielded wire for input and communication.
Insert an isolated transformer into the power line.
Insert a power line filter into the power line.
In case a reactive road is used as an alarm output line, use a surge suppressor in the alarm line.
Separate the input & communication wires from the noise generating wire.
Panel key does not work properly.
Is the key-lock unlocked?
YES
Contact your nearest Sales &
Service center
NO
Insert the key (see 5.4).
Set the key-lock to NOT USE in the
SET UP Mode (see 9.10).
IM 4D5B1-01E
TERMINOLOGY
allowable input voltage burnout
The maximum input voltage that can be applied to the input terminals
Failure of a device due to excessive heat
common-mode rejection ratio
The ability of an amplifier to cancel a common-mode voltage
common-mode voltage
A voltage that appears equally and in phase from each signal conductor with respect to ground. Also known as common-mode noise. Power noise induced from a power transformer is a typical example of this noise (voltage)
dead band
In static characteristics, the range through which an input signal can be varied without initiating an observable change in output signal
DI dielectric strength
EMI error
Digital Input (contact & voltage level)
The potential gradient at which electric failure or breakdown occurs
An abbreviation for Electromagnetic Interference. Impairment of a wanted electromagnetic signal due to an electromagnetic disturbance
Any discrepancy between a measured quantity, set-point, or rated value and the ideal value of the measured signal
An effect wherein a given value of a parameter may result in multiple values
hysteresis input resistance input source resistance
ISO noise
Resistance measured at the input terminals of an instrument under operating conditions
Resistance of the measuring circuit outside the instrument
An abbreviation for International Organization for Standardization
normal mode rejection ratio normal mode voltage reference junction
An unwanted disturbance superimposed upon an indicated or supplied value, which obscures its information content
The ability of certain amplifiers to cancel a normal mode noise, usually expressed in decibels
An unwanted input (noise) voltage superimposed on the measurement voltage
That thermocouple junction which is at a known or reference temperature
reference junction compensation
A means of counteracting the effect of temperature variations of the reference junction, when allowed to vary within specified limits
reflash
Function to indicate repeating alarm occurences among a group of alarms sharing the same output relay
resistance temperature detector A detector for measuring temperatures with a change in electrical resistance that is a known function of temperature
resolution
The minimum detectable change of some variables in a measurement system, or a minimum change in supplied quantity that can be set
RS-422-A
The EIA (Electronics Industries Association) approved standard, which established the requirements for serial communications between computers
Terminology - 1
IM 4D5B1-01E
scaling shunt resistor step response thermocouple
TLOG
TTL
VFD warm-up time
Recording of an input in terms of the engineering variable
Resistor used at the input terminal to transfer a current into a voltage
The behavior of a system when its input signal is zero before a certain time and is equal to a nonzero value after this time
A pair of dissimilar conductors joined at two points so that an electromotive force is developed by the thermoelectric effects when the junctions are different temperatures
Time axis logging (MATH option)
An abbreviation for Transistor/Transistor Logic
Vacuum Fluorescent Display
The time (after power turn-on) required before its rated performance characteristics apply
Terminology - 2
IM 4D5B1-01E
INDEX
A
A/D integration time ............................................. 9 - 9 abort SET UP settings ................................. 6 - 1, 9 - 2 alarm
ACK key ................................................ 4 - 3, 6 - 2 acknowledging .............................................. 5 - 10 buffer ............................................................. 5 - 10 hysteresis ......................................................... 9 - 8 indicator .......................................................... 4 - 4 output relays
AND/OR type ............................................ 9 - 3 energizing/de-energizing ........................... 9 - 4
HOLD/NON-HOLD ................................. 9 - 5 wiring ........................................................ 3 - 9 printout ................................................. 1 - 2, 9 - 18 rate-of-change ...................................... 7 - 10, 9 - 7 reflash function ............................................... 9 - 2 sampling interval ............................................. 9 - 7 setting ............................................................ 7 - 10 types .............................................................. 7 - 10
ALM indicator ...................................................... 4 - 4 auxiliary settings (AUX) ...................................... 9 - 1
B
bargraph center-zero ...................................................... 4 - 4 left-referenced ................................................. 4 - 4 selection of .................................................... 9 - 20
BAT indicator ....................................................... 4 - 4 battery replacement .............................................. 5 - 8 boundary ............................................................... 8 - 4 buffer alarm ............................................................. 5 - 15 message ......................................................... 5 - 14 burnout ................................................................ 9 - 10
C
calibration ........................................................... 11 - 5 carriage adjustment ............................................. 11 - 4 center-zero bargraph .................................. 4 - 4, 9 - 20 characters which can be used ............................. 7 - 12 chart end ................................................................. 5 - 18 loading ............................................................ 5 - 2 part number ..................................................... 2 - 2 remaining length ........................................... 11 - 1 replacing .......................................................... 5 - 2 chart speed
1 .................................................................... 7 - 13
2 ...................................................................... 8 - 9 for change-on-alarm ........................................ 8 - 9 for remote control ........................................... 8 - 9 relation between printouts and ........... 10 - 4, 7 - 13
IM 4D5B1-01E relation between printing interval of periodic printout and ........................................ 7 - 13, 10 - 4 setting ............................................................ 7 - 13
CHT indicator ....................................................... 4 - 4 cleaning the recorder ............................................ 2 - 1 clearing the alarm buffer .................................... 5 - 15 clearing the message buffer ................................ 5 - 14 clock setting ........................................................ 7 - 14 color changing .................................................... 9 - 15 contact input .............................................. 3 - 11, 7 - 5 copy settings ....................................................... 7 - 15
D
date and time display ........................................................... 5 - 16 printout ............................................................ 1 - 2 setting ............................................................ 7 - 14 de-energizing ........................................................ 9 - 4 difference computation (DELTA) ........................ 7 - 6 difference High/Low limit alarm ........................ 7 - 10 digital input contact ............................................................. 7 - 5 level ................................................................. 7 - 5 setting .............................................................. 7 - 5 wiring .............................................................. 3 - 6 dimensions ............................................................ 3 - 3 display
AUTO ........................................................... 5 - 16
DATE ............................................................ 5 - 16
MAN ............................................................. 5 - 16 selection of .................................................... 5 - 16
TIME ............................................................. 5 - 16
VIEW ............................................................ 5 - 16
E
energizing/de-energizing ...................................... 9 - 4 entering modes ...................................................... 6 - 1 enter key ...................................................... 4 - 3, 6 - 2 error messages .................................................... 12 - 1 external dimensions .............................................. 3 - 3 external RJC ....................................................... 9 - 11
F
FAIL how to cope with ........................................... 5 - 18 wiring .............................................................. 3 - 9
FEED chart ................................................................ 5 - 6 key .......................................................... 4 - 3, 6 - 2 flow chart
Operation mode ............................................... 6 - 3
SET mode ....................................................... 6 - 4
Index - 1
SET UP mode ................................................. 6 - 5 fuse part number ..................................................... 2 - 2 replacement ................................................... 11 - 2
H
High/Low limit alarm ......................................... 7 - 10
HOLD/NON-HOLD alarm relay ........................................... 5 - 15, 9 - 5 indicator ............................................... 5 - 15, 9 - 6 hysteresis .............................................................. 9 - 8
I
I01 to I12 ................................................... 7 - 11, 9 - 3 initialize .............................................................. 9 - 21 initial values .......................................................... 6 - 7 input filter ............................................................... 9 - 12 range setting .................................................... 7 - 1 terminal ........................................................... 3 - 4 type .................................................................. 1 - 3 wiring .............................................................. 3 - 6 internal RJC ........................................................ 9 - 11 interval ................................................................ 9 - 18
K
key-lock part number ..................................................... 2 - 2 setting ............................................................ 9 - 24 usage ............................................................. 5 - 19 keys .................................................... 4 - 2, 4 - 3, 6 - 2
L
leaving modes ....................................................... 6 - 1 left-referenced bargraph ............................ 4 - 4, 9 - 20 list contents ......................................................... 5 - 10 printout .......................................................... 5 - 10 locking panel keys ................................... 5 - 19, 9 - 24
Low limit alarm .................................................. 7 - 10 lubrication ........................................................... 11 - 8
M
maintenance ........................................................ 11 - 1
MENU key ................................................... 4 - 2, 6 - 2 menus .................................................................... 6 - 3 message buffer ............................................................. 5 - 14 error ............................................................... 12 - 1 printout .......................................................... 5 - 14 setting .............................................................. 8 - 8 modes entering and leaving ........................................ 6 - 1 operation mode ............................................... 6 - 1
SET mode ....................................................... 6 - 1
Index - 2
SET UP mode ................................................. 6 - 1 switching between ........................................... 6 - 1 mounting ............................................................... 3 - 2 moving average .................................................. 9 - 13
N
NON-HOLD alarm relay ........................................... 5 - 15, 9 - 5 indicator ............................................... 5 - 15, 9 - 6
O
Operation mode .................................................... 6 - 1 option terminal block ............................................ 3 - 4
P
panel cutout .............................................................. 3 - 3 mounting ......................................................... 3 - 2 partial expanded recording boundary ......................................................... 8 - 5 setting .............................................................. 8 - 4 pen adjustment ..................................................... 11 - 3 change function ............................................... 5 - 4 loading ............................................................ 5 - 4 part number ..................................................... 2 - 2 plotter .............................................................. 5 - 5 replacing .......................................................... 5 - 4 periodic maintenance .......................................... 11 - 1
POC explanation .................................................... 9 - 14 indicator .......................................................... 4 - 4 setting ............................................................ 9 - 14 power supply specifications ..................................... 10 - 7 supply wiring .................................................. 3 - 5 switch ..................................................... 4 - 2, 5 - 1 printer carriage adjustment ................................. 11 - 4 printing interval .................................................. 9 - 18
PRINT key ................................................... 4 - 2, 6 - 2 printout alarm .................................................... 1 - 2, 9 - 18 channel numbers ............................................. 1 - 2 chart speed change ............................... 1 - 2, 9 - 17 colors ............................................................... 1 - 2 date and time ........................................ 1 - 2, 9 - 17 list .................................................................. 5 - 10 manual ............................................................. 5 - 9 message ................................................ 5 - 14, 8 - 8 periodic ...................................... 1 - 2, 8 - 6, 9 - 18 recording start ...................................... 1 - 2, 9 - 17 relation between chart speed and .................. 10 - 4 scales .................................................... 1 - 2, 9 - 16
SET UP list ................................................... 5 - 12 tag ............................................... 1 - 2, 8 - 7, 9 - 16 time tick .......................................................... 1 - 2
IM 4D5B1-01E
R
range ..................................................................... 7 - 1 rate-of-change High/Low alarm ......................... 7 - 10
RCD indicator .......................................................... 4 - 4 key ................................................................... 4 - 2 recording example ........................................................... 1 - 2 start/stop .......................................................... 5 - 9 start/stop trigger ............................................ 9 - 23 reflash function ..................................................... 9 - 2 remote control chart speed ...................................................... 8 - 9 setting ............................................................ 9 - 22 wiring ............................................................ 3 - 11 remote RJC ......................................................... 7 - 16 removing battery ............................................................. 5 - 8 chart ................................................................ 5 - 2 felt-tip pen ....................................................... 5 - 6 fuse ................................................................ 11 - 2 packings .......................................................... 2 - 3 plotter pen ....................................................... 5 - 7 ribbon cassette ................................................. 5 - 7
RJC ..................................................................... 9 - 11
RTD range setting .................................................... 7 - 4 types ................................................................ 7 - 4 wiring .............................................................. 3 - 7
S
sampling interval .................................................. 9 - 7 scaling (SCL) ........................................................ 7 - 7
SET indicator ........................................................ 4 - 4
SET Mode ............................................................. 6 - 1 setting alarms ............................................................ 7 - 10 analog recording ............................................. 8 - 1 chart speed 1 ................................................. 7 - 13 chart speed 2 ................................................... 8 - 9 clock .............................................................. 7 - 14
DELT .............................................................. 7 - 6
DI .................................................................... 7 - 5 digital printing ................................................. 8 - 6 initial ............................................................... 6 - 7 initialize ........................................................ 9 - 21 input range ...................................................... 7 - 1 message ........................................................... 8 - 8 partial expanded .............................................. 8 - 4 periodic printout .............................................. 8 - 6 recording span ................................................. 7 - 1
RTD ................................................................ 7 - 4 scaling (SCL) .................................................. 7 - 7
SKIP ................................................................ 7 - 2
SQRT .............................................................. 7 - 8 tag .................................................................... 8 - 7
TC ................................................................... 7 - 4 units ............................................................... 7 - 12
VOLT .............................................................. 7 - 3 zone ................................................................. 8 - 2
IM 4D5B1-01E
SET UP list contents ......................................................... 5 - 12 printout .......................................................... 5 - 12
SET UP Mode ....................................................... 6 - 1 signal damping .................................................... 9 - 12 spares .................................................................... 2 - 2 square root (SQRT) .............................................. 7 - 8 starting before .............................................................. 2 - 1 list printout .................................................... 5 - 10 manual printout ............................................... 5 - 9 message printout ........................................... 5 - 14
SET UP list printout ...................................... 5 - 12 store SET UP settings ................................... 6 -1, 9 - 2
T
tag printout ................................................. 1 - 2, 9 - 16 setting .............................................................. 8 - 7 terminal block input ................................................................ 3 - 4 option .............................................................. 3 - 4 power supply ................................................... 3 - 4 thermocouple input burnout .......................................................... 9 - 10 changing the temperature unit ....................... 9 - 21 range setting .................................................... 7 - 4
RJC setting .................................................... 9 - 11 types ................................................................ 7 - 4 wiring .............................................................. 3 - 7 time display ........................................................... 5 - 16 setting ............................................................ 7 - 14 trend recording ...................................................... 8 - 2 trigger ................................................................. 9 - 23
U
unit changing temperature .................................... 9 - 21 engineering .................................................... 5 - 16 setting ............................................................ 7 - 11 unpacking ............................................................. 2 - 3
V
VIEW display ..................................................... 5 - 16 voltage level input ................................................ 7 - 5
W
wiring alarm output .................................................... 3 - 9 chart end ........................................................ 3 - 10
FAIL .............................................................. 3 - 10 input ................................................................ 3 - 6 power supply ................................................... 3 - 5 remote control ............................................... 3 - 11
Z
zone recording ...................................................... 8 - 3
Index - 3
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Key features
- Compact size
- High reliability
- Universal inputs
- Easy interactive settings
- Large, informative operator display
- Continuous pen recording
- Universal power supply
- High performance
- Easy maintenance
- Closed case