JUMO LOGOLINE 500d Operating Manual

LOGOLINE 500d

Pen recorder with text printing

and LED dot matrix display

B 70.6021.0

Operating Manual

2011-01-19/00331468

Levels and key functions

Key functions

e

S

F

l,r

- Chart fast forward when
recording is stopped
(in basic status)

- Aborting parameter input
(Exit)

- Level change backwards

- Start/Stop recording

- Decimal place selection
during value input

- For text input:
rapid character selection
(jump to “ ”,“0”,“A”,“a”,
“°”, “²”,“À”,“à”)

- Function key
for special function
(hold down at least 4sec)

factory setting:
scale printout

- Cursor left/right
(select digit)

l+r

h,R

h+R
E

- Deactivate/activate
display of status/error
messages

- Select display:

- date and time

- channel measurements

- bargraph

- system states

- Parameter selection

- Channel selection

- Value selection
from value table

- Increment/decrement
current digit

- Level change forwards

- Initiate parameter input

- Enter input

- Acknowledge error
message

- Activate/ deactivate
static display
(in basic status)

Contents

1 About this Manual 6

1.1 Introduction .............................................................................................................. 6

1.2 Arrangement of the documentation ........................................................................ 7

1.3 Typographical conventions ...................................................................................... 8

1.3.1 Warnings ................................................................................................................... 8

1.3.2 Notes ........................................................................................................................ 8

1.3.3 Presentation .............................................................................................................. 9

2 Identifying the instrument version 10

2.1 Instrument description ............................................................................................ 10

2.2 Type designation .................................................................................................... 11

2.3 Accessories ............................................................................................................ 12

3 Installation 13

3.1 Location and climatic conditions ........................................................................... 13

3.2 Fitting in position .................................................................................................... 14

4 Electrical connection 15

4.1 Notes on installation ............................................................................................... 15

4.2 Connection diagram ............................................................................................... 16

5 Starting up 18

5.1 Display and controls ............................................................................................... 18

5.2 Opening and closing the door ............................................................................... 18

5.3 Marking the channel label ...................................................................................... 18

5.4 Fitting the fibre pens ............................................................................................... 19

6 Preparation 20

6.1 Operating modes and status .................................................................................. 20

6.2 Operating principle ................................................................................................. 22

7 Text printing 30

7.1 Printing priorities ..................................................................................................... 30

7.2 Printing modes ....................................................................................................... 33

7.3 Clock time ............................................................................................................... 35

7.4 Scaling .................................................................................................................... 36

7.5 Changing the chart speed ...................................................................................... 38

7.6 Recording start and end ......................................................................................... 40

7.7 External text, binary-linked text, relay texts ........................................................... 41

7.8 Incrementing the event counter ............................................................................. 43

7.9 Statistical report ...................................................................................................... 44

7.10 Print test .................................................................................................................. 45

7.11 Service print ............................................................................................................ 46

Contents

8 Programming 47

8.1 Basic status ............................................................................................................ 47

8.2 Operating level ....................................................................................................... 49

8.2.1 Chart speed ............................................................................................................ 50

8.2.2 Print test .................................................................................................................. 51

8.2.3 Service print ............................................................................................................ 52

8.2.4 Level inhibit and code request ............................................................................... 53

8.3 Parameter level ....................................................................................................... 55

8.3.1 Language ................................................................................................................ 56

8.3.2 Date and time ......................................................................................................... 57

8.3.3 Summer time .......................................................................................................... 58

8.3.4 Display brightness .................................................................................................. 59

8.3.5 Relay limits .............................................................................................................. 60

8.3.6 Display of time ....................................................................................................... 61

8.4 Configuration level 1 ............................................................................................... 62

8.4.1 Writing status .......................................................................................................... 63

8.4.2 Measurement/signal input .................................................................................... 64

8.4.3 Scaling .................................................................................................................... 73

8.4.4 Channel designation .............................................................................................. 74

8.4.5 Limit operation ........................................................................................................ 75

8.4.6 Plotarea (zoom) ...................................................................................................... 76

8.4.7 Presentation range (offset) ..................................................................................... 77

8.5 Configuration level 2 ............................................................................................... 78

8.5.1 Instrument designation ........................................................................................... 80

8.5.2 Speed programming mode .................................................................................... 81

8.5.3 Speed limit operation ............................................................................................. 82

8.5.4 Timed operation ..................................................................................................... 83

8.5.5 Scale printing .......................................................................................................... 84

8.5.6 Time printing ........................................................................................................... 85

8.5.7 Pen offset compensation ........................................................................................ 86

8.5.8 Statistical report ..................................................................................................... 87

8.5.9 Text at beginning .................................................................................................... 88

8.5.10 Text at end .............................................................................................................. 89

8.5.11 Presetting ................................................................................................................ 90

8.5.12 Codenumber .......................................................................................................... 91

8.6 Configuration level 3 ............................................................................................... 92

8.6.1 Relay output ........................................................................................................... 93

8.6.2 Maths and logics module ....................................................................................... 95

8.6.3 Interface .................................................................................................................. 96

8.6.4 External text ............................................................................................................ 98

8.6.5 Binary-linked external text ...................................................................................... 99

8.6.6 External stop ......................................................................................................... 100

8.6.7 External speed ...................................................................................................... 101

8.6.8 Event counter ....................................................................................................... 102

8.6.9 External scaling .................................................................................................... 103

8.6.10 External report ...................................................................................................... 104

Contents

9 Consumables 105

9.1 Summary of consumables ................................................................................... 105

9.2 Removing and replacing the chart cassette ........................................................ 106

9.2.1 Changing the roll chart ........................................................................................ 108

9.2.2 Changing the fanfold chart ................................................................................... 109

10 Extra Codes and accessories 110

10.1 Converting the chart cassette .............................................................................. 110

10.2 Extra Code 259 ..................................................................................................... 111

10.3 External relay module ER8 ................................................................................... 112

10.4 Setup program ..................................................................................................... 115

10.5 Maths and logics module ..................................................................................... 117

10.6 Interface (RS422/RS485) ..................................................................................... 118

11 Fault finding 119

11.1 What to do if... ...................................................................................................... 119

12 Appendix 121

12.1 Technical Data ...................................................................................................... 121

12.2 Error messages .................................................................................................... 125

12.3 Hardware fault ...................................................................................................... 127

12.4 Status messages .................................................................................................. 128

12.5 Character set ........................................................................................................ 129

12.6 Summary of the parameters ................................................................................. 130

13 Index 132

1.1 Introduction

E

Please read this Manual before



starting up the instrument. Keep the
Manual in a place which is at all
times accessible to all users.

Please assist us to improve this
Manual where necessary.

Your suggestions will be most wel­come.

Phone
in Germany (0661) 6003-727
from abroad (+49) 661 6003-0
Fax
in Germany (0661) 6003-508
from abroad (+49) 661 6003-607

1 About this Manual

All necessary settings and, where
appropriate, alterations inside the
instrument are described in this
Operating Manual. However, if any
difficulties should arise during start­up, please do not carry out any
manipulations. You could endanger
your rights under the instrument
warranty!

Please contact the nearest subsidi­ary or the head office in such a
case.

When returning modules, assem­blies or components, the regula­tions of EN 61340-5-1 and 61340-5­2 “Protection of electronic devices
from electrostatic phenomena”
must be observed. Use only the
appropriate ESD packaging for
transport.

Please note that we cannot accept
any liability for damage caused by
ESD.

ESD=electrostatic discharge

6

1 About this Manual

1.2 Arrangement of the documentation

The documentation for this instrument con­sists of the following parts:

Operating Manual B 70.6021.0

This Operating Manual is always supplied
with the instrument. It is addressed to the
OEM (original equipment manufacturer)
and to the user with appropriate technical
know-how.

In addition to installation and electrical con­nection it contains all the information on in­strument start-up, operation and parameter
setting.

Interface Description B 70.6001.2

This Operating Manual is supplied with the
instrument, if one the interfaces (RS422 or
RS485) has been ordered. It provides infor­mation on communication with higher-level
(supervisory) systems.

Online help

The online help is part of the setup program.
It is a Windows1 online help.

Section 10.4

1. Microsoft und Windows are registered trade-

marks of the Microsoft Corporation

7

1 About this Manual

1.3 Typographical conventions

1.3.1 Warnings The signs for Danger and Warning are

used in this Manual under the following con­ditions:

Danger This symbol is used when there may be

V

Warning This symbol is used when there may be



Warning This symbol is used where precautions

E

danger to personnel if the instruction is
disregarded or not followed accurately.

damage to equipment or data if the
instruction is disregarded or not followed
accurately.

have to be observed during the handling of
components which may be damaged by
electrostatic discharges.

1.3.2 Notes





abc

Note This symbol is used if your special atten-

tion is drawn to a remark.

Reference This symbol refers to additional information

in other handbooks or sections.

1

Footnote Footnotes are notes which refer to certain

points in the text. Footnotes consist of 2
parts:

Markings in the text and the footnote text.
The markings in the text are arranged as

continuous raised numbers.

8

1.3.3 Presentation

1 About this Manual

* Action This symbol indicates that an action is being

described.
The individual steps are indicated by this

symbol, e.g.:

* press key h
* enter with E

Program
manager

Edit 
instrument data...

h+E

Keys Keys are shown as boxes. Both symbols

and text are possible. Where a key has mul­tiple functions, the text shown is the one
corresponding to the actual fuctions dis­cussed.

Screen

texts

Menu items Menu items of the setup program which are

Texts displayed in the setup program are
identified by italics.

referred to in this Manual are shown in ital­ics. Menu name, menu item and submenu
item are each separated by the symbol “”.

9

2 Identifying the instrument version

2.1 Instrument description

The pen recorder provides 1, 2 or 3 chan­nels for recording; the channels are isolated
from each other by optocouplers. Channel 1
can be used to write text in addition to the
signal trace. All three channels are zeroed
using Hall sensors.

A 24-place 5x 5 LED dot matrix display is
available for signal indication and program­ming. Operation is by eight keys on the in­strument front and via a setup program us­ing a PC. The configuration data are stored
permanently in EEPROM.

Input signals include resistance thermome­ters, resistance transmitters, thermocouples,
standard current and voltage signals. The
necessary linearisation is performed auto­matically. Eight logic inputs are available for
operating functions. An external relay mod­ule ER8 for rail mounting supplements the
pen recorder by eight switching outputs.
A 2-wire transmitter can be operated from
an isolated supply. The watchdog monitors
the recorder operation and triggers a restart
in case of a fault. On a power failure the
real-time clock is supplied by a lithium bat­tery or a storage capacitor.

A summary of all recorder parameters is
given in the Appendix ( Section 12.6).

10

2 Identifying the instrument version

2.2 Type designation

The label is affixed to the housing. The in­strument version can be identified from the
type designation.

The extra Codes are listed in sequence and
separated by a comma.

The voltage of the supply must agree with
the voltage shown on the label.

(1) Basic version

706021 LOGOLINE 500d with 1 universal input and text output

706022 LOGOLINE 500d with 2 universal inputs and text output (via channel 1)

706023 LOGOLINE 500d with 3 universal inputs and text output (via channel 1)

(2) Inputs 1 — 3 (programmable)

xxx 8 factory-set
xxx 9

configuration to customer specification

1

(3) Interface

xxx 00 not assigned
x x x 52 RS422, Jbus, Modbus
x x x 53 RS485, Jbus, Modbus

(4) Supply

x x x 22 20—53V AC/DC +0/-0% 48—63Hz
x x x 23 110—240V AC +10/-15% 48—63Hz

(5) Extra codes

x x x 020 lithium battery for RAM buffer (ex-factory)
x x x 021 storage capacitor for RAM buffer (instead of extra code 020)
x x x 259 8 logic inputs, interface for external relay module (ER8),

voltage output 24V 50mA DC
x x x 265 door with lock (IP54)
x x x 266 IP65 seal, wide fixing brackets
xxx 350
xxx 351

Order code
Order example 706023 / 8 - 00 - 23 / 020

1. Please specify probe types and measurement
ranges in plain text.

2. This extra code is available in combination with
supply voltage 110—240V AC, not with low supply
voltage. UL approval is not available.
The protection type in the carrying case
corresponds to IP20, outside IP20D.

3. UL approval is not available.

4. Extra codes are listed in sequence and separated
by a comma.

universal carrying case TG-35
housing with carrying handle

(1) (2) (3) (4) (5)

/--/

2

3

, ...

4

11

2 Identifying the instrument version

Standard accessories

- 1 Operating Manual B 70.6021.0

- 2 Mounting brackets

- 3 cable-tie with foot (can be released)
for tension relief of the sensor leads
connected

- 1 Fibre pen, disposable, for each channel

- 2 Chart rolls 16m long
or
1 Chart roll 32m long
(with Code r32)
or
1 Fanfold chart pack 16m long
(with Code fp)

2.3 Accessories

- PC interface with TTL/RS232 converter

- PC interface with USB/TTL converter

- Setup program

Section 10.4

External relay module ER8

Section 10.3

12

3 Installation

3.1 Location and climatic

conditions

The instrument location should as far as
possible be free from shock and vibration.
Stray electromagnetic fields, e.g. from mo­tors, transformers etc., should be avoided
where possible.

The ambient temperature at the location
may be between –10 and+50 °C at a relative
humidity not exceeding 75 %, without con­densation.

Corrosive air or fumes may interfere with the
function and life of the recorder.

Section 4.1

Section 12.1

13

3 Installation

(1)

3.2 Fitting in position

Side view
(dimension 26 increased to 27 when using

the IP65 seal)

Front view

mm inch

22.5 0.89
30 1.2
36 1.42
60 2.4

100 3.94
108 4.25
110 4.33
120 4.72
136 5.35

Panel cut-out

+1

138
144 5.67
227 8.94

5.43

+0.04

16 m 53 ft
32 m 107 ft

2

1.5 mm

2.5 mm20.004 in

0.0025 in

2

* Insert the recorder from the front into

the panel cut-out.

* From the back of the panel, hook the

mounting brackets (1) into the cut-outs in
the sides of the housing. The flat bracket
faces must lie against the housing.

* Place the brackets against the rear of the

panel and tighten them evenly.

2

14

4 Electrical connection

4.1 Notes on installation

❏ The choice of cable, the installation and

the electrical connection of the instru­ment must conform to the requirements
of VDE 0100 “Regulations on the Instal­lation of Power Circuits with nominal
voltages below 1000V” or the appropri­ate local regulations.

❏ Work inside the instrument must only be

carried out to the extent described and,
like the electrical connection, only by
properly qualified personnel.

❏ If contact with live parts is possible when

working on the instrument, it has to be
isolated on both poles from the supply.

❏ Earth the instrument at terminal PE to

the earth conductor. This line should
have at least the same cross-section as
the supply lines. Earth lines should be
run in a star layout to a common earth
point which is connected to the earth
conductor of the supply. Do not loop the
earth connections, i.e. do not run them
from one instrument to another.

❏ Do not connect any additional loads to

the supply terminals of the instrument.

❏ The instrument is not suitable for instal-

lation in hazardous areas.

❏ Electromagnetic compatibility (EMC)

conforms to the standards and regula­tions listed under Technical Data.

 Section 12.1

❏ Run input, output and supply lines sepa-

rately, and not parallel to each other.

❏ All input and output lines that are not

connected to the supply network must
be laid out as shielded and twisted
cables. The shielding must be grounded
to the earth potential on the instrument
side.

❏ Inductive loads in the neighbourhood of

the instrument, such as contactors or
solenoid valves, should be fitted with RC
modules for interference suppression.

❏ The instrument must be provided with

external fusing and disconnection. De­pending on the supply voltage, the fol­lowing fuse values apply for the external
fusing:

20 — 53V AC/DC, 48 — 63Hz
fuse 5A slow

93 — 263V AC, 48 — 63Hz
fuse 5A slow

15

4 Electrical connection

V

recesses for cable-tie with foot for tension relief

4.2 Connection diagram

The electrical connection
must only be carried out
by properly qualified
personnel.

Rear view with screw-clamp
connectors

Ter mi nals

Supply as on label N neutral

L1 line
PE potential earth

Analogue inputs Input 1 Input 2 Input 3

Field Field Field

Voltage input
up to 170 mV

Voltage input
above 170 mV

Current input

N(L-)
L1 (L+)
PE

1. 2. 3.

Thermocouple

Thermocouple with external
Pt 100 cold junction

16

4 Electrical connection

Analogue inputs Input 1 Input 2 Input 3

Resistance thermometer/
potentiometer in 2-wire circuit

Resistance thermometer/
potentiometer in 3-wire circuit

Resistance thermometer/
potentiometer in 4-wire circuit

Resistance transmitter
with 3-wire connection

Field Field Field

1. 2. 3.

Field

*R

comp=Rline

A = start
S = slider
E = end

External relay module ER8 Communication with ex-

ternal relay module ER8

Supply for external 2-wire
transmitter

Logic operating inputs Contact operation

Minimum pulse duration:
HIGH 500 msec

LOW 500 msec

Serial interface
RS422 or RS485

24V ±5%, 45 mA

LOW = R
HIGH = R

Voltage operation
LOW = 0 — 5 V DC

(not activated)
HIGH = 20 — 35 V DC

(activated)

Communication with
higher-level systems

≥ 100kΩ min.

OFF

≤ 50Ω max.

ON

8.

Terminal 7=logic input 1
...
Terminal 14=logic input 8

Terminal 7=logic input 1
...
Terminal 14=logic input 8

9.

17

5 Starting up

(1)

(2)
(3)

(4)

(5)

(6)

(7)

(8)
(9)

(10)

S

F

ENTER

/E

/E

S

F

ENTER

(1)

5.1 Display and controls

(1) 24-position 5x5 dot matrix

LED display
(2) fibre pen, channel 3, green
(3) fibre pen, channel 2, red
(4) fibre pen, channel 1, blue
(5) chart
(6) setup interface

(behind swing-up LED dot matrix

display)
(7) keys for operation and programming
(8) door
(9) housing to DIN 43700 for flush panel

mounting, galvanised steel
(10) channel marker label

5.2 Opening and closing the

door

Turn the knob to open or close the door.

5.3 Marking the channel label

Please mark the channel label (1) with the
measurement channel designation and the
corresponding range (plot area and offset
where appropriate).

18

5 Starting up

5.4 Fitting the fibre pens

* Open the recorder door
* Stop recording

(e.g. press key S)

* Swing display upwards
* Slide the fibre pen into the holder up to

the stop

* Swing display down again until it clicks

home.

19

6 Preparation

6.1 Operating modes and status

Operating mode/status Description
Basic status Basic status of the recorder with signal acquisition and

processing.
The display shows, depending on setting:

- instrument designation, date and time

- one channel and its measurement as number
or bargraph

- or status/error messages.

The display can be altered during recording, using the
keys h and R.

If there is a status/error message, it is shown flashing at
regular intervals instead of the current display.

Stop

Stop by key

Stop via external stop External stop can be operated through a signal at a

Chart speeds

Normal chart speed The chart is advanced at the speed programmed under

Limit operation When input goes above/below the programmed limits,

Recording is stopped and continued using key S.
In the stop status the display flashes STOP.

logic input on the back of the recorder. In the external
stop status the display flashes EXTERNAL STOP.

chart speed.
Section 8.2.1

the recorder switches to the chart speed programmed
under “limit feed”.
 Section 8.4.5

Section 8.5.3

Section 10.4

External speed On a signal applied to a logic input at the back of the

recorder, it switches to the chart speed programmed
under “feed extern”.
 Section 8.6.7

Section 10.4

20

6 Preparation

Operating mode/status Description

Timed operation This chart speed applies within a programmable time

period. Outside this period the chart is advanced at the
speed programmed as normal speed.
 Section 8.5.4

Section 10.4

Recording

Scaling The scale can be printed in two different modes:

cyclic: for each channel at a configured spacing
triggered: for all channels by pressing key (key F,

hold down at least 4 sec) or by closing
a logic input

 Section 7.4

Section 8.4.3

Plotarea During plotarea operation a portion of the total measur-

ing range of a trace is recorded to a larger scale.
 Section 8.4.6

Section 10.4

Offset Using the parameter “offset” it is possible to define the

presentation range of a trace on the chart.
 Section 8.4.7

Section 10.4

Pen offset compensation There is an offset of several millimetres between the

fibre pens of the individual channels.
When pen offset compensation is switched on, this pen
offset is compensated automatically.
 Section 8.5.7

Section 10.4

21

6 Preparation

6.2 Operating principle

The individual parameters and functions are
divided into three levels for clearer operation of
the recorder:

Basic status

Basic status of the recorder with signal ac­quisition, recording, indication and process­ing.

The display shows, depending on setting:

- instrument designation, date and time
(the time can be switched off via the para­meter parameter level  display time)

- one channel and its measurement as a
number or bargraph

- or system error messages.

The display can be altered during recording
using the keys h and R.

If there is a system error message, it is
shown flashing at regular intervals instead
of the current display.

Operating level

At this level, signal acquisition and process­ing remain activated.

The following parameters can be altered at
the operating level:

-chart speed

- print test

- service print.

A summary of all parameters of the recorder
is given in the Appendix.

Section 12.6

22

6 Preparation

Parameter level

The parameter level is protected by a code­number to prevent unauthorised access.

H

If a wrong codenumber is input, the individ­ual parameters can be viewed, but not pro­grammed.

Following input of the correct codenumber,
the recorder interrupts signal acquisition
and recording at this level. Statistical reports
are re-started on leaving the parameter level.

There are two different
codenumbers:

- Codenumber for limited
parameter set

- Codenumber for complete
parameter set

Section 8.2.4

Section 12.6

Section 7.9

The following parameters are altered at the
parameter level:

- language

- date and time

-summer time

- display brightness

-relay limit

- display time

23

6 Preparation

Configuration level 1

If a correct codenumber has been

H

Configuration level 1 includes the following
channel-specific parameters:

- writing status

- signal input

-scaling

- channel designation

- limit operation

input when calling up the parame­ter level, the recorder interrupts
signal acquisition and recording at
this level. The parameters can be
viewed and altered.

- plotarea (zoom)

- offset (presentation range)

24

6 Preparation

Configuration level 2

If a correct codenumber has been

H

Configuration level 2 includes the following
global parameters:

- instrument designation

- chart speed programming mode

- chart speed limit operation

- timed operation

- scale printing

input when calling up the parame­ter level, the recorder interrupts
signal acquisition and recording at
this level. The parameters can be
viewed and altered.

- time printing

- pen offset compensation

-report

- start text

- end text

- pre-setting

- codenumber

25

6 Preparation

Configuration level 3

If a correct codenumber has been

H

Configuration level 3 includes parameters
which belong to Extra Codes and the maths
module.

- relay output

- maths and logics module

- interface

- external text

input when calling up the parame­ter level, the recorder interrupts
signal acquisition and recording at
this level. The parameters can be
viewed and altered.

- binary-linked external text

- external stop

- external speed

- event counter

- external scaling

- external report

For a summary of all the parameters of the
recorder see the Appendix.

Section 12.6

26

6 Preparation

The levels, parameters and subparameters
are arranged in a tree structure. Starting
from the basic status the program branches
to the individual levels and from there into
the corresponding parameters, and also
into any sub-parameters.

To alter a certain parameter, run through the
relevant levels up to this parameter.

The editing process is started with
If a parameter has several sub-parameters,

these are reached with E.

E.

27

6 Preparation

Entering parameters

Where there are no further sub-parameters,

E transfers all the data of the parame-

ter to the memory.

Aborting programming

Programming can be aborted within a pa­rameter by pressing the key e.

If the last sub-parameter has not yet
been entered, the parameter data
which have already been edited are
discarded. The old sub-parameters
are retained.

Error messages during programming

If there are error messages during program­ming due to incorrect inputs, these have to

be acknowledged with E before pro­gramming can be repeated.

Key functions

e

S

F

l,r

- Chart fast forward when
recording is stopped
(in basic status)

- Aborting parameter input
(Exit)

- Level change backwards

- Start/Stop recording

- Decimal place selection
during value input

- For text input:
rapid character selection
(jump to “ ”,“0”,“A”,“a”,
“°”, “²”,“À”,“à”)

- Function key
for special function
(hold down at least 4 sec)

factory setting:
scale printout

- Cursor left/right
(select digit)

l+r

h,R

h+R
E

- Deactivate/activate
display of status/error
messages

- Select display:

- date and time

- channel measurements

- bargraph

- system states

- Parameter selection

- Channel selection

- Value selection
from value table

- Increment/ decrement/
current digit

- Level change forwards

- Initiate parameter input

- Enter input

- Acknowledge
error message

28

- Activate/ deactivate
static display
(in basic status)

6 Preparation

Selection

Selection consists of a list of several options.
Three keys are used to select an option:
* select option with the h and R key
* enter selection with E

Value/text input

Five keys are used to input values:
* select the digit to be altered with the

l and r keys

* increment and decrement the selected

diget with the h and R keys
* shift the decimal point with the S key
* enter value input with E

An incorrect input produces an error
message on the display.

 Section 12.2
The error message must be acknowl-

edged with
A new value can then be entered.

Five keys are used to input text:
* select the character to be altered with the

E.

l and r keys

* select the new character with the

h and R keys

(rapid character selection with the S key)
* acknowledge text input with E

29

7 Text printing

The pen recorder can print text in addition
to the trace using the fibre pen of channel 1.
Text printing is used for comments on the
trace and for event recording. The charac­ters are written in dots on a 9 x 7 matrix.

7.1 Printing priorities

There are various types of text which are as­signed priorities in the setup program.
These priorities determine abort criteria
where printing of several texts is required
simultaneously.

The following applies in the explanation
below:

- text 1 = text with high priority

- text 2 = text with low priority
If text 2 is being printed while there is a re-

quest for text 1, the printing of text 2 is inter­rupted and text 1 is printed.

If there is a request for text 2 while text 1 is
being printed, text 2 is output after text 1 has
been printed.

30

7 Text printing

Only the latest request is stored for each
text.

Example: A report with high priority is being
printed from 12:00 to 12:05 hrs. While it is
being printed a relay goes overlimit twice.
Under normal conditions three texts would
be printed for this overlimit (low priority), as
follows:

“12:01 relay 1 ON”,
“12:02 relay 1 OFF” and
“12:03 relay 1 ON”.
In this example the printing of the report

would first be completed. This is followed by
the delayed output of

“12:02 relay 1 OFF” and
“12:03 relay 1 ON”.

Time Text printing request Actual printing

12:07

“12:03 Relay 1 ON”

12:06

“12:02 Relay 1 OFF”

12:05

12:04

12:03 “12:03 Relay 1 ON”

Report

12:02 “12:02 Relay 1 OFF”

12:01 “12:01 Relay 1 ON”

12:00 Report

31

7 Text printing

In the following cases all existing text print­ing requests are cancelled and new ones
received are ignored:

- recorder goes to stop status

- print test is started

- service print is started

- recorder is switched off

An exception is the statistical report:

Section 7.9

The following fixed priorities are allocated to
stop, service print and print test:

Priority Text

higher

lower

- Stop by key

- Service print

-Print test

- Text printing as configured in

S,

external stop, no chart,
configuration by keys
or setup

priority list

32

7 Text printing

7.2 Printing modes

There are two modes for printing text:

- trace is interrupted

- trace is overwritten

Interrupting the trace

The text is printed as quickly as possible.
During text printing there is no recording of
the trace on channel 1. The chart speed is
optimised for text printing; it does not agree
with the programmed chart speed.

The time for printing a text is typically
10 —40sec.

Advantages:

- quick text printing

- minimum blockage of other messages

- text printing also at chart speeds above

360 mm/h

- text printing also when zero chart speed

has been programmed

Disadvantages:

- channel 1 is not recording during text

printing

- the chart speed is altered during text

printing

(time reference of channel 2 and channel

3 traces is no longer correct)

- if pen offset compensation has been

switched on it is switched off during text

printing. After text printing has been

completed, the pen offset compenstion

is switched on again and re-initialised.

33

7 Text printing

Overwriting the trace

The text is printed at the normal chart
speed. There is only a brief interruption of
the channel 1 trace. No text printing at zero
chart speed and at a chart speed above
360mm/h.

Printing a text line requires different times,
depending on the programmed chart
speed.

Chart speed Printing time for one

text line

5mm/h

20mm/h

120mm/h

43min approx.
11min approx.

2 min approx.

Advantages:

- the time reference is retained during text

printing

- recording of signals on channel 1 is only

interrupted for a very brief time

- if pen offset compensation has been

switched on it need not be switched off

during text printing

Disadvantages:

- text printing may take a very long time

- there is no text printing at zero chart

speed and at chart speeds above 360mm/h

34

7 Text printing

_00:00 05.11.96

_23:00

7.3 Clock time

This is printed cyclically at a configurable
spacing.

The following spacings can be set:

- 4 cm approx.

- 6 cm approx.

- 12 cm approx.

- no time printing

The spacings are independent of the select­ed chart speed. Clock speed is only printed
at even times and the spacings given above
are only approximate.

Every fourth clock time print is followed
alternately by the current chart speed, the
programmed recorder designation, and the
date.

The date is always printed on the date
change at 00:00 hrs.

For an accurate time reference on the chart
the clock time is preceded by a time refer­ence mark (“_”).

If the symbol “?” is printed after the
clock time, the time has to be checked
and re-programmed if necessary
( Section 8.3.2).

35

7 Text printing

7.4 Scaling

The scaling can be printed in two ways:
cyclic: for each channel at a configured

spacing

triggered: for all channels on pressing the

(F key (hold down for at least 4
sec) or by closing one of the log­ic inputs.

Cyclic scaling print-out

Spacing which can be selected:

- 30 cm approx.

- 60 cm approx.

- 90 cm approx.

-off
The lowest line shows the channel number,

the corresponding pen colour, the pro­grammed channel designation and the unit
of the measured value.

If the range 0 —100mm has not been al­tered by offset, the next line shows the scale
values for 0%, 50% und 100%. If the range
has been restricted, this line contains marks
for the start and the end of the range. The
corresponding numbers are printed in the
next line.

The limit marks for the current channel are
printed in the top line.

36

7 Text printing

-200.0 +325.0 +850.0
Ch.1 (blue): Furnace 1 °C

Ch.2 (red): Generator V

+200.0 +400.0

+200.0 +400.0

Ch.2 (red): Generator V

-20.00 +40.00

Ch.3 (green): Outside temp. °C

-200.0 +325.0 +850.0
Ch.1 (blue): Furnace 1 °C

Example:
a) upper chart

- channel 1

-range: 0—100mm

- relay limits at 200 and 500°C

b) lower chart

- channel 2

- restricted range: 50 —100 mm

- relay limit at 300V

Triggered scaling print-out

To start the triggered scaling print-out the
key F must be held down for at least 4 sec.

Alternatively, the triggered scaling print-out
can be started using a logic input.

The print-out covers the scaling of all chan­nels whose writing status is switched on.

Print-out follows the same arrangement as
described under “cyclic scaling print-out”.

37

7 Text printing

_12:34 240 mm/h

7.5 Changing the chart speed

Every change in chart speed is reported by
printing a line with the current time and the
new chart speed.

The type of line indicates the type of chart
speed with which recording takes place af­ter the change.

normal operation
limit operation
external speed
timed operation

The indivual events have different priority:

Event Priority

higher

limit operation

external speed

timed operation

normal operation

lower

The current chart speed depends on the
event with the highest priority.

Setting the printing priority for

Text on Change of Chart Speed

( Section 7.1) affects not only the
printing of the chart speed change
marking but also the change itself.

There is no chart speed change as
long as a text with a higher priority
is being printed.

38

7 Text printing

Text printing in the trace overwriting
mode ( Section 7.2) may take a
very long time.

In order that the chart speed
change is not delayed, the priority
of texts printed in this mode should
be lower than the priority of the
chart speed change.

The line to mark the type of speed
change is printed even when the
corresponding text can not be printed.

This is the case when the setup pro­gram has been configured under

Edit:  Print out texts in Print mode
“Process value overwrite” for Tex t
on Change of Chart Speed and

when a chart speed of zero or greater
than 360mm/h is set.

Text printing in the trace interrupting
mode ( Kapitel 7.2) is relatively
quick.

In order to prevent the printing of
texts in this mode being aborted
through a chart speed change, the
priority of these texts should be
higher than the priority of the chart
speed change.

39

7 Text printing

_12:34 06.11.96 Recording stop

_13:20 06.11.96 Recording start

7.6 Recording start and end

Recording start and end are reported by a
start and end text which can be programmed.

Text printing for start and end can be
switched on and off separately.

Section 8.5.9
Section 8.5.10
Section 10.4

The end text is being printed in the
stop status in which no other text
can be printed; there is therefore no
priority and no trace interrupting/
overwriting for the end text.

The start text should always have
the highest priority to ensure print­ing at the start of the recording.

Printing the end text is omitted
when the chart sensor recognises
“end of chart”.

Printing the end text is aborted by
pressing the e key.

40

7 Text printing

12:34 Overload

Binary
number

Decimal
number/text

0000 0

0001 1

0010 2

0011 3

0100 4

0101 5

0110 6

0111 7

1000 8

1001 9

1010 10

1011 11

1100 12

1101 13

1110 14

1111 15

logic input 4

logic input 1

7.7 External text, binary-linked

text, relay texts

Extra Code 259 required.

External text

Eight logic inputs are available for external
texts.

Closing a logic input causes the corre­sponding text to be printed. Opening the
logic input has no effect.

Section 8.6.4

Binary-linked external text

It is possible to interpret the signals at the
first 4 logic inputs as a binary number and
to assign a text to each binary number. In
this way it is possible to print up to 16 texts.

Following each change of status of these
logic inputs, the text corresponding to the
binary number is printed.

Text printing can be switched off separately
for each of the 16 texts.

Example:
If the state of the logic inputs is the binary

number 1001, then text 9 is printed.
If the first logic input on the right is opened,

the state of the logic inputs is the binary
number 1000. Text 8 is being printed.

Section 8.6.5

41

7 Text printing

Relay texts

Relay texts are printed when a relay switches.

The request for printing a relay text
is ignored if the text consists only of
blank characters. There is also no
printing of the corresponding time.

Section 8.6.1

Generally for external, binary-linked and
relay texts:

In addition to the programmed text, the time
is printed at which the text printing has been
requested.

The time reference mark “_”
( Section 7.3) is not being printed
since printing may be delayed.

42

7 Text printing

12:34 Batch No. 00023

7.8 Incrementing the

event counter

Any logic input is assigned to the event
counter. Each closing of the corresponding
logic input increments the event counter. It
can be preset using the setup program.

Each incrementing is reported by printing
the clock time and the programmed text, fol­lowed by the current counter reading.

Section 8.6.8
Section 10.4

The time reference mark “_”
( Section 7.3) is not being printed
since printing may be delayed.

If the counter reading exceeds
9999, the number can no longer be
shown. The counter reading is print­ed as “*****”.

43

7 Text printing

MIN. MAX. AVER. DIM.

Recorder designation

Report start (Date + time) Report end (Date + time)

to

Name Ch.1 Min. value 1 Max. value 1 Average 1 Unit

Name Ch.2 Min. value 2 Max. value 2 Average 2 Unit

Name Ch.3 Min. value 3 Max. value 3 Average 3 Unit

MIN. MAX. AVER. DIM.

to

Furn. 1 +329.2 +395.1 +370.8 °C

Generator ------ ------ ------ V

Ext. temp -11.02 +24.31 +18.75 °C

06.11.96 08:0005.11.96 08:00

Shop 2

7.9 Statistical report

This report is printed at the end of the statis­tical period.

Section 8.5.8
Section 10.4

The texts “to”, “MIN”, ”MAX”, “AVER.” and
“DIM” are printed in the configured language.
Only channels which are actually present
and whose writing status is activated are in­cluded in the report.

If overrange or underrange has occured
during the statistical period, the minimum,
maximum and average values are replaced
by “------”.

External report

The external report is compiled as soon as
the corresponding (programmed) logic in­put is closed.
The report is printed as soon as the logic in­put is opened again.

Generally for the statistical report:

- If the recorder is switched off at the end of

the statistical period, the report is cancelled.

The same applies if the recorder is re-

configured from the keys or if the setup

connector is plugged in.

- If printing of the statistical report is inter-

rupted by stop, re-configuration, setup,

or a print test or service print, printing the

statistical report is not continued when

recording is re-started.

- If the pen recorder is on stop when prin-

ting the statistical report should start, the

report is printed after the stop is cancelled.

The statistic of a new report runs from the

selected starting time for this new report,

even if the printing of the old report

should be delayed.

44

7 Text printing

_13:26 05.11.96 Printtest

7.10 Print test

The print test can only be initiated on the re­corder using the keys. It is used to check
the function of writing system and fibre
pens.

Started text printing is aborted and
not continued after the print test.

All text printing requests arriving
during the print test are rejected.

The only exception is the statistical
report.

Section 8.2.2

45

7 Text printing

SERVICE PRINT

software version : 078.02.01.2

no. of power downs: 00012

operation time [h]: 01234

event counter 1: +54321

event counter 2: -12345

7.11 Service print

The service print can only be initiated on the
recorder using the keys.

It prints the software version, the number of
supply interruptions and the total operating
time of the recorder in hours.

Started text printing is aborted and
not continued after the service print.

All text printing requests arriving
during the service print are rejected.

The only exception is the statistical
report.

If the maths and logics module is
activated, an “M” is printed after the
software version

Section 8.2.3

46

8 Programming

8.1 Basic status

The recorder is in the basic status after the
supply has been applied and it has been in­itialised. The measurement signals are ac­quired, processed and recorded.

In the basic status the following are indicat­ed, depending on the setting:

- the instrument designation, date and time

(the time can be switched off via the para-

meter parameter level  display time)

- the measurements of all active channels

- one channel, its measurement, designation

and unit

- one channel and its measurement as a

bargraph

- or status/error messages

Display can be cyclic or static:

cyclic display

After approx. 3 sec the pen recorder switch­es automatically to the subsequent display.

static display

In the basic status the static display is acti­vated and deactivated with E.
When it is activated, the current display is

maintained and updated at regular intervals.
The indication can be altered during record-

ing with the
Status and error messages are always

shown in plain language, flashing regularly,
instead of the current display.

The display of status and error messages
can be stopped and re-activated by pressing

h and R keys.

l+r.

Using the S key, the recording is stopped
and re-started. In the stop status the LED
matrix display flashes “STOP” .

47

8 Programming

Pressing the e key in the stop status ac­tivates the chart fast forward.

Pressing the F key (hold down at least 4 sec)
starts the scaling print-out.

Pressing the h+R keys simultaneously
changes to the operating level.

48

8 Programming

8.2 Operating level

The operating level is used to perform sim­ple operating actions.

It is reached from the basic status by press­ing the h+R keys simultaneously, from
the parameter level by pressing the e
key.

The operating level includes the following
parameters:

-chart speed

- print test

- service print

While the operating level is activat­ed, signal acquisition, processing
and recording as well as limit moni­toring are continuing.

A summary of all parameters of the recorder
is given in the Appendix. ( Section 12.6).

Display Edit Selection/input with keys Enter Continue with

S-LEVEL

Eh forwards

R backwards

49

8 Programming

8.2.1 Chart speed

The standard chart speed for signal tracing
is set here.

The chart speed is selected in steps from a
table of standard chart speeds, or can be
programmed continuously to any value be­tween 0 and 7200 mm/h.

Standard chart speeds are:
0, 5, 10, 20, 60, 120, 240, 300, 360, 600,

720, 1800, 3600 und 7200 mm/h.

The programming mode is factory­set to standard chart speeds.

In the setup program the program­ming mode can be changed to con­tinuous under

Edit  Chart Speed... .

For alteration on the instrument
 Section 8.5.2

Please note Section 7.2

Display Edit Selection/input with keys Enter Continue with

FEED PAPER

E

 with

step speed
programming:

FEED PAPER:
0240 mm/h

Select chart speed:
0, 5, 10, 20, 60, 120, 240,

300, 360, 600, 720, 1800,
3600, 7200 mm/h

h, RE h forwards

R backwards

 with

continuous
speed
programming:

0000
set required chart speed
value range:

0 — 7200 mm/h

50

h, R
l

, r

E

test:
speed value

h forwards
R backwards

8 Programming

_13:26 05.11.96 Printtest

8.2.2 Print test

Print test is used to check the function of
writing system and fibre pens.

Print test can only be initiated on the record­er using the keys.

PRINTTEST = ON continues until it
is terminated by PRINTTEST = OFF.

Started text printing is aborted and
is not continued after the print test.

All text printing requests arriving
during the print test are ignored and
rejected.

The only exception is the statistical
report.

Display Edit Selection/input with keys Enter Continue with

PRINTTEST

E

PRINTTEST:
OFF, ON

Select status of print test

51

h, R Eh forwards

R backwards

8 Programming

SERVICE PRINT

software version : 078.02.01.2

no. of power downs: 00012

operation time [h]: 01234

event counter 1: +54321

event counter 2: -12345

8.2.3 Service print

The service print prints the software version,
the number of supply interruptions and the
total operating hours of the recorder.

It can only be initiated on the recorder using
the keys.

Started text printing is aborted and
is not continued after the service
print.

All text printing requests arriving
during the service print are ignored
and rejected.

The only exception is the statistical
report.

If the maths and logics module is
activated, an “M” is printed after the
software version.

Display Edit Selection/input with keys Enter Continue with

SERVICE PRINT

E

SERVICE PRINT:
NO, YES

52

h, R Eh forwards

R backwards

8 Programming

8.2.4 Level inhibit and code request

The parameter level is protected by a 4-digit
codenumber.

Two codenumbers are available:

- codenumber for a limited set of parameters

(factory-set to 9200)

- codenumber for a full set of parameters

(factory-set to 9210)
Which parameters belong to the limited set

of parameters is defined in the set-up pro­gram under Edit  Instrument operation.

Parameters which are not required for the
applications or which are only programmed
once can be marked there accordingly. Af­ter the new set-up has been transferred to
the pen recorder, they are not indicated any
more on the instrument, .

If one of the two codenumbers is entered,
the following are interrupted:

- signal acquisition, and

- recording
Additionally:

- events are no longer acquired,

- reports are aborted and reset,

- limit values are no longer monitored, and

- the outputs remain in their latest status.
The parameters can now be programmed.

53

8 Programming

If a wrong codenumber is entered,
the recorder remains in normal op­eration. Signal acquisition, process­ing and recording remain activated.

The parameters can be viewed but
not programmed.

The codenumbers can be altered in
the setup program under
Edit  Codenumber... or on the
instrument ( Section 8.5.12).

Display Edit Selection/input with keys Enter Continue with

P-LEVE L

E

CODE: 0000
Input codenumber

h, R
l

, r

E

 2

h forwards
R backwards

54

8 Programming

8.3 Parameter level

At the parameter level it is possible to con­figure general parameters.

From the operating level, the parameter lev­el is reached by simultaneously pressing

keys h+R, from the configuration level 1
by pressing the e key.

The parameter level covers the following pa­rameters:

- language

- date and time

-summer time

- display brightness

- relay limit settings

- dispaly time

If an incorrect codenumber is en­tered, the recorder remains in nor­mal operation. Signal acquisition,
processing and recording remain
activated.

The parameters can be viewed but
can not be programmed.

Following entry of a correct
codenumber the normal operation
is interrupted.

There is no signal acquisition,
processing or recording.

The relays of the external relay
module ER8 remain in their current
status. They are only operated
again when the recorder is at the
operating level or in the basic sta­tus.

Display Edit Selection/input with keys Enter Continue with

P-LEVE L

h forwards
R backwards

55

8 Programming

8.3.1 Language

There is a choice of the following languages:

- English

- French

- German
The language setting affects all non-pro-

grammable texts in the recorder which are
printed or indicated.

Display Edit Selection/input with keys Edit Continue with

LANGUAGE

E

Language: ENGLISH
Select language:
GERMAN

ENGLISH
FRENCH

h, R Eh forwards

R backwards

56

8 Programming

8.3.2 Date and time

Programming the system clock of the re­corder. The following are programmed:
day, month, year, weekday, hour and
minute.

The current clock time is printed at certain
events.

It serves as reference time for timed events,
such as statistical reports, timed operation
and summer time.

Date and time are checked for plau­sibility after input. An error message
is output where appropriate.

The error message is acknowl­edged with E and the data can
then be re-entered.

Display Edit Selection/input with keys Enter Continue with

DATE & TIME

E

 2

 3

DATE: 09.03.96
Input date:

DD:MM:YY

Day: MONDAY
Select weekday:

MONDAY
TUESDAY
WEDNESDAY
THURSDAY
FRIDAY
SATURDAY
SUNDAY

TIME: 00:00
Input clock time:

hh:mm

h, R
l

, r

E

Check date

h, RE

h, R
l

, r

E

Check time

 2

 3

h forwards
R backwards

57

8 Programming

8.3.3 Summer time

Input of a time interval during which the
system clock of the recorder is changed to
summer time.

Example:
Summer time start: 31.03.96, 2:00 hrs

Summer time end: 27.10.96, 3:00 hrs
On 31.03.96 at 2:00 hrs the system clock is

advanced automatically one hour to 3:00 hrs.
On 27.10.96 at 3:00 hrs the system clock is

automatically put back one hour to 2:00 hrs.

The time interval for summer time
always applies only to the period in­dicated.

It has to be re-programmed afresh
for each year.

Display Edit selection/input with keys Enter Continue with

SUMMERTIME

E

SUMMERTIME: OFF, ON
Input status

h, RE

ON:  2
OFF:

h forwards
R backwards

 2

(ON)

 3

 4

 5

BEGIN: 31
Input date:

DD:MM:YY

BEGIN: 31.03.96 02
Input time:

hh:mm

END: 27
Input date:

DD:MM:YY

END: 27.10.96 03
Input time:

hh:mm

.03.96 00:00

.10.96 00:00

:00

:00

h, R
l

, r

h, R
l

, r

h, R
l

, r

h, R
l

, r

E

Check date

E

Check time

E

Check date

E

Check time

 3

 4

 5

h forwards
R backwards

58

8 Programming

8.3.4 Display brightness

The brightness of the display can be pro­grammmed in four different steps.

Display Edit Selection/input with keys Enter Continue with

DISPLAY

E

BRIGHTNESS: STEP

1...4

h, R Eh forwards

R backwards

59

8 Programming

8.3.5 Relay limits

This parameter is only visible when
the recorder is fitted with the inter­face for the external relay module
ER8 (extra Code 259 is required)

For each relay, a separate limit value is pro­grammed at which it switches on or off.

In addition, it is determined to which record­er channel the particular relay is assigned
and whether limit monitoring is activated or
not.

The switching differential to the left and right
of the limit can be freely selected, also the
limit comparator function (switch on or off at
overlimit or underlimit lk7, lk8).

Section 8.6.1

concerning lk7 und lk8

Section 10.3

Display Edit Selection/input with keys Enter Continue with

LIMIT
RELAY VALUE

E

VALUE RELAY:1
Input relay number:

1...8

h, RE

 2

 2

X VALUE RELY:0.000
Input limit for relay.
X = channel number

Y = relay number

60

h, R
l

, r

S

(deci-

mal place)

Eh forwards

R backwards

8 Programming

8.3.6 Display of time

The parameter “Display time” has been
added to the parameter level with effect
from the instrument version 078.03.01.1.

The time is indicated on the display when
the recorder is in the basic status. The time
display can be suppressed (status = OFF)
by using this parameter.

The instrument version can be
determined by the parameter
Operating level  Service print.

Display Edit Selection/input with keys Enter Continue with

DISPLAY TIME

E

DISPLAY TIME: ON

Select status (ON, OFF)
for display of time in the
basic status

h, R Eh forwards

R backwards

61

8 Programming

8.4 Configuration level 1

At the configuration level 1 it is possible to
configure channel-specific parameters.

From the parameter level, the configuration
level 1 is reached by simultaneously press-

ing keys h+R, from the configuration
level 2 by pressing the e key.

The parameter level 1 covers the following
parameters:

- writing status

- measurement/signal input

-scaling

- channel designation

- limit operation

- plotarea (zoom)

- offset (presentation range)

Following the input of a correct
codenumber when calling up the pa­rameter level, the recorder interrupts
signal acquisition and recording at
the configuration level 1. The param­eters can be viewed and altered.

Signal acquisition, processing and
recording are interrupted.

The relays of the external relay mod­ule ER8 remain in their current sta­tus. They are only operated again
when the recorder is at the operating
level or in the basic status.

Display Edit Selection/input with keys Enter Continue with

C1-LEVEL

h forwards
R backwards

62

8 Programming

8.4.1 Writing status

Setting for each recording channel: whether
the trace is printed on the chart and appears
in the statistical report or not.

Display Edit Selection/input with keys Enter Continue with

PLOTSTATE

E

 2

1 PLOTSTATE
Select number of the

recording channel

1 STATE: ON
Select status of the

recording channel:
ON, OFF

h, RE

 2

h, RE h forwards

R backwards

63

8 Programming

8.4.2 Measurement/signal input

The input signal/sensor type is selected
and the measurement ranges as well as the
filter time constants for each input channel
are defined.

If customized tables are used for
the linearisation of the input signals,
the measurement inputs and the
customized tables have to be set us­ing the setup program.

With inputs for resistance thermom­eter, thermocouple, current or volt­age, the temperature values set at
the signal input are automatically
copied to the scaling after editing.

This does not apply, if linear, cus­tomized table 1 or customized
table 2 has been configured as line­arisation.

Display Edit Selection/input with keys Enter Continue with

INPUT

E

 2

1 INPUT
Input number of input

channel

1 TYPE: RTD
THERMOCOUPLE

POTENTIOMETER
RES.TRANSMITTER
VOLTAGE
CURRENT

1

h, RE

h, RE

 2

 3
 4
 5
 6
 7
 8

1. The cold junction temperature of the internal cold junction is measured on channel 1. It is also valid for channels 2 and 3.
If one or more thermocouple inputs are configured with an internal cold junction, a thermocouple with internal cold junction
measurement or external constant cold junction temperature has to be configured for channel 1.

64

8 Programming

Display Edit Selection/input with keys Enter Continue with

 3

(RES.THERM.)

 31

 32

 33

1 CHARACT: Pt100

Pt 100 (–200 to +850°C)
Pt 100 (–200 to +649 °C, JIS)
Pt 500 (–200 to +850°C)
Pt 1000 (–200 to +850°C)
Ni 100 (–60 to +180°C)
X1 customized 1
X2 customized 2

1 CONNECTION: 2/3-wire
2/3-wire

4-wire
Define type of

connection of resistance
thermometer:
(2/3-wire or 4-wire)

1 UNIT: °C
°C, °F

1 RANGE BEG: –200.0
Input start of

measurement range

°C

h, RE

h, RE

h, RE

h, R,
l, r,
S

E

Check
range start
according to
characteristic

customized
X1 or X2:

 10 (FILTER)

otherwise:

 31

 32

 33

 34

 34

 4

 10

1 RANGE END:+850.0
Input end of

measurement range

see table below!

1 FILTER: +0.800
Input filter constant

(value range: 0.0 — 10.0)

°C

sec

h, R,
l, r,
S

h, R,
l, r,
S

E

Check
range end
according to
characteristic

end – start

≥ 15°C

E

Check
value range

0.0 — 10.0

 10 (FILTER)

h forwards
R backwards

65

8 Programming

Display Edit Selection/input with keys Enter Continue with

(Continued:
INPUT)

 4

(THERMO­COUPLE)

 41

 42

1 CHARACT.:L
L (–200 to +900°C)

J (–210 to +1200°C)
U (–200 to +600°C)
T (–270 to +400 °C)
K (–270 to +1372°C)
E (–270 to +1000°C)
N (–270 to +1300 °C)
S (–50 to +1768°C)
R (–50 to +1768°C)
B (0 — 1820°C)
X1 (customized lin. 1)
X2 (customized lin. 2)

1 UNIT: °C
°C, °F

1 RANGE BEG: –200.0
Input start of

measurement range

°C

h, RE

h, RE

h, R,
l, r,
S

E

Check
range start
according to
characteristic

customized
X1 or X2:

 10 (FILTER)

otherwise:

 41

 42

 43

 43

 44

 45

(only with
EXT.
CONST.)

1 RANGE END: +900.0
Input end of

measurement range

1 TEMP. COMP:
INTERN Pt 100

INTERN Pt 100
EXTERN Pt 100
EX T. C ONS T.

1 COMP. TEMP.:
+0020.

Input cold junction
temperature
(value range:
–20 to +100°C)

°C

°C

h, R,
l, r,
S

E

Check
range end
according to
characteristic

end – start

≥100°C

S,R,B

h, RE

h, R,
l, r,

E

Check
value range

S

 44

≥ 500°C

INTERN Pt 1001:
EXTERN Pt 100:

 10 (FILTER)

EX T. C ON ST. :

 45

 10 (FILTER)

1. The cold junction temperature of the internal cold junction is measured on channel 1. It is also valid for channels 2 and 3.
If one or more thermocouple inputs are configured with an internal cold junction, a thermocouple with internal cold junction
measurement or external constant cold junction temperature has to be configured for channel 1.

66

8 Programming

Display Edit Selection/input with keys Enter Continue with

 5

(POTENTIO­METER)

 51

 52

 53

1 CHARACT.: linear
linear

X1 (customized lin. 1)
X2 (customized lin. 2)

1 CONNECTION: 2/3-wire
2/3-wire

4-wire
Define type of potentio-

meter connection:
(2/3-wire circuit or 4-wire
circuit)

1 Ro:
+300.0

Input start resistance

1 Rp:
+900.0

Input measurement
range (resistance Rp)

Ohm

Ohm

h, RE

h, RE

h, R,
l, r,
S

h, R,
l, r,
S

E

Check
0

≤ Ro ≤

3900 Ohm

E

Check
0

≤ RANGE ≤

3900 Ohm
To t al

resistance
Ro + Rp

≤ 3900Ohm

customized X1
or X2:

 10 (FILTER)

otherwise:

 51

 52

 53

 10 (FILTER)

 6

min. span:
6 Ohm

see table below!

67

8 Programming

Display Edit Selection/input with keys Enter Continue with

(Continued:
INPUT)

 6

(RES. TRANS­MITTER)

 61

 62

 63

1 CHARACT.: linear
linear

X1 (customized lin. 1)
X2 (customized lin. 2)

1 Ra:
+300.0

Input start resistance

1 Rs:
+300.0

Input measurement
range

1 Re:
+900.0

Input end resistance

Ohm

Ohm

Ohm

h, RE

h, R,
l, r,
S

h, R,
l, r,
S

h, R,
l, r,
S

E

Check
0

≤ start res.

≤ 3900 Ohm

E

Check
0

≤ range

≤ 3900 Ohm

min. span:
6 Ohm

E

Check
0

≤ end res.

≤ 3900 Ohm

linear
characteristic:

 61

customized
X1 oder X2:

 10 (FILTER)

 62

 63

 10 (FILTER)

 7

see table below!

total
resistance

Ra+Rs+Re
3900 Ohm

≤

68

8 Programming

Display Edit Selection/input with keys Enter Continue with

(Continued:
INPUT)

 7

(VOLTAGE)

 71

 72

1 CHARACT.: linear

linear
Pt 100 (–200 to +850°C)
Pt 100 (–200 to +649°C, JIS)
Pt 500 (–200 to +850°C)
Pt 1000 (–200 to +850°C)
Ni 100 (–60 to +180°C)
L (–200 to +900°C)
J (–210 to +1200°C)
U (–200 to +600°C)
T (–270 to +400 °C)
K (–270 to +1372°C)
E (–270 to +1000°C)
N (–270 to +1300°C)
S (–50 to +1768°C)
R (–50 to +1768°C)
B (0—1820°C)
X1 (customized lin. 1)
X2 (customized lin. 2)

1 UNIT: mV
mV, V

1 RANGE BEG:
+0.000

Input start of
measurement range

mV

h, RE

h, RE

h, R,
l, r,
S

E

Check
range start
(–10.0V

≤ range start
< 10.0V

customized

1

or X21:

X1

 10 (FILTER)

otherwise:

 71

 72

 73

or 0.0V

< range start
≤ 22.0V)

 73

1 RANGE END:
+999.0

Input end of
measurement range

mV

h, R,
l, r,
S

E

Check
range end
(–10.0V

≤ range end

linear
characteristic:

 10 (FILTER)

otherwise:

 74

< 10.0V

or 0.0V

< range end
≤ 22.0V)

min. span:
5mV

1. If required, gain factors of transmitters must be taken into account when entering the characteristics in the setup program.

69

8 Programming

Display Edit Selection/input with keys Enter Continue with

 74

(only with ther­mocouples
and
resistance
thermometers

 75

 76

1 TEMP.: °C
°C, °F

1 TEMP. BEG:

-200.0

°C

Input start of
temperature range

1 TEMP. END:
+900.0

Input end of
temperature range

°C

h, RE

h, R,
l, r,
S

h, R,
l, r,
S

E

Check
temp. start
according to
characteristic

E

Check
temp. end
according to
characteristic

end – start:
Res.therm.

≥ 15°C

 75

 76

 10 (FILTER)

 8

see table below!

thermo­couple.
100°C,

S, R, B

≥500°C

≥

70

8 Programming

Display Edit Selection/input with keys Enter Continue with

(Continued:
INPUT)

 8

(CURRENT)

 81

1 CHARACT.: linear

linear
Pt 100 (–200 to +850°C)
Pt 100 (–200 to +649 °C, JIS)
Pt 500 (–200 to +850°C)
Pt 1000 (–200 to +850°C)
Ni 100 (–60 to +180°C)
L (–200 to +900°C)
J (–210 to +1200°C)
U (–200 to +600 °C)
T (–270 to +400°C)
K (–270 to +1372°C)
E (–270 to +1000°C)
N (–270 to +1300 °C)
S (–50 to +1768°C)
R (–50 to +1768°C)
B (0 — 1820°C)
X1 (customized lin. 1)
X2 (customized lin. 2)

1 RANGE BEG:
+0.000

Input start of
measurement range

mA

h, RE

h, R,
l, r,
S

E

Check
range start
(–20,5mA

≤ range start
< 20.5 mA

customized.

1

or X21:

X1

 10 (FILTER)

otherwise:

 81

 82

or 0.0mA

≤ range start
≤ 45.0 mA

or
–4,0mA

≤ range start
≤ 21.0 mA)

1. Gain factors of transmitters must, if required, be taken into account when entering the characteristics in the setup program.

71

8 Programming

Display Edit Selection/input with keys Enter Continue with

 82

 83

(only with ther­mocouples
and resistance
thermometers)

1 RANGE END:
+020.0

Input end of
measurement range

1 TEMP.: °C
°C, °F

mA

h, R,
l, r,
S

E

Check
range end
(–20,5mA

≤ range end
< 20.5mA

or

0.0mA

≤ range end
≤ 45.0mA

or
–4.0mA

≤ range end
≤ 21.0 mA)

min. span:

0.5mA

h, RE

linear
characteristic:

 10 (FILTER)

otherwise:

 83

 84

 84

 85

1 TEMP. BEG:

°C

-200.0
Input start of

temperature range

1 TEMP. END:
+900.0

Input end of
temperature range

°C

h, R,
l, r,
S

h, R,
l, r,
S

E

Check
temp. start
according to
characteristic

E

Check
temp. end
according to
characteristic

end – start:
Res.therm.
15°C,

thermocouple.

≥ 100°C

S, R, B

≥500°C

≥

 85

 10 (FILTER)

72

8 Programming

8.4.3 Scaling

The scaling start/end value and the dimen­sion (unit) are defined to record the meas­urement. For the alpha-numerical presenta­tion of the measurement on the display and
on the chart, the number format is selected.

Section 7.4

Example:
A temperature transmitter supplies a voltage
within the range of 0 — 10V. This range cor­responds to a temperature of 200 — 600°C.

Programming:
Unit: °C
Scaling start: 200
Scaling end: 600
Number format: XXX.X

Display Edit Selection/input with keys Enter Continue with

SCALING

E

 2

 3

3 SCALING
Select recording channel

3 DIMENSION: _ _ _ _
5 digits freely selectable

3 ZERO
+200.0

Input start of scaling

°C

h, RE

h, R,

E

S

h, R,

E

l, r,

 2

 3

 4

S

 4

 5

3 FULL
+600.0

Input end of scaling

3 DECIMAL POINT:
x.xxx

Select decimal place :
AUTO, x.xxx, xx.xx, xxx.x,
xxxx.

°C

h, R,
l, r,
S

E

Check

<> full

zero

 5

h, RE h forwards

R backwards

73

8 Programming

8.4.4 Channel designation

Defines the channel designation for each re­cording channel. During scaling the desig­nation is printed on the chart and shown on
the display together with the measurement
value. The complete character set is availa­ble. (v Section 12.5).

Display Edit Selection/input with keys Enter Continue with

WORD AND
NUMBER

E

 2

2 WORD AND NUMBER
Select recording

channel

2 _ _ _ _ _ _ _ _ _ _
Input channel

designation
(16 characters,
complete character set)

h, RE

h, R,

Eh
l, r,
S

 2

forwards

R backwards

74

8 Programming

Differential =
(end of scaling – start if scaling) h (end of plotarea – start of plotarea) h 0.01/100

8.4.5 Limit operation

On overlimit or underlimit, the chart print-out
is continued with the chart speed set under
parameter LIMIT FEED (v Section 8.5.3).
Status and limits are set separately for each
channel.

A switching differential of 0.5% is set about
the switching point to avoid that the chart
speed is changed too frequently. The
switching differential is referred to scaling
and plotarea (zoom).

Display Edit Selection/input with keys Enter Continue with

LIMIT
FEED

E

 2

2 LIMIT FEED
Select recording channel

2 STATE LIMIT FEED:
ON

Select status for limits:
ON, OFF

h, RE

h, RE

 2

FROM:

h forwards
R backwards

otherwise:

 3

 3

2 LOW:

unit

–200.0
Input low limit

h, R,
l, r,

E

 4

S

 4

2 HIGH:

unit

600.0
Input high limit

h, R,
l, r,
S

E

Check

low

< high

h forwards
R backwards

75

8 Programming

(smallest value to be recorded – start of scaling) /
(end of scaling – start of scaling) h 100%

(largest value to be recorded – start of scaling) /
(end of scaling – start of scaling) h 100%

8.4.6 Plotarea (zoom)

Defines the range of the input signal to be
recorded on the chart. The complete range
or an enlarged section can be recorded. In­put is in percent. The low value designates
the point of the measurement range which
becomes the new zero. The high value des­ignates the new end value. The entire
measurement range (scaling start to scaling
end) corresponds to 100%.

The difference between low and
high value must be at least 10%.

The low value is calculated as follows:

The high value is calculated as follows:

Display Edit Selection/input with keys Enter Continue with

PLOTAREA

E

 2

2 PLOTAREA
Select recording channel

2 LOW: 010
Input start of

presentation range of
measurement value
(in percent of the
measurement range)

%

h, RE

h, R,
l, r

E

Check:

0

≤ start

≤ 90%

 2

 3

 3

2 HIGH: 100
Input end of presentation

range of measurement
value (in percent of the
measurement range)

%

76

h, R,
l, r

E

Check:

≤ 100%

end

and end–start

≥ 10%

h forwards
R backwards

8 Programming

8.4.7 Presentation range (offset)

Defines the range on the chart on which a
trace is to be recorded. Either the entire
width of 100 mm or a strip can be selected
for the display. Sets the start and end of the
trace on the chart. The input is made in mm
steps.

Display Edit Selection/input with keys Enter Continue with

OFFSET

E

 2

 3

2 OFFSET
Select recording channel

2 LOW:

mm

20
Input start of offset

2 HIGH:
060

mm

Input end of offset

h, RE

h, R,
l, r

h, R,
l, r

E

Check:

0

≤ start ≤ 99

E

Check:

< end,

start

end

≤ 100

 2

 3

h forwards
R backwards

77

8 Programming

8.5 Configuration level 2

At the configuration level 2 it is possible to
configure global parameters.

From the configuration level 1, the configu­ration level 2 is reached by simultaneously

pressing keys h+R, from the configura­tion level 3 by pressing the e key.

The configuration level 2 covers the follow­ing parameters:

- instrument designation

- chart speed programming mode

- chart speed limit operation

- timed operation

- scale printing

- time printing

- pen offset compensation

- statistical report

- start text

- end text

- presetting

- codenumber

If a correct codenumber has been
entered when calling up the param­eter level, signal acquisition and re­cording are interrupted at the config­uration level 2. The parameters can
be viewed and altered.

78

8 Programming

Signal acquisition, processing and
recording are interrupted.

The relays of the external relay mod­ule ER8 remain in their current sta­tus. They are only operated again
when the recorder is at the operating
level or in the basic status.

Display Edit Selection/input with keys Enter Continue with

C2-LEVEL

h forwards
R backwards

79

8 Programming

8.5.1 Instrument designation

Defines the instrument or system designa­tion. The complete character set is availa­ble. (v Section 12.5).

Display Edit Selection/input with keys Enter Continue with

UNITWORD

E

TEXT: _ _ _ _ _ _ _ _ _ _
Input instrument desig-

nation (16 characters,
complete character set)

h, R,
l, r,
S

Eh

forwards

R backwards

80

8 Programming

8.5.2 Speed programming mode

For programming the chart speed, this pa­rameter is used to choose between stand­ard steps, i.e. selection of a chart speed
from a table of values, and continuous pro­gramming of the speed (speed program­ming in unit steps).

Display Edit Selection/input with keys Enter Continue with

KIND OF FEED
PROGRAMMING

E

PROGR.:
STANDARD STEPS

Select programming
mode:
STANDARD STEPS
(value from table of
values)
CONTINUOUS
(can be programmed
freely)

h, RE h forwards

R backwards

81

8 Programming

8.5.3 Speed limit operation

Chart speed on limit operation. It is possible
to change to this chart speed, if the signal
goes above/below the limit values entered
under the parameter LIMIT FEED.

Please observe priorities within the
different chart speeds.

v Section 7.5

Display Edit Selection/input with keys Enter Continue with

FEED LIMIT

E

 with

step speed
programming:

 with

continuous
speed
programming:

FEED LIMIT:
7200

mm/h

Select chart speed:
0, 5, 10, 20, 60, 120, 240,
300, 360, 600, 720, 1800,
3600, 7200 mm/h

FEED LIMIT:
0000

mm/h

Set required chart speed,
value range:
0 — 7200 mm/h

h, RE h forwards

R backwards

h, R,
l, r

E

Check

speed value

h forwards
R backwards

82

8 Programming

8.5.4 Timed operation

Chart speed which is only valid within the
entered time span.

On reaching the start time, the chart speed
is changed over to the value configured
here.
When the end time has been reached, the
chart speed is switched back to the stand­ard chart speed.

If start time = end time, the timed operation
is switched off.

Please observe priorities within the
different chart speeds.

v Section 7.5

Display Edit Selection/input with keys Enter Continue with

FEED TIME

E

 with

step speed
programming:

 with

continuous
speed
programming:

 2

 3

FEED TIME:
7200

mm/h

Select speed:
0, 5, 10, 20, 60, 120, 240,
300, 360, 600, 720, 1800,
3600, 7200 mm/h

FEED TIME:
0000

mm/h

Set required chart speed,
value range:
0 — 7200 mm/h

FROM-TO:

: 30 06 : 30

21
h min

Input start time
(seconds = 0 sec)

FROM-TO:
21 : 30 06

h min
Input end time
(seconds = 0 sec)

: 30

h, RE

h, R,
l, r

h, R,
l, r

h, R,
l, r

E

Check:

speed value

E

Check time

E

Check time

 2

 2

 3

h forwards
R backwards

83

8 Programming

8.5.5 Scale printing

Defines the regular spacing in which the
scaling is to be printed on the chart. The val­ues which are set are guide values and may
differ according to the chart speed.

Scale printing can also be started
manually on the recorder. Hold F
key down for at least 4 sec.

Display Edit Selection/input with keys Enter Continue with

PRINT SCALE

E

SPACING: 60cm
Select spacing of

scaling on the chart:
OFF
30cm
60cm
90 cm

h, RE h forwards

R backwards

84

8 Programming

8.5.6 Time printing

Defines the spacing in which the time is to
be printed on the chart. The values which
are set are guide values and differ accord­ing to the chart speed.

Section 7.3

Display Edit Selection/input with keys Enter Continue with

PRINT TIME

E

DISTANCE: 6cm
Select spacing of time

on the chart:
OFF

4cm
6cm

12cm

h, RE h forwards

R backwards

85

8 Programming

8.5.7 Pen offset compensation

There is an offset of 2mm each between the
fibre pens from channel 1 to channel 2 and
from channel 2 to channel 3. This offset is
compensated by a buffer storage of the
measured values when the pen offset com­pensation is switched on.

Display Edit Selection/input with keys Enter Continue with

PEN DISPLACE
COMPENSATION

E

COMPENSATION: OFF
Switch pen offset

compensation on or off:
OFF, ON

h, RE h forwards

R backwards

86

8 Programming

8.5.8 Statistical report

Keeping statistics with a print-out of a table
of statistics at the end of the statistical period.
(v Section 7.9).

The statistical period as well as the starting
time for the print-out of the table of statistics
are printed here.

If EXTERN CONTACT (logic input)
is selected as report, it must be
defined at the configuration level 3
under External Report, which logic
input has to operate the report.
(v Section 8.5.10).

Display Edit Selection/input with keys Enter Continue with

REPORT

E

TYPE: OFF
Set period of statistical

report:
OFF

DAILY
WEEKLY
MONTHLY
EXTERN CONTACT

h, RE

OFF,
EXTERN
CONTACT:

h forwards
R backwards

otherwise:

 2
 3
 4

 2

(DAILY )

 3

(WEEKLY)

 4

(MONTHLY

(WEEKLY)

 31

TIME: 08
Input time when the

statistical table has to be
printed

1

)

WEEKDAY:
THURSDAY

Select day of the week:
MONDAY,
TUESDAY,
WEDNESDAY,
THURSDAY,
FRIDAY,
SATURDAY,
SUNDAY

: 00

h, R,
l, r

E

Check time

h, RE

Check time

DAILY,
MONTHLY:

h forwards
R backwards

WEEKLY:

 31

h forwards
R backwards

1. On each first day of the month

87

8 Programming

8.5.9 Text at beginning

Defines the text which is printed after a stop
at the re-start of the recording (v Section

7.6). The complete character set is availa­ble. (v Section 12.5).

Display Edit Selection/input with keys Enter Continue with

BEGIN TEXT

E

 2

STATE: ON
Select status for printing

text at beginning:
OFF, ON

TEXT: _ _ _ _ _ _ _ _ _ _
Input text at beginning

(16 characters,
complete character set)

h, RE

h, R,

E
l, r,
S

OFF:

h forwards
R backwards

ON:

 2

88

8 Programming

8.5.10 Text at end

Defines the text which is printed after a stop
command before reaching the stop status.
(v Section 7.6).

The complete character set is available.
(v Section 12.5).

Display Edit Selection/input with keys Enter Continue with

END TEXT

E

 2

STATE: ON
Select status for printing

the text at end:
OFF, ON

TEXT: _ _ _ _ _ _ _ _ _ _
Input text at end

(16 characters,
complete character set)

h, RE

h, R,

E
l, r,
S

OFF:

h forwards
R backwards

ON:

 2

89

8 Programming

8.5.11 Presetting

Presets the parameter/configuration data for
commissioning and re-commissioning the
recorder. The instruments are supplied fac­tory-set with this setting.

This does not apply to the custom­ized linearisation tables.

Display Edit Selection/input with keys Enter Continue with

PRESETTING

E

PRESETTING:
NO

Overwrite parameter/
configuration data with
standard values:

NO, YES

h, RE h forwards

R backwards

90

8 Programming

8.5.12 Codenumber

Exchanges JUMO codenumbers for cus­tomized codenumbers.

Two different codenumbers are available:

- The codenumber for a restricted
parameter set (factory-set to 9200).

- The codenumber for a complete
parameter set (factory-set to 9210).

The parameters which belong to the restrict­ed parameter set are defined in the setup

program under Edit ➔ Operation... .

v Section 8.2.4

When customized codenumbers are
input, the original JUMO codenum­bers are overwritten and are then no
longer valid.

If the same numbers are defined for
both codenumbers, this codenum­ber is interpreted as the codenum­ber for the complete parameter set.

Section 8.2.4

Display Edit Selection/input with keys Enter Continue with

CODENUMBER

E

ALL PARAMETERS:
9210

Customized
codenumber for the
complete parameter set

h, R,
l, r,

E

 2

 2

SELECT
PARAMETERS:
9200

Customized
codenumber for the
restricted parameter set

91

h, R,
l, r

Eh

forwards

R backwards

8 Programming

8.6 Configuration level 3

At the configuration level 3 parameters of
the Extra Codes and the maths and logics
module are configured.
It is reached from configuration level 2 by si-

multaneously pressing the h+R keys.
The configuration level 3 covers the follow­ing parameters:

- relay outputs

- maths and logics module

- interface

- external text

- binary-linked external text

- external stop

- external speed

- event counter

- external scaling

- external report

If a correct coden
umber has been input when calling

up the parameter level, signal acqui­sition and recording are interrupted
at configuration level 3. The parame­ters can be viewed and altered.

Signal acquisition, processing and
recording are interrupted.

The relays of the external relay mod­ule ER8 remain in their current sta­tus. They are only operated again
when the recorder is at the operating
level or in the basic status.

Display Edit Selection/input with keys Enter Continue with

C3-LEVEL

h forwards
R backwards

92

8 Programming

8.6.1 Relay output

Extra Code 259 is required.

Accessory “External relay module
ER8” is required.

The external relay module ER8 is connected
to the recorder via a serial interface. It adds
8 switching outputs to the recorder. The
channels which are recorded can be freely
assigned to relays 1 to 8. The limit value be­longing to the relays is set at the parameter
level. (v Section 8.3.5).
Texts TEXT L and TEXT H, which can be
freely configured, report the limit transitions.
(v Section 7.7).

For lk7 and lk8
v Section 10.3

Display Edit Selection/input with keys Enter Continue with

RELAY-OUTPUTS

E

 2

 3

(ON)

RELAY: 3
Select relay:

1—8

REL3 STATE: ON
Input relay status:

OFF, ON

REL3 CHANNEL: 2
Select channel

belonging to relay :
1—3

h, RE

h, RE

h, RE

 2

OFF:

h forwards
R backwards

ON:

 3

 4

 4

2 REL3 HYST.L:

x.xxx

Input differential left of
the limit

93

h, R,
l, r,
S

E

 5

8 Programming

Display Edit Selection/input with keys Enter Continue with

 5

 6

 7

 8

2 REL3 HYST.H:

x.xxx

Input differential right of
the limit

2 REL3 LK: LK7
Select limit comparator

function:
LK7, LK8

2 REL3 SENS BR:

CONST.

Define relay position on
sensor break:
OFF, ON, CONST.

(CONST.= constant,
relay position is
maintained.)

TEXT L: _ _ _ _ _ _ _ _ _
Input text for underlimit

(16 characters)

h, R,

E
l, r,
S

h, RE

h, RE

h, R,

E
l, r,
S

 6

 7

 8

 9

 9

TEXT H: _ _ _ _ _ _ _ _ _
Input text for overlimit

(16 characters)

h, R,
l, r,
S

Eh

forwards

R backwards

94

8 Programming

8.6.2 Maths and logics module

Sets the status of the maths and logics
module..

The recorder response can, in prin­ciple, change when the maths and
logics module is switched on.

The information given in the Operat­ing Manual can then become partial­ly invalid.

Section 10.5

Display Edit Selection/input with keys Enter Continue with

MATHEMATICAL
MODULE

E

MATHEMATICAL
MODULE:
ON

Deactivate/activate
the maths module:
OFF, ON

h, RE h forwards

R backwards

95

8 Programming

8.6.3 Interface

Extra Code 52 or 53 is required.

Sets the parameters of the RS 422/RS 485
interface:

- protocol

- baud rate

- data format

- instrument address

- minimum response time
The minumum response time is the mini-

mum time span between the query of an in­strument in a data network and the answer
of the pen recorder.

B 70.6001.2

Display Edit Selection/input with keys Enter Continue with

INTERFACE

E

 2

 3

PROTOCOL: J-BUS
Set protocol:

J-BUS
MOD-BUS

BAUD: 9.6
Select baud rate

(values in kbaud):

0.15, 0.3, 1.2, 2.4, 4.8,

9.6, 19.2, 38.4, 125.0,

187.5kbaud

DATA FORMAT:
8/1/NO

kBAUD

h, RE

h, RE

h, RE

 2

 3

 4

Select data format
(data bits/stop bits/
parity):
8/1/NO,
8/1/ODD,
8/1/EVEN,
8/2 NO,
8/1/ZERO

96

8 Programming

Display Edit Selection/input with keys Enter Continue with

 4

 5

ADDRESS: 001
Select address:

1—255

MIN. RESPONSE TIME:
000T

msec

Select minimum
response time:
0—999msec

h, R,
l, r,

h, R,
l, r

E

Check:

≤ address

1

≤ 255

E

Check:

≤ resp.time

0

≤ 999

 5

h forwards
R backwards

97

8 Programming

8.6.4 External text

Extra Code 259 is required.

A signal at one logic input (external contact)
can prompt the recorder to print a text/

commentary which is programmed here.

Section 7.7

Display Edit Selection/input with keys Edit Continue with

EXTERNAL TEXT

E

 2

 3

2 EXTERNAL TEXT
Select text number:
1—8

2 CONTACT:
LOG.INPUT 3

Select logic input:
OFF
LOG.INPUT 1
LOG.INPUT 2
LOG.INPUT 3
LOG.INPUT 4
...
LOG.INPUT 8

2 TEXT: _ _ _ _ _ _ _ _ _ _
Input text

(16 characters)

h, RE

h, RE

h, R,

Eh
l, r,

 2

OFF:

h forwards
R backwards

otherwise:

 3

forwards

R backwards

S

98

8 Programming

8.6.5 Binary-linked external text

Extra Code 259 is required.

The signals which are present at the first
four logic inputs are interpreted as a binary
number. A text of 16 characters can be as­signed to each of these 16 possible binary

numbers (24 = 16).
A change of at least one signal at the first

four logic inputs results in a new binary
number.

If the printing status of the text belonging to
this binary number is programmed to ON,
the text is printed. (v Section 7.7).

Diplay Edit Selection/input with keys Enter Continue with

TEXT LOGIC LINKS

E

 2

 3

LINK: BIN.INPUT 1-4
Select inputs which are

to be binary-linked:
OFF no text

BIN.INPUT 1 text 00

text 01

and

BIN.INPUT1-2 text 00 ...

text 03

BIN.INPUT1-3 text 00 ...

text 07

BIN.INPUT1-4 text 00 ...

text 15

07

TEXT LOGIC LINKS

Select binary
combination (text no.):

00 — 15

07 TEXT STATE:ON
Select status for text

printing:
OFF, ON

h, RE

h, RE

h, RE

OFF:

h forwards
R backwards

otherwise:

 2

 3

 4

 4

07 TXT: _ _ _ _ _ _ _ _ _ _
Input text

(16 characters,
complete character set)

99

h, R,
l, r,
S

Eh

forwards

R backwards

8 Programming

8.6.6 External stop

Extra Code 259 is required.

Stops the recorder via a signal at the logic
input. As long as the signal is present, the
recording is interrupted.

Display Edit Selection/input with keys Enter Continue with

EXTERNAL STOP

E

CONTACT: LOG.INPUT 3
Select logic input:

OFF
LOG.INPUT 1
LOG.INPUT 2
LOG.INPUT 3
LOG.INPUT 4
...
LOG.INPUT 8

h, RE h forwards

R backwards

100