Eurotherm 2408 инструкция на русском

Operating Instructions
Temperature Programmers
Eurotherm 2408CP, 2408P4, 2408CM
Including 2132 and 2116 Overtemperature Controller Instructions
CONTENTS
section
1
2
3
4
5
6
7
8
page
2408 – Description
2408 – Basic Operation
2408 – Programming
2408 – Navigation Diagram
2408 – Options
2132/2116 – Description
2132/2116 – Operation
Power Limit
2
3
4
7
8
10
10
12
See also the main manual for the furnace, oven or other product to
which the controller is fitted.
MC05 – 1.07
2408 Controller/Programmer
1
2408 – DESCRIPTION
1.1
Controller Nomenclature and Scope of Manual
In this manual the controller is called the 2408 or the 2408CP. The manual also applies to the
multi-program versions 2408P4 and 2408CM.
This manual accords with software version 3.06, and to any other software versions where the
instrument can be configured in accordance with the navigation diagram and other instructions
given in this manual.
Special customer requirements may result in changes to the available parameters and the
navigation diagram. It is not possible to list all the possibilities in this manual.
1.2
2408CP Controller
The Eurotherm model 2408CP is a digital instrument with PID control algorithms which may be
used as a simple controller or a 16-segment programmer. The 2408P4 is a four-program model in
which the programs can be stored independently or can be linked by a “call” parameter to form a
single long program. The 2408CM is like the 2408P4, but is a 20-program model.
The 2408 features:
-
Easy use as a simple temperature controller, where on setting the required temperature the
controller immediately attempts to reach and maintain it. Fig.1 indicates the type of
temperature response when used in this way.
- By using one program segment, the control can be extended to include ramp-to-setpoint.
Fig.2 shows the effect.
- Alternatively the 2408 may be used as a 16-segment programmer, with each segment being a
Ramp, a Step, a Dwell, or End. The program can be set to cycle if required. See fig. 3.
- Optional “modules” are available, in particular:
- RS232 and RS432/485 digital communications modules;
- Analogue communication modules;
- “PDSIO” modules for communicate with other controllers of similar or higher
specification, for example to allow cascade control;
- Alarm modules, which can be used to drive visible or audible alarms, or to provide
volt-free contacts for customer use.
The 2408 does not contain a real-time calendar, and is not subject to century-end date problems.
2
MC05
2408 Controller/Programmer
2
2408 – BASIC OPERATION
2.1
Furnace or Oven Controls
Most Carbolite products are fitted with an “Instrument Switch” which cuts off power to the
controller and other parts of the control circuit. See the instruction manual for the furnace or oven
for the overall operating instructions.
To operate the 2408 there must be power to the furnace or
oven, and the Instrument switch must be on.
2.2
Eurotherm 2408CP – Outline of Operation
When switched on, the controller lights up, goes through a
short test routine, and then displays the measured
temperature and setpoint. Depending on its state when it
was last switched off it may start to control to the current
setpoint of program. The output light glows or flashes to
indicate that the control is occurring.
The buttons and indicators are used for the following
purposes:
Auto/Manual
Run/Hold
Down & Up
q&p
Page
/
Scroll
Q
Page+Scroll
Run & Hold
Output Indicator
SP2 and REM
2.3
Disabled. The unit is always in Auto mode
Used to start, stop or pause a program. Short presses cause it to alternate between
Run and Hold, but if it is held for 2 seconds the programmer goes into Reset mode
where it behaves as a simple controller.
To adjust the value of a parameter. Used to change the setpoint when the unit is
being used as a simple controller (Reset mode). Holding down gives an accelerated
parameter change.
Allows access to the parameters within the controller; most lists and parameters
are hidden from the operator as they contain factory-set values which should not be
altered. A single press of the page key shows the temperature units, normally °C;
further presses reveal the lists indicated in the Navigation Diagram.
Allows access to the parameters within a list. A single press displays the
temperature units; further presses reveal the parameters in the current list. Some
parameters are display-only, others may be altered by the operator.
Press together to cause an immediate return to the Home List
Indicate the current mode: Run, Hold, or Reset (Reset: both lights off).
Run flashes at the end of a program.
Hold flashes during holdback (when the program is paused to allow the
temperature to catch up with a heating or cooling rate which is too fast).
OP1 indicates that the programmer is calling for heat to be supplied.
OP2 is not used.
Not generally used; indicate Second or Remote setpoint in use.
Operation as a Simple Controller
Press Run/Hold for 2 seconds to go into Reset mode. Use Down q or Up p from the Home
List (i.e. when the temperature is displayed) to adjust the setpoint. The unit starts to control in the
way indicated in Fig. 1.
Note that to use the Ramp Rate feature, as in Fig. 2, it is necessary to create a program. See the
following sections.
MC05
3
2408 Controller/Programmer
3
2408 – PROGRAMMING
3.1
Creating a Program
Note that a currently active segment cannot be altered - put the programmer into Hold or Reset
whenever it is necessary to do so to alter a parameter. Go into Reset mode (i.e. press Run/Hold
for 2 seconds) before starting to create or modify a program.
Press Page / until ProG LiSt is displayed.
Press Scroll Q to reveal the Holdback and Loop Count parameters. See sections 3.4 and 3.5 for a
description of these.
Press Scroll Q to display SEG.n (segment number); use Down q or Up p to move to the
segment to be adjusted or created.
Press Scroll Q to see the segment type (tYPE). Use Down q or Up p to change the required
segment type – see the table.
Press Scroll Q to access the parameters appropriate to the type of segment chosen – see the
following table – and use Down q or Up p to alter the values.
The final segment should be of type End, unless all program segments are used. Segments after
End are ignored.
Segment type
Parameter
RmP.r
TGt
rAtE
RmP.t
TGt
dur
3.2
Dwel
dur
SteP
tGt
CaLL
PrG.n
cyc.n
End
End.t
function
The target set point for this segment
The ramp rate (rate of temperature change) in °/minute
The target set point for this segment
The duration of the segment. The controller calculates the rate
of temperature rise necessary to achieve this duration.
The time in minutes to remain at the previous target
temperature.
A new target temperature to be achieved as quickly as possible.
Only applicable to 2408P4 and 2408CM. Calls another stored
program given by PrG.n as a subroutine, running it the number
of times given by cyc.n.
Dwel holds the temperature at the last target value.
RSET returns to simple controller operation; if the setpoint is
set to zero then this effectively turns the heating off.
SoP sets the power to 0% – use of this is not recommended.
Programming Tips
Make sure the basic setpoint (see section 2.3) is set to zero to avoid unexpected heating at the
end of a program.
If all segments are used so that there is no End segment, then on completion the program
automatically goes into Dwel.
Dwell segments of length zero can be included. This is a way of allowing space for future
program changes.
For an example of program creation, see section 3.7.
4
MC05
2408 Controller/Programmer
3.3
Multi-program models (2408P4 & 2408CM)
The Program Edit list contains the extra parameter PrG.n and the Run List contains the extra
parameter PrG. These features allow selection of the program to be edited or to be run.
The extra segment type cALL allows one program to call another as a subroutine; use this feature
to create one or more long programs.
3.4
Holdback
Holdback can be used to prevent the program from running ahead of the actual heating or
cooling.
In the program list, Scroll Q to the Hb parameter and use Down q or Up p to set the holdback
type as follows:
BAnd
Lo
Hi
Off
Holdback applies to both heating and cooling
Holdback applies to heating only
Holdback applies to cooling only
Holdback is off
Set Hb.V to the value in °C beyond which holdback is to operate. Type BAnd and a value of 10°C
is often a suitable combination, if holdback is required. In this case, if the actual temperature
deviates outside ±10°C from the working setpoint, the holdback lamp of the front of the
controller flashes and the program is held up until the temperature comes within range again.
The standard setting for holdback is Off.
3.5
Program Cycling
The Loop Count parameter CYC.n can be set to control the number of times the program is run.
If CYC.n = 1, the program stops at the end segment.
If CYC.n = 5 (for example), the program runs 5 times: at the End segment it returns to segment 1,
until the 5th time through when it stops.
If CYC.n = cont, the program never ends: it cycles continuously.
3.6
Running a Program
Press Run/Hold to light up the Run light. The program starts to run.
To view the progress of a program from the Home list, press Scroll Q to reveal the current
segment (SEG) and the total program time remaining in hours (PrG.t). For a more detailed view,
press Page / to access the Run List page, and Scroll Q to see its contents as shown in the
Navigation Diagram below. Provided the unit is first put into Hold mode, temporary changes
may be made to parameters; these apply only until the program ends or is reset.
To pause a program, press Run/Hold; the Hold light comes on. To terminate a program, press
Run/Hold for 2 seconds; the Run and Hold lights go out.
While the program is running, the working setpoint is shown in the lower display.
MC05
5
2408 Controller/Programmer
3.7
Program example
The following sequence of entries creates and runs the program shown graphically below.
1. Press page key until ProG LiSt is displayed.
2. Press scroll until CYC.n is displayed and use the arrow key to select 1.
3. Press scroll until SEG.n is displayed and use the arrow key to select 1.
4. Press scroll until tYPE is displayed and use the arrow key to select rmP.r.
5. Press scroll until tGt is displayed and use the arrow key to select 600.
6. Press scroll until rAtE is displayed and use the arrow key to select 5.0.
7. Press scroll until SEG.n is displayed and use the arrow key to select 2.
8. Press scroll until tYPE is displayed and use the arrow key to select dwEl.
9. Press scroll until dur is displayed and use the arrow key to select 60.0.
10. Press scroll until SEG.n is displayed and use the arrow key to select 3.
11. Press scroll until tYPE is displayed and use the arrow key to select rmP.t.
12. Press scroll until tGt is displayed and use the arrow key to select 400.
13. Press scroll until dur is displayed and use the arrow key to select 60.0.
14. Press scroll until SEG.n is displayed and use the arrow key to select 4.
15. Press scroll until tYPE is displayed and use the arrow key to select dwEl.
16. Press scroll until dur is displayed and use the arrow key to select 30.
17. Press scroll until SEG.n is displayed and use the arrow key to select 5.
18. Press scroll until tYPE is displayed and use the arrow key to select rmP.r.
19. Press scroll until tGt is displayed and use the arrow key to select 30.
20. Press scroll until rAtE is displayed and use the arrow key to select 5.0.
21. Press scroll until SEG.n is displayed and use the arrow key to select 6.
22. Press scroll until tYPE is displayed and use the arrow key to select End.
23. Press scroll until End.t is displayed and use the arrow key to select dwEl.
24. Press the page key until you return to the main display.
25. Press the run key. The program runs.
60m
in
600°C
60m
in
5°C/m
30m
in
400°C
5°C/m
30°C
SEG.n = 1
tYPE = rmP.r
tGt = 600
rAtE = 5.0
6
SEG.n = 2
tYPE = dwEll
dur = 60.0
SEG.n = 3
tYPE = rmP.t
tGt = 400
dur = 60.0
SEG.n = 4
tYPE = dwEll
dur = 30.0
SEG.n = 5
tYPE = rmP.r
tGt = 30
rAtE = 5.0
SEG.n = 6
tYPE = End
End.t = dwEll
MC05
2408 Controller/Programmer
4
2408 – NAVIGATION DIAGRAM
Home
List
20.0
2
20.0
20.0
%C
Q
20.0
%C
OP
100.0
C.id
SEG
Multiprogram
models
only
Run
List
run
LiSt
5.0
LiSt
LiSt
Q
Q
Q
PrG
1
PrG.n
1
OP.Hi
100.0
Addr
1
codE
CYC
Hb
SEG
Hb V
0
1
5
Do not raise the power
limit (if accessible) above
the design level for the
product
CYC.n
SEG.t
SEG.n
tGt
tYPE
tYPE
tGt
End.t
1.0
1
Used in factory
configuration; not
accessible to the
operator
1
rmP.r
5.0
100.0
PrG.t
rAtE
5.0
home
list
Only if
RS232/RS422/
RS485 present
bAnd
StYP
rAtE
remaining time
in hours; other
times are in
minutes
LiSt
Access
List
ACCS
Comms
List
cms
Q
1.0
PrG.t
LiSt
Output
List
oP
Q
End
1
Program
List
ProG
2.0
dur
End
dwel
Parameters depend on
segment type
1.0
MC05
7
2408 Controller/Programmer
5
2408 – OPTIONS
Because options can be ordered in a variety of combinations and for a variety of purposes, exact
instructions are not given here. The full Eurotherm manual may be required to determine
customer parameter settings. To reveal or hide lists and parameters in the controllers it is
necessary to go into Edit mode and enter a security code. Please consult Carbolite.
5.1
Digital Communications – RS232
If the RS232 option is supplied, then the furnace is fitted with one subminiature D-socket
connected to the controller comms module. RS232 is suitable for direct connection to a personal
computer (PC), using a “straight through” cable as follows (the linked pins at the computer end
are recommended but may not be necessary). The cable is usually 25-pin at the furnace end and
9-pin at the computer, but other alternatives are shown in parentheses.
Furnace end of cable
female 25-pin (9-pin)
Rx
2 (3)
Tx
3 (2)
Com
7 (5)
5.2
RS232 Cable: furnace to PC
Computer end of cable
9-pin (25-pin) male
3
(2)
Tx
2
(3)
Rx
5
(7)
Com
7,8
(4,5)
Link together
1,4,6 (6,8,20) Link together
Digital Communications – RD485/422
If an RS485/422 option is supplied, then the furnace is fitted with two D-sockets. Connection
between products is by “straight” cable as follows:
RS485 cable: furnace to furnace
female 25-pin (9-pin)
2 (3)
−
+
3 (2)
Com
7 (5)
25-pin (9-pin) female
2
(3) −
3
(2) +
7
(5) Com
RS422: furnace to furnace
female 25-pin
Rx+
3
16
Rx−
Com
7
Tx+
12
13
Tx−
25-pin female
3
Rx+
16
Rx−
7
Com
12
Tx+
13
Tx−
If a boxed KD485 RS485/422 to RS232 converter is supplied, then the connection cable from
furnace to KD485 should be a “straight” cable, the same as the furnace-to-furnace cable. The
connection between the KD485 and the PC should be a “crossover” cable, the same as the
Furnace to PC cable in section 5.1. Note that the internal wiring of the KD485 box for the 5-wire
(RS422) system includes a cross-over.
5.3
Comms Address
Typically the comms address is set to 1, but this can be changed. In the case of RS422/485 and
multiple instruments it is necessary to set different addresses.
Press Page / a few times to get to cms (comms list), Scroll Q to Addr (address), and use Down
q or Up p to alter the comms address of the controller.
8
MC05
2408 Controller/Programmer
5.4
Alarm Option
When an alarm board is fitted with free contacts for customer use, the contacts are taken to a
panel plug on the control panel, wired as indicated:
Controller
n/o contacts
2A fuse
supply
load
The purpose of the 2 amp fuse is to guard against the connection of a mains supply to the panel
plug.
The instrument configuration, and parameters available to the operator, depend on the customer
requirements.
5.5
Program Segment Output
Where the requirement is for program segment output, an extra parameter is revealed in the Prog
List. For each program segment, after the segment type and settings, the parameter OuT1
appears. This has values on and off. If the value is set to on, then the relay closes during the
segment.
5.6
Remote Input and Output (Analogue Communications)
When analogue communications are fitted, the contacts are taken to “banana plug” sockets on the
control panel.
controller
Controller configuration depends on customer requirements.
Remote input (when specified) may be switched on and off using the Local/Remote parameter in
the controller home list, if this was made available for a particular application. Remote output
does not require switching on and off.
MC05
9
2132/2116 Overtemperature Controller
note: the following sections apply only when overtemperature control is fitted
6
2132/2116 – DESCRIPTION
The 2116 is similar to the 2132,
but twice the height. The
operating instructions are the
same.
The controller features easy setting of overtemperature setpoint, and reading of current
temperature at the overtemperature sensor.
The controller does not contain a real-time calendar, and is not subject to century-end date
problems.
To operate the controller there must be power to the furnace or oven, and the Instrument switch
must be on. If a time switch is included in the furnace or oven circuit, this must be in an On
period.
When an overtemperature condition occurs, the controller cuts the power to a contactor, which in
turn cuts power to the heating elements. Power is not restored until the controller is “reset”.
Other components do not generally have power to them cut on overtemperature; oven fans
usually remain running, but may not do so if other options (such as a door switch) are fitted.
7
2132/2116 – OPERATION
When switched on, the controller lights up, goes through a short test routine, and then displays
the overtemperature setpoint.
The Page key / allows access to parameter lists within the controller; most lists and parameters
are hidden and cannot be accessed by the operator because they contain factory-set parameters
which should not be changed.
A single press of Page / displays the temperature units, normally set to °C; further presses reveal
the lists indicated in the Navigation Diagram in section 7.6.
The Scroll key Q allows access to the parameters within a list. Some parameters are displayonly; others may be altered by the operator.
A single press of the scroll key Q in the Home list displays the temperature units; a second press
reveals the present temperature as measured by the overtemperature controller.
To return to the Home list at any time, press Page / and Scroll Q together, or wait for 45
seconds.
The Down q and Up p keys are used to alter the setpoint or other parameter values.
10
MC05
2132/2116 Overtemperature Controller
7.1
Basic Operation
Use Down q and Up p to alter the overtemperature setpoint. This should normally be set a little
above the maximum working temperature (say 15°C above). The unit is supplied at 15°C above
the furnace or oven maximum working temperature.
Press Scroll Q to view the present temperature as seen by the overtemperature controller. Press it
twice, because the first press shows the temperature units (°C).
7.2
Overtemperature Alarm
If an overtemperature condition occurs, the OP2 indicator flashes, and an alarm message 2FSH
also flashes, alternating with the setpoint. Power to the heating elements is disconnected.
7.3
Resetting the Overtemperature Alarm
To acknowledge the alarm press Scroll Q and Page / together.
If the alarm is acknowledged while there is still an overtemperature condition, the OP2 indicator
stops flashing but continues to glow. The 2FSH alarm continues to flash until the overtemperature condition is cleared (by the temperature falling), when normal operation resumes.
If the alarm is acknowledged when the temperature has dropped (or after the overtemperature
setpoint has been raised) such that the overtemperature condition no longer exists, then the
furnace or oven immediately resumes normal operation.
7.4
Sensor Break
The overtemperature cut-out system also operates if the overtemperature control thermocouple
breaks or becomes disconnected. The message S.br flashes instead of 2FSH.
7.5
Audible Alarm
If an audible alarm is supplied for use with the overtemperature controller, then it is normally
configured to sound on overtemperature condition, and to stop sounding when the alarm is
acknowledged as given in section 7.3. Note that the alarm may sound during controller start-up.
It is not possible to cover in this manual other possible alarm features which may be included by
customer special order.
7.6
2132/2116 Navigation Diagram
Home
List
/
20.0
*C
Q
*C
Q
PV
MC05
/
Overtemperature
setpoint. Use q/p to
access setpoint.
Present temperature.
Use q/p to view the
temperature.
/
Access
List
ACCS
Q
for factory access to
lists and parameters
not available to the
operator
codE
11
2408 Controller/Programmer
8
POWER LIMIT
8.1
Overview
Depending on the furnace or oven model the power limit parameter OP.Hi (Output High) may be
accessible or hidden.
For silicon carbide heated furnaces the parameter is accessible to allow for compensation for
element ageing (see the appropriate section in the furnace manual). In wire-heated chamber or
tube furnaces, reducing the power limit is a convenient method of improving control at low
temperatures, as outlined below.
The power limit may be set to zero to permit demonstration of the controls without heating.
In many models the power limit setting depends on the supply voltage; usually the furnace or
oven manual contains details: if in doubt, contact Carbolite for advice.
The power limit parameter does not apply to the overtemperature controller, if present.
8.2
Altering the value
Press Page / until oP (output list) is displayed. Press Scroll Q until OP.Hi (Output High) is
displayed. Press Down q or Up p once to display the value of OP.Hi and write down the value.
To alter the value, use Down q or Up p. Note that setting the value to zero prevents the furnace
or oven from heating.
Caution: Do not increase the power limit value to a value above the design level for the oven or
furnace model, or to a value above that correctly calculated for Silicon Carbide elements. The
heating elements could burn out, or other damage could be caused.
8.3
Control at Low Temperatures
If a product is to be used at temperatures much lower than its design maximum, control stability
can often be improved by reducing the power limit. Remember to make a record of the original
setting before altering the power limit.
Example: It is desired to run a 1200°C furnace at 300°C. The normal control settings can be
expected to cause excessive overshoot as the furnace reaches temperature. If the power limit
OP.Hi is normally set to 100%, try a setting of 40%. This should greatly reduce the overshoot.
(There is no firm calculation rule to get this example setting of 40% – experiment may be
required to achieve a good result. Avoid power limits below about 30% – control accuracy falls
off at such levels.)
Copyright © 2002 Carbolite Furnaces Ltd.
Thank you for reading this data sheet.
For pricing or for further information, please contact us at our UK Office, using the details
below.
UK Office
Keison Products,
P.O. Box 2124, Chelmsford, Essex, CM1 3UP, England.
Tel: +44 (0)1245 600560
Fax: +44 (0)1245 808399
Email: [email protected]
Please note - Product designs and specifications are subject to change without notice. The user is responsible for determining the
suitability of this product.

i

2408

Indicator

4.6.9

The DC Input module can only be fitted in slot 3. The following parameters appear:-

Module Parameters

Option

Identity of

id

dC.iP

module

Func

Function

nonE

rSP

Hi

Lo

Ftn

SEL

tran

<

>

<

If

Func

=

nonE no further parameters are shown.

<

>

<

>

Func

≠

nonE

When

The parameters that follow are the same as those in the

option

inPt

Refer to

HiIn

CJC

Refer to

Imp

InP.L

ImP.H

VAL.L

VAL.H

tYPe

Type of

off

calibration

Shnt

Ld.C

CmP

man

Settling

bAnd

0-

band.

99.99

(Default

0.5)

The DC input module has a single input so the above parameters are shown under list

4.6.9.1

Example: Input 1 and Input 2 are Configured for Transition

An example of the use for this could be the measurement of temperature over a wide range. The lower

temperatures may be measured by a base metal thermocouple connected to Input 1 and higher temperatures

may be measured by a pyrometer or precious metal thermocouple connected to input 2. The reason for such a

combination is to provide the most accurate readings over the full temperature range where the thermocouple

cannot be used at high temperatures and the pyrometer is too insensitive at low temperatures to provide an

accurate reading.

The thermocouple may be withdrawn, to prevent damage to it, using a high alarm set around the upper limit of

the thermocouple.

PV = Input 2 ↑

Hi.iP

Lo..iP

PV = Input 1 ↓

Part Number HA027240

Meaning

DC input

No function. Input used for monitoring and alarm only

Remote setpoint input. When selected this becomes the setpoint for deviation alarms.

<

>

FuLL

In

access level, set Remote SP Enable,

Process Value = the highest of Input 1 and input 2 is displayed in normal operation. In

normal operation the display cannot be switched between ‘front’ and ‘back’ views. The

reading shows the highest or lowest value only.

Process Value = the lowest of Input 1 and input 2 is displayed in normal operation. In

normal operation the display cannot be switched between ‘front’ and ‘back’ views. The

reading shows the highest or lowest value only.

Derived value. Process Value = (

<

>

F.2

are scalars found in the

example of differential measurement.

Select input 1 or input 2 via comms, a digital input, or in the Operator

digital input is configured use the parameter

the Operator list in Full Access use the parameter

Transition region between

Operator Level. See example 4.6.7.1.

, input 2 parameters are shown in the Input List in Full access level

<

<

>

iP

list section 4.5.2. plus the following parameter

0 to 2volt high impedance input

<

>

iP

list

Off

Shunt

Load Cell

Comparison

Manual

The indicator automatically determines when the input has become

stable by continuous sampling. When the average value between

two consecutive samples is within the settling band the indicator will

then allow calibration to take place. If readings are not stable within

this period the indicator will abort the calibration

Event set at the upper limit of the thermocouple

on input 1 to signal withdrawal.

Figure 4-8: Input 1/Input 2 Transition

Issue 5.0

Feb 2015

<

L-r

<

>

F.1

x Input 1) + (

<

>

ip

list in Full Access level. Refer to section 3.3.4. for an

<

PV.SL

<

<

>

<

>

iP.1

iP.2

and

, set by

>

<

iP

configuration list plus

During the transition stage the display

reads a combination of Input 1 and input 2.

<

If

reading will switch from input 1 to input 2

Engineering Manual

Customer settings 3B

Read only

>

<

>

rmt

=

(Remote SP selected)

<

>

<

F.2

x input 2), where

<

>

ip

list. If a

>

. If the input is selected through

>

PV.iP

<

>

<

>

Lo.IP

Hi.IP

and

>

HiLn

— the high impedance input

Customer settings

<

>

3A

only

>

<

>

Hi.iP

=

Lo.iP

the displayed

>

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Accompanying Data:

Eurotherm 2408i Measuring Instruments, Temperature Controller PDF Operation & User’s Manual (Updated: Wednesday 31st of May 2023 07:57:33 PM)

Rating: 4.1 (rated by 87 users)

Compatible devices: 4103C, 2132, 2116, 3116 PID, 3200, 2216L, 3116, 2216e.

Recommended Documentation:

Text Version of Operation & User’s Manual

(Ocr-Read Summary of Contents of some pages of the Eurotherm 2408i Document (Main Content), UPD: 31 May 2023)

• Eurotherm 2408i User Manual

• Eurotherm 2408i User Guide

• Eurotherm 2408i PDF Manual

• Eurotherm 2408i Owner’s Manuals

Recommended: DSRV 9703C, 32E66, AE122BCAAA

Operating Impressions, Questions and Answers: