Omega CN38S User Manual

2.1 - MOUNTING REQUIREMENTS

This instrument is intended for permanent installation, for indoor
use only, in an electrical panel which encloses the rear housing,
exposed terminals and wiring on the back.

Select a mounting location having the following characteristics:

1) It should be easily accessible;

2) There is minimum vibrations and no impact;

3) There are no corrosive gases;

4) There are no water or other fluid (i.e. condensation);

5) The ambient temperature is in accordance with the opera­tive temperature (0 to 50 °C);

6) The relative humidity is in accordance with the instrument
specifications (20% to 85

%).

The instrument can be mounted on panel with a maximum
thickness of 15 mm. When the maximum front protection (IP65)
is desired, the optional gasket must be mounted.

2.2 - GENERAL NOTES ABOUT INPUT WIRING

1) Do not run input wires together with power cables;

2) External components (like zener barriers, etc.) connected
between sensor and input terminals may cause errors in
measurement due to excessive and/or not balanced line
resistance or possible leakage currents;

3) When a shielded cable is used, it should be connected at
one point only;

4) Pay attention to the line resistance; a high li

ne resistance

may cause measurement errors.

2.3 - THERMOCOUPLE INPUT

Fig. 3 - Thermocouple input wiring
External resistance: 100Ω max., max. error 0.5% of span.
Cold junction: automatic compensation from 0 to 50°C.
Cold junction accuracy: 0.1 °C/°C after a warm-up of 20

minutes.

Input impedance: > 1 MΩ.
Calibration: according to EN 60584-1.

Note: Por TC wiring use proper compensating cable preferable

shielded.

2.4 - PT100 INPUT

Fig. 4 - PT100 input wiring
Input circuit: current injection (135 µA).
Line resistance: not compensated.
Calibration: according to EN 60751/A2.

2.5 - PTC/NTC/

PT1000 INPUT

Fig. 5 - PTC/NTC/PT1000 input wiring
Input circuit: current injection (25µA).
Line resistance: not compensated.

2.6 - OUTPUTS
Safety notes:

1) To avoid electrical shock, connect supply cables last.

2) For supply connections use 16 AWG or larger wires rated
for at last 75°C.

3) Use copper conductors only.

4) SSR (Solid State Relay) Outputs are NOT isolated. A double
or reinforced isolation between instrument output and power
supply must be assured by the external solid state relay.

a) Output 1
Relay Contact rating: 8 A /250 V cosϕ =1

3 A /250 V cosϕ =0.

4

Operations: 1 x 10

5

SSR Logic level 0: Vout < 0.5 Vdc

Logic level 1: 12 V ±20% @ 1 mA

10 V ±20% @ 20 mA.

b) Output 2
Relay Contact rating: 8 A /250 V cosϕ =1

3 A /250 V cosϕ =0.4

Operations: 1 x 10

5

SSR Logic level 0: Vout < 0.5 Vdc

Logic level 1: 12 V ±20% @ 1 mA

10 V ±20% @ 20 mA.

2.7 - POWER SUPPLY

Power consumption: 5VA max.
Supply voltage:

100 V to 240 VAC/DC (+10%)
12 VDC (-15% to +10%)
24 VAC/DC (-15% to +10%)

Notes:

1) Before connecting the instrument to the electrical supply,
make sure that line voltage is equal to the voltage shown
on the identification label.

2) To avoid electrical shock, connect supply cables at the end
of the wiring procedure.

3) For supply connections use 16 AWG or larger wires rated
for at last 75°C.

4) Use copper conductors only.

5) Do not place signal cables parallelly or next to power
cables or to noise sources.

6) The power supply input is NOT fuse protected. Please,
provide a T type 1A, 250 V fuse externally.

7) For DC power supply the polarity is a do not care condition.

3.1 - TECHNICAL SPECIFICATIONS

Case:

Plastic, self-extinguishing degree: V-0 according to UL 94.

Front protection: IP 65 (when the optional panel gasket is
mounted) for indoor locations according to EN 60070-1.

Rear terminals protection: IP 20 according to EN 60070-1.
Installation: Panel mounting.
Terminal block: 11screw terminals (screw M3, for cables from

0.25 to 2.5 mm

2

or from 22 AWG to 14 AWG).

Dimensions: 75 x 33 mm, depth 75.5 mm.
Cutout: 71 (-0 to +0.5 mm) x 29 (-0 to +0.5 mm).
Weight: 180 g approximately.
Insulation voltage: 2300 V rms according to EN 61010-1.
Display: one 3 digits red display h 12 mm.
Display updating time: 500 ms.
Sampling time: 130 ms.
Resolution: 20000 counts.
Total Accuracy: +0.5% E.S.V. +1 digi

t @ 25°C of room temp..

Electromagnetic compatbility and safety requirements:
Compliance:directive EMC 2004/108/CE (EN 61326-1),

directive LV 2006/95/CE (EN 61010-1).

Installation category: II.
Pollution category: 2.
Temperature drift: It is part of the global accuracy.
Operating temperature: 0 to 50°C (32 to 122°F).
Storage temperature: -30 to +70°C (-22 to 158°F).
Humidity: 20% to 85% RH, non condensing.

3.2 - HOW TO ORDER

Model

CN38S =

Controller with S-touch keyboard (capacitive keyboard)

Input:

T = TC J or K
RTD = PT100
TH = PTC, NTC or PT1000

Output Out1:

R1 = SPDT 8A-AC1

relay

DC1 = VDC for SSR.

Output Out2:

R2 = SPDT 8A-AC1 relay
DC2 = VDC for SSR.

Power supply:

(none)

= 100... 240 VAC

12V = 12 VDC not isolated
24V = 24 VAC/DC.

4.1 - INTRODUCTION

When the instrument is powered, it initially works according to
the parameter values loaded in its memory. The instruments
behavior and its performance are governed by the value of the
stored parameters.
At the first start up the instrument will use a "default" parameter
set (factory parameter set); this set is a generic one (e.g. a TC J
input is programmed).
We recommend that you modify the parame

ters to suit your ap­plication (e.g. set the right input type, Control strategy and
define an alarm, etc.). To change these parameters you will
need to enter the "Configuration procedure".

4.2 - INSTRUMENT BEHAVIOUR AT POWER UP

At power up the instrument can start in one of the following
modes depending on its configuration:

Auto mode

- The display will show the measured value;

- The instrument is performing the standard loop control.

Stand by mode (St.bY)

- The display will show alternately the measured value and

the message <<St.bY>> or <<od>>;

- The instrument does not perform any control

(the control

outputs are OFF);

- The instrument is working as an indicator.

We define the above conditions as "Standard Display".

4.3 - FRONT PANEL DESCRIPTION

1 - Key

- Pressed for 5 s, it allows access to the parameters pro-

gramming mode.

- In the programming mode, it is used for the change of the

parameters and for the confirmation of the values.

- Still in the programming mode, it can be used together with

the key to modify the level of access (operator level or
configuration level) of the selected parameter.

- During the normal functioning (no

t in programming phase),

pressed together with the key for 5 s, it allows to lock
and unlock the keyboard.

- During the normal functioning (not in programming phase),

pressed together with the key for 5 s, it allows the
reset or the acknowledgement of the alarms.

2 - Key

-

In the programming mode, it is used for to decrease the values
to be programmed and for the selection of the parameters.

- During the normal functioning (not in programming phase),

quickly pressed, it allows to visualize and to modify the
value of the set poin

t.

3 - Key

- In the programming mode, it is used to increase the values

to be programmed and for the selection of the parameters.

-

Kept pressed for 3 s in the programming mode it can be
used to exit from it and come back to the normal functioning.

- Still in the programming mode, it can be used together with

the P key, to modify the level of access (operator level or
configuration level) of the selected parameter.

- Pressed together with the key for 5 s, it unlocks the

keyboard, when previously locked.

- Du

ring the normal functioning (not in programming phase),

quickly pressed, it allows to visualize the output power.

4 - Key

-

If programmed through par. "ub.F", pressed for 1 s in the
normal functioning mode, it allows the switch on/off (Stand­by) or to perform one of the possible functions (to start a
cycle of Autotuning, etc.).

-

During the normal functioning (not in programming phase),

pressed together with the key for 5 s, it allows the reset
or the aknowledgement of the alarms.

5 - LED Set

- In the programming

mode, it is used for indicating the level

of programming of parameters.

- If ub.F = Sb.o, when the instrument is in Stand-by mode, it

remains the only lit LED.

- In the normal functioning mode, it flashes when a key is

pressed to indicates the pressure has happend on the key.

6 - LED Out1

- It indicates the Out 1 condition ( compressor or tempera-

ture control device) activated (on), deactivated (off) or
inhibited (flashing).

7 - LED Out2

- It indicates the Out 2 condition.

8 - LED Tun

- It indicates the Autotuning is in progress.

4.4 - HOW TO ENTER THE CONFIGUR

ATION

PARAMETERS

Press key and keep it pressed.
Condition 1: the instrument will show "Ln" (lock ON).
The keyboard is locked.
Mantaining the pressure on the key, also press the
key. The LED Set begins to flash.
Keep the pressure on the two.
Keep the pressure on the two keys until the display shows "LF"
(lock OFF).
Now release the keys. The keyboard is now unlocked.

Note: If no button is pressed for a time longer than the time

programmed with the Lo parameter, the key lock will be
automatically enabled.

Condition 2: The instrument displays no message.
In this situation we can have 2 different cases

:

Case 1: The parameters protection (password) is not active.
Press key and keep it pressed for around 5 seconds.
The display will show the code of the first configuration parameter.
With the

and

keys, select the parameter to be edited.

Case 2: The parameters protection (password) is active.
Press key and keep it pressed for more than 5 seconds.
The display will show the code that identifies the first parameter
that has been moved into the Operator level.
Press key. The display will visualize "r.P".
Press P key again. The display will show "0".
With the and

keys, program the password and confirm

it pushing key again.

Note: the factory default pa

ssword is 0 (no password).

2.A) If the password is correct, the instrument will show the

code that identifies the first configuration parameter.

2.B) If the password is not correct, the instrument will show "r.P"

again.

a) Once entered into the configuration parameters, select the

parameter to be modified using the and

keys.

b) Press key. The instrument will alternatively visualize

the parameter's code and its value.

c)

Modify the value of the parameter using the and keys.

d) Press key to memorize the new value. The display will

return to visualize on

ly the code of the selected parameter.

e) Working on and keys, it is therefore possible to

select another parameter and to modify it as described on
points a, b, c, d.

Note: The instrument will only show the parameters applicable

to its hardware options in accordance with the specific
instrument configuration (i.e.setting AL1t [Alarm 1 type]
equal to <<nonE>> [not used], all parameters related
with the alarm 1 will be skipped).

To go out from the programming mode do not work on any key
for around 30 s, or press key for around 5 s.

4.5 - PARAMETERS PROTECTION THROUGH A PASSWORD

The instrument has a function that protects the parameters
through a password, programmable through parameter "PP."

If you wish to have this protection, you have to set parameter
"PP" to the number you'd like to be your password and then exit
from parameters programming

.

When the protection is active, to be able to have access to the
parameters, press key and keep it pressed for around 5 s.
Afterwards, the display will visualize "r.P" , push the key
again and the display will visualize "0."
Now, through the and

keys, set the number of your

password and press key.
If the password is correct the display will visualize the code that

identifies the first parameter and it will be possible to program it
with the same procedure as described on the previous paragraph.

The protection through password is disabled setting par. "PP" = oF.

Note: If the password is forgotten, use password -18. This will

allow you access to the protected parameters and it will
be possible therefore to verify and also modify the
parameter "PP."

4.6 - CUSTOMIZED PARAMETERS PROGRAMMING
(levels of parameters programming)

The factory programming makes hides all the parameters
behind the password with exception of the set point 1.

If you wish to modify some parameters, maintaining the
protection on the others, after setting the Password through
parameter "PP", it is necessary to follow this procedure:

a) Enter the

programming through the Password.

b)

Select the parameter to be programmable without password.

c.1) The LED Set is flashing.

- the parameter is protected by the password.

c.2) The LED Set is lit but not flashing.

- The parameter is not protected by the password.

To modify the level of access of the parameter (in other words:
to have the parameter protected or not by the password) press
the key and keeping it pressed press the key.

The LED Set will change its state, pointing out the new level of
accessibility of the parameter (switched on = not protected;
flashing = protected

by password).

If the Password is enabled and some parameters have been set
as "not protected", when entering the programming the
instrument will first display all the parameters set as "not
protected" and then, "r.P" parameter. By entering the password
here all other parameters can be viewed.

4.7 - FACTORY RESET
(default parameters loading procedure)

It is possible to restore the instruments factory configuration.
To load the factory default parameter settings, proceed as follows:

- Enter in configuration mode (see 4.4 paragraph).

- If no password is programmed, set PP different from OFF.

- Exit from configuration procedure.

- Press the button for more than 7 seconds. The display

will show "rP".

- Release the button and push it again. The display will

show "0".

- By means of keys and

set the value -48.

Once the password has been confirmed by pressing the
key, the display shows for approximatively 2 s "---", the
instruments then runs through the start up procedure resetting
all the parameters to the factory defaults.

4.8 - ON/STAND-BY FUNCTION

When supplied, the instrument can assume 2 different conditions:

- ON: means that the regulator activates the programmed

control functions.

- STAND-BY: means that the regulator does not activate any

control function and the control outputs are forced to zero
(the display results switched on or off according to the pro-

gramming done on parameter ub.F).
The instrument starts in the same way it was before the switch off.
The condition of ON/STAND-BY can be selected through the

key when pressed for 1 s.

The passage from the STAND-BY to the ON condition, does
not activate the Soft-start (or od) or the Autotuning and hides
the alarms.

When the ins

trument is in STAND-BY mode with the display on
the display alternates between the measure value and "St.b."
When the instrument is in STAND-BY with display off, the dis­play is completely switched off except for the decimal point of
the LSD (LED Set (5)).
When the instrument is in STAND-BY mode (both the visualiza­tions) it is however possible to enter the parameters programming.

4.9 - ALL CONFIGURATION PARAMETERS

In the following pages we will describe all the parameters of the
instrument. However, the instrument will only show the
parameters applicable to its hardware options in accordance
with the specific instrument configuration (i.e.setting o2F
[Alarm] equal to <<no>> [not used], all parameters related with
the alarm will be skipped).

[1] SPL: Minimum Set Point value
Range: from -99.9 to SPH engineering units.
[2] SPH: Maximum Set Point value
Range: from SPL to 999 engineering units.
[3] SP1: Set Point
Range: from SPL to SPH engineering units.
[4] SP2: Second Set Point

Note:

When 2 control outputs are programmed with ON/OFF
action, the instrument uses SP1 to command OUT1 and
SP2 (see following parameter) to command OUT2.

Available:

When Out 2 has been programmed as control output.

Range: from SPL to SPH engineering units.
[5] AL : Alarm threshold
Available: when Out 2 has been programmed as alarm.
Range: -99.9 to 999 engineering units.

1. OUTLINE DIMENSIONS (mm)

2. CONNECTION DIAGRAM

Vr. 1 (ENG) - code.: ISTR-FCN38SENGOG1

OMEGA Enineering, Inc.

One Omega Drive, P.O. Box 4047

Stamford, Connecticut 06907-0047

Phone: (800) 848-4286 or (203) 359-1660

Fax: (203) 359-7700

34

64

28

5.575

35

Type 1

panel gasket

Type 2

panel gasket

max. 29 mm

max. 12 mm

Out2

Out1 Tun

AL

CN38S

POW ER
SUPPL Y

+

1 3 24

C

11

INPUT S

PTC/ NT C

86 5

OUT 1

NO

7 12

OUT 2

R3 8

Relays: 8 A- AC1
(6A- AC3)/250 VAC

Pt100/PT1000

tc

NC NO

C

10

+- +-

NC

SSR: 10 VDC/ 20 mA

11

12

+

-

11

12

+

-

RTD

11

12

+

-

PTC/N TC/PT1000

3. TECHNICAL CHARACTERISTICS

4. CONFIGURATION PROCEDURE

4C6

5

NONC

+ -

4 65

1C3

2

NON C

+ -

1 32

7

8

Power
supply

CN38S - -

Input Out1-Out2-Power supply

5

1

2

3

4

Out2

Out1 Tun

AL

CN38S

Normal Mode

Password request Insert correct

password

Increase
value

Decrease
value

Parameters

(Program mode)

CN38S

Microprocessor Based
Digital Electronic Controller

INSTRUCTION

SHEET

M5309/1114

Shop online at: www.omega.com e-mail: info@omega.com

For latest product manuals: www.omegamanual.info

Made In Italy

[6] tun = Autotuning
Available: when o1.F = PID

ALL = the Autotuning is performed at every start up and

parameters Pb, Ti and Td are hidden.
onE = the Autotuning is performed only at the next start up.
ub = Manual start up through key (parameters Pb, Ti and

Td are visible).

Note: When the Autotuning and the soft start, or the delay at

the start up, have been programmed, the instrument

performs first the soft start (with the parameters it has in

memory) and then performs the Autotuning.

[7] Pb = Proportional band
Available: when o1F=PID and tun = ub

.

Range: from 1 to 999 engineering units.
[8] ti = Integral time
Available: when o1F=PID and tun = ub.
Range: from 1 to 500 seconds and OFF (excluded).
[9] td = Derivative time
Available: when o1F=PID and tun = ub.
Range: from 0 (= OFF) to 200 seconds.
[10] SEn = Input type

[11] dP = Decimal point
Range: YES = Autoranging display;

nO = display without decimal point.

[12] CA = Offset on the displayed value
Range: -300 to 300 engineering units.
[13] Ft = Filter on the displayed value
Range: from 0 (OFF) to 20 seconds.
[14] o1F = Out 1 function
Range: H.rE = PID control with heating action (reverse)

;
C.rE = PID control with cooling action (direct);
on.H = ON/OFF control with heating action (reverse);
on.C = ON /OFF control with cooling action (direct).

[15] tr1 = Out 1 cycle time
Range: from 1 to 250 seconds.
[16] o2F = Out 2 function
Range:

- When o1F is equal to H.rE or C.rE:

no = Not used
HAL = Absolute high alarm;
LAL = Absolute low alarm;
b.AL = Band alarm (simmetric to the set point);
dHA = Deviation high alarm;
dLA = Deviation low alarm.

- When o1F = on.H or on.C:

no = Not used;
HAL = Absolute high alarm ;
LAL = Absolute low ala

rm;
b.AL = Band alarm (simmetric to the set point);
dHA = Deviation high alarm ;
dLA = Deviation low alarm;
SP.C = SP2 - ON /OFF control with cooling action ;
SP.H = SP2 - ON /OFF control with heating action ;
nr = ON/OFF Neutral Zone (o2F will make the opposite
action to the one programmed on o1F, while the hysteresis
[par. d1] becomes the neutral zone).

Note:

The Neutral Zone functioning is used to control the plants
with an element that causes a positive increase (ex.
Heating, Humidifying etc.) and an elemen

t that causes a

negative increase (ex. Cooling, Dehumidifying etc.).

The control works on the programmed outputs depending on
the measure, on the active Set point "SP", and on the
programmed hysteresis "d1".

The regulator works in the following way: it switches off the
outputs when the process value reaches the Set and activates
the heating output when the process value is lower than [SP-d1],
or it switches on the cooling output when the process value is
higher than [SP+d1].

Accordingly, the element that causes positive increase must be
connected to the output pr

ogrammed as heating, while the
element of negative increase must be connected to output
programmed as cooling.

Table of the possible combinations

[17] d1 = Out 1 hysteresis or neutral zone
Available: when Out 1 is equal to hn.H or on.C.
Range: 0.1 to 999 engineering units.
[18] d2 = Out 2 hysteresis
Available: when o2F is different from nr.
Range: 0.1 to 999 engineering units.

[19] AL.F = Alarm function
Available:

when o2F is programmed as alarm output.

Range: AL = Automatic reset Alarm;

AL.n = Latched Alarm;
AL.A = Aknowledgeable Alarm.

AL = Automatic reset Alar

m

AL.n = Latched Alarm

AL.A = Acknowledgeable alarm

[20] AL.t = Inhibition time of the alarm at the start up or after
a change of set point

Range: from 0 = OFF (any hidding) to 9.59 HH.mms

Note: When the measure reaches the alarm threshold, the

instrument disables the hidding of the alarm.

[21] Pct = Compressor protection time

The protection prevents the output cycling and therefore
reduces relay wear by waiting for the time setting to elapse
before allowing a subsequent switching of the output.

In other words, it defines the minimum time that will pass between
the switch off of a cooling

output and its following reactivation.

Available:

if at least one output is programmed as cooling output.

Range: from 0=OFF to 9.59 HH.mm

Note: This parameter has effect to ALL the cooling outputs.
[22] SSt = Soft start time
Range: 0=OFF to 9.59 HH.mm.

Note: When the control is ON/OFF type, the time of the soft

start becomes an output time delay, the power is forced
to 0 and the parameter SSP is hidden.

[23] SSP = Power during Soft Start
Available: when Sst is different from 0.
Range: 0 to 100%.

Note: if programmed = 0, also the alarms and/or the second

control output remains = 0 and

the instrument visualizes

"od" for the programmed time.

[24] ub.F = key function
Range: no = No function

Tun = It activates the manual tuning;
Sb = Stand-by mode;
Sb.o = Stand-By mode with display off.

[25] PP = Parameters protection Password
Range: 1 to 999.
[26] Lo = Time for the Key lock automatic enable

This parameter allows to set the time that the instrument will
wait before to automatically enable the key lock. The time count
will re-start after a key pressure.

Range: from OFF (lock disabled) to 30 minutes.

5.1 - OUT OF RANGE SIGNALS

The display shows the OVER-RANGE

and UNDERRANGE

conditions with the following indications:

The sensor break will be signaled as follows:

Note: When an over-range or an under-range is detected, the

alarms operate as in presence of the maximum or the
minimum measurable value respectively.

To check the out of span Error condition, proceed as follows:

1) Check the input signal source and the connecting line;

2) Make sure that the input signal is in accordance with the
instrument configuration. Otherwise, modify the input con­figuration (see section 4).

3) If no error is detected, send the instrument to your supplier
to be

checked.

5.2 - L

IST OF POSSIBLE ERRORS
AtE - Auto-tune not finished within 12 hours.
EPr - Possible problem of the instrument memory.

The messages disappears automatically.
When the error continues, send the instrument to your supplier.

6.1 - PROPER USE

Every possible use not described in this manual must be
considered as a improper use.

This instrument is in compliance with EN 61010-1 "Safety
requirements for electrical equipment for measurement, control
and laboratory use"; for this reason it must not be used as a
safety equipment.

Whenever a failure or a malfunction of the con

trol device may
cause dangerous situations for persons, thing or animals,
please remember that the plant has to be equipped with
additional safety devices.
OMEGA Engineering Inc. and its legal representatives do not
assume any responsibility for any damage to people, things or
animals deriving from violation, wrong or improper use or in any
case not in compliance with the instrument's features.

6.2 - WARRANTY AND REPAIRS

We warrant that the products will be free from defects in material
and workmanship for 18 months from the date of delivery. Prod­ucts and components that are subject to wear due to conditions
of use, serv

ice life, and misuse are not covered by this warranty.

The warranty is limited to repairs or to the replacement of the
instrument.

The tampering of the instrument or an improper use of the product
will bring about the immediate withdrawal of the warranty's effects.
In the event of a faulty instrument, either within the period of war­ranty or further to its expiry, please contact our sales department
to obtain authorisation for sending the instrument to our company.
The faulty product must be shipped to OMEGA Engineering with a
detailed description of the faults found, without any fees or charge
for OMEGA Engineering, except in the event of alternative
agreements.

Before supplying tension to the instrument, make sure that it is
perfectly dry.

Model Selection Sensor Measuring range

F J .C TC J -40 to 999 °C

Ca.C TC K -40 to 999 °C

J .F TC J -40 to 999 °F

Ca.F TC K -40 to 999 °F

A Pt.C PT 100 -50.0 to 850 °C (autoranging)

Pt.F PT 100 -58.0 to 999 °F (autoranging)

T nC.C NTC -50.0 to 109 °C (autoranging)

PC.C PTC -50.0 to 150 °C (autoranging)

nC.F NTC -58.0 to 228 °F (autoranging)

PC.F PTC -58.0 to 302 °F (autoranging)

P1.C Pt 1000 -50.0 to 850 °C (autoranging)

P1.F Pt 1000 -58.0 to 999 °F (autoranging)

O1F O2F

Displayed

parameters

H.rE H.AL, L.AL, b.AL, dHA, dLA SP1, AL

C.rE H.AL, L.AL, b.AL, dHA, dLA SP1, AL

on.H H.AL , L.AL, b.AL, dHA, dLA SP1, AL

2PS ,1PSH.PS ,C.PS

ylno 1pSrN

on.C H.AL , L.AL, b.AL, dHA, dLA SP1, AL

2PS ,1PSH.PS ,C.PS

ylno 1PSrN

0N

O2F = nr
(heating)

O1F = on.H
(heating)

SP

PV

OFF

0N

OFF

time

D1

D1

OFF OFF

0N

5. ERROR MESSAGES

Time

Measure

Meas

Alx

Alarm hysteresis

Status

ON

OFF

Time

Automatic
reset

Automatic

Time

Measure

Meas

Alx

Alarm hysteresis

Status

ON

OFF

Time

Manual
reset

Manual
reset

Latched

Time

Measure

Ambient
temp.

Alx

Alarm hysteresis

Status

ON

OFF

Time

Automatic
reset

ACK

Acknowledgeable

Over range Under range

Sensor break

6. GENERAL NOTES

7. PARAMETERS TABLE

no. Par. Description Range Default

Protec-

tion

1 SPL Minimum Set

Point value

From –99.9 to SPH
E.U.

-99 Yes

2 SPH Maximum Set

Point value

From SPL to 999
E.U.

999 Yes

3 SP1 Set point From SPL to SPH

E.U.

0 No

4 SP2 Second Set

Point

From SPL to SPH
E.U.

0 Yes

5 AL Alarm thres hold From – 99.9 to 999

E.U.

0 Yes

6 tun Autotuning ALL =Performed at

every start up
onE =Performed at
the first start up
ub = Performed
when U key is
pressed

onE Yes

7 Pb Proport ional

Band

From 1 to 999 E.U. 50 Yes

8 t

i Integral time From 1 to 500

seconds and OFF

100 Yes

9 td Derivative time From 0 (OFF) to

200 seconds

25 Yes

10 SEn Input type

F type

A

type

T type

JC = TC J (°C)
CA.C = TC K (°C)
JF = TC J (°F)
CA.F

= TC K (°F)

Pt.C = PT 100 (°C)
Pt.F = PT 100 (°F)

nC.C = NTC (°C)
PC.C = PTC (°C)
nC.F = NTC (°F)
PC.F = PTC (°F)
P1C

= PT 1000 (°C)

P1F = PT 1000 (°F)

J.C

Pt.C

nC.C

Yes

11 DP Decimal point

YES

= Autoranging

visualization
no = Visualization
without decimal
point

no Yes

12 CA Offset on the

displayed value

From -300 to 300
E.U.

0 Yes

13 Ft Filter on the

displayed value

From 0 (OFF) to 20
seconds

0 Yes

14 O1F Out 1 function H.rE = PID control

with heating action
C.rE = PID control
with cooling action
on.H = ON/OFF
control wi

th

heating action
on.C = ON/OFF
control with
cooling action

HrE Yes

15 tr1 Out 1 cycle time From 1 to 250

seconds

30

Yes

no. Par. Description Range Default

Protec-

tion

16 o2F Out 2 function

When o1F = H.rE
or C.rE

When o1F = on.H
or on.C

no = Not used
HAL = Absolute

high alarm
LAL = Absolute low
alarm
b.AL = Band alarm
(simmetric to the
set point)
dHA = Deviation
high alarm
dLA = Deviation
low alarm

no = Not used
HAL = Absolute

high alarm
LAL = Absolute low
alarm
b.AL = Band alarm
(simmetric

to the

set point)
dHA = Deviation
high alarm
dLA = Deviation
low alarm
SP.C = SP2
ON /OFFcontrol
with cooling action
SP.H = SP2
ON /OFF control

with heating action
nr = ON/OFF
neutral zone

No Yes

1

7 d1 Out 1 hysteresis

or neutral zone

From 0.1 to 999
E.U.

1 Yes

18 d2 Out 2 hysteresis From 0.1 to 999

E.U.

1 Yes

19 ALF Alarm function AL = Automatic

reset Alarm
AL.n = Latched
Alarm
AL.A =
Aknowledgeable
Alarm

AL

Yes

20 ALt Inhibition time

of the alarm at
the start up or
after a change of
set point

From 0 (OFF) to

9.59 HH.mm

0 Yes

21 Pct Compressor

protection time

From 0 (OFF) to

9.59 HH.mm

0 Yes

22 Sst Soft start time From 0 (OFF) to

9.59 HH.mm

0 Yes

23 SSP Power during

Soft Start

From 0 to 100% 0 Yes

24 UbF

key

function

no = No function
Tun = It activates

the manual tuning
Sb = Stand-by
mode
Sb.o = Stand-By
mode with display
off

tun Yes

25 PP Pa

rameters
protection
Password

From 1 to 999 0 Yes

26 Lo Key lock time

out

From 0 (key lock
disabled) to 30
minutes

0 Yes

TEMPERATURE

Thermocouple, RTD & Thermistor

Probes, Connectors, Panels &
Assemblies

Wire: Thermocouple, RTD &

Thermistor

Calibrators & Ice Point References
Recorders, Controllers & Process

Monitors

Infrared Pyrometers

PRESSURE, STRAIN
AND FORCE

Transducers & Strain Gages
Load Cells & Pressure Gages
Displacement Transducers
Instrumentation & Accessories

FLOW/LEVEL

Rotameters, Gas Mass Flowmeters

& Flow Computers

Air Velocity Indicators
Turbine/Paddlewheel Systems
Totalizers & Batch Controllers

pH/CONDUCTIVITY

pH Electrodes, Testers & Accessories

Benchtop/Laboratory Meters

Controllers, Calibrators, Simulators

& Pumps

Industrial pH & Conductivity Equipment

DATA ACQUISITION

Data Acquisition &
Engineering Software

Communications-Based

Acquisition Systems

Plug-in Cards for Apple, IBM

& Compatibles
Data Logging Systems

Recorders, Printers & Plotters

HEATERS

Heating Cable
Cartridge & Strip Heaters
Immersion & Band Heaters

Flexible Heaters

Laboratory Heaters

ENVIRONMENTAL
MONITORING AND
CONTROL

Metering & Control Instrumentation
Refractometers
Pumps & Tubing
Air, Soil & Water Monitors

Industrial Water & Wastewater
Treatment

pH, Conductivity & Dissolved

Oxygen Instruments

Where Do I Find Everything I Need for

Process Measurement and Control?

OMEGA…Of Course!

Shop online at omega.com

sm

It is the policy of OMEGA Engineering, Inc. to comply with all worldwide safety and
EMC/EMI regulations that apply. OMEGA is constantly pursuing certification of its
products to the European New Approach Directives. OMEGA will add the CE mark to
every appropriate device upon certification.
The information contained in this document is believed to be correct, but OMEGA
accepts no liability for any errors it contains, and reserves the right to alter
specifications without notice. WARNING: These products are not designed for use
in, and should not be used for, human applications.

RETURN REQUESTS/INQUIRIES

Direct all warranty and repair requests/inquiries to the OMEGA Customer
Service Department. BEFORE RETURNING ANY PRODUCT(S) TO OMEGA,
PURCHASER MUST OBTAIN AN AUTHORIZED RETURN (AR) NUMBER
FROM OMEGA’S CUSTOMER SERVICE DEPARTMENT (IN ORDER TO
AVOID PROCESSING DELAYS). The assigned AR number should then be
marked on the outside of the return package and on any correspondence.
The purchaser is responsible for shipping charges, freight, insurance and
proper packaging to prevent breakage in transit.

FOR WARRANTY RETURNS, please
have the following information
available BEFORE contacting
OMEGA:

1. Purchase Order number
under which the product was
PURCHASED,

2. Model and serial number of the
product under warranty, and

3. Repair instructions and/or specific
problems relative to the product.

FOR NON-WARRANTY REPAIRS,
consult OMEGA for current repair
charges. Have the following
information available BEFORE
contacting OMEGA:

1. Purchase Order number to cover
the COST of the repair,

2. Model and serial number of the
product, and

3. Repair instructions and/or specific
problems relative to the product.

OMEGA’s policy is to make running changes, not model changes, whenever an
improvement is possible. This affords our customers the latest in technology and
engineering.
OMEGA is a registered trademark of OMEGA ENGINEERING, INC.
© Copyright 2014 OMEGA ENGINEERING, INC. All rights reserved. This document
may not be copied, photocopied, reproduced, translated, or reduced to any
electronic medium or machine-readable form, in whole or in part, without the
prior written consent of OMEGA ENGINEERING, INC.

WARRANTY/DISCLAIMER

OMEGA ENGINEERING, INC. warrants this unit to be free of defects in materials
and workmanship for a period of 13 months from date of purchase. OMEGA’s
WARRANTY adds an additional one (1) month grace period to the normal one
(1) year product warranty to cover handling and shipping time. This ensures
that OMEGA’s customers receive maximum coverage on each product.
If the unit malfunctions, it must be returned to the factory for evaluation.
OMEGA’s Customer Service Department will issue an Authorized Return (AR)
number immediately upon phone or written request. Upon examination by
OMEGA, if the unit is found to be defective, it will be repaired or replaced at
no charge. OMEGA’s WARRANTY does not apply to defects resulting from any
action of the purchaser, including but not limited to mishandling, improper
interfacing, operation outside of design limits, improper repair, or unauthorized
modification. This WARRANTY is VOID if the unit shows evidence of having
been tampered with or shows evidence of having been damaged as a result of
excessive corrosion; or current, heat, moisture or vibration; improper specifica­tion; misapplication; misuse or other operating conditions outside of OMEGA’s
control. Components in which wear is not warranted, include but are not limited
to contact points, fuses, and triacs.

OMEGA is pleased to offer suggestions on the use of its various
products. However, OMEGA neither assumes responsibility for
any omissions or errors nor assumes liability for any damages that
result from the use of its products in accordance with information
provided by OMEGA, either verbal or written. OMEGA warrants only
that the parts manufactured by the company will be as specified
and free of defects. OMEGA MAKES NO OTHER WARRANTIES OR
REPRESENTATIONS OF ANY KIND WHATSOEVER, EXPRESSED OR
IMPLIED, EXCEPT THAT OF TITLE, AND ALL IMPLIED WARRANTIES
INCLUDING ANY WARRANTY OF MERCHANTABILITY AND
FITNESS FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED.
LIMITATION OF LIABILITY: The remedies of purchaser set forth
herein are exclusive, and the total liability of OMEGA with respect
to this order, whether based on contract, warranty, negligence,
indemnification, strict liability or otherwise, shall not exceed the
purchase price of the component upon which liability is based. In no
event shall OMEGA be liable for consequential, incidental or special
damages.

CONDITIONS:

Equipment sold by OMEGA is not intended to be used, nor shall
it be used: (1) as a “Basic Component” under 10 CFR 21 (NRC), used in or with
any nuclear installation or activity; or (2) in medical applications or used on
humans. Should any Product(s) be used in or with any nuclear installation or
activity, medical application, used on humans, or misused in any way, OMEGA
assumes no responsibility as set forth in our basic WARRANTY/DISCLAIMER
language, and, additionally, purchaser will indemnify OMEGA and hold OMEGA
harmless from any liability or damage whatsoever arising out of the use of the
Product(s) in such a manner.

The information contained in this document is believed to be correct, but OMEGA accepts no
liability for any errors it contains, and reserves the right to alter specifications without notice.

Servicing North America:

U.S.A.:

Omega Engineering, Inc., One Omega Drive, P.O. Box 4047

Stamford, CT 06907-0047 US A

Toll-Free: 1-800-826-6342 (USA & Canada only)
Customer Service: 1-800-622-2378 (USA & Canada only)
Engineering Service: 1-800-872-9436 (USA & Canada only)
Tel: (203) 359-1660 Fax: (203) 359-7700
e-mail: info@omega.com

For Other Locations Visit omega.com/worldwide

omega.com info@omega.com