EVCO EC3120 User Manual
Ec 3-120
EC 3-120
EC 3-120
EC 3-120
EC 3-120
EC 3-120
ON-OFF digital thermostat for compressor
and defrost (by stopping compressor) man-
agement
Operating instructions
Release 1/00 of September the twenty-first 2000
Code EC 3-120 DOC E001
File 3120e.p65
IMPORTANT:
The use of this new instrument is easy; but for safety reasons, it is
important read these instructions carefully before the installation or
before the use and follow all additional informations.
It is very important keep these instructions with the instrument for future
consultations.
ENGLISH
GENERAL INFORMA
GENERAL INFORMA
GENERAL INFORMA
GENERAL INFORMA
GENERAL INFORMATIONS
TIONS
TIONS
TIONS
TIONS
WHAT IS THE USE
EC 3-120 is an ON-OFF digital thermostat studied for refrigerating systems management through
the compressor and defrost (by stopping compressor) management.
In factory the instrument gets preset to accept at the measure input PTC/NTC probes used in
refrigeration field at the moment.
Some parameters permit to set the thermostat to protect the compressor against overloads
due to several starts repeated in a short time, to manage the defrost according with one’s
requirements, to signal working conditions outside the safety limits.
EC 3-120 is available in the 74 x 32 mm (2.91 x 1.25 in.) case and it is studied for panel
mounting with the equipped screw or spring brackets.
GETTING ST
GETTING ST
GETTING ST
GETTING ST
GETTING STAR
AR
AR
AR
ARTED
TED
TED
TED
TED
INSTALLATION
EC 3-120 was studied for panel mounting, panel cutout 71 x 29 mm (2.79 x 1.14 in.), with the
equipped screw or spring brackets (the overall dimensions and the panel cutout are related in
Fig. 3, the fixing systems suggested by the builder are related respectively in Fig. 4 and in
Fig. 5).
ADDITIONAL INFORMATIONS
-
the panel thickness must be included from 1 to 5 mm (0.04 to 0.19 in.)
-
verify if the using conditions (ambient temperature, humidity, etc.) are within the
limits indicated by the builder (see the chapter TECHNICAL DATA)
-
install the instrument in a location with a suitable ventilation, to avoid the inter-
nal overheating of the instrument
-
do not install the instrument near surfaces that can to obstruct the air-grating
(carpets, covers, etc.), heating sources (radiators, hot air ducts, etc.), locations
subject to direct sunlight, rain, humidity, excessive dust, mechanical vibrations
or bumps, devices with strong magnetos (microwave ovens, big speakers, etc.)
-
according with the safety norms, the protection against possible contacts with
electrical parts and parts protected with functional insulation only must be ensured
through a correct installation procedure of the instrument; all parts that ensure
the protection must be fixed so that they can not be removed if not with a tool
-
if not differently specified at the time of order, the instrument will be equipped
with screw brackets.
ELECTRICAL CONNECTION
EC 3-120 is provided with two screw terminal blocks for cables up to 2.5 mm² (0.38 in.², for the
connection to the power supply, measure input and output) and it is provided with one five
poles single line male connector (for the connection to the CLONE configurer/cloner and RICS
supervision systems), located on the instrument back panel (the connections to derive are
related in Fig. 6 and they are checkable on the polyester label stuck on the instrument case).
ADDITIONAL INFORMATIONS
-
if the instrument is brought from a cold to a warm location, the humidity may
condense inside the instrument; wait about an hour before supply the instrument
-
verify if the operating power supply voltage, electrical frequency and power of
the instrument correspond to the local power supply (see the chapter TECHNICAL
DATA)
-
do not supply more instruments with the same transformer
-
if the instrument is installed on a vehicle, its power supply must be derived di-
rectly from the battery of the vehicle
-
give the instrument a protection able to limit the current absorbed in case of
failure
-
the instrument remains connected to the local power supply as long as the termi-
nals 7 and 8 are derived to the local power supply, even if the instrument is appar-
ently turned off
-
give the probe a protection able to insulate it against possible contacts with metal
parts or use insulated probes
-
give the output a protection able to protect it against short circuit and overload
Fig. 1
f3-120.wmf
-
do not try to repair the instrument; for the repairs apply to highly qualified staff
-
if you have any questions or problems concerning the instrument please consult
Every Control (see the chapter BUILDER DATA).
USE
USE
USE
USE
USE
PRELIMINARY INFORMATIONS
After derived the connections related in Fig. 6, during the normal functioning the instrument
displays the temperature read by the cabinet probe.
Fig. 2
iu3120.wmf
If an alarm should be active the instrument displays the alarm code flashing and the buzzer
utters an intermittent beep as long as the cause that has given it does not disappear (see the
chapter SIGNALS AND ALARMS); pressure on the key T1 during an alarm permits to silence
the buzzer.
EC 3-120 is provided with one working setpoint and with some configuration parameters that
get stored in a non volatile memory and that permit to set the instrument according with one’s
requirements (see the chapter CONFIGURABILITY).
The output K 1 is associated to the compressor and to the working setpoint, it remains acti-
vated continuously as long as the temperature read by the cabinet probe reaches the working
setpoint and when it rises above the working setpoint of the hysteresis value (differential) the
output gets reactivated, except during a defrost.
Passed the defrost interval from the moment of the instrument start or from the moment in
which the instrument activates a defrost the instrument automatically activates the following
defrost.
Passed the defrost length from the moment in which the instrument activates a defrost the
defrost ends; during a defrost the output K 1 gets forced to the status OFF.
Keeping pushed the key T2 for four seconds at least or activating the remote defrost digital
input (available on request) the instrument activates a defrost.
WORKING SETPOINT SETTING (WORKING TEMPERATURE)
To modify the working setpoint value keep pushed the key T3 (the instrument displays the
actual value) and at the same time push and release over and over the key T1 or T2 as long as
the instrument displays the desired value (keeping pushed the key T1 or T2 the value gets
decreased or increased more quickly): after the modification release the key T3 last; during the
pressure of the key T3 the LED L1 flashes quickly to indicate that a working setpoint setting
procedure is running (to the release of the key T3 the instrument automatically turns out from
the working setpoint setting procedure).
ADDITIONAL INFORMATIONS
-
for the whole period of a corrupted memory data alarm the access to the working
setpoint setting procedure is refused
-
the working setpoint is programmable within the limits established with the param-
eters r1 and r2
-
the working setpoint value gets stored in a non volatile memory even if a lack of
power supply happens.
CONFIGURATION PARAMETERS SETTING
Configuration parameters are arranged on two levels, to protect the most tricky settings against
undesirable violations and they are arranged in families that can be recognized through the
initial letter of the label.
To gain access to the first level keep pushed at the same time for four seconds at least the keys
T1 and T2 (passed four seconds the instrument displays the label PA).
To select a parameter of the first level push and release over and over the key T1 or T2 as long
as the instrument displays the label of the desired parameter.
DIMENSIONAL DA
DIMENSIONAL DA
DIMENSIONAL DA
DIMENSIONAL DA
DIMENSIONAL DAT
TT
T
TA
A
A
A
A
OVERALL DIMENSIONS AND PANEL CUTOUT
The dimensions are expressed in millimetres and inches (third-scale drawing).
Fig. 3
ds3ve.wmf
INST
INST
INST
INST
INSTALLA
ALLA
ALLA
ALLA
ALLATION
TION
TION
TION
TION
WITH THE FIXING SYSTEMS SUGGESTED BY THE BUILDER
Panel mounting, with the equipped screw (Fig. 4) or spring brackets (Fig. 5) (third-scale drawing).
Fig. 4
ms3vv.wmf
Fig. 5
ms3vm.wmf
ELECTRICAL CONNECTION
ELECTRICAL CONNECTION
ELECTRICAL CONNECTION
ELECTRICAL CONNECTION
ELECTRICAL CONNECTION
CONNECTIONS TO DERIVE
Instance of typical application.
BUILDER DA
BUILDER DA
BUILDER DA
BUILDER DA
BUILDER DAT
TT
T
TA
A
A
A
A
EVERY CONTROL S.r.l.
Via Mezzaterra 6, 32036 Sedico Belluno ITALY
Phone 0039/0437852468 (a.r.) Fax 0039/043783648
Internet addresses
e-mail: [email protected]
http://www.everycontrol.it
TO BE CAREFUL
This publication exclusively belongs to EVERY CONTROL and shall not be reproduced and distributed if not expressly authorized by the same EVERY CONTROL.
EVERY CONTROL does not assume any responsibility in order to the characteristics, to the technical data and to the possible mistakes related herein or deriving from the use of the same.
EVERY CONTROL can not be considered responsible for damages caused from the inobservance of the additional informations.
EVERY CONTROL reserves the right to make any modification without prior notice and at any time without prejudice the basic functioning and safety characteristics.
Fig. 6
c3-120e.wmf
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