EVCO EPK4BHQ1AH User Manual
C-pro 3 node kilo+ - programmable controllers
4.2
Meaning of connectors
The following charts show the meaning of the connectors of
the devices.
For further information look at chapter “TECHNICAL DATA”.
POWER
Power supply device (24 VAC/DC not isolated).
If the device is powered in direct current, it will be necessary
to respect the polarity of the power supply voltage.
If the device is connected to a devices network, it will be
necessary:
-
the power supply of the devices making the network is
galvanically isolated one another
-
the phase supplying the device is the same supplying all
the devices making the network.
Part Meaning
AC/+ power supply device:
-
if the device is powered in alternate current,
connect the phase
-
if the device is powered in direct current, con-
nect the positive pole
AC/-
power supply device:
-
if the device is powered in alternate current,
connect the neutral
-
if the device is powered in direct current, con-
nect the negative pole
ANALOG INPUTS
Analog inputs.
Part Meaning
GND
ground analog inputs
AI1
analog input 1, which can be set via configuration
parameter for PTC, NTC, Pt 1000 probes, 0-20 mA,
4-20 mA, 0-5 V ratiometric or 0-10 V transducers
AI2
analog input 2, which can be set via configuration
parameter for PTC, NTC, Pt 1000 probes, 0-20 mA,
4-20 mA, 0-5 V ratiometric or 0-10 V transducers
AI3
analog input 3, which can be set via configuration
parameter for PTC, NTC, Pt 1000 probes, 0-20 mA,
4-20 mA, 0-5 V ratiometric or 0-10 V transducers
AI4
analog input 4, which can be set via configuration
parameter for PTC, NTC or Pt 1000 probes
AI5
analog input 5, which can be set via configuration
parameter for PTC, NTC or Pt 1000 probes
AI6
analog input 6, which can be set via configuration
parameter for PTC, NTC or Pt 1000 probes
GND
ground analog inputs
+5V
power supply 0-5 V ratiometric transducers (5 VDC)
EVCO S.p.A. | Code 104CP3NKPE103 | Page 1 of 2 | PT 46/14
c-pro 3 NODE kilo+ - Programmable controllers
GB
ENGLISH
IMPORTANT
Read this document carefully before installing and using the device and follow all the additional information; keep this
document close to the device for future consultations.
For further information consult the hardware manual.
The device must be disposed according to the local legislation about the collection for electrical and electronic
equipment.
1
INTRODUCTION
1.1
Introduction
c-pro 3 NODE kilo+ is a range of programmable controllers for applications in refrigeration and air conditioning sectors.
The controllers have a considerable number of inputs and outputs; they allow to realize a flexible, modular and expandable
control devices network.
The variety of available communication ports (RS-485, CAN, USB and Ethernet) and supported communication protocols
make easier the integration of the devices in systems.
The application software can be realized through the UNI-PRO 3 development environment for programmable controllers.
4
ELECTRICAL CONNECTION
4.1
Connectors
The following drawing shows the connectors of the devices.
The following chart shows the meaning of the parts of
the devices.
Part Meaning
1
digital outputs K1 and K2
2
digital outputs K3, K4, K5 and K6
3
digital output K7
4
MODBUS TCP, Web Server Ethernet port
5
digital output K11
6
display and keyboard (not available in the blind
versions)
7
digital inputs 1... 5
8
analog outputs 1... 3
9
USB port
10
analog inputs 1... 6
11
micro-switch to plug in the CANBUS CAN port
line termination, the MODBUS master/slave
RS-485 port line termination and the MODBUS
slave RS-485 port line termination
12
MODBUS slave RS-485 port, MODBUS master/
slave RS-485 port and CANBUS CAN port
13
power supply
14
analog outputs 7... 10 and analog outputs
4... 6
15
digital inputs 6... 13
16
signalling LEDs
NC7
normally closed contact digital output 7
CO8
common digital output 8
NO8
normally open contact digital output 8
according to the model:
-
3 res. A @ 250 VAC electromechanical relay
-
24 VAC/DC, 600 mA max. command for solid
state relay
CO9
common digital output 9
NO9
normally open contact digital output 9
according to the model:
-
3 res. A @ 250 VAC electromechanical relay
-
24 VAC/DC, 600 mA max. command for solid
state relay
CO10 common digital outputs 10
NO10 normally open contact digital output 10 (3 res. A
@ 250 VAC electromechanical relay)
CO11 common digital output 11
NO11 normally open contact digital output 11 (3 res. A
@ 250 VAC electromechanical relay)
NC11 normally closed contact digital output 11
CAN/RS-485
MODBUS slave RS-485 port, MODBUS master/slave RS-
485 port and CAN CANBUS port.
The communication protocol of the MODBUS master/slave
RS-485 port can be set with the development environment
UNI-PRO 3.
Part Meaning
CAN+ positive pole CANBUS CAN port
CAN- negative pole CANBUS CAN port
GND
ground MODBUS slave RS-485 port, MODBUS
master/slave RS-485 port and CAN CANBUS port
A1/+ positive pole MODBUS master/slave RS-485 port
B1/-
negative pole MODBUS master/slave RS-485 port
A2/+ positive pole MODBUS slave RS-485 port
B2/-
negative pole MODBUS slave RS-485 port
USB
USB port.
ETHERNET
MODBUS TCP, Web Server Ethernet port.
4.2
Plugging in the CANBUS CAN port line termi-
nation
To plug in the CANBUS CAN port line termination, position
micro-switch 3 on position ON.
4.3
Plugging in the MODBUS master/slave RS-
485 port line termination
To plug in the MODBUS master/slave RS-485 port line ter-
mination, position micro-switch 2 on position ON.
4.4
Plugging in the MODBUS slave RS-485 port
line termination
To plug in the MODBUS slave RS-485 port line termination,
position micro-switch 1 on position ON.
4.5
Polarizing the MODBUS master/slave RS-485
port
The polarization of the MODBUS master/slave RS-485 port
can be set via configuration parameter.
4.6
Polarizing the MODBUS slave RS-485 port
The devices are not able to polarize the MODBUS slave
RS-485 port; the polarization must be done by another
device.
4.7
Additional information for electrical connec-
tion
-
do not operate on the terminal blocks of the device
using electrical or pneumatic screwers
-
if the device has been moved from a cold location to a
warm one, the humidity could condense on the in-
side; wait about an hour before supplying it
-
make sure the power supply voltage, the electrical
frequency and the electrical power of the device cor-
respond to those of the local power supply; look at
chapter “TECHNICAL DATA”
-
disconnect the power supply of the device before serv-
icing it
3
SIZE AND INSTALLATION
3.1
Size
The following drawing shows the size of the devices (8 DIN modules); size is in mm (in).
2
DESCRIPTION
3.2
Installation
Installation is on DIN rail 35.0 x 7.5 mm (1.377 x 0.295
in) or 35.0 x 15.0 mm (1.377 x 0.590 in), into a switch-
board.
To install the devices operate as shown in the following
drawing.
To remove the devices remove possible extractable screw ter-
minal blocks plugged at the bottom first, then operate on the
DIN rail clips with a screwdriver as shown in the following
drawing.
To install the devices again press the DIN rail clips to the end
first.
3.3
Additional information for the installation
-
make sure the working conditions of the device (operat-
ing temperature, operating humidity, etc.) are in the limits
indicated; look at chapter “TECHNICAL DATA”
-
do not install the device close to heating sources (heat-
ers, hot air ducts, etc.), devices having big magnetos
(big speakers, etc.), locations subject to direct sunlight,
rain, humidity, dust, mechanical vibrations or bumps
-
according to the safety legislation, the protection against
possible contacts with the electrical parts must be en-
sured by a correct installation of the device; all the parts
which ensure the protection must be fixed so that you
can not remove them if not by using a tool.
+24V power supply 0-20 mA, 4-20 mA and 0-10 V trans-
ducers (24 VAC)
DIGITAL INPUTS
Digital inputs.
Part Meaning
DI1
digital input 1 (24 VAC/DC, 50/60 Hz or 2 KHz
optoisolated); the frequency can be set with the
development environment UNI-PRO 3
DI2
digital input 2 (24 VAC/DC, 50/60 Hz or 2 KHz
optoisolated); the frequency can be set with the
development environment UNI-PRO 3
DI3
digital input 3 (24 VAC/DC, 50/60 Hz optoisolated)
DI4
digital input 4 (24 VAC/DC, 50/60 Hz optoisolated)
DI5
digital input 5 (24 VAC/DC, 50/60 Hz optoisolated)
COM
common digital inputs
DIGITAL INPUTS
Digital inputs.
Part Meaning
COM1 common digital inputs
DI6
digital input 6 (24 VAC/DC, 50/60 Hz optoisolated)
DI7
digital input 7 (24 VAC/DC, 50/60 Hz optoisolated)
DI8
digital input 8 (24 VAC/DC, 50/60 Hz optoisolated)
DI9
digital input 9 (24 VAC/DC, 50/60 Hz optoisolated)
DI10 digital input 10 (24 VAC/DC, 50/60 Hz optoisolated)
DI11 digital input 11 (24 VAC/DC, 50/60 Hz optoisolated)
DI12 digital input 12 (24 VAC/DC, 50/60 Hz optoisolated)
DI13 digital input 13 (24 VAC/DC, 50/60 Hz optoisolated)
COM
common digital inputs
ANALOG OUTPUTS
Analog outputs.
Part Meaning
GND
ground analog outputs
AO1
analog output 1, which can be set via configuration
parameter for PWM or 0-10 V
AO2
analog output 2, which can be set via configuration
parameter for PWM or 0-10 V
AO3
analog output 3, which can be set via configuration
parameter for 0-20 mA, 4-20 mA or 0-10 V
ANALOG INPUTS / OUTPUTS
Analog inputs and outputs.
Part Meaning
GND
ground analog inputs and outputs
AI7
analog input 7, which can be set via configuration
parameter for PTC, NTC, Pt 1000 probes, 0-20 mA,
4-20 mA, 0-5 V ratiometric or 0-10 V transducers
AI8
analog input 8, which can be set via configuration
parameter for PTC, NTC, Pt 1000 probes, 0-20 mA,
4-20 mA, 0-5 V ratiometric or 0-10 V transducers
AI9
analog input 9, which can be set via configuration
parameter for PTC, NTC, Pt 1000 probes, 0-20 mA,
4-20 mA, 0-5 V ratiometric or 0-10 V transducers
AI10 analog input 4, which can be set via configuration
parameter for PTC, NTC or Pt 1000 probes
GND
ground analog inputs and outputs
AO4
analog output 4, which can be set via configuration
parameter for 0-20 mA, 4-20 mA or 0-10 V
AO5
analog output 5, for 0-10 V
AO6
analog output 6, for 0-10 V
DIGITAL OUTPUTS
Digital outputs.
Part Meaning
CO1
common digital output 1
NO1
normally open contact digital output 1
according to the model:
-
3 res. A @ 250 VAC electromechanical relay
-
24 VAC/DC, 600 mA max. command for solid
state relay
CO2
common digital output 2
NO2
normally open contact digital output 2
according to the model:
-
3 res. A @ 250 VAC electromechanical relay
-
24 VAC/DC, 600 mA max. command for solid
state relay
CO3-6 common digital outputs 3... 6
NO3
normally open contact digital output 3 (3 res. A @
250 VAC electromechanical relay)
NO4
normally open contact digital output 4 (3 res. A @
250 VAC electromechanical relay)
NO5
normally open contact digital output 5 (3 res. A @
250 VAC electromechanical relay)
NO6
normally open contact digital output 6 (3 res. A @
250 VAC electromechanical relay)
CO7
common digital output 7
NO7
normally open contact digital output 7 (3 res. A @
250 VAC electromechanical relay)
Description
The following drawing shows the aspect of the devices.
17
digital outputs K8 and K9
18
digital output K10