EVCO c-pro micro SAVE User Manual

C-PRO MICRO SAVE APPLICATION MANUAL

Page 11

2.2.2 I/O configuration with 1 speed fans + speed variator

c-Pro MICRO CAN with 2 A/O V+V (code CPU1S0C2V)
c-Pro EXP MICRO CAN with 2 A/O V+V (code CPUES0C2V)
I/O

Description

Analogue inputs

AI 1

Anti-freeze Temperature Probe (Recovery heat exchanger By-Pass) - NTC

AI 2

Supply Air Temperature Probe - NTC

AI 3

Return Air Temperature Probe - NTC

AI 4

Not used

AI 5

Outdoor Air Temperature Probe - NTC

AI 6

Not used

AI 7

Not used

AI 8

Not used

Serial ports

TTL (485)

TTL with external interface EVIF becomes RS485 Modbus RTU

CAN bus

To the EXP micro and/or Vgraph

Digital inputs

DI 1

Presence sensor

DI 2

Start – Stop (remote)

DI 3

Supply fan thermal overload

DI 4

Return fan thermal overload

DI 5

BY-Pass damper presence ( anti-freeze recovery heat exchanger)

DI 6

Differential pressure switch

DI 7

Hot water coil anti-freeze thermostat

DI 8

Electric heaters thermal overload

DI 9

Outdoor air damper limit switch (full open)

DI 10

Outdoor air damper limit switch (full closed)

Analogue outputs

AO 1

Not used

AO 2

Hot water coil modulating valve control (0-10 V)

AO 3*

Recovery heat exchanger BY-PASS damper control (0-10 V)

AO 4

Not used

AO 5

Return fan driving signal (0-10 V)

AO 6

Supply fan driving signal (0-10 V)

Digital Outputs (Relay)

DO 1

Return fan speed 0

DO 2

Outlet fan speed 0

DO 3

DO 4

DO 5

DO 6

DO 7*

Recovery heat exchanger BY-PASS damper

DO 8

Outdoor air damper

DO 9

Electric heaters step 1

DO 10

Electric heaters step 2

DO 11

Electric heaters step 3

DO 12

Generic alarm (can be configured)

(*) The control of the recovery heat exchanger By-Pass damper can be digital or analogue, by setting the
PG03 parameter.

The C-PPRO MICRO and C-PRO EXP MICRO power supplied must be galvanically isolated
from each other.