background image

Connecting the CHP functions 

The CHP input or CHP IN (Combined Heat & 

Power) is used in local electricity production by a 

cogeneration system or by photovoltaic panels. 

Once activated, it signals to the charging station 

controller that a (locally produced) energy is 

available to charge the vehicle.

Energy

(input)

Heat

(output)
Electricity

(output)

CHP (IN)

J3 connector 

(IN 1 and 2)

CHP (OUT)

J3 connector 

(OUT 1 and 2)

CHP

Image 2: 

connecting the CHP functions

The CHP output or CHP OUT is a low voltage 

(24 V

s

 max) and low current (200 mA max / 100 

mA min) potential-free relay output.

This output is activated 30 seconds after the 

CHP IN is activated and (if required) authorises 

the cogeneration system to supply energy to the 

customer’s internal network.

An EN145, ERD225SDC or ESD225S interfacing 

relay is recommended to manage the input of a 

cogeneration system. A TGF110 or TGA200 supply 

is recommended to power these control circuits, in 

line with the electrical diagram below:

to appliance  

to be 

controlled

CHP (OUT)

J3 connector 

(OUT 1 and 2)

Image 3: 

wiring diagram

x 3

The TIC cable should be fastened using the 3 

cable clamps provided on the socket support 

side. 

3

7 8 9

XEV304

10

1 2 3 4 5 6

11 12

Abo

15

20

25

30

35

EC

O

100

90

80

75

65

60

50

45

40

ON

ECO

1 2 3 4 5 6

Abo

ON

ECO

Technical features

Configuration method:

 Quicklink

Communication media: 

by wiring through a 

twisted pair cable from an electronic meter fitted 

with a previous generation or standard TIC output 

and by radio (KNX RF Secure) via the TRPS120 

radio transmitter module.

Electrical specifications

•  Power supply voltage: 5 V

s

 and 12 V

s

 supplied 

by the controller via the flat cable 

•  Consumption: 100 mA max. for 5 V

s

  

and 4 mA max. for 12 V

s

•  CHP input (IN 1 and 2 of the CHP connector):  

- Pin 1: 12 V

s

 / 2.5 mA / Power output 

- Pin 2: 12 V

s

 / 2.5 mA / Logic input

•  CHP output (OUT 1 and 2 of the CHP connector): 

relay output, SELV, Contact: 24 V

s

 +10% max. / 

200 mA max. and 100 mA min.

Functional specifications

• KNX radio frequency: 868 - 868.6 MHz 

• Max. emission power: 25 mW

• Receiver category: 2

• Scope: 100 m in free field

Ambient conditions

• Operating temperature: -25 °C to +70 °C

• Storage temperature: -25 °C to +70 °C

• Pollution level: 2

• Insulation class: 3

• Maximum operating altitude: 2000 m

• Surge voltage: 4 kV

Connection

•  TIC input: 0.2 to 2.5 mm² / Stripping: 10 mm / 

dual-insulated cable / length: 500 m max.

•  CHP input and output: 0.14 to 1.5 mm² / Stripping: 

9 mm / dual-insulated cable / length: 100 m max.

•  TIC card and controller card: Micromatch 2x10-

pin flat cable (supplied) 

Simplified EU declaration of conformity:

Hereby, HagerEnergy GmbH declares that the 

radio equipment type XEVA205-TIC/CHP card is in 

compliance with Directive 2014/53/EU. The full text 

of the EU declaration of conformity is available at 

the the following internet address www.hager.com

The declaration of conformity is only valid when the card 

is installed in the charging station, in accordance with the 

regulations and best practices set out in this document. 

Failure to comply with the installation or assembly 

instructions is prohibited and does not render Hager liable.

Can be used anywhere in Europe 

M

 and Switzerland

 Installing the TRPS120 module and 

configuring the radio with the TIC card.

 

Connection with TIC XEV304

 (for single-

phase network) or 

XEV305 simulator 

(for 

three-phase network)

When an electronic meter is not available, Hager 

offers a TIC simulator that enables dynamic 

management of the vehicle charge and thus 

prevents accidental outages caused by an 

overload in the domestic electricity network.

This simulator also enables interfacing of an 

installation equipped with a source of electricity 

production, such as a micro-cogeneration 

or a photovoltaic system, also called CHP 

(Combined Heat & Power).

4

5

To install the TRPS120 module and 

configure the RF with the TIC/CHP, refer to 

the instructions provided in the TRPS120 

module.

It is preferable to use a remote energy 

meter cable or, failing that, a telephone-

type twisted cable. An R02V cable should 

not be used.

To install the XEV304 or XEV305 simulator 

and configure the product, refer to the 

instructions provided with these products.

6

 

T

 +49 541 760268-0 

F

 +49 541 760268-199  [email protected]   hager.com – 09.2022

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