Hager XEVA205 TIC/CHP Card

Presentation

The XEVA205 (TIC/CHP) card is a gateway that facilitates the exchange of meter data between an old or new generation electronic energy meter and a Hager charging station. It enables the charging station to receive real-time electrical consumption data, allowing for dynamic vehicle charge management based on the dwelling's consumption. When used with the Hager XEVA220 WiFi card, it provides monitoring of dwelling and vehicle consumption based on electricity tariffs via a mobile application.

The TIC/CHP card receives data from electronic meters or TIC XEV304 or XEV305 simulators and transmits it to the terminal controller of the charging station.

Connection Scenarios for Energy Meters:

New Generation Energy Meter: Connection can be made via a wired remote energy meter cable or wirelessly using the Hager TRPS120 radio transmitter, which is installed within the new generation meter.
Previous Generation Electronic Meter (Blank): Connection is exclusively via a wired remote energy meter cable.
Ferraris Electromechanical Meter (Without TIC): To obtain TIC data, a wired connection is required using a remote energy meter cable between a TIC simulator (XEV304 for single-phase networks or XEV305 for three-phase networks) and the TIC card. Refer to the XEV304 and XEV305 product manuals for details.

Image 1: Description of the Card

Diagram showing the XEVA205 TIC/CHP card with numbered components:

1. QR code for product identification
2. CHP output connector
3. CHP input connector
4. TIC input connector (for new generation meters and electronic meters with a TIC output)
5. Connection terminal block for power supply and communication (via the controller card)
6. 'fct' function pushbutton and LED used for programming the RF link operating mode. When not in configuration mode, the 'fct' LED indicates the TIC status.
7. 'cfg' configuration pushbutton and LED used for physical addressing or configuration.

Safety Instructions

Warning: Installation and mounting of electrical equipment must be performed exclusively by a qualified electrician. Adhere to the accident prevention regulations applicable in the country. Failure to follow installation instructions may lead to device damage, fire, or other hazards. Ensure compliance with regulations and standards for SELV electrical circuits during installation and cable laying. Always switch off power to the installation before working on the device or load. Identify and de-energize all circuit breakers that supply potentially dangerous voltages to the device or load. Risk of electric shock.

The TIC/CHP card must be installed with the charging station powered off.
Consult the maintenance manual before performing any service on a charging station.
Installation must be carried out by an electrician in accordance with country-specific installation standards.
Follow SELV installation rules.

Disposal of Product (WEEE)

This symbol ♻️ on the product or its documentation indicates that it should not be disposed of with household waste at the end of its life. To prevent potential harm to the environment or human health from uncontrolled waste disposal, please separate it from other waste types and recycle it responsibly to promote sustainable material resource reuse. Individuals should contact their retailer or local council for disposal information. Businesses should consult their suppliers and sales contract terms. This product must not be disposed of with commercial waste.

TIC Card Installation Precautions

Electronic components like the TIC card can be sensitive to electrostatic discharges (ESD). To ensure proper installation:

Handle the card by its edges only, avoiding contact with sensitive components.
Wear an antistatic bracelet during handling to prevent damage. If unavailable, touch a grounded metal object before handling the card to discharge static electricity, and periodically touch the metal object during handling.
Store the TIC/CHP card in its antistatic packaging or on an antistatic support until installation.

Function

System Information

While detailed, specialized knowledge from Hager's KNX training courses is beneficial for a comprehensive understanding of the system, these courses are not required for this specific installation.

"Quicklink" Configuration

The XEVA205 TIC card is compatible with the Hager TRPS120 radio transmitter, designed for integration into new generation meters.

Typical Scenarios

Integration into a charging station for electric vehicles (e.g., XEV1Kxxx series).
Communication with new generation meters and electronic meters featuring a TIC output via wired connection.
Communication with new generation meters via the KNX RF connection (TRPS120 module).

Note: If both wired and RF communication methods are used, wired communication takes priority.

Product Compatibility

Compatible with the XEV1Kxxx range of single-phase or three-phase electric vehicle charging stations.
This TIC card operates without requiring specific settings with:

Historical TIC data from French electronic energy meters.
Standard TIC data from new generation French energy meters.

Meaning of the Card Status LED

After setup and configuration via the Quicklink method, the status LED (6) indicates:

LED 6 Status	Meaning
Off	LED deactivated / TIC not powered
Green ON	LED activated / TIC operational
TIC in standby	The TIC is present but not activated by the energy supplier. It only transmits the energy meter's identification number. The customer must request TIC activation from their energy supplier.
Red flashing	No link with TRPS120 module: LED flashes red if the wired TIC is not used and no radio link is configured between the TIC card and the TRPS120 module. No RF reception with TRPS120 module: LED flashes red if the wired TIC is not used and the range between the TRPS120 radio transmitter and the TIC card is insufficient. No TIC communication at TRPS120 module input: The TRPS120 module is incorrectly or insufficiently plugged in, or the TIC output of the new generation meter is not functioning. Error in TIC data transmission frame.

Function (fct) Pushbutton 6

In Quicklink mode, press the pushbutton to select the function during the configuration phase. Refer to the TRPS120 module instructions.

Installation of the TIC Card

Diagram illustrating the physical installation of the TIC card within a device.

Connecting the TIC Card

Connection to the Controller:

Use the supplied flat cable (2 x 10 pins) to connect the J1 connector of the TIC/CHP card to the J2 connector of the Controller card.
Connection to the Electronic Meter:

For wired data transmission, connect the plug-in J2 quick connect terminal of the TIC/CHP card to the I1 and I2 terminals of the electronic meters. It is recommended to use a remote energy meter cable or, failing that, a telephone-type twisted cable. An R02V cable is prohibited.

The TIC cable should be secured using the three cable clamps provided on the socket support side.

Installing the TRPS120 Module

For the installation of the TRPS120 module and RF configuration with the TIC/CHP card, refer to the instructions provided with the TRPS120 module.

Connection with TIC XEV304 or XEV305 Simulator

When an electronic meter is not available, Hager offers a TIC simulator (XEV304 for single-phase, XEV305 for three-phase networks). This simulator enables dynamic management of vehicle charging, preventing accidental outages due to domestic electricity network overload. It also facilitates interfacing with installations equipped with local electricity production sources like micro-cogeneration or photovoltaic systems (Combined Heat & Power - CHP).

It is recommended to use a remote energy meter cable or, failing that, a telephone-type twisted cable. An R02V cable is prohibited.

For the installation of the XEV304 or XEV305 simulator and product configuration, refer to the instructions provided with these products.

Connecting the CHP Functions

The CHP input (CHP IN) is utilized for local electricity production from cogeneration systems or photovoltaic panels. When activated, it signals to the charging station controller that locally produced energy is available for vehicle charging.

Image 2: Connecting the CHP Functions

Diagram illustrating the connection of CHP functions. It shows an 'Energy (input)' source feeding into a 'CHP' unit. The CHP unit has an 'Electricity (output)' and a 'Heat (output)' indication. The input and output connections are labeled as 'CHP (IN)' via J3 connector (IN 1 and 2) and 'CHP (OUT)' via J3 connector (OUT 1 and 2).

The CHP output (CHP OUT) is a potential-free relay output with low voltage (max. 24V) and low current (max. 200 mA / min. 100 mA). This output activates 30 seconds after the CHP IN is activated and can authorize the cogeneration system to supply energy to the customer's internal network if necessary.

An interfacing relay such as EN145, ERD225SDC, or ESD225S is recommended for controlling a cogeneration system input. A TGF110 or TGA200 power supply is recommended for powering these control circuits, following the electrical diagram provided.

Image 3: Wiring Diagram

Wiring diagram showing the CHP (OUT) connector (J3, outputs OUT 1 and 2) connected to an appliance to be controlled. The diagram shows a simplified circuit with a 24V DC supply, a relay, and connections to the appliance.

Technical Features

Configuration Method

Quicklink

Communication Media

Wired connection via a twisted pair cable from an electronic meter with a historical or standard TIC output, or wireless via KNX RF Secure using the TRPS120 radio transmitter module.

Electrical Specifications

Power Supply Voltage: 5V and 12V supplied by the controller via the flat cable.
Consumption: Max. 100 mA for 5V and max. 4 mA for 12V.
CHP Input (CHP connector IN 1 and 2):
- Pin 1: 12V / 2.5 mA / Power output
- Pin 2: 12V / 2.5 mA / Logic input
CHP Output (CHP connector OUT 1 and 2): Relay output, SELV, Contact: max. 24V +10% / max. 200 mA and min. 100 mA.

Functional Specifications

KNX Radio Frequency: 868 - 868.6 MHz
Max. Emission Power: 25 mW
Receiver Category: 2
Range: 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 Specifications

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

HagerEnergy GmbH hereby declares that the radio equipment type XEVA205-TIC/CHP card complies with Directive 2014/53/EU. The full text of the EU declaration of conformity is available at the internet address: www.hager.com.

This declaration of conformity is valid only when the card is installed in the charging station in accordance with the regulations and best practices outlined in this document. Non-compliance with installation or assembly instructions is prohibited and does not render Hager liable.

This product can be used anywhere in Europe and Switzerland.

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