C-EV-0505MTXN 143 13

C-EV-0505M; Electric vehicle AC charging control module; PP, CP, 2x AI/DI, 1x DI (for S0), 1x AI (AC), 2x RO, 1x RGB data, 24 VDC, 1x RCM, 2x Lock

DI	3x AI/DI 1x DI (S0) 1x PP
DO	1x CP (DO/DI) 1x LOCK 2x RO 1x RGB
AI	3x AI/DI see DI
AO
COM	1x CIB slave 1x RGB data (< 30x WS2812) CP, PP 1x input for residual current monitor (according to IEC 62752, IEC 60364-7-722)
SENSOR

Picture	Variant	Variant description
	C-EV-0505M

The C-EV-0505M module is intended for controlling the charging of electric cars with alternating current according to ČSN EN 61851-1. For charge control and back-diagnosis, the module contains CP (Control Pilot) and PP (Proximity function) outputs connected to the charging connector (Type 1, Type 2). In addition, the module contains relay outputs for controlling the contactor of the power supply to the electric car, one semiconductor output for controlling the charging connector lock, a data output for controlling up to 30 addressable RGB LED chips for charging signaling, a connector for connecting a residual AC/DC current monitor according to IEC 62752 and IEC 60364-7-772. The module also contains 3 universal AI/DI inputs and one counter input for counting pulses via the S0 interface from the supplied energy meter.

Enables the connection of an AC / DC leakage current control module (not included in the package).

The module has an input for a separate power supply from a 24 V DC source.
The module is designed for a DIN rail switchboard. It connects to the Foxtrot base module via the two-wire CIB Common Installation Bus®.

Order num.	TXN 143 13
Teco code	TXN 143 13
Categories	CFox - Modules on DIN rail
Tags	-

COM - System buses
CIB - Common Installation Bus (R): Installation I/O bus	1x CIB slave
DI - Organization of binary inputs
Total number of binary inputs	4
Number of groups of binary inputs	2
Organization of binary inputs into groups	(AI1/DI1 - AI2/DI2, AI4/DI4) - group A, DI3 (S0) - group B, PP - group C
DI - Parameters of binary inputs DC (group A)
Parameters valid for inputs on the terminals	AI1/DI1 - AI2/DI2, AI4/DI4,
Number of inputs in group	3
Common wire	AGND1
Combined input type	DI / AI - measurement of resistance sensors, sensing of potential-free contacts and balanced loops
Galvanic separation of inputs from CIB bus	Yes
Pulse input overload capacity	max. 30 V (t < 10 ms)
Delay from log. 0 to log. 1	1 ms
Delay from log. 1 to log. 0	1 ms
Max. measuring voltage on the connected contact	3,3 V DC
Internal input resistance	2 kΩ
Max. resistance for closed contact, log. 1	< 0,5 kΩ
Min. resistance for open contact, log. 0	> 1,5 kΩ
Balanced resistance input	1x <3,3 kΩ (tamper/0/1/tamper)
DI - Parameters of DC binary inputs (group B)
Parameters valid for inputs on the terminals	DI3
Number of inputs in group	1
Common wire	AGND - module ground
Combined input type	Binary, balanced and pulse counter according to the S0 standard
Galvanic separation of inputs from CIB	Yes
Max. measuring voltage on the connected contact	15 V DC
Internal input resistance	3,3 kΩ
Max. resistance for closed contact, log. 1	< 0,8 kΩ
Min. resistance for open contact, log. 0	> 4,2 kΩ
Balanced resistance input	1x <3,3 kΩ (tamper/0/1/tamper)
DI - Parameters of binary inputs DC (group C)
Parameters valid for inputs on the terminals	PP
Combined input type	Passive detection of maximum cable load according to ČSN EN 61851-1 ed. 2
Notice	If the cable connection does not contain resistance Rc, it must be selected according to the table and connected directly between terminals B2 and B3
Resistance connected to PP input for 13 A cable load	> 1,5 kΩ
Resistance connected to PP input for 20 A cable load	680 Ω
Resistance connected to PP input for 32 A cable load	220 Ω
Resistance connected to PP input for cable load 63 A 3f /70 A 1f	100 Ω
DO/RO - Organization of binary outputs
Total number of binary outputs	4
Number of binary output groups	2
Organization of binary outputs into groups	1x CP: DO/DI 2x LOCK: DO - group A 1x RGB: DO - group B 2x RO
DO/DI - Output CP
Parameters valid for outputs on terminals	CP
Output type	Control circuit according to ČSN EN 61851-1 ed. 2
No load output voltage	± 12 V
Rated frequency	1 kHz
Output impedance	1 kΩ
DO - Parameters of binary transistor outputs (group A)
Parameters valid for the terminals	2x (LOCK1, LOCK2)
Number of transistor outputs	2
Number of output groups	1
Number of outputs in group	2
Output type	semiconductor output, half-bridge (push-pull)
Galvanic isolation of the outputs from CIB	No
Nominal voltage of the lock drive	24 V DC
Rated output current	500 mA max.
DO - Parameters of binary transistor outputs (group B)
Parameters valid for the terminals	RGB
Number of transistor outputs	1
Galvanic isolation of the outputs from CIB	Yes
Switching voltage	5 V DC
Switching current, output load	0,5A max.
Short circuit protection	Yes
RO - Parameters of binary relay outputs (group A)
Parameters valid for the terminals	DO1, DO2
Number of relay outputs	2
Number of output groups	1
Number of outputs in group	2
Output type	electromechanical relay, unprotected output
Contact type	NO - Normally Open
Galvanic separation from internal circuits	Yes
Diagnose	Alarm signaling on panel module
Switching current	6 A max. for 250 V AC; 5 A max. for 30 V DC
Switching voltage	400 V AC max., 30 V DC max.
Switching power	1500 VA max for AC, 150 W max for DC
Short-term output overload - inrush	15 A max. (10 ms max.)
Contact closing time	typ. 10 ms
Contact opening time	typ. 5ms
Mechanical life	min. 30,000,000 cycles
Short-circuit protection	No
Treatment of inductive load	External RC element, varistor (AC), diode (DC)
Insulation voltage between outputs and internal circuits	3750 V AC
Insulation voltage between contacts	1000 V AC
AI - Organization of analog inputs
Total number of analog inputs	3
Number of analog input groups	2
Organization of analog inputs into groups	(AI1-AI2, AI4) - group A
Input type	AI / DI - combined
Common wire	AGND1
AI - Analog Input Ranges (Group A)
Parameters valid for inputs on the terminals	AI1/DI1 - AI2/DI2, AI4/DI4
Passive sensor	Pt1000, W100 = 1,385 (-90 to +400 ° C)
Passive sensor	Pt1000, W100 = 1,391 (-90 to +400 ° C)
Passive sensor	Ni1000, W100 = 1,500 (–60 to +200 ° C)
Passive sensor	Ni1000, W100 = 1.617 (-60 to +200 ° C)
Passive sensor	Resistance transmitter 0-160 kOhm
Passive sensor	KTY81-121; PTC thermistor (-55 to + 125 °C)
Passive sensor	NTC Thermistor 12k / 25 °C (-40 to + 125 °C)
DI: Voltage-free contact	0 when> 1.5 kOhm, 1 when <0.5 kOhm
DI: Balanced resistance input	2x 1k1 (tamper/0/1/tamper)
Resistance measurement error - maximum error at 25 ° C	± 2% of full scale
Residual current sensor parameters
Frequency range	DC ÷ 2 kHz
Load current	<80 A RMS (single phase) or <3x 32 A RMS (three phase)
Measurement resolution	0,2 mA
Residual current range	0 ÷ 300 mA
Power supply
Supply voltage, tolerances	24 V DC, +25%, -15%, SELV
Power supply from CIB - voltage	24/27 V DC
Auxiliary power supply - voltage	24 V DC
Maximum power input	2 W
Power supply from CIB - maximum current consumption (mA)	85 mA
Galvanic separation of power supply from internal circuits	Yes
Internal protection	Yes
Size and weight
Weight approx.	150 g
Product dimensions (width x height x depth)	70 х 90 х 58 mm
Module width in multiples of M (17.5 mm)	4M
Operating conditions, product standards
Product standard	ČSN EN 60730-1 ed. 2:2001 (mod IEC 60730-1:1999)
Product standard (B)	ČSN EN IEC 61851-1 ed. 3:2022 (idt IEC 61851-1:2017)
Protection class of electrical object	II, according to ČSN EN 61140 ed.3: 2016 (idt IEC 61140:2016)
IP rating (Ingress Protection) according to ČSN EN 60529: 1993 (idt IEC 529: 1989)	IP10B
Operating areas	Normal, acc. ČSN 33 2000-1 ed.2: 2009 (mod IEC 60354-1:2005)
Degree of pollution	1, according to ČSN EN 60664-1 ed.2:2008 ( idt IEC 60664-1:2007)
Overvoltage category installation	II, according to EN 60664-1 ed_2: 2008 (idt IEC 60641-1: 2007)
Type of device	Module on DIN rail
Working position	Vertical
Type of operation (operating frequency)	Continuous
Ambient operating temperatures	–25 °C o +80 °C
Operating relative humidity	from 10 % up to 95 % without condensation
Operating atmospheric pressure	min. 70 kPa (<3,000 m above sea level)
Storage temperatures	–25 ° C to + 85 ° C
Electromagnetic compatibility, Mechanical endurance
Electromagnetic compatibility / Emission	B, according to EN 55032 ed. 2: 2017 (idt CISPR 32: 2015)
Electromagnetic compatibility / Immunity	min. according to ČSN EN 60730-1 ed.2: 2001
Sinusoidal vibration endurance	10 Hz to 57 Hz, amplitude 0,075 mm, 57 Hz to 150 Hz, acceleration 1 G (Fc test according to EN 60068-2-6: 1997 (idt IEC 68-2-6: 1995), 10 cycles per axis.)
Packaginng, transportation, storage
Description	The module is packed in a paper box. This documentation is also part of the package. The outer packaging is carried out according to the scope of the order and the method of transport in a transport package provided with labels and other data necessary for transport. The product must not be exposed to direct weather conditions during transport and storage. Malting of the product is only allowed in clean rooms without conductive dust, aggressive gases and vapors. The most suitable storage temperature is 20 ° C
Installation
Assembly description	The module is mounted in a vertical position on the U-rail ČSN EN 50022. Installation of the assembly (basic module and possibly peripheral modules) is performed according to TXV 004 13.
Attention!	The device may contain parts with dangerous voltages, covers being removed, or cabling manipulated, or disconnect the appropriate circuits or turn off the power !.
Connection
Connection description	The module is powered by the CIB bus. The CIB bus can have any topology and branches up to a distance of 500 m and up to 32 units on one CIB branch. The maximum consumption of all modules of a single CIB branch is limited to 1A. The device contains a bus according to the IEC 61851-1 standard for controlling the AC charging of electric cars. DO1 is used to connect the charging indicator diode. The diode connects directly to DO1 without resistance. This LED indicates the charging of the electric car. The E-CAR ERR LED indicates an error on the bus for charging electric cars, or a disconnected electric car during charging. The E-CAR CONN LED indicates the connection of the electric car. The VENTILATION REQ LED indicates a request for room ventilation during charging. The CHARGE LED indicates charging of the electric car. If the residual current control module is used S-EV-0001X-RC (AC+DC) TXN 145 00 or S-EV-0002X-RDC (DC) TXN 145 01 (must be ordered separately), is connected using a non-crossed Ethernet cable into the RJ-45 connector.
Connection of power and system communication	connector with 2.5 mm2 screw terminal
Connection of inputs / outputs	connector with screw terminal 2.5 mm2
Specific I / O	Residual current sensor S-EV-xxxx
Connection of specific I / O	RJ45 connector
CIB connection	connector with 2.5 mm2 screw terminal
Connection description	An example of module connection is shown in the following figure.
Module operation
Commissioning	The module is operated, set and diagnosed from the MOSAIC programming environment or other parameterization software. The module is ready for operation after connecting the supply voltage and the CIB bus. The HW address is indicated on the label on the module.
Module diagnostics	The basic diagnostics is performed internally and the result is available in the relevant registers of the Mosaic environment. The module contains an indication LED for checking the status of inputs / outputs. By pressing the Manual Control button, the module can be switched to manual mode and the individual outputs can be controlled.
Maintenance
Description	The module does not require any maintenance under general installation conditions. The operations in which a part of the module has to be dismantled must always be carried out with the supply voltage disconnected.
Notice	Because the module contains semiconductor components, it is necessary to follow the principles for working with electrostatic sensitive components when handling the removed cover. It is not allowed to directly touch the printed circuit boards without protective measures !!!
Warranty
Generally	Warranty and complaint conditions are governed by the Terms and Conditions of Teco a.s.
Notice	You must meet all the conditions of this documentation before turning on the system. The system must not be put into service unless it has been verified and confirmed that the machinery meets the requirements of Directive 89/392 / EEC, in so far as it applies to it. Documentation subject to change.

HW documentation

PDF

C-EV-0505M - Basic documentation

3.00 MB, (EN)

User manuals

PDF

Peripheral modules on the CIB Common Installation Bus(R) (en), TXV00413_02

13.94 MB, (EN, RU, DE, UA)

Files for designers

ZIP

Foxtrot 2 - library of elements in DXF and DWG formats, v. 2024/01.

20.49 MB

KNI

Foxtrot 2 - element library for SchemataCAD, v. 2024/01

6.79 MB

EC - Declaration of Conformity

PDF

Foxtrot - EC Declaration of conformity

295.20 kB, (EN, RU, DE, UA)

S-EV-0001X-RC

TXN 145 00

S-EV-0001X-RC Residual current sensor 30 mA AC, 6 mA DC according to IEC 61851-22, IEC 62752

S-EV-0002X-RDC

TXN 145 01

S-EV-0002X-RDC Residual current sensor 6 mA DC in accordance with IEC 61851-22, IEC 62752

Residual current submodule S-EV-0001X-RC for module C-EV-0505M - application note - ..., which significantly reduces installation costs. One measuring submodule S-EV-0001X-RC can be connected to the C-EV-0505M module. It is a submodule equipped with a residual (fault) current sensor type RCMB121-1. The sensor is sensitive...

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