EN Manual

CC612(4G)_D00325_05_M_XXEN/10.2019

CC612 EV charge controller

Charge controller for electric vehicle charging stations, wall boxes and street light charging points

Bender GmbH & Co. KGP.O. Box 1161 • 35301 Gruenberg • GermanyLondorfer Strasse 65 • 35305 Gruenberg • Germany

Tel.: +49 6401 807-0Fax: +49 6401 807-259

E-Mail: info@bender.deWeb: www.bender.de

© Bender GmbH & Co. KGAll rights reserved.

Reprinting only with permissionof the manufacturer!

Subject to change!

Customer serviceService hotline: 0700-BenderHelp (Phone and Fax)Carl-Benz-Strasse 8 • 35305 Gruenberg • Germany

Tel.:+49 6401 807-760Fax:+49 6401 807-629

E-mail:info@bender-service.com

3C

1

2

3

4

...........................................................................15

ditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15

measuring current transformer of the series W15BS .15

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16

connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17

iguration interface (CONFIG) . . . . . . . . . . . . . . . . . . . . . . .17

face for Ethernet/WLAN adapter . . . . . . . . . . . . . . . . . . .17

el LEDs (ALARM, READY, PLC) . . . . . . . . . . . . . . . . . . . . .17

er supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17

r connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17

ilot (CP) and Proximity Pilot (PP) connections . . . . . .18

sion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18

(Residual Direct Current Monitoring Device) . . . . . . . .18

connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18

on to lock release modules . . . . . . . . . . . . . . . . . . . . . . . .19

vity to eHZ or Modbus meters and (optionally)h an S0 interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24

rface connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24

e features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25

and SIM card slot . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25

socket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25

T

C612(4G)_D00325_05_M_XXEN/10.2019

. Important information .................................................................... 5

1.1 How to use this manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

1.2 Technical support: Service and support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

1.2.1 First level support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

1.2.2 Repair service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

1.2.3 Field service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

1.3 Training courses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

1.4 Delivery conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

1.5 Inspection, transport and storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

1.6 Warranty and liability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

1.7 Disposal. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

. Safety information ........................................................................... 7

2.1 General safety instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

2.2 Work activities on electrical installations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

2.3 Dangers dealing with the charge controller. . . . . . . . . . . . . . . . . . . . . . . . . . 7

2.4 Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

2.5 Intended use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

. Function ............................................................................................. 8

3.1 Product features. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

3.2 Product description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

3.2.1 Product variant overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

3.3 Functional description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

3.3.1 General functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

3.3.2 Charging system with Type 2 socket . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

3.3.3 Charging system with a type 2 socket and an intermediate relay 12

. Device overview .............................................................................. 14

4.1 Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

4.2 DIN rail mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

5. Connection ............

5.1 Connection con

5.2 Wiring diagram

5.3 Connectivity . . .

5.3.1 Master/Slave

5.3.1.1 USB conf

5.3.1.2 USB inter

5.3.1.3 Front pan

5.3.1.4 12 V pow

5.3.1.5 Contacto

5.3.1.6 Control P

5.3.1.7 I/O exten

5.3.1.8 RDC-MD

5.3.1.9 Plug lock

5.3.1.10 Connecti

5.3.1.11 Connectimeters wit

5.3.1.12 User inte

5.3.2 Master devic

5.3.2.1 SIM card

5.3.2.2 Antenna

able of Contents

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CC612(4G)_D00325_05_M_XXEN/10.20194

6

7

...........................................................................41

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41

vals, certifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42

onformity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .43

ation* . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .44

.......................................................................... 45

7.1 Establishing a network connection to the charge controller . . . . . . . . . 40

7.1.1 USB configuration interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40

Table of Contentsable of Contents

. Configuration and testing ............................................................ 26

6.1 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26

6.1.1 Local configuration and parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . 26

6.1.1.1 Application of changed parameters . . . . . . . . . . . . . . . . . . . . . . . . 27

6.1.1.2 Automatic charge controller resets . . . . . . . . . . . . . . . . . . . . . . . . . 27

6.1.2 Remote configuration and parameters . . . . . . . . . . . . . . . . . . . . . . . . . 27

6.1.3 Factory settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27

6.2 State tab . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28

6.3 Settings tab . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30

6.4 Operator tab . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31

6.5 Manufacturer tab . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35

6.6 Testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36

6.6.1 Successful boot-up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

6.6.2 Connectivity to the backend . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

6.6.2.1 Connecting the charge controller to the backend . . . . . . . . . . . 37

6.6.2.2 via GSM (3G/4G modem) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

6.6.2.3 via Ethernet /USB WLAN (USB 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

6.6.3 eHZ/Modbus/S0 meter connectivity . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

6.6.4 Plug locking and unlocking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

6.6.5 Unlocking the CT plug . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38

6.6.6 Charging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38

. Connecting to the charge controller .......................................... 40

8. Technical Data ......

8.1 Tabular data . . .

8.2 Standards, appro

8.3 Declaration of C

8.4 Ordering inform

Index..............................

5

1

1AThth

rt: Service and supportbleshooting Bender offers you:

rt or e-mail for all Bender products

pecific customer applications

nd replacement service for Bender products

esting and analysing Bender products

update for Bender devices

t devices in the event of faulty or incorrectly delivered

Bender devices, which includes an in-house repair service or no extra cost

Please send the devices for repair to the following address:

der GmbH, Repair service, dorfer Str. 65, 05 Gruenberg

6401 807-760* 6401 807-2590BenderHelp (Telephone and Fax)port@bender-service.de

6401 807-780** (technical) 6401 807-784**, -785** (sales) 6401 807-789ir@bender-service.de

CC612(4G)_D00325_05_M_XXEN/10.2019

BenLon353

Important information. Important information

.1 How to use this manuallways keep this manual within easy reach for future reference.o make it easier for you to understand and revisit certain sections in this manual, we ave used symbols to identify important instructions and information. The meaning of ese symbols is explained below:

DANGER

This signal word indicates that there is a high risk of danger that will re-sult in electrocution or serious injury if not avoided.

WARNING

This signal word indicates a medium risk of danger that can lead todeath or serious injury if not avoided.

CAUTION

This signal word indicates a low risk of danger that can lead to minor ormoderate injury or damage to property if not avoided.

This symbol denotes information intended to assist the user in makingoptimum use of the product.

This manual is intended for qualified personnel working in electrical engineering and electronics!

1.2 Technical suppoFor commissioning and trou

1.2.1 First level suppoTechnical support by phone

• Questions concerning s

• Commissioning

• Troubleshooting

1.2.2 Repair serviceRepair, calibration, update a

• Repairing, calibrating, t

• Hardware and software

• Delivery of replacemenBender devices

• Extended guarantee forreplacement devices at

Telephone: +49Fax: +49In Germany only: 070E-Mail: sup

Telephone: +49+49

Fax: +49E-Mail: repa

Im

CC612(4G)_D00325_05_M_XXEN/10.20196

1O

*A**

1BTw

1BFTEsiv(ZElectronic Manufacturer's Association) also applies.S

1Inocopra

T

FEI

abilitys in the event of injury to persons or damage to property are ibuted to one or more of the following causes:

ice.

missioning, operation and maintenance of the device.

structions in this operating manual regarding transport, ion and maintenance of the device.

to the device made by parties other than the manufacturer.

nical data.

rrectly and the use of replacement parts or accessories not acturer.

external influences and force majeure.

on with device combinations not recommended by the

cially the safety instructions, must be observed by all person-urthermore, the rules and regulations that apply for accident se must be observed.

ations and laws governing the disposal of this device. Ask sure how to dispose of the old equipment. trical and electronic equipment (WEEE directive) and the di-certain hazardous substances in electrical and electronic apply in the European Community. In Germany, these po-ugh the "Electrical and Electronic Equipment Act" (ElektroG). ing applies:

equipment are not part of household waste.

tors are not part of household waste and must be disposed e regulations.

onic equipment from users other than private households o the market after 13 August 2005 must be taken back by the sed of properly.

e disposal of Bender devices, refer to our homepage at support.

ale and delivery conditions can be obtained from Bender in printed or electronic format.

.5 Inspection, transport and storagespect the dispatch and equipment packaging for damage, and compare the contents

f the package with the delivery documents. In the event of damage in transit, please ntact Bender immediately. The devices must only be stored in areas where they are

rotected from dust, damp, and spray and dripping water, and in which the specified sto-ge temperatures can be ensured.

• Electrical and electronic

• Batteries and accumulaof in accordance with th

• Old electrical and electrwhich was introduced tmanufacturer and dispo

For more information on thwww.bender.de -> Service &

Important informationportant information

.2.3 Field servicen-site service for all Bender products

• Commissioning, configuring, maintenance, troubleshooting of Bender products

• Analysis of the electrical installation in the building (power quality test, EMC test, thermography)

• Training courses for customers

vailable from 7.00 a.m. to 8.00 p.m. 365 days a year (CET/UTC+1)Mo-Thu 7.00 a.m. - 8.00 p.m., Fr 7.00 a.m. - 13.00 p.m

.3 Training coursesender is happy to provide training regarding the use of test equipment. he dates of training courses and workshops can be found on the Internet at ww.bender.de -> Know-how -> Seminars.

.4 Delivery conditionsender sale and delivery conditions apply. or software products the "Softwareklausel zur Überlassung von Standard-Software als eil von Lieferungen, Ergänzung und Änderung der Allgemeinen Lieferbedingungen für rzeugnisse und Leistungen der Elektroindustrie" (software clause in respect of the licen-ng of standard software as part of deliveries, modifications and changes to general deli-ery conditions for products and services in the electrical industry) set out by the ZVEI entralverband Elektrotechnik- und Elektronikindustrie e. V.) (German Electrical and

elephone: +49 6401 807-752**, -762** (technical)+49 6401 807-753** (sales)

ax: +49 6401 807-759-Mail: fieldservice@bender-service.de

nternet: www.bender.de

1.6 Warranty and liWarranty and liability claimexcluded if they can be attr

• Improper use of the dev

• Incorrect mounting, com

• Failure to observe the incommissioning, operat

• Unauthorised changes

• Non-observance of tech

• Repairs carried out incoapproved by the manuf

• Catastrophes caused by

• Mounting and installatimanufacturer.

This operating manual, espenel working on the device. Fprevention at the place of u

1.7 DisposalAbide by the national regulyour supplier if you are not The directive on waste elecrective on the restriction of equipment (RoHS directive)licies are implemented throAccording to this, the follow

7

2

2Pin

2

Ifag

2Tthtocop

2

r, hereafter referred to as the charge controller, is the main stem and is designed for use in electric vehicle (EV) charging et light charging points. The charge controller controls type 1 and type 2 sockets. It enables a setup that is in accordance as IEC 61851-1, EN 61851-22 and IEC 60364-7-722.

cribed in this manual is regarded as improper.

l is intended for qualified personnel working in gineering and electronics!

CC612(4G)_D00325_05_M_XXEN/10.2019

Ensure the correct rated input voltage and supply voltage is applied. To check that the device has been properly connected, perform a functional test before commissioning the system. Refer to Chapter 6.6.

Safety information. Safety information

.1 General safety instructionsart of the device documentation in addition to this manual is the enclosed "Safety structions for Bender products".

.2 Work activities on electrical installations

the device is being used in a location outside of Germany, the applicable local standards nd regulations must be complied with. European standard EN 50110 can be used as a uide

.3 Dangers dealing with the charge controllerhe CC612 charge controller has been assembled in accordance with the latest state-of-e-art technology and recognized safety rules. Nevertheless, its use may result in injury the user or a third party respectively, through interference or damage to the charge ntroller or material property. The charge controller must only be used for its intended

urpose.

.4 Precautions

DANGER

Risk of fatal injury from electric shock!Touching live parts of the system carries the risk of:

• An electric shock

• Damage to the electrical installation

• Destruction of the device

Before installing and connecting the device, make sure that the installati-on has been de-energised. Observe the rules for working on electrical ins-tallations.

2.5 Intended use

The CC612 charge controllecomponent of a charging systations, wall boxes and stre1 and type 2 plugs, and typewith current standards, such

Any use other than that des

This manuaelectrical en

CC612(4G)_D00325_05_M_XXEN/10.2019

3

3

shared between a group of charge controllers

tionors charging system internal hardware, such as the meter, the ocket. It is characterized by its compact design and size that mall and cost effective charging systems. Several product va-verview of these variants is given in Chapter 3.2.1.

ller to communicate, a backend system is required. Given s strictly adhere to the OCPP communication protocol, the mpliant. All specified messages in OCPP are supported as

c extensions based on the DataTransfer message. Integration lementations of providers such as Vattenfall, Bosch, NTT and lly carried out. The charge controller can be operated as an

ways connected to a mobile network. The controller supports ctivity for online operation requires a SIM card (which is not teraction is facilitated using an RFID module, which consists EDs. Charging is initiated by holding a valid RFID card close

ration, the charge controller can optionally allow charging an authorize users based on RFID and a local white list of

8

• Optional integrated ISO/IEC 15118 power line communication (PLC) for plug & charge and load management systems

• Local and remote configuration

Function. Function

.1 Product features • Charge controller acc. to IEC 61851-1 (mode 3)

• It can be configured as either a Master or Slave

• The charge controller can be integrated into a single or three-phase system up to 80 A

• Smart Grid enabled using standard OCPP functionality

• OCPP 1.5 and OCPP 1.6 compliant with JSON, SOAP and Binary implementation

• Supports 4G (LTE), 3G (UMTS) und 2G (GSM) mobile networks with an integrated 4G modem in all data gateways with 4G modem

• Two USB interfaces:

• CONFIG for local configuration

• Other is used an extension port for peripheral USB devices (Ethernet/WiFi home applications)

• Master/slave hardware configuartion

• Control Pilot and Proximity Pilot signal management

• Universal charge plug control (support for different vendors of sockets)

• Configurable support for one additional household socket

• Can connect to eHZ or Modbus meters and to meters with an S0 interface

• User interface board for customer-specific applications

• Configurable 3-channel input/output extension interface for additional functionality

• Only an external RCD type A is required.

• Internal temperature sensors

• A Peer Group Mechanism or Dynamic Load Management where a set current is

3.2 Product descripThe charge controller monituser interface board or the sin turn enables intelligent, sriants are available and an o

To enable the charge controthat most backend providercharge controller is OCPP cowell as some vendor-specifitests with the backend impDRIIVZ have been successfu"always on" system that is al4G mobile networks. Conneincluded in delivery). User inof an RFID card reader and Lto the reader. In offline opewithout authorization or it cauthorized RFID cards.

F

C 9

3SSteo

*

C

C

C

C

C

C

riptionller, a charging system also consists of a type A RCD, a relay onnected to a type 1 or type 2 socket, or to an attached cable

. These essential components are shown in Chapter 3.3.2.

s

also consist of a meter, and if the meter should be read digi-tal meter (EMH eHZ) or a digital Modbus meter is required.

r reads the digital eHZ meter readings using a standard opti-o the charge controller via an RJ10 cable.

n is used, the Modbus wires are attached directly to the

ter with an S0 interface can be attached to one of the availa-

eeded to operate the charge controller and an RFID module simple user interaction. The RFID module is a separate PCB charge controller using a standard RJ45 cable.

vehicle is controlled by the contactor (using a signal voltage tself controlled by the the charge controller via a relay in the

ble on charge controller Master variants only) is positioned r front panel. The SIM card can have a PIN number which can ernal configuration web interface. The APN settings for the red via an internal configuration web interface.

front panel are two USB interfaces:

NFIG is used to configure the charge controller. Optionally, o be used to apply software updates.

ce allows the connection of peripheral USB devices.

re used to enable a Master/Slave connection. Master/Slave ed by connecting the USB configuration interface (CONFIG) with 4G modem to the Ethernet/USB WLAN interface of the t 4G modem using a USB cable. Refer to Page 17 for further

data gateways with 4G modem variants features a connec-

C612(4G)_D00325_05_M_XXEN/10.2019

• Both USB interfaces aoperation is configurof the data gateway data gateway withouinformation.

• Only the front panel of tion for a 4G antenna.

Functionunction

.2.1 Product variant overvieweveral product variants are available and the table below gives an overview of these variants. ome connect to a digital eHZ meter using an optical interface while others read Modbus me-rs. In general, variants can read meters with an S0 interface. Ordering details can be found

n Page 44.

Optional and enabled by a software update

Type Modem Meter RDC- MD*

PLC*hardware LEDs User

interface

C612 -1M4PR 4GeHZ and S0

interface

Ready, Alarm, PLC

C612 -2M4PR 4GModbus, S0

interface

Ready, Alarm, PLC

C612 -1S0PR ---eHZ and S0

interface

Ready, Alarm, PLC

C612 -2S0PR ---Modbus, S0

interface

Ready, Alarm, PLC

C612 -2M4R 4GModbus, S0

interface ---

Ready, Alarm

C612 -2S0R ---Modbus, S0

interface ---

Ready, Alarm

3.3 Functional descAs well as the charge controcontactor, which is directly cwith a type 1 or type 2 plug

3.3.1 General function

• A charging system maytally, either a smart digi

• The charge controllecal reader attached t

• If the Modbus versiocharge controller.

• Alternatively, any meble inputs.

• A 12 V power supply is ncan be used to facilitateand is connected to the

• Power flow toward the of up to 30 V), which is icharge controller.

• The SIM card slot (availaon the charge controllebe configured via an intcard can also be configu

• Also positioned on the

• The first known as COthis interface can als

• The other USB interfa

F

CC612(4G)_D00325_05_M_XXEN/10.20191

configured value if it is exceeded. The second threshold will suspend charging.

smer group mechanism, it is possible to assign a current limit to ollers to share. To use this feature, the charge controllers d in a way that enables them to establish TCP connections is possible, for example, using a USB to Ethernet adapter or nection. In the operator web interface for each individual

group, the IP addresses of all other peer group members configuration parameter "Peer Group". In addition, all peer d to have the same "Peer group maximum current (A)" set-d, the total current is available to one controller if only one . This controller will however not exceed its maximum hard-

As more controllers start charging, the current will be evenly As controllers stop charging, the current is evenly distributed charging. rge controllers are used in a single charging system and the e connected to a central charging system computer via their necessary to assign individual IP addresses to these control-

connectivity between both. This is possible using the confi- "USB additional fixed IP" and "USB additional fixed gateway". system computer could either use bridging or routing bet-ce to enable connectivity.

idual current monitoring

for remote maintenance options that reduce the number of al deployments per charger

0

The temperature measurement is an estimation based on temperaturesensors positioned on the inside of the controller housing where the actu-al temperature is affected by heat generated by the controller itself. Be-cause the threshold values are based on measurements in commonhousing scenarios, each charging system vendor should undertake practi-cal measurement experiments to validate the correctness of thesethresholds and add offsets if necessary.

Functionunction

• For AC charging system fault monitoring, the charge controller features an integra-ted RDC-MD which uses an externally connected current transformer for fault moni-toring of AC charging systems. With the integrated DC residual current monitoring function, only a RCD type A is required in the charging system.

• Data exchange between the EV and the charging system is possible via ISO 15118 compliant Powerline Communication (PLC). This feature is optional and if purchased, will be enabled by a future software update.

• If a malfunction occurs, a report is sent to the backend system using the OCPP protocol.

• The data management and control functionality of the charge controller provides:

• Remote restart after a residual current trip that is recognized by the CC612.

• The smart sensor detects critical fault currents before the relays are tripped. This can be used a prewarning for the vehicle owner.

• Load current and cooling control (via a temperature sensor)The charge controller has internal temperature sensors (on the inside of the cont-roller housing) that allow the temperature in the ambient environment of the charge controller to be estimated. Based on this estimation it is possible to dyna-mically reduce the charging current or even suspend charging. This feature can serve to maintain an ambient temperature within the permissible range of the components used in a charging system. Two temperature thresholds can be set on the manufacturer configuration tab and are based on measurements in com-mon housing scenarios. The first threshold reduces the charging current to the

The charge controller with optional RDC-MD only works in combinationwith the measuring current transformer (which must be ordered separa-tely).

• Peer group mechaniWith the help of a pea set of charge contrneed to be connectewith each other. Thiswith a direct USB conmember of this peermust be listed in thegroup members neeting. Once configurecontroller is chargingware current setting.shared by the peers. to those that are stillIn the event two chacharge controllers arUSB device ports, it islers to enable TCP/IPguration parametersThe central chargingween the USB interfa

• Remote:

• Software updates

• Temperature and res

• Remote login allowsmaintenance person

F

C 11

3

M PP CPg h

ls

ntroller CC612rd slot and antenna socket are available on Master variants r variants are:C612-1M4PRC612-2M4PRC612-2M4Rnal.

sed to control the contactor is rated for 30 V/1 A. An interme- may be required if this rating is inadequate.

ontactor can also be connected to a cable with a type 1 or.

e d Contactorterface e Type 2 socket*

f Type 2 plug*ormer (CT) g Connection Proximity Pilot (RJ45) h Connection Control Pilotmeter (RJ10) i Relay 1: Control pin contactor

j Output relay 2m Optocoupler input 1

ith plug n Optocoupler input 2

C1 PPC2 CPC3 21

A4 - C4 24C5 IN1-C6 IN1+C7 IN2-C8 IN2+

C612(4G)_D00325_05_M_XXEN/10.2019

+

IN

+ A

PP CP

PEL1 N

L3L2

fIN2– IN2+n

IN1– IN1+m

21 24jB1 12VB2 0VB3 11B4 14

Functionunction

.3.2 Charging system with Type 2 socket

––

CP PP

PEN L1

L2L3

e

L1L2L3NPE

12V 0V 11 14

B

123

456

D

C

– OUT + IN

A

RJ10

F

RJ45

E

CC612

ALARM

READY

PLC

USB 1

SIM

CON

FIG

B

A

PP

IN1–

IN2–

21

IN1+

IN2+

CP

24

C

14110V12Vi

AC

DC 0 V12 V

b

d

H

V

a

c

CC612 Charge ControllerBottom view Frontal view Top view

MennekesType 2 socket *

Legend

Assignment of the termina

Charge CoThe SIM caonly. Maste

CC

CPLC is optioRelay The relay udiate relayContactorThe relay ctype 2 plug

A Connection locking enginB Connection socket User InC Connection socketD Connection Current TransfE Connection User InterfaceF Connection Modbus/eHZ a RCD Type Ab Voltage supply DC 12Vc Current Transformer (CT) w

A1 INA2 +A3 OUT

F

CC612(4G)_D00325_05_M_XXEN/10.20191

3

M

LLLNP

PP CPg h

ls

e d Contactorterface e Type 2 socket*

f Type 2 plug*ormer (CT) g Connection Proximity Pilot45) h Connection Control Pilotter (RJ10) i Relay 1: Control pin intermediate relay

j Output relay 2k Intermediate relay

ith plug m Optocoupler input 1n Optocoupler input 2

C1 PPC2 CPC3 21C4 24C5 IN1-C6 IN1+C7 IN2-C8 IN2+

2

+

IN

+ A

PP CP

PEL1 N

L3L2

fIN2– IN2+n

IN1– IN1+m

21 24j

Functionunction

.3.3 Charging system with a type 2 socket and an intermediate relay

––

CP PP

PEN L1

L2L3

e

123

E

k

12V 0V 11 14

B

123

456

D

C

A

RJ10

F

RJ45

E

CC612

ALARM

READY

PLC

USB 1

SIM

CON

FIG

B

A

PP

IN1–

IN2–

21

IN1+

IN2+

CP

24

C

– OUT + IN

14110V12Vi

AC

DC 0 V12 V

b

c

d

H

V

a

CC612 Charge ControllerBottom view Frontal view Top view

MennekesType 2 socket *

Legend

Assignment of the termina

A Connection locking enginB Connection socket User InC Connection socketD Connection Current TransfE Terminal User Interface (RJF Terminal Modbus/eHZ mea RCD Type Ab Voltage supply DC 12Vc Current Transformer (CT) w

A1 INA2 +A3 OUTA4 -B1 12VB2 0VB3 11B4 14

F

C 13

C

*

C

MBWHWmP1

C612(4G)_D00325_05_M_XXEN/10.2019

CS CP

PE

Type 1 plug

Type 2 plug

Functionunction

onnection Type 2 Socket

Each type 2 socket can also be used in conjunction with lock release modules fromMennekes and Phoenix Contact.

onnection to Type 1/Type 2 plug

Supported Type 2 sockets*– OUT + IN

Socket actuator wiringennekes (31016, 31023, 31024, 31038)

als (801191 - 801195, 80300, 9743205000, 9743211000)alther Werke (9743211000)arting

Wire 3 Wire 1 Wire 2

alther Werke Eco Slim 32 A (9743205180)it Anschlusskabel (790000001)

Wire 1(black)

Wire 3(blue)

Wire 2(red)

hoenix contact (1405213, 1405214, 1405215, 1405216, 408171, 1408172)

BU/BN BE/GN BU/RD BU/YE

L1

L1

L3

N

PE

L2/NL1 PP CP

PEL1 N

L3L2

L2

N

PE

CC612(4G)_D00325_05_M_XXEN/10.2019

4

4A

ngto the DIN rail by pulling down the silver-coloured mounting low). Position the charge controller and release the clip to ely on the rail.

Mounting clip

14

Device overview. Device overview

.1 Dimensionsll dimensions are in mm

CC612

ALARM

READY

PLC

USB 1

SIM

CON

FIG

115.13

107

22.60

98.54

Note: Dimensions are ISO 2768 - maccording to

4.2 DIN rail mountiFix the charge controller onclip (indicated in photos beallow the device to sit secur

15

5

5

CC612(4G)_D00325_05_M_XXEN/10.2019

Connection. Connection

.1 Connection conditions

• Connect PE to "0V"; reference level for Control Pilot (CP communication) must be at same level as the power supply (IEC 61851 standard).

• Cable lengths (except Modbus, Power IN and charging cable) < 3 m; cables must be positioned inside the wallbox/charging station and should not be laid parallel to power cables.

• Modbus (A, B) must be connected using a shielded cable; connect shield to PE.

DANGER

Risk of electric shock! Parts of the system can be energised (he charge controller terminals up to12 V, the charging system voltage is 230 V). Before touching live parts ofthe system, ensure that the installation has been de-energised.

CAUTION

Risk of injury from sharp-edged terminals. Handle housing and terminalswith care.

CAUTION

The RJ45 user interface is not intended as an Ethernet interface.

Further information on the connection can be found in the manuals ofthe accessories (e.g. W15BS).

C

CC612(4G)_D00325_05_M_XXEN/10.20191

5T

D

IN2+

hernet/WLAN/connection to Master

face/connection to Slave

connectivity)

e Communication) - Optional

ltage contactor)control pin)t transformer (optional) interface via RJ45 cable

ns

6

12

13 13

AB

10

(-)OUT(+)IN

(-)OUT(+)IN

Connectiononnection

.2 Connectivityhe charge controller connections for all device variants are shown below.

2

CC612

ALARM

READY

PLC

USB 1

SIM

CON

FIG

3

1

4 4

5

SIM

CC612

ALARM

READY

PLC

USB 1

CON

FIG

1

11 11

67

IN1-24IN1+

98

12V 0V 11 14

PP CP

IN2- IN2+

21

Bottom view

ata gateway (with modem) Data gateway (without modem)

Frontal view

Top viewVariant with eHz meter

Top viewVariant with Modbus meter

PPCP (additionally with PLC)Relay 2Relay 2IN1-IN1+IN2-

Legend:

1 USB interface for Et2 SIM card slot3 Antenna socket4 Configuration inter

5

LEDs for:

• ALARM

• READY (Online

• PLC (Power Lin6 12 V power supply7 0 V8 Relay 1 (Control vo9 Relay 1 (Contactor 10 Connection curren11 Connection to user12 Meter connection13 Plug lock connectio

C

C 17

5Ttrogcoare

CbDb

A(sthODW

TSIPtethmli

5Tnvia a micro USB cable. This interface allows the device to be configured locally. In addi-tiIntiW

Ethernet/WLAN adaptererface provides a way of connecting the charge controller to network. Refer to Chapter 6.6.2.3. In addition, Master/Slave d by connecting the USB configuration interface of one char-to a USB interface for Ethernet/WLAN of the second charge a USB cable.

(ALARM, READY, PLC)nt panel are used to indicate:

LARM)

backend system (READY)

mmunication (PLC) acc. to ISO 15118n the front panel of variants which do not feature PLC.)

yered by a 12 V primary power supply on terminals 12V and

tionols the contactor that in turn controls the power flow toward ol is exercised by a relay in the charge controller whose /1 A. The actual power for the signal circuit has to be looped

iring, i.e. one pin of the charge controller relay 1 (11) has to wer supply, the second charge controller relay 1 pin (14)

ontactor control pin. The second contactor control pin must ole (0V) of the power source.

quired, then the second charge controller relay 1 pin (14) termediate relay control pin instead of to the contactor rmediate relay control pin must be connected to the other

ce. The contactor control pin is then connected to the supply other pin is connected to the neutral conductor.

CAUTION

ated for 30 V/1 A. An intermediate relay may be required if thisnsidered inadequate.

C612(4G)_D00325_05_M_XXEN/10.2019

on, it also enables software updates. Configuration details are outlined in Chapter 6.1.1. addition, Master/Slave operation can be configured by connecting the USB configura-

on interface of one charge controller (DLM Master) to a USB interface for Ethernet/LAN of the second charge controller (DLM Slave) using a USB cable.

If an intermediate relay is remust be connected to the incontrol pin. The second intepole (0 V) of the power sourvoltage (e.g. 230 V) and the

Connectiononnection

.2.1 Master/Slave connectionshe charge controller can function as a data gateway with 4G modem (the dedicated con-oller is switched into Master mode) or data gateway without 4G modem. Master/Slave peration can be configured by connecting the USB configuration interface of one char-e controller (DLM Master) to a USB interface for Ethernet/WLAN of the second charge

ntroller (DLM Slave) using a USB cable. For each DLM Master/DLM Slave variant, there re connections common to both (these are described in the following sections) and the- are differences, which are described in Chapter 5.2.2.

urrently one DLM Slave can connect to the DLM Master. The communication protocol is inary OCPP 1.6. Essentially the Master controller becomes the OCPP backend for the LM Slave. The DLM Master exposes each DLM Slave as an additional connector to the ackend.

charge controller is assigned the Master and Slave role on the Manufacturer tab ee Page 35). Each DLM Slave controller then needs to be assigned the IP address of of e DLM Master as its binary OCPP hostname and needs to use port 1600 as the binary CPP port to connect to the DLM Master. Multiple connectivity technologies to connect LM Master and DLM Slave can be used, for example Ethernet and, where available, LAN.

he Master is assigned an additional IP address of 192.168.125.124 on theettings tab without assigning a standard gateway. The Slave uses the address 192.168.125.125 to connect to the Master. Using USB as the connection chnology is more cost efficient than using multiple Ethernet cables or WLAN, but limits e distance of the controllers to a few meters as the maximum length of a USB cable is 5 eters. The DLM Slave configuration web page (e.g. http://192.168.123.123) then offers

nks to access the Master and the Slave configuration.

.2.1.1 USB configuration interface (CONFIG)he USB configuration interface (CONFIG) on the charge controller front panel is con-ected to a conventional laptop, PC or tablet computer with a normal USB host interface

5.2.1.2 USB interface for The USB Ethernet/WLAN intan existing Ethernet/WLAN operation can be configurege controller (DLM Master) controller (DLM Slave) using

5.2.1.3 Front panel LEDsThe LEDs located on the fro

• An error has occurred (A

• Online connectivity to a

• Optional Powerline Co(This LED is not shown o

5.2.1.4 12 V power supplThe charge controller is pow0V.

5.2.1.5 Contactor connecThe charge controller contrthe vehicle. Contactor contrcontacts are rated up to 30 Vinto the circuit by correct wbe connected to the 12 V pomust be connected to the cbe connected to the other p

Relay 1 is rrating is co

C

CC612(4G)_D00325_05_M_XXEN/10.20191

5TthPind

5Tfafo

5CFfeasuring current transformer (CT) connected to the CC612. This allows the use of a type A RC

ionditions, the type 2 socket automatically locks the plug when

e charging system. The locking action can be heard. After the vehicle, the charging system socket automatically socket and the cable can be removed. If both locking and

was correctly attached to the charging system controller. Via lug lock connections), the charge controller can interface to

pes. Type 2 sockets from various manufacturers and their cor-he charge controller are shown below:

- OUT + IN

Socket actuator wiring

31024,

00, )

00)

Wire 3 Wire 1 Wire 2

Wire 1(black)

Wire 3(blue)

Wire 2(red)

05214, 408172)

BU/BN BU/GN BU/RD BU/YE

8

CD in the charging system instead of the more expensive type B RCD. The relay in the C612 triggers if, during charging, the fault current limit IΔn ≥ DC 6 mA.

Connectiononnection

.2.1.6 Control Pilot (CP) and Proximity Pilot (PP) connectionshe Control Pilot (CP) and Proximity Pilot (PP) contacts connect the charge controller to e outlet, enabling it to communicate with the vehicle and the cable plug. The CP and

P contact allow the charge controller to determine whether a cord has been plugged to the socket (proximity) and to inform the vehicle about the amount of power it can

raw (refer to IEC 61851).

.2.1.7 I/O extensionhe CC612 has additional I/O interfaces available via a configurable 3-channel I/O inter-ce (connector C: 21, 24, IN1-, IN1+, IN2-, IN2+) that can be used for multiple purposes, r example:

• Parking management interface (The supported communication protocol is proprie-tary to Scheidt & Bachmann and based on the available auxiliary relay and one available input)

• Additional household main socket outlet control

• Power outage monitoring (e.g. RCD trip monitoring)

• Cooling fan switch for over-temperature control

• Connection to a meter with an S0 interface

.2.1.8 RDC-MD (Residual Direct Current Monitoring Device)urrent Transformer (CT) connection (device variant)or AC charging system fault monitoring, a charge controller variant is available which atures an integrated RDC-MD which works with an external magnetically shielded me-

The CP terminal is used for Power Line Communication (PLC) in chargecontroller variants with this optional integrated feature.

5.2.1.9 Plug lock connectUnder normal operating cona vehicle is connected to thdisconnecting the plug fromunlocks the charging systemunlocking work, the socket terminals IN , +, OUT, - (i.e. pdifferent socket/actuator tyresponding connection to t

Type 2 socket(actuator type)

• Mennekes (31016, 31023,31038)

• Bals (801191-801195, 8039743205000, 9743211000

• Walther Werke (97432110

• HartingWalther Werke Eco Slim 32 A (9743205180)with power supply cord(790000001)Phoenix Contact (1405213, 141405215, 1405216, 1408171, 1

C

CC 19

5.

Ea diagram illustrating the connection between the charge con-tr Contact is shown below:

locking process.

e/Harting

onnection

612(4G)_D00325_05_M_XXEN/10.2019

2.1.10 Connection to lock release modules

ch type 2 socket can also be used in conjunction with lock release modules from various manufacturers. A typical wiring oller, a Mennekes/Bals/Walther Werke/Harting socket actuator and a lock release module (EM-EV-CLR-12V) from Phoenix

When using the Mennekes Actuator Control Type 30537-A, the full force is not available for the locking and un

-

12V +IN

EV ChargeLock Release

POWER ERROR

-IN +OUT-OUTGND

OUT

+

IN M

-

+

CP PPL1

L2L3

NPE

AC

DC

IN + OUT -

To CC612connector A

Mennekes/Bals/Walther WerkType 2 socket

Actuator

Wire 3

Wire 2

Wire 1

C

CC612(4G)_D00325_05_M_XXEN/10.20192

Slim 32 A (9743205180)

onnection

0

-

OUT

+

IN M

-

+

CP PPL1

L2L3

NPE

X

X

IN + OUT -

Mennekes Actuator ControlTyp 30537-A

To CC612connector A

Walther Werke EcoType 2 socket

ActuatorWire 3

Wire 2

Wire 1

C

CC 21

205180)

onnection

612(4G)_D00325_05_M_XXEN/10.2019

-

12V +IN

EV ChargeLock Release

POWER ERROR

-IN +OUT-OUTGND

OUT

+

IN M

-

+

CP PPL1

L2L3

NPE

AC

DC

IN + OUT -

To CC612connector A

Walther Werke Eco Slim 32 A (9743Type 2 socket

ActuatorWire 3

Wire 2

Wire 1

C

CC612(4G)_D00325_05_M_XXEN/10.20192

A lock release module (EM-EV-CLR-12V) from Phoenix Contact is

er)

onnection

2

typical wiring diagram illustrating the connection between the charge controller, a Phoenix Contact socket actuator and a shown below:

-

12V +IN

EV ChargeLock Release

POWER ERROR

-IN +OUT-OUTGND

OUT

+

IN

M

-

+

CP PPL1

L2L3

NPE

BU/YE

BU/BN

BU/RD

BU/GN

AC

DC

IN + OUT -

To CC612connector A

Phoenix Contact (KuestType 2 socket

Actuator

C

CC 23

A release module from Mennekes is shown below:

M

-

+

CP PPL1

L2L3PE

nekes/Bals/Walther Werke/Hartinge 2 socket

Actuator

onnection

612(4G)_D00325_05_M_XXEN/10.2019

typical wiring diagram illustrating the connection between the charge controller, a Mennekes socket actuator and a lock

-

OUT

+

IN

N

X

X

IN + OUT -

Mennekes Actuator ControlTyp 30537-A

To CC612connector A

MenTyp

Wire 3

Wire 2

Wire1

C

CC612(4G)_D00325_05_M_XXEN/10.20192

5

Tmthmoca

Mm

Aeta

T

ries the relevant registers of the Modbus meters and uses the arge controller functionality. Depending on support by the

power are also obtained directly from the meter as opposed n the increasing energy amounts reported. If meter readings nd the slave ID need to be configured directly on the Modbus

ity, 1 stop bit)

ta bits, even parity, 1 stop bit)

ptionally read meters with an S0 interface. These meters can ailable inputs (see Page 18).

nectiones a simple user interface for customer-specific applications. o the:

-L1 - The RFID module is a separate PCB with status and ligh-ed according to ISO14443A/MIFARE. It is connected to the a standard RJ45 cable.

- The RFID module is a separate PCB without status and ligh-ed according to ISO14443A/MIFARE. It is connected to the a standard RJ45 cable.

module is described in a separate operating manual (docu-ber D00283), which can be downloaded from

der.de/en/service-support/downloads.

module is described in a separate operating manual (docu-ber D00328), which can be downloaded from

der.de/en/service-support/downloads.

4

The RFID ment numwww.ben

Connectiononnection

.2.1.11 Connectivity to eHZ or Modbus meters and (optionally) meters with an S0 interface

he use of a meter is not mandatory. However, a meter should be used when eter readings are required during normal operation. An EMH eHZ meter can be used if e meter should be digitally read. The meter is read by an optical reader attached to the ounting plate of the meter so that it can interface with the optical interface on the back

f the meter. The optical reader is then connected to the charge controller with a RJ10 ble.

odbus RTU can be used instead of an RS-485 based eHZ interface to connect to Modbus eters. Various Modbus meters are currently supported, including:

• ABB B23 series

• Eastron SDM120 series

• Eastron SDM230 series

• Eastron SDM630 series

• Garo GNM1D

• Garo GNM3D

• Finder 7E.78.8.400

• Saia ALE3

dditional Modbus meters can be added upon customer request and may be added with ach software release. Supported Modbus meters are listed on the webserver Operator b.

he Modbus meter interface on the charge controller is shown below:

AB

The system periodically quemeter values to fulfill the chmeter, current, voltage andto being calculated based oare required, the baud rate ameter as follows:

• Baud rate: 9,600 Bd

• Slave ID: 1

• 8N1 (8 data bits, no par

• For Saia ALE3: 8E1 (8 da

The charge controller can obe attached to one of the av

5.2.1.12 User interface conThe charge controller featurThis interface can connect t

• RFID module RFID110ting LEDs and is designcharge controller using

• RFID module RFID114ting LEDs and is designcharge controller using

The RFID ment numwww.ben

C

C 25

•

5Oso

5

• The SIM card can have a PIN number which can be configured via the Operator con-

Cb

detects this disconnection and automatically reconnects.

ay be operated in the following countries only. If 4G mobile , GSM mobile networks may also be used.

s to a 4G antenna.

rd is not included within the scope of delivery.

Nano SIM cards with a corresponding SIM card adapter maye SIM card slot.

it is recommended to use only Micro SIM cards.

Latvia, Lithuania, LuxembourgMalta, Madeira

ic, Poland, Portugal

RomaniaSlovakia, Slovenia, Spain, SwedenThe Azores

The following approved antenna must be used: Antennas B4BE-7-27-05SP

a is not included within the scope of delivery.

C612(4G)_D00325_05_M_XXEN/10.2019

figuration web interface (http://192.168.123.123/operator).

• The APN settings for the card can also be configured via the Settings configuration web interface.

onnection to the mobile network (and subsequently the backend system) usually lasts etween 6 to 48 hours after which the connection may be terminated by the mobile net-

Panorama

The antenn

Connectiononnection

• Display module DPM2x16FP - The display module is also a separate PCB that is used to indicate the charge controller status information as well as the charging sta-tus. It features two RJ45 cable sockets, one which connects to the charge controller and the other which can connect to the RFID module.

.2.2 Master device featuresnly datagateways with 4G modem feature a SIM card/SIM card slot and an antenna cket.

.2.2.1 SIM card and SIM card slot

• The charge controller supports 4G mobile networks and an integrated modem is included. It uses a wireless module, which supports the following European fre-quency bands:

• LTE FDD: 800 MHz band 20, 900 MHz band 8, 1,800 MHz band 3, 2,100 MHz band 1 and 2,600 MHz band 7

• GSM: 900 MHz band 8 and 1,800 MHz band 3

• WCDMA: 850 MHz band 5, 900 MHz band 8, and 2,100 MHz band 1

• The charge controller can be operated as an "always-on" system when connected to a mobile phone data network,

• Connection is only possible when a SIM card is inserted into the SIM card slot loca-ted on the charge controller front panel. SIM must be provided in micro SIM format.

The display module is described in a separate operating manual (docu-ment number D00296), which can be downloaded from www.bender.de/en/service-support/downloads.

work. The charging system

Geographical applicationAn integrated 4G modem mnetworks are not supported

5.2.2.2 Antenna socketAn antenna socket connect

The SIM ca

The use of damage thTherefore,

AustriaBelgium, BulgariaCroatia, Cyprus, Czech RepublCanary IslandsDenmarkEstoniaGermany, Great Britain, GreeceFinland, FranceNetherlands, HungaryIreland, Italy

CC612(4G)_D00325_05_M_XXEN/10.2019

6

6T

6Trore

T2inDw

A

ontrol Interface Operator tab is accessed using the URL perator.

us information, operator parameters can be set. To access d password are required:

erator

low_zone

ontrol Interface Manufacturer tab is accessed using the URL anufacturer.

us information, operator and manufacturer parameters can b, a username and password are required:

nufacturer

nge_zone

n be changed. The manufacturer can also change the user arameters.

nufacturer tabs each have an identical Settings tab and a

acturer URL should not be given to the operator.

26

and Operator tab is shown on the following pages. Each of the parameters to be set is adequately described on the respective web interface pages. Please refer to these pages for further information:

• The Charging System Control Interface State tab is accessed using the URL http://192.168.123.123 and shows status information only.

Configuration and testing. Configuration and testing

.1 Configurationhe charging system can be configured:

• Locally whereby the charge controller provides a web interface (i.e. Charge Point Control Interface) via the USB configuration interface (CONFIG)

• USB Ethernet/WLAN interface via a USB Ethernet adapter, USB WLAN (USB 1) or via the 4G Modem

• Remotely by utilizing the ChangeConfiguration command of the OCPP protocol

.1.1 Local configuration and parameterso locally configure the charging system via the charge controller, connection with a mic- USB cable to a laptop, PC or tablet computer with a normal USB host interface is requi-d. Once connected, the charge controller is recognised as a USB network adapter.

he charge controller uses the local IP address 192.168.123.123 with a subnet mask of 55.255.255.0 on the virtual network interface corresponding to the USB configuration terface. The PC (or target) is automatically assigned a corresponding IP address via the ynamic Host Configuration protocol (DHCP) once it is connected and communication ith the charging system is based on this IP address.

n example of a local configuration Charge Point Control Interface State, Manufacturer

The charge controller USB configuration interface (CONFIG) emulates aRemote Network Driver Interface Specification (RNDIS) network when it isplugged into Windows, Linux or Mac OS computers. In a Linux and MacOS, this virtual network interface is automatically detected and a driver isnot necessary. On a Windows host machine, however, the driver for theRNDIS network adapter needs to be manually selected. Details on how todo this are given in Chapter 7.1.1.

• The Charging System Chttp://192.168.123.123/oAs well as showing statthis tab, a username an

– Username: op

– Password: yel

• The Charging System Chttp://192.168.123.123/mAs well as showing statbe set. To access this ta

– Username: ma

– Password: ora

These default passwords capasswords and operating p

The State, Operator and MaDocumentation tab.

The manuf

C

C 27

Oca

T

6Pp

6Atooetey

6TpW

After the web configuration interface has been accessed or while a vehicle

ameters, which require local intervention when the SIM card

eters to default on the Operator tab, click the "Operator at the bottom of the tab.

eters to default on the Manufacturer tab, click the "Manu-" button at the bottom of the tab. Click the "Factory Reset &

Restart" button to reset the charge controller to factory settings.

eters to default on the Settings tab, click the t" button at the bottom of the tab.

d system can be used.

except for the serial number are deleted when resetting to fac-s.

C612(4G)_D00325_05_M_XXEN/10.2019

.1.2 Remote configuration and parametershe charging system or charging system controller enables the configuration of many arameters using the OCPP GetConfiguration and ChangeConfiguration commands. ith these commands, locally configured communication parameters can be changed.

is connected, the charging system will suppress system resets for at least 2minutes to enable all parameters to be configured.

To reset all changed param"Settings Default & Restar

Configuration and testingonfiguration and testing

n the Settings tab, all Backend relevant information, supplied by the Backend provider, n be entered including:

• OCPP Mode (e.g. OCPP-B 1.5, OCPP-J 1.6)

• SOAP OCPP URL of Backend (i.e. the HTTP URL of the OCPP backend system)

• Hostname (Binary OCPP) - The DNS hostname or IP address of the binary OCPP proxy server for the Backend system

• Portnumber (Binary OCPP) - TCP port of the proxy server for binary OCPP commu-nication with the Backend system

• Websockets JSON OCPP URL of the Backend - Only used if OCP-J 1.6 mode is selected

he Documentation tab contains:

• Information concerning OCPP status notification error messages (e.g. codes, activa-tion and resolution messages, notes and corrective actions)

• OCPP configuration keys for OCPP 1.5 and 1.6 (e.g key name and description)

.1.1.1 Application of changed parametersarameters changes are not always applied after submission. To submit all changed arameters, click the "Save & Restart" button at the bottom of the tab.

.1.1.2 Automatic charge controller resetss part of the normal automatic recovery, the charge controller carries out system resets recover from situations in which connectivity with the backend system cannot be

btained and no vehicle is currently charging. This behaviour is intentional and serves to nsure that the charge controller recovers from as many situations as possible without in-rvention. In a situation in which no SIM card is inserted or the configuration does not

et match the SIM card, a system reset can be easily mistaken for erroneous behaviour.

The exception is the SIM paris replaced.

6.1.3 Factory settings

To reset all changed paramDefault & Restart" button

To reset all changed paramfacturer Default & Restart

Any backen

All settingstory setting

C

CC612(4G)_D00325_05_M_XXEN/10.20192

6

C

OTS

SC

C

F

F

Echarge point

RR

Ct

e The current network registration mode of the 4G modem which informs about the technology (2G, 3G, 4G) and about the registration (home network, roaming etc.).

e The registration state to the mobile networky Shows which access technology (2G, 3G, 4G) the

modem is currently using.

t boot

Determines whether upon boot a search for available network operators is carried out. The result can then be requested as separate parameter. The value is automatically set to "Off" after boot.Operator selection mode, auto or manual etc.

C)Mobile Country Code as determined from the SIM card. This tells you which country your SIM card comes from.

C)Mobile Network Code as determined from the SIM card. This tells you which mobile network operator your SIM card comes from.Location Area Code as reported by the built-in 4G modem, this value can be used to determine the location of the charge point.Cell ID as reported by the built-in 4G modem, this value can be used to determine the finer location of the charge point.

Receive Signal Strength Indicated

Receive Signal Strength Indicator as reported by the 3G-Modem. This parameter is an indication how well the built-in modem can receive signals from the base station. Values meaning: [0: Extremely low], [1: Very low], [2-12: Low], [13-30: Good], [99: Unknown or undetectable]

ation Shows the modem manufacturer, model and firmware.

P)The type of meter used for the charging socket and its connector. This is relevant for OCPP transactions.

Description

8

CMB protection state RCMB protection stateequested 3G Network operator The name of the network operator to be used in

manual mode. If operator name is unknown, set the "Scan network operators at boot" parameter to "On", then click on "Save & Restart". Then, in the State tab all the available operator names will be shown.

urrently used 3G Network opera-or

The name of the network operator the built-in 4G modem is currently connected to.

(RSSI)

Additional modem inform

Meter configuration (OCP

Configuration and testingonfiguration and testing

.2 State tab

Parameter Description

hargePoint ID (OCPP)

OCCP Charge Point ID which is used to identify itself towards the backend system. If two or more Slave devices are connected, each Slave must identify itself to the Master with its respec-tive connector ID added as a suffix. E.g. #2 or #005 should be appended to the Charge Point ID. Please note that suffixes #, #0 or #1 are reser-ved and cannot be used.

CPP State (connector 1) State of OCPP at connector 1ype2 State (connector 1) State of type 2 socket at connector 1ignaled current The current in Ampere that is signaled to the

vehicle via PWM.chuko State (connector 1) State of Schuko socket at connector 1onnection State (Backend) The current state of the backend connection on

TCP levelonnection State (Modem) Show at which state in the connection sequence

the modem is currently operating. Show "OK" when connected.

ree charging This mode allows charging without authoriza-tion via RFID or the backend. Charging is started immediately after a vehicle is connected.

ree charging mode This allows to set the OCPP behaviour in free charging mode. Note that in case of Master/Slave scenario the Slave will be automatically configured to the same mode the Master uses.

rrors list List of errors that are currently present in the

Network registration mod

Network registration statModem access technolog

Scan network operators a

Operator Selection Mode

Mobile country code (MC

Mobile Network Code (MN

Location area code (LAC)

Cell id

Parameter

C

C 29

M

M

P

E

M

E

T

PSEROO

D

H

DS

L

Type of Displaycontroller if any

H

Firmware version currently running on the charge pointVersion of the RCMB module currently connected to the charge point

umber Charge controller serial number

g reboot

The UTC hour that is used for housekeeping reboots. The charge controller reboots after 30 days to ensure uninterrupted operation. Reboots only occur with no vehicle connected and no customer present. Select a UTC hour in range [0…23].The number of times the contactor of the type 2 socket was switching on and offThe number of times the contactor of the Schuko socket was switching on and offThe maximal current of this charge point in Ampere

) Name of the vehicle currently connected

l) The generated random value which describes the current session ID.

Description

C612(4G)_D00325_05_M_XXEN/10.2019

MI Pattern On Relay 2 (K2)

The behaviour for the relay 2 (K2) to be used for an external indicator light such as an LED or blinking light. Use option "On" while vehicle connected for integration with parking management system by Scheidt & Bachmann. To use two contactors in series that are to be controlled separately, use the function "ON while charging".

Configuration and testingonfiguration and testing

eter serial number (OCPP) Serial number as reported by the eHz or Modbus meter

eter public key (OCPP) Public Key of the cryptography engine of the connected eHz meter if available

ower in Watt (OCPP) Computed power consumption in Watt from OCPP meter

nergy in Wh (OCPP) Computed energy consumption in Wh

eter current (Second) Phase current in Ampere measured by OCPP meter

nergy Manager Main State Energy manager module‘s state and current

emperature Monitoring State Temperature monitoring module‘s state and current

eer group State Peer group module‘s state and currentecond Meter State Second meter module‘s state and currentxternal Input State External input module‘s state and currentelays Temperature State Relay temperature module‘s state and currentCPP Smart Charging State OCPP Smart Charging module‘s state and currentperator Current Limit Current limit in Ampere set by the operator

LM Current Applied Available charging current assigned by DLM Master

LC 15118 State High Level Communication (15118) module‘s state and current

LM State DLM statelave(s) State Slave(s) state

ED type The type of LED device connected to the charge controller if anyThe type of display connected to the charge

Parameter Description

Firmware version

RCMB Version

Charge controller serial n

UTC time for housekeepin

Contactor Cycles Type2

Contactor Cycles Schuko

Maximum Current

EV name (15118 protocol

Session ID (15118 protoco

Parameter

C

CC612(4G)_D00325_05_M_XXEN/10.20193

6

C

C

A

A

A

OCPP Mode networks and therefore does not require a

nd

The HTTP URL of the OCPP backend system. This URL must be the SOAP end point. This parameter is only used if OCPP-S 1.5 or 1.6, the standard OCPP mode is used. If this mode is used, a SIM card with a private APN must be used if the charge point should receive remote commands from the backend system as most 4G networks use NAT for normal SIM cards which prevents connections from the backend to the charge point.The DNS hostname or IP address of the binary OCPP proxy server for the backend system. This parameter is only used if Binary OCPP is selected for the TCP/IP mode.

) The TCP port of the proxy server for Binary OCPP communication with the backend system

RL of the

The WS/WSS URL of the OCPP backend system. This URL must be the WS/JSON end point. This parameter is only used if OCPP-J 1.6 mode is used. The charge point ID gets automatically appended when connecting to the backend.This mode allows charging without authorization via RFID or the backend. Charging is started immediately after a vehicle is connected.

)

The current in Ampere that is signaled to the vehicle for charging. This value must be below the maximum current (see state view) of the charger, but can be freely configured, even while charging. NOTE: Value is overwritten when peer group configured.

Description

0

private APN for remote messages to arrive at the charge point. Also Binary OCPP uses much less data (factor 20 to 50) than standard OCPP. Binary OCPP however requires a Binary OCPP proxy on the backend side.

Configuration and testingonfiguration and testing

.3 Settings tab

Parameter Description

hargePoint ID (OCPP)

OCCP Charge Point ID which is used to identify itself towards the backend system. If two or more Slave devices are connected, each Slave must identify itself to the Master with its respec-tive connector ID added as a suffix. E.g. #2 or #005 should be appended to the Charge Point ID. Please note that suffixes #, #0 or #1 are reser-ved and cannot be used.

onnection Type

The type of data connection to be used to connect to the backend system, if any. Use this option to disable backend communication completely.

ccess Point Name (APN)Access Point Name of the mobile network to be used when establishing connections to the backend system via the built-in 4G modem.

PN UsernameUsername to be used for authenticating with the Access Point of the 4G network for connecting with the backend system.

PN PasswordPassword to be used for authenticating with the Access Point of the 4G network for connecting with the backend system.This parameter determines whether backend communication is done using the standard OCPP SOAP/JSON variant or the proprietary Binary OCPP variant of Ebee Smart Technologies. The Binary OCPP variant is working across NAT

SOAP OCPP URL of Backe(Standard OCPP)

Hostname (Binary OCPP)

Portnumber (Binary OCPP

WebSockets JSON OCPP UBackend

Free charging

Operator Current Limit (A

Parameter

C

C 31

6

PC

Ma

S

SC

S

B

interaction delays.

Da

WW

Mc

ion Static IP address of the charge point

ion Netmask to use for the charge point

ion Gateway to use for the charge point

ion DNS server to use for the charge point

The PIN number that should be used to unlock the SIM card. This number is only used if the SIM card requires a PIN number.In automatic mode, the modem chooses the operator. In manual mode the operator specified in requested operator name is used. In Manual/Auto, if manual selection fails, automatic mode is used.

yThe technology to be used to access the network 2G (GSM) or 3G (UTRAN). In "Auto" mode, the modem will choose the technology.

t Determines whether upon boot a search for available network operators is carried out. The result can then be requested as separate parameter. The value is automatically set to "Off" after boot.The name of the network operator to be used in manual mode. If operator name is unknown, set the "Scan network operators at boot" parameter to "On", then click on "Save & Restart". Then, in the State tab all the available operator names will be shown.Indicates if the operator name format is alphanumeric or numeric. Long alphanumeric format can be up to 16 characters long and short format up to 8 characters (refer to GSM MoU SE. 13).Setting this feature assigns an additional fixed IP to use the USB0 interface of the charge controller. This IP address allows it to group multiple charge controllers in one USB network without IP conflicts. The subnet mask is fixed at 24 bits 255.255.255.0.

Description

C612(4G)_D00325_05_M_XXEN/10.2019

isplay backend disconnect s error

Parameter that determines whether an error is signaled to the user when the backend connection is interrupted.

LAN SSID WLAN SSIDLAN password WLAN password

ode for network onfiguration

Mode for network configuration to be used for the charge point. "Auto" uses DHCP to configure the charge point‘s network connection; "Manual config" uses the addresses as filled in above.

Network operator name format

USB Additional fixed IP

Configuration and testingonfiguration and testing

.4 Operator tab

Parameter Description

ublic address of the hargePoint

Public address of the charge point. If set, this address is put into the SOAP WSA-from field. If left empty, the public IP address gets determined by the application.

ode for selecting the public ddress of the ChargePoint

Mode for selecting the public address of the charge point. "Local device" takes the address from the local communication interface (like e.g. eth0); "Manual select" takes the address as filled in above; "Auto select" determines the address by an outside service.

SL Strictness as clientAllows to set how strict SSL authentification is, from "Encrypt only - No authentification" to "Full authentification".

OAP OCPP Server Port of hargePoint (Standard OCPP)

The TCP server port on which the charge point accepts incoming connections from the backend system. Many backends require a specific port as only one port is allowed to be used by the backend firewall configuration.

SL mode as serverAllows to set whether and how to use SSL as a server, from "Encrypt only - No authentification" to "Full authentification".

ackend connection timeout

The timeout in seconds that is used for establishing an APN connection, establishing a Proxy or backend connection and for expecting responses from the backend for OCPP requests. Only reduce this value to a smaller value if you can assure very good network connection. Increase the value to a larger value in case of bad network coverage if you can accept long user

Static network configuratIPStatic network configuratNETMASKStatic network configuratGATEWAYStatic network configuratDNS

Simcard PIN Number

Network selection mode

Modem Access Technolog

Scan network operators aboot

Requested 3G Network operator

Parameter

C

CC612(4G)_D00325_05_M_XXEN/10.20193

U

F

Rwm

I

E

C

L

R

SR

If enabled, the charge controller will send Authorize messages to the backend system if a different RFID card is used for stopping a transaction. If the backend responds with the same parent ID for that Authorize message, the stopping is allowed. Otherwise stopping is rejected. Should not be activated for backends that do not use parent IDs.This allows to modify the behaviour of the charger at the end of a transaction. "Normal" unlocks and stops the transaction already when the vehicle side plug is removed. "Stop after unplugging" causes a transaction to only be fully stopped when a cable is pulled out from the charging station. "Only by RFID/RemoteStop" only unlocks after the user interacts with the charger and not already when the vehicle side plug is removed.If this parameter is enabled, the transaction that was interrupted by a power loss is continued once the power is back again.This parameter determines whether OCPP status notifications that are meant just for informative purposes (such as temperature report) should be sent to the backend system or not.This parameter determines whether OCPP status notifications that are meant to report an error (such as when the plug locking system is broken) should be sent to the backend system or not.

StatusNotifications

This parameter determines whether USB communication errors between Master and Slave are reported to the backend.This parameter determines on which conditions the charge point changes into the "Occupied" state. In "Occupied on Charging", occupied is signaled only when authorization is there and a cable is plugged in. In "Occupied on Authorized/Plugged", the state changes to "Occupied already" when the charger is authorized with nothing connected or when a cable/vehicle is connected, but no authorization has taken place yet.

Description

2

end Authorize for emoteStart

This parameter determines whether after receiving an OCPP RemoteStart request the charger should still send an OCPP Authorize message to the backend system. Some backends require this as OCPP could be interpreted to require this. Some backends are upset if this is done.

Strategy for StatusNotification state transitions

Configuration and testingonfiguration and testing

SB Additional fixed Gateway Setting this feature assigns an additonal gateway to the USB0 interface of the charge controller.

ree charging mode

This allows to set the OCPP behaviour in free charging mode. Note that in case of Master/Slave scenario the Slave will be automatically configured to the same mode the Master uses.

fid Tag for Free Charging ith OCPP Full, fixed rfid odes

RFID Tag for Free Charging with OCPP Full, fixed RFID modes

f in doubt allow charging

This parameter determines whether a client is allowed to charge in case its authorization cannot be processed because the backend is offline or not reachable. If set to "On", the client is allowed to charge even if it cannot get authentificated from the white list nor from local cache.

nable cache

Parameter that enables the use of the internal cache of RFID UID. If disabled, RFIDs even if reported from the backend with an expiry date are not added to an internal cache.

ache expiry mode

The maximum validity of cache entries when OCPP expiry date has not been set. The default setting for such cache entries is the largest allowable system time: 2038.

ist of entries in cache

List of colon-separated IDs for the cache. A maximum of 80 entries are shown. To clear the cache, the list must be empty. The listed IDs are added, while the other cache entries are not deleted.

FID Tag letter case Parameter that makes the RFID tag management configurable to upper or lower case.

Parameter Description

Send Authorize for Stop

Stop Transaction Mode

Restart transaction after power loss

Send informative StatusNotifications

Send error StatusNotifications

Send USB error

Parameter

C

C 33

P(

P(

P(

P(

D

D

D

D

Oo

LM Overall current limit for DLM on phase 2 in Ampere (A). This setting is only used on the DLM Master.

LM Overall current limit for DLM on phase 3 in Ampere (A). This setting is only used on the DLM Master.

at elow

Minimum current limit that charging should not go below in Ampere (A).

Current limit when disconnected from DLM network in Ampere (A).

Dynamic Load Management Charging Log stores all relevant charging information in a .csv file.

or

Reset meter values after stopping transaction to 0. This mode is recommended for S0 meters, as it provides consistent meter values for each transaction. If not enabled, the meter values are reset to 0 upon every reboot of the system.Parameter that determines whether signed meter values should be sent as part of OCPP MeterValue and OCPP StopTransaction messages. Some backends have a problem with processing signed meter values. Signed meter values are only available from eHz meters.

d

Enables the DataTransfer messages that allow to show Tariff and Total Usage Information. Beware this feature only works with backend systems that support it. If the backend system does not support it, this will prevent all authorizations from being successful.

Meter values sampled data

Comma-separated list of types of meter values that should be sent as sampled data elements in separate meter value messages. Supported are "Energy.Active.Import.Register", "Power.Active.Import" and "Current.Import".

val Interval in seconds after which a new meter value is sent to the backend system during a charging transaction. Set "0" to turn off or to a value ≥ 60 to turn on.

Description

C612(4G)_D00325_05_M_XXEN/10.2019

LM Algorithmfirst-in-first-out manner, i.e. in case there is no energy remaining to distribute, the car has to wait for a free slot; "Fair Trade (RR)" selects a fair distribution algorithm which works in a round-robin manner, i.e. the energy gets distributed to all cars by fairly suspending/resuming the charging on the cars;

verall current limit for DLM n Phase 1

Overall current limit for DLM on phase 1 in Ampere (A). This setting is only used on the DLM Master.

(OCPP)

Meter Value Sample Inter(OCPP)

Configuration and testingonfiguration and testing

reparing until state C OCPP 1.6)

If this parameter is set to "On", the state remains preparing until the car goes to state C. Once vehicle goes to state C, the status is set to "Charging". If set to "Off", the status is set to "Charging" when vehicle is in state B. Note that this parameter is only relevant for OCPP 1.6.

eer Group Partner deprecated)

Multiple charge points sharing one energy source are combined into one peer group. To specify the group, list each charge point by its "IP<:PORT>" address and separated by semicolon.Example: 192.168.0.1;192.168.0.2:81;192.168.0.3;Default PORT is 80.

eer Group maximum current A) (deprecated)

The maximal current in Ampere available for the complete peer group. This current is shared between all charging group members.

eer Group Force Charging deprecated)

In case the peer partners of this charge point are unavailable, you may turn ON force charging to allow this charge point the charging. Note: make sure your hardware setup supports this behaviour.

ynamic Load Management Dynamic Load Management

LM Network IdSeveral DLM groupings might coexist in one physical LAN. In case of DLM Master-Auto-Discovery, they are distinguished by Master-Auto-Discovery Network ID.

LM Master IP DLM Master-IP address which is used for DLM Slaves configured with Master-Fixed-IP.Dynamic Load Management algorithm to be used on the DLM Master for load balancing; "Fair Trade (FIFO)" selects a fair distribution algorithm which works in a

Parameter DescriptionOverall current limit for Don Phase 2Overall current limit for Don Phase 3Minimum current limit thcharging should not go bCurrent limit when disconnected from DLM network

DLM Charging Log

Reset Meter Value Behavi(S0 meter)

Send signed meter values

DataTransfer for Tariff AnTotal Usage

Parameter

C

CC612(4G)_D00325_05_M_XXEN/10.20193

M(

C(

M

Pm

Fc

TF

T

H

P

PCThe phase rotation of the Cg

The phase rotation of the charge point in respect to the

C

L

g

The UTC hour that is used for housekeeping reboots. The charge controller reboots after 30 days to ensure uninterrupted operation. Reboots only occur with no vehicle connected and no customer present. Select a UTC hour in range [0…23].

ut

Interval (from successful authorization) until incipient charging session is automatically canceled due to failure of EV user to (correctly) insert the charging cable connector(s) into the appropriate connector(s).If set to "On", the locking of the actuator is made only after successful authorization. If set to "Off", the locking is done when the cable is plugged.If set to "On", the locking of the actuator is made and it stays locked permanently.The current in Ampere (A) signaled for Schuko connectorEnable or disable the use of the Garo Top Board for MCB and RCD inputs.

a Temperature change for which a new temperature measurement report is sent to the backend system.Residual current change for which a new residual current report is sent to the backend system as OCCP status notification, set to "0" to disable, value is indicated in tenth of milliamps.

on Welded contactor detection (Always enabled in CC612)

Enabling of energy management from second meter

Current limit for energy d Current limit for energy management from second

meter in Ampere (A)

Enabling of energy management from external input

al Single phase RMS current limit for energy management from external input in Ampere (A). Range: From 6 A to 80 A. Set to "0" to pause charging.Level for the logging system

Description

4

hargePoint in respect to the rid connection grid connection.

heck for car overload

If set to "On", the current consumed by the vehicle will be checked against the signaled current. If the overload is above 10 %, the signaled current will be decreased by 10 %. If the overload is above 16 %, the charging will be stopped.

anguage of Display The language of display texts on the LCD display, if available. Only has effect if LCD is configured.

management from seconmeterEnergy management fromexternal inputCurrent limit for energy management from externinputLog level

Configuration and testingonfiguration and testing

eter values aligned data OCPP)

Comma-separated list of types of meter values that should be sent as clock aligned data elements in separate meter value messages. Supported are "Energy.Active.Import.Register", "Power.Active.Import" and "Current.Import".

lock aligned data interval OCPP)

Interval in seconds after which a new meter value is sent to the backend system regardless of whether a charging transaction is ongoing or not. The sending of these values is aligned with the full hour.

eter configuration (Second) Energy Management: the type of second meter, used only for input to manage the current on the grid.

ulses per kWh (Second S0 eter) Energy Management: Second S0 meter pulses per kWh

an or heater control onfiguration

This parameter allows to enable the activation of an external fan or heater according to the housing temperature.

emperature threshold for an or Heater Control

Temperature threshold necessary to start or stop the fan or heater.

ilt detection This parameter allows to enable the tilt detection (CC612 only).

LC 15118 configuration High Level (15118 protocol) Powerline Communication configuration

ower source voltageSingle phase RMS voltage of the power source feeding the charge point in Volts. This is used for current calculation from power values from meter.

hases connected to the harge Point

This parameter describes how many and which phases are used.

Parameter Description

UTC time for housekeepinreboot

Vehicle connection timeo

Lock Actuator only if authorized

Permanently locked cable

Schuko Fixed Current

Garo Top Board

Temperature Report Delt

RCMB Delta

Welded contactor detectiEnergy management fromsecond meter

Parameter

C

C 35

6

O

Sp

C

C

C

M

P

L

D

T The type of display connected to the charge

H

Enables or disables the RFID reader. Allows preventing error messages if no reader is installed.The maximal current of this charge point in AmpereSetting this to "On" indicates that the charger has a fixed cable attached and does NOT need to lock a cable in a socket. ATTENTION: This is safety relevant!

eSet this value to "On" if you want to check before charging if the diode connected to the Control Pilot line is connected or not.Set to "On" if a hatch is installed in the charge point. Note that this parameter is relevant only for CC612.Set this value to "On" if you want to request a redetection of the connected type 2 socket locking actuator upon the next boot.Use auxiliary input/output to support additional Schuko socket.This option monitors whether the power supply to the charging station or the charging socket is monitored. The time of interruption is safely stored and if still possible a message is sent to the backend.Input used for authorization from an external switch/relay.

e

Set if the authorization input can just start or it can both start and stop a transaction. Note that Scheidt & Bachmann requires this to be set to Set this value to "Only start".

h Type

Set if the authorization input switch is normally open or normally closed. Note that Scheidt & Bachmann requires this to be set to Set this value to "Normally open".Temperature threshold necessary to start decreasing the current.

Description

C612(4G)_D00325_05_M_XXEN/10.2019

ype of Displaycontroller if any.

MI Pattern On Relay 2 (K2)

The behaviour for the relay 2 (K2) to be used for an external indicator light such as an LED or blinking light. Use option "On" while vehicle connected for integration with parking management system by Scheidt & Bachmann. To use two contactors in series that are to be controlled separately, use the function "ON while charging".

Authorization Input Mod

Authorization Input Switc

Temperature threshold 1

Configuration and testingonfiguration and testing

.5 Manufacturer tab

perator Password Set a new password to access the operator web interface.

tate page password rotection

Protect the web interface state tab by the configured password.

Parameter Description

hargePoint Vendor Mandatory identifies the vendor of the ChargePoint.

hargePoint Model

Mandatory, identifies the model of theChargePoint. Please note that the default value"CC612" is reserved and cannot be used on non-CC612 models.

harge controller serial number Charge controller serial number

eter configuration (OCPP)The type of meter used for the charging socket and its connector. This is relevant for OCPP transactions.

ulses per kWh (S0 meter) S0 Meter Pulses per kWh

ED type The type of LED device connected to the charge controller if any.

ual LED board mode

The behaviour for dual LED boards. When set to "ON", the dual LED board shows for left and right LEDs independent states for Master and Slave. When set to "OFF", LEDs operate in clone mode: Left and right LEDs show the same pattern and color, presenting the state of the main/Master device.

Parameter Description

Enable RFID

Maximum Current (A)

Fixed cable attached

Detect Control Pilot Diod

Door hatch installed

Redetect actuator

Schuko Socket

Power Watchdog

Authorization Input

Parameter

C

CC612(4G)_D00325_05_M_XXEN/10.20193

Ct

T

A

C

M

R

RCD Auto Reclosure reclosure of the RCD. In CC612 the auxiliary relay

RR

n completed, the charge controller needs to be tested for that:

s taken place

• Connectivity to the backend has been established

ssible

ing are working

Master controller handles the backend connection and may start and stop transaction for its slaves. Slave controller connects to a Master as its backend. Some other parameters are automatically modified when turning this on. IMPORTANT NOTE: In case the ChargePoint is configured as a Slave, the ChargePoint ID should be suffixed by the Connector ID represented by the Slave, e.g. #002 or #5 should be appended to the ChargePoint ID. Note: Supported is a setup with 1 Master and 1 Slave.Turn on if an individual RFID reader is installed for the Slave controller. Note: This parameter is only relevant for the Master configuration. The Slave must have it always set to "Off".Allows update of the charge point configuration via USB stickAllows update of the charge point firmware via USB stickSet a new password to access the manufacturer web interface. This password is set as root access for the charge point.

Description

6

output C3/4 is used.CD auto reclosure delay RCD auto reclosure delay in secondsCD auto reclosure attempts RCD auto reclosure attempts

• Meter connectivity is po

• Plug locking and unlock

• Charging is possible

Configuration and testingonfiguration and testing

harging current to reduce emperature

Charging current value in Ampere when temperature is above temperature threshold 1.

emperature threshold 2 Temperature threshold necessary to stop charging.

mbient-CPU temperature delta

Temperature delta for measurements from CPU temperature sensor. This value should be tuned according to the thermal characteristics of the charging station.

PU performance

CPU performance setting of the ChargePoint. "Fast" configures maximum performance; "Normal" configures reduced performance, which is sufficient for most use cases. ATTENTION: please change this setting only if you know what you are doing. Changing this setting will result in re-flashing of the bootloader. A reboot is required. Re-flashing will occur during reboot. Do not power off the ChargePoint. while the system is rebooting, as you might brick your system!

CB Enable

This parameter allows to enable MCB detection. It must be "Off" when there is no MCB connected to the controller. In CC612 the opto input C8/7 is used.

CD Enable

This parameter allows to enable RCD detection. It must be "Off" when there is no RCD connected to the controller. In CC612 the opto input C6/5 is used.This parameter allows to enable the automatic

Parameter Description

6.6 TestingOnce configuration has beeoperability. Testing ensures

• A successful boot-up ha

Master/Slave Mode

RFID Slave

USB Config update

USB Firmware update

Manufacturer Password

Parameter

C

C 37

6T3litico

6

6T

6TcoBth

TwInaOba

APN information is supplied by your chosen mobile network operator.

WLAN (USB 1) valid network during boot-up of the charge controller, and etwork, the charge controller obtains an IP address from the

provided to the charge controller can be influenced by as-r the charge controller at the DHCP server in your network. used to make a connection. roller always uses a second IP address: 192.168.124.123 in the

e Ethernet interface.

ttings are carried out via the Operator tabator) and include:

figuration (e.g. Auto with DHCP or manual configuration)

rations IP (of the charge point)

ration NETMASK (i.e. 255.255.255.0)

rd

meter connectivitye tab to check if the eHz and Modbus meters have been he case of meters with an S0 interface, values are only dis-s place.

unlockingful online connection, plug locking and unlocking can be te-et was correctly attached to the charge controller.

onnects the charging system with a vehicle into the type 2 ld automatically lock the plug. This locking action can nor-

gently pulling on the plug.

disconnect the plug from the vehicle. This action automati-ng system socket, allowing the cable to be removed.

o DHCP server in your network or it was connected during boot-have no means of determining the IP address assigned vian assign an IP address from the 192.168.124.x subnet to yourt it to the same Ethernet subnet and connect to the chargingg the 192.168.124.123 IP address.

C612(4G)_D00325_05_M_XXEN/10.2019

he system should then be able to establish an online connection to the backend system ithin 20 to 120 s. addition, the SIM card, inserted into the charge controller SIM card slot, is activated. If

SIM card PIN number is required, it needs to be configured on the Charging System perator tab (http://192.168.123.123/operator) otherwise a backend connection will not e possible. With a data network connection established, the charging system is now vailable.

6.6.4 Plug locking andAfter boot-up and a successsted to see if the type 2 sock

• First insert a plug that csocket. The socket shoumally be heard. Test by

• To unlock the plug, firstcally unlocks the chargi

Configuration and testingonfiguration and testing

.6.1 Successful boot-uphe boot-up process begins once 12 V is supplied to the charge controller. After about 0 s, the ALARM and READY LEDs - and the PLC LED when available - on the front panel ght up. After some time, the LEDs are turned off and only the ″READY″ LED blinks, indica-ng a successful boot-up. At the same time, the ″Free LED″ on the RFID module (if

nfigured) lights continuously, marking the end of the boot up sequence.

.6.2 Connectivity to the backend

.6.2.1 Connecting the charge controller to the backendo connect the charge controller to the backend:

• Go to the "Settings" tab (http://192.168.123.123/operator/settings).To access this tab, the following username and password are required:

– Username: operator

– Password: yellow_zone

• Under the menu item "Connection Type", the following options are available:

• No Backend

• GSM (3G/4G modem)

• Ethernet/USB WLAN

.6.2.2 via GSM (3G/4G modem)he "Access point Name (APN)" of the mobile network to be used when establishing a

nnection to the backend system via the built-in 3G/4G moden is required. oth a username ("APN Username") and password ("APN Password") are required to au-enticate the access point.

6.6.2.3 via Ethernet /USBIf Ethernet is connected to aa DHCP Server exists in this nDHCP server. The IP addresssigning a fixed IP address foThis IP address can then be In addition, the charge contsubnet 255.255.255.0 - on th

The main Ethernet/WLAN se(http://192.168.123.123/operFor Ethernet:

• - Mode for network con

• - Static network configu

• - Static network configu

For WLAN - WLAN SSID/WLAN passwo

6.6.3 eHZ/Modbus/S0Refer to the webserver Statsuccessfully connected. In tplayed when charging take

If there is nup or you DHCP, thePC, connecsystem usin

C

CC612(4G)_D00325_05_M_XXEN/10.20193

6

T

has been successfully connected to the charging system, ing an RFID card, registered with the backend system, close g starts when the contactor is switched on to provide power

enables two modes of operation:

connectingED lights continuously meaning the charging system is free

rd close to the RFID reader.

g system will then display "Authorisation in progress".

10-L1 module is installed, then the yellow LED blinks he white LEDs are illuminated to show a circular light

is successful:

10-L1 module is installed, the blue charging system k quickly, indicating that the vehicle can now be con-

is not successful:

10-L1 module is installed, all three charging system riefly to indicate an error.

then changes to show that the charging system is he green LED lights continuously. nnected to the charging system within 45 seconds.

10-L1 module is installed, a slow blinking blue LED at the vehicle is charging.

native

t connected to the charging system within 45 seconds.

10-L1 module is installed, the display changes to indi- charging system is „Free“ and the green LED lights

y.

8

step 3 cate that thecontinuousl

Configuration and testingonfiguration and testing

.6.5 Unlocking the CT plug

he following illustration shows how to unlock the CT plug:

CAUTION

Risk of damage when pulling out the CT plug!If the CT plug is pulled out using too much force, the enclosure and the in-ternal components may be damaged.Use needle-nose pliers to unlock the CT plug.

6.6.6 ChargingAfter ensuring that a vehiclecharging is initiated by holdto the RFID module. Charginflow. The charge controller

• Authorisation BEFOREInitial state: The green L(RFID110-L1 only).

Step 1

Hold the RFID ca

• The chargin

• If the RFID1slowly and tpattern.

Step 2

If authorisation

• If the RFID1LED will blinnected.

Alter-native step 2

If authorisation

• If the RFID1LEDs blink b

• The display „Free“ and t

Step 3 The vehicle is co

• If the RFID1indicates th

Alter-The vehicle is no

• If the RFID1

C

C 39

S

S

S

AnS

C612(4G)_D00325_05_M_XXEN/10.2019

Configuration and testingonfiguration and testing

• Authorisation AFTER connectingInitial state: The green LED lights continuously meaning the charging system is free (

• only RFID110-L1).

tep 1

The vehicle is connected to the charging system.

• If the RFID110-L1 module is installed, the green LED blinks slowly to indicate that the vehicle has been identified but not yet autho-rised.

tep 2

The user holds an RFID card close to the card reader.

• If the RFID110-L1 module is installed, the yellow LED blinks and the white LEDs are illuminated in the form of a circular light pat-tern to indicate that authorisation is being sought.

tep 3If authorisation is successful:

• If the RFID110-L1 module is installed, the blue charging system LED blinks slowly and the current charging status is shown.

lter-ative tep 3

If authorisation is not successful:

• If the RFID110-L1 module is installed, all three charging system LEDs blink briefly. The green LED then blinks to indicate that the vehicle has been recognised but has not yet been granted authori-sation.

The connection to the mobile phone data network and subsequently thebackend system usually lasts anywhere between 6 and 48 hours. It is nor-mal that after this period, a connection may be terminated by the mobilenetwork. The charging system detects this disconnection and automati-cally reconnects. During the reconnect, all three LEDs on the charge cont-roller front panel flash frequently.

CC612(4G)_D00325_05_M_XXEN/10.2019

ontroller7Ttoe

7Ein

7TInOteth

Tmcoan

40

The charge controller must be powered with 12 V when the CONFIG inter-face is being used.

Connecting to the charge c. Connecting to the charge controllerhe charge controller runs the Linux operating system (OS). The easiest way to connect the system is to connect through a TCP/IP network connection. This can be done by

stablishing a network connection.

.1 Establishing a network connection to the charge controllerstablishing a network connection with the USB configuration interface (CONFIG). This terface can be found on the charge controller front panel.

.1.1 USB configuration interfacehe USB configuration interface, CONFIG, emulates a so-called Remote Network Driver terface Specification (RNDIS) network when it is plugged into Windows, Linux or Mac S computers. In a Linux and Mac OS, this virtual network interface is automatically de-cted and a driver is not necessary. On a Windows host machine, however, the driver for e RNDIS network adapter usually needs to be manually selected. To do this:

• Open the device manager from the control panel

• Right click the "RNDIS/Ethernet Gadget" menu item located under "Other devices" and select "Update Driver Software"

• Select the option "Browse my computer for driver software".

• Then click on the option "Select from a list of device drivers on my computer".

• From the list presented, select the "Network adapters" category.

• In the window that appears, select the manufacturer Microsoft Corporation and the network adapter "Remote NDIS Compatible Device“. The device driver is then ins-talled and the system recognises the charge controller as a network adapter.

he charging system controller uses the local IP address 192.168.123.123 with a subnet ask of 255.255.255.0 on the virtual network interface corresponding to the USB nfiguration interface. A DHCP server is running on the target and automatically assigns

corresponding IP address to the host machine once it is connected. Therefore, commu-ication with the charge controller is based on this IP address.

41

8

8

InRaOvRaAl

SNoOpNo

RMReReReReDC

WFrImDa....................................................................................................................................................... LTE FDD: UL 5 MBit/s; DL 10 MBit/s

............................................................................................................... Actuator IN

............................................................................................................... Actuator +

............................................................................................Actuator pul-up output

................................................................................................................. Actuator -

................................................................................................................ +12 V IN*

........................................................................................................................ 0 V IN............................................................................................................... Relay 1 NO............................................................................................................... Relay 1 NO

..........................................................................................................Proximity Pilot

....Control Pilot (Optional Powerline Communication PLC acc. to ISO/IEC 15118).................................................................................................................... < 15 m............................................................................................................... Relay 2 NO............................................................................................................... Relay 2 NO

.....................................................................................................................Input 1-

...................................................................................................................Input 1+

.....................................................................................................................Input 2-

...................................................................................................................Input 2+

..................................................................................................Current transformer

................................................................................................DC 11.4 V…25.2 V...........................................................................................................1.7…3.8 mA........................................................................................................ Meter interface..................................................................................................User interface RJ45...................................................................................................................... < 3 m

............................................................................................................ configurable Relay 2 ....................................................................................................................................................... charging contactor

.................................................................................................. 2 x 1 N/O contacts

......................................................................................................... N/C operation

.........................................................................................10,000 switching cycles

.........................................................................................................................30 V

...........................................................................................................................1 A

.......................................................................................................... 1 mA ≥ 10 V

.........................................................................................................................32 V

CC612(4G)_D00325_05_M_XXEN/10.2019

...................................................................................................................................LTE TDD: UL 3.1 MBit/s; DL 8.96 MBit/sRequired antenna ........................................................................................................Panorama Antennas B4BE-7-27-05SP

Inputs/outputs and displayLED ALARM..................................................................................................................................................................... yellowLED READY ........................................................................................................................................................................greenLED PLC (Optional) ...........................................................................................................................................................greenUSB Extension interface (Ethernet, WLAN, …) ........................................................................................USB socket type A CONFIG (Configuration interface) ..........................................................................................................Micro socket type ABSIM card (For data gateways with 4G modem only) ...............................................................................................micro SIM

Switching elements ...................................Operating principle ...................................Electrical service life ..................................Contact data acc. to IEC 60947-5-1:Rated operational voltage Ue ....................Rated operational current Ie .....................Minimum contact rating ...........................Rated voltage Ui .........................................

Technical Data. Technical Data

.1 Tabular data

sulation coordination acc. to IEC 60664-1/IEC 60664-3ted voltage.................................................................................................................................................................. 12.5 Vervoltage category/Pollution degree .............................................................................................................................III/3ted impulse withstand voltage ................................................................................................................................... 800 Vtitude .......................................................................................................................................................... ≤ 2000 m AMSL

upply voltageminal voltage ........................................................................................................................................................... DC 12 Verating range of the supply voltage .....................................................................................................DC 11.4 V…12.6 Vminal current....................................................................................................................................................................1 A

DC-MDeasuring range .......................................................................................................................................................... 100 mA sponse values:sidual current IΔn .................................................................................................................................................... DC 6 mAsponse tolerance IΔn ............................................................................................................................................-50…0 %start sequence value: 6 mA ........................................................................................................................................................................ < 3 mA

ireless parameters (Optional for data gateways with 4G modem only)equency bands ............................................................ 800 MHz/850 MHz/900 MHz/1,800 MHz/2,100 MHz/2,600 MHzpedance .........................................................................................................................................................................50 Ωta rate ...................................................................................................................................... GSM:

........................................................................................................................................GPRS: UL 85.6 kBit/s; DL 107 kBit/s

..................................................................................................................................... EDGE: UL 236.8 kBit/s; DL 296 kBit/s

...............................................................................................................................................UMTS:

................................................................................................................................... WCDMA: UL 384 kBit/s; DL 384 kBit/s

........................................................................................................................................................ DC-HSDPA: DL 42 MBit/s

........................................................................................................................................................... HSUPA: UL 5.76 MBit/s

.................................................................................................................................................. LTE:

Terminal A:IN ..............................................................+ ..............................................................OUT...........................................................- ................................................................Terminal B:12V ...........................................................OV.............................................................11...............................................................14...............................................................Terminal C:PP .............................................................CP..............................................................Maximum cable length (PP, CP) ..............21...............................................................24...............................................................IN1- ..........................................................IN1+.........................................................IN2- ..........................................................IN2+.........................................................CT..............................................................Input 1 and Input 2:Input voltage ............................................Input current ............................................Meter .........................................................User interface ............................................Max. cable length to RFID module ...........

Switching elementsRelay 1 ......................................................

T

CC612(4G)_D00325_05_M_XXEN/10.20194

EEM..

OpClStTrLoMStTrLo

CCoMCoCorigflefleStOpCoCorigflefleSt

OOpDeDIW*)

rovals, certificationseen developed in compliance with the following standards:

aft

raft

ified standards take into account the edition valid until dicated.

2

gree of protection......................................................................................................................................................... IP20N rail mounting .................................................................................................................................................... IEC 60715eight .............................................................................................................................................................................. 160 g Surge test is carried out at Phoenix power supply STEP-PS/1AC/12DC/1.5. The 12V cable length is less than1 meter.

Technical Dataechnical Data

nvironment/EMCC ......................................................................................................................EN 61851-1,IEC 61851-21-2 FDIS:2017-09

................................................................................................................................................EN 301 489-1, EN 301 489-52erating temperature ..................................................................................................................................... -30…+70 °C

imatic conditions acc. to IEC 60721:ationary use (IEC 60721-3-3) ....................................................3K5 (except condensation, water and formation of ice)ansport (IEC 60721-3-2) .................................................................................................................................................2K2ng-term storage (IEC 60721-3-1) .................................................................................................................................1K2echanical conditions acc. to IEC 60721:ationary use (IEC 60721-3-3) .......................................................................................................................................3M4ansport (IEC 60721-3-2) ................................................................................................................................................2M4ng-term storage (IEC 60721-3-1) ..............................................................................................................................1M12

onnection nnection cable ................................................................................................................................................................RJ45aximum cable length ...................................................................................................................................................< 3 mnnection type (terminal block C) ........................................................................push-wire terminalnnection properties:id/flexible ........................................................................................................................ 0.2…1.5 mm² (AWG 24…16)xible with ferrule without plastic sleeve ...................................................................... 0.25…1.5 mm² (AWG 24…16)xible with ferrule with plastic sleeve ..........................................................................0.25…0.75 mm² (AWG 24…20)ripping length............................................................................................................................................................. 10 mmening force ..................................................................................................................................0.5 - 0.6 Nm (4 - 5 Ib-in)nnection type (terminal blocks A and B) ........................................................... screw-type terminalnnection properties:id/flexible ........................................................................................................................ 0.2…2.5 mm² (AWG 24…12)xible with ferrule without plastic sleeve ...................................................................... 0.25…2.5 mm² (AWG 24…14)xible with ferrule with plastic sleeve ............................................................................ 0.25…1.5 mm² (AWG 24…16)ripping length................................................................................................................................................................7 mm

thererating mode...................................................................................................................................... continuous operation

8.2 Standards, appThe charge controller has b

• EN 50581: 2012

• EN 61851-1: 2011

• EN 301 489-1: V2.2.0 Dr

• EN 301 511 V12.5.1

• EN 301 908-13 V11.1.2

• EN 62311: 2008

• EN 61851-22: 2002

• EN 301 489-52 V1.1.0 D

• EN 301 908-1 V11.1.1

• EN 301 908-2 V11.1.2

Subject to change! The spec10.2019 unless otherwise in

T

C 43

8

Ort, Datum: Grünberg, den 05.03.2019 Unterschrift:

rg/Germanyünberg/Germany49�6401�807-259bender.de

Art.-Nr. Gerätebezeichnung

der EU-Konformitätserklärung CC612-G4U-declaration CC612-G4

Art.-no. Device type

CC612-1M4PRB94060011

CC612-1M4PB94060012

CC612-2M4PRB94060013

CC612-2M4PB94060014

CC612-2M4RB94060015

2 Seite/page 2 von 2 Ausgabe/revision: 2

C612(4G)_D00325_05_M_XXEN/10.2019

place, date: signature: ________________________________

(Winfried Möll)

(COO)

Anmerkung: Die Anlagen sind Bestandteil dieser EU-Konformitätserklärung.

*Evtl. Normen Einschränkungen sind gerätespezifisch in der Typenliste gekennzeichnet.

Remark: The annexes are part of this EU declaration.*Limitation of standards are marked with a sign in the attached type list.

WEEE-Reg.-Nr. DE 43 124 402 Seite/page 1 von 2 Ausgabe/revision: 2

WEEE-Reg.-Nr. DE 43 124 40

Technical Dataechnical Data

.3 Declaration of Conformity

Bender GmbH & Co. KGPostfach 1161 • 35301 Grünberg/GermanyLondorfer Straße 65 • 35305 Grünberg/GermanyPhone: +49 6401 807-0 • Fax: +49 6401 807-259E-Mail: info@bender.de • www.bender.de

EU - K o n f o r m i t ä t s e r k l ä r u n gE U - D e c l a r a t i o n o f C o n f o r m i t y

Hersteller: Bender GmbH & Co. KGManufacturer:

erklärt in alleiniger Verantwortung, dass das Produkt

declare under our sole responsibility that the product

Produktbezeichnun CC612-G4 (siehe Anlage)Product name: CC612-G4 (see annex)

auf das sich diese Erklärung bezieht, mit den Vorschriften

folgender Europäischen Richtlinien übereinstimmt.

to which this declaration relates, is in conformity with thefollowing European directives.

Richtlinien: 2011/65/EU RoHS-Richtlinie RoHS directiveDirectives: 2014/53/EU RED-Richtlinie RED directive

Zur Beurteilung der Konformität wurden folgende Normen herangezogen:

The assessment of this product has been based on the following standards:

Angewandte Normen / Applied standards:

EN 50581 :2012 EN 62311 :2008EN 61851-1 :2011 EN 61851-22 :2002EN 301 489-1 V2.2.0 Draft EN 301 489-52 V1.1.0 DraftEN 301 511 V12.5.1 EN 301 908-1 V11.1.1EN 301 908-13 V11.1.2 EN 301 908-2 V11.1.2

Bender GmbH & Co. KGPostfach�1161�•�35301�GrünbeLondorfer�Straße�65�•�35305�GrPhone:�+49�6401�807-0�•�Fax:�+E-Mail:�info@bender.de�•�www.

Produktgruppe

Anlage - TypenlisteAnnex - Typelist of E

Product group

CC61x

CC61x

CC61x

CC61x

CC61x

T

CC612(4G)_D00325_05_M_XXEN/10.20194

8

*

**A

**

C

C

C

C

C

C

RRMMMD

4

The measuring current transformer has an internal diameter of 15 mm.

Technical Dataechnical Data

.4 Ordering information*

The charge controller with optional RDC-MD only works in combination with the mea-suring current transformer, which must be ordered separately. Various cable lenghts are available (see table below).

Optional and enabled by a software updateccessories

Type Modem Meter RDC-MD*

PLC**hardware

User interface LEDs Art. No.

C612 -1M4PR 4GeHZ, S0

interface

Ready Alarm PLC

B94060011

C612 -2M4PR 4GModbus, S0

interface

Ready Alarm PLC

B94060013

C612 -1S0PR ---eHZ, S0

interface

Ready Alarm PLC

B94060005

C612 -2S0PR ---Modbus, S0

interface

Ready Alarm PLC

B94060007

C612 -2M4R 4GModbus, S0

interface ---

Ready Alarm

B94060015

C612 -2S0R ---Modbus, S0

interface ---

Ready Alarm

B94060010

Type Art. No.FID110-L1 with RJ45 cable (length 500 mm) B94060110FID114 with RJ45 cable (length 500 mm) B94060114easuring current transformer** W15BS ( Cable length 1,500 mm) B98080065easuring current transformer** W15BS-02 (Cable length 180 mm) B98080067easuring current transformer** W15BS-03 (Cable length 320 mm) B98080068PM2x16FP (display module) B94060120

45

In

AA

CCC

C

C

CCCCC

DDDDD

FF

FF

RRJ10 cable 9RJ45 cable 9

SSIM

APN settings 9card 25card slot 9, 25PIN number 9

Standards, approvals, certification 42

TTab

Manufacturer 35Operator 31Settings 30State 28

Technical Data 41Testing 36

boot-up 37Connectivity to the backend 37

UUnlocking the CT plug 38USB interfaces

CONFIG 9, 17Ethernet/WLAN adapter 17

WWiring diagram

measuring current transformer of the seriesW15BS 15

CC612(4G)_D00325_05_M_XXEN/10.2019

ontactor 9ontactor connection 17ontrol Pilot (CP) 18urrent Transformer connection 18

angers 7eclaration of Conformity 43imensions 14IN rail mounting 14

ault monitoring 10current transformer 10residual current monitoring (RCM) 10

unction 8unctional description 9

NNetwork connection 40

OOrdering information 44

PPlug lock connection 18Power supply, 12 V 17Powerline Communication (PLC) 10Precautions 7Product description 8Product features 8Proximity Contact (PP) 18

dex

ntenna socket 25

harging 38harging system

Type 2 socket 11Type 2 socket and intermediate relay 12

onfiguration 26Local 26Remote 27

onnection 15conditions 15peripheral USB devices 9User interface 24

onnection to lock release modules 19

GGeneral safety instructions 7

II/O extension 18Intended use 7ISO/IEC 15118 10

LLEDs, front panel 17

MMeter

Digital 9Modbus 9

Meter connection 24

Photos: Bender archive.

Customer serviceService hotline: 0700-BenderHelp (Telephone and Fax)Carl-Benz-Straße 8 • 35305 Gruenberg • Germany

Tel.: +49 6401 807-760Fax: +49 6401 807-629

E-Mail: info@bender-service.comWeb: http://www.bender.de BENDER Group

Bender GmbH & Co. KGPostbox 1161 • 35301 Grünberg • GermanyLondorfer Straße 65 • 35305 Grünberg • Germany

Tel.: +49 6401 807-0Fax: +49 6401 807-259

E-Mail: info@bender.deWeb: www.bender.de