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ABB Terra 94 UL Operation And Installation Manual
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ABB Terra 94 UL Operation And Installation Manual

ABB Terra 94 UL Operation And Installation Manual

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Operation and installation manual
Terra 94/104/124/184 UL
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Summary of Contents for ABB Terra 94 UL

  • Page 1 Operation and installation manual Terra 94/104/124/184 UL © Copyright ABB. All rights reserved...
  • Page 2 Copyright All rights to copyrights, registered trademarks, and trademarks reside with their respective owners. ® Copyright ABB EV Infrastructure. All rights reserved. BCM.S1103.0-EN | 001...

  • Page 3: Table Of Contents

    Contents Contents About this document................8 Function of this document...................... 8 Target group..........................8 Revision history..........................8 Language.............................8 Illustrations..........................8 Units of measurement......................8 Typographical conventions..................... 9 How to use this document...................... 9 General symbols and signal words..................9 1.10 Special symbols for warnings and dangers............... 10 1.11 Related documents.........................
  • Page 4 Contents External residual-current device...................26 2.10 Description of the touchscreen.................... 27 2.10.1 General description of the layout................ 27 2.10.2 General description of the buttons..............27 2.11 Local service portal......................... 28 2.11.1 General description of the pages................ 28 2.11.2 General description of the buttons..............28 2.12 Cloud service portal........................
  • Page 5 Contents 5.3.2 Prepare a casted foundation................42 5.3.3 Prepare a standard prefab foundation.............. 42 Mechanical installation......................42 5.4.1 Mechanical installation procedure..............42 5.4.2 Open the cable inlet and remove the cable gland..........43 5.4.3 Guide the cables through the opening in the cable guide plate....43 5.4.4 Install the cabinet on the foundation..............
  • Page 6 Contents Access to parts..................60 Open the doors........................60 Close the doors........................60 Remove the border covers..................... 61 Install the border covers......................61 Troubleshooting................63 Troubleshooting procedure....................63 Troubleshooting table......................63 Technical data................... 64 10.1 EVSE type..........................64 10.2 General specifications......................65 10.3 Parts included in the delivery....................65 10.4 Required tools for installation....................66 10.5...
  • Page 7 Contents 10.18.3 Terra 104........................78 10.18.4 Terra 124........................82 10.18.5 Terra 184........................86 10.19 Power consumption........................90 10.20 In-rush current..........................91 BCM.S1103.0-EN | 001...

  • Page 8: About This Document

    About this document About this document Function of this document The document is only applicable for this EVSE (Terra x4), including the variants and options listed in section 10.1. The document gives the information that is necessary to do these tasks: •...

  • Page 9: Typographical Conventions

    About this document Typographical conventions The lists and steps in procedures have numbers (123) or letters (abc) if the sequence is important. How to use this document 1. Make sure that you know the structure and contents of this document. 2.

  • Page 10: Special Symbols For Warnings And Dangers

    About this document Signal word Description Symbol Make sure that the power supply to the EVSE is disconnected. Electrotechnical expertise is required, according to the local rules. Alternating current supply Note: It is possible that not all symbols or signal words are present in this document.

  • Page 11: Manufacturer And Contact Data

    800 Hymus Boulevard Saint-Laurent AZ 85284 Qc, H4S 0B5 Canada Phone: 800-435-7365 E-mail: CA-evci@us.abb.com Contact data ABB EV Infrastructure in your country can give you support on the EVSE. You can find the contact data here: https://new.abb.com/ev-charging 1.13 Abbreviations Abbreviation Definition...

  • Page 12: Terminology

    1.14 Terminology Term Definition Network operating center Facility of the manufacturer to do a remote check on of ABB EV Infrastructure the correct operation of the EVSE Cabinet Enclosure of the EVSE, including the components on the inside Cable slack...

  • Page 13: Orientation Agreements

    About this document 1.15 Orientation agreements Front side: face forward to the X-direction (positive is to the right) EVSE during normal use Y-direction (positive is rearward) Left side Z-direction (positive is upward) Right side Rear side BCM.S1103.0-EN | 001...

  • Page 14: Description

    Max xxxA DC Output 2 CHAdeMO xxx-xxxV Max xxxA George Hintzenweg 81, 3068 AX Rotterdam, IP54 The Nederlands MADE IN ITALY www.abb.com Manufacturer EVSE rating Serial number Address of the manufacturer Part number of the EVSE CE mark Production date...
  • Page 15 Description Danger: General risk • If you use the EVSE in any other way than described in the related documents, you can cause death, injury and damage. • Use the EVSE only as intended. BCM.S1103.0-EN | 001...

  • Page 16: Working Principles

    Description Working principles 2.3.1 Terra x4 variants CC and CJ BCM.S1103.0-EN | 001...
  • Page 17 Description Main fuse Interlink contactor AC EMC filter AC SPD AC contactor RCD breaker Residual current device Auxiliary transformer Power module matrix Auxiliary breaker 30kW power module Heater DC Filter Power supply unit DC relay DC EMC filter DC fuse DC cooling fans Overcurrent board CCB board...

  • Page 18: Terra X4 Variant C

    Description 2.3.2 Terra x4 variant C BCM.S1103.0-EN | 001...

  • Page 19: Overview

    Description Main fuse Interlink contactor AC EMC filter AC SPD AC contactor RCD breaker Residual current device Auxiliary transformer Power module matrix Auxiliary breaker 30kW power module Heater DC Filter Power supply unit DC relay DC EMC filter DC fuse DC cooling fans Overcurrent board CCB board...

  • Page 20: Overview Of The Evse, Outside

    Description Part Function The EV of which the batteries need to be charged EVSE Refer to section 10.1. Parking space Location for the EV during the charge session AC input cable To supply the electrical energy to the EVSE Power distribution board To connect the EVSE to the AC grid input EV charge cable To conduct the charge from the EVSE to the EV...

  • Page 21: Overview Of The Evse, Inside

    Description Part Function Border cover To cover the lower part of the EVSE EV charge cable outlet and To connect and hold the EV charge cable. Refer to sec- holder tion 2.7. RFID reader To read the information from an RFID card Payment terminal To pay for the charge session Emergency stop button...

  • Page 22: Authorization To Charge

    The touchscreen guides the user how to use the payment terminal. Note: • To use and adjust the settings of the payment terminal, you require the ABB Payment Web tool. Options 2.7.1 EV charge cable, CCS 1 The manufacturer can deliver the EVSE with CCS 1 connectors on the EV charge cables.

  • Page 23: Ev Charge Cable, Ccs 2

    CCV (for the European market) and from Nayax (for the North American market). If you need more information about different options for payment terminals, ask ABB EV Infrastructure. 2.7.5 Cable management system The manufacturer can deliver the EVSE with a cable management system.

  • Page 24: Power Allocation Strategies

    Description Power allocation strategies The configuration of the EVSE allows for different power allocation strategies. You must select one of the power allocation strategies before the manufacturer starts the commissioning procedure. 2.8.1 Sequential charge 100% - 0% 0% -100% Outlet 1 OR 2 always charges at up to 100% of the charger power. The two outlets are available.

  • Page 25: Dynamic Charge, First In First Served

    Description 2.8.3 Dynamic charge, First In First Served 100% - 0% 50% - 50% If EV-1 can charge at more than 50 %, the EVSE allocates all the power to that EV. Outlet 2 is not available during the charging session. The power allocation is reset only when the charge session is finalized.

  • Page 26: External Residual-Current Device

    Description • Terra 104 • Terra 124 • Terra 184 External residual-current device The manufacturer does not supply an external residual-current device. If an external residual-current device is required because of local rules, this section helps you to select the correct device. Situation: the local rules require an immunity for short current peaks over PE during the EV charging process At the start of the EV charge cycle, a relay switches and engages the AC input power...

  • Page 27: Description Of The Touchscreen

    Description 2.10 Description of the touchscreen 2.10.1 General description of the layout Company logo Touchscreen control bar Main display area Available connectors on the EVSE 2.10.2 General description of the buttons Button Name Description Connector To select the connector. • X = Charge power •...

  • Page 28: Local Service Portal

    Description Button Name Description Start To start the charge ses- sion Stop To stop the charge ses- sion 2.11 Local service portal 2.11.1 General description of the pages Screen name Function Status page To give an overview of the boards in the EVSE: •...

  • Page 29: Cloud Service Portal

    Description Button Description Toggle To select an option Set OCPP parameters To confirm the parameters for the configuration set- tings that you entered 2.12 Cloud service portal 2.12.1 General description of the layout (content is AC to use as canvas for input) Xxxxxxx Xxxxxxxxx Xxxxxxx...

  • Page 30: General Description Of The Menus

    Description 2.12.2 General description of the menus Menu Description Overview Station group User management Order details Financial center BCM.S1103.0-EN | 001...

  • Page 31: Safety

    Safety Safety Liability The manufacturer is not liable to the purchaser of the EVSE or to third parties for damages, losses, costs or expenses incurred by the purchaser or third parties if any target group mentioned in the related documents does not obey the rules below: •...

  • Page 32: Required Qualifications For The Installation Engineer

    Safety • To know and implement the local rules • To identify the hazards (in terms of a risk assessment), resulting from the working conditions on the site • To operate the EVSE with the protective devices installed • To make sure that all protective devices are installed after installation or maintenance work •...

  • Page 33: Safety Instructions During Installation

    Safety Safety instructions during installation Preliminary requirements • Installation engineer • Make sure that there is no voltage on the AC input cables during the complete installation procedure. • Keep unqualified personnel at a safe distance during installation. • Only use electrical wires of sufficient gauge and insulation to handle the rated current and voltage demand.

  • Page 34: Safety Instructions For Use

    Safety • Make sure that the EVSE is connected to a grounded, metal, permanent wiring system, or an equipment-grounding conductor must be run with the circuit conductors and connected to the equipment grounding terminal or lead on the product. • Make sure that the connections to the EVSE comply with all applicable local rules.

  • Page 35: Discard The Evse Or Parts Of The Evse

    ABB Ltd and its affiliates are not liable for damages and/or losses related to such security breaches, any unauthorized access, interference, intrusion, leakage and/or theft of data or information.

  • Page 36: Inspection And Transport

    Inspection and transport Inspection and transport Transport the EVSE to the site A transport company delivers the EVSE close to the site. The movement of the EVSE to its final location is your responsibility. • If you need to store the EVSE before installation, obey the ambient conditions for storage.

  • Page 37: Remove The Cabinet From The Pallet

    Inspection and transport Procedure 1. Do a check on the sensors (A) that record the shocks during transport. TiltWatch PLUS 2. Do a check on the sensors (B) that record the maximum tilt during transport. 3. If the sensors (A) show a red ShockWatch indication or the sensors (B) show a tilt that is too high, do these steps:...

  • Page 38: Move The Cabinet With A Forklift Truck

    Inspection and transport Installation engineer • Swivel eye bolts or bolts with lifting loops. Refer to section 10.5. Warning: Risk of pinching or crushing, the cabinet is heavy • Make sure that the hoisting equipment can lift the cabinet safely. Obey the safety instructions that apply to the hoisting equipment.
  • Page 39 Inspection and transport Procedure 1. Move the forks (A) of the forklift truck in the gaps at the side of the cabinet. 2. Move the cabinet to the correct location. BCM.S1103.0-EN | 001...

  • Page 40: Installation

    Installation Installation General installation procedure Preliminary requirements All required permits to • Tools for installation. Refer agree with the local rules, to section 10.4. are granted. The AC input cable is available. • There is no voltage on the AC input cable during the complete installation procedure.

  • Page 41: Control The Space And Airflow Around The Cabinet

    Installation 4. Prepare the cables: • AC input cable. Refer to section 10.17. • PE wire. The diameter depends on the length, method of installation and other factors. Make sure that the PE wire agrees with the safety instructions. Refer to section 3.8. •...

  • Page 42: Prepare A Casted Foundation

    Installation 5.3.2 Prepare a casted foundation Preliminary requirements • Casted foundation. Refer to section 10.15.5. Procedure 1. Make the casted foundation. 2. Route the cables through the opening in the foundation. Apply the full cable slack. 5.3.3 Prepare a standard prefab foundation Preliminary requirements Installation engineer •...

  • Page 43: Open The Cable Inlet And Remove The Cable Gland

    Installation Procedure 1. Open the cable inlet and remove the cable gland. Refer to section 5.4.2. 2. Guide the cables through the openings in the cable guide plate. Refer to section 5.4.3. 3. Install these parts: 1. Cabinet on the foundation. Refer to section 5.4.4. 2.

  • Page 44: Install The Cabinet On The Foundation

    Installation Procedure 1. If it is necessary, install the cable gland (A) over the Ethernet cable (B). 2. Guide the wires (C) of the AC input cable, the PE wire and the earthing conductor for the enclosure through the cable inlet. 3.

  • Page 45: Connect The Pe Wire

    Installation Procedure 1. Open the front and right doors. Refer to section 8.1. 2. Connect the PE wire. Refer to section 5.5.2. 3. Connect the enclosure to the earth. Refer to section 5.5.3. 4. Connect the wires of the AC input cable. Refer to section 5.5.4. 5.

  • Page 46: Connect The Wires Of The Ac Input Cable

    Installation • Wire end rings and fasteners. Refer to section 10.5. Procedure 1. Connect the earthing conductor (B) to the pin (A) of the enclosure. 2. Connect the earthing conductor to the earthing electrode (C). 5.5.4 Connect the wires of the AC input cable Preliminary requirements The front and right doors •...

  • Page 47: Connect The Ethernet Cable

    Installation Procedure 1. Prepare the wires: a. Cut the wires (A), (B) and (C) so that the wires can reach the connectors on the AC fuse (D). b. Strip the insulation from the end of the wires. Make sure that the strip length agrees with the wire end rings.

  • Page 48: Prepare For Commissioning

    Installation Prepare for commissioning Preliminary requirements Installation engineer Danger: Hazardous voltage • Do not commission the EVSE. Only a service engineer of the manufacturer is qualified to commission the EVSE. Procedure 1. Tell the owner that the EVSE is ready for commissioning. 2.

  • Page 49: Operation

    Operation Operation Prepare before use Preliminary requirements Owner Procedure 1. Make sure that the EVSE is installed according to the instructions in this manual. 2. Make an emergency plan that instructs people what to do in case of an emergency. 3.

  • Page 50: Reset The Evse After An Emergency

    Operation Reset the EVSE after an emergency Preliminary requirements Owner Procedure 1. Make sure that the situation is safe again. 2. Turn the emergency button clockwise to release it. • The EVSE starts. • The message disappears from the touchscreen. •...

  • Page 51: Stop A Charge Session

    Operation 6.4.3 Stop a charge session Preliminary requirements Owner Procedure stop button. 1. On the touchscreen, press the Note: When the battery is full, the charge session stops automatically. 2. If the touchscreen shows a message to authorize the charge session, do the instruction that the touchscreen shows.

  • Page 52: Measure The Ac Voltage

    Operation Procedure 1. Set the upstream breaker which provide the power to this EVSE to OFF and lock it. Make sure that this breaker stays in the OFF position during the procedure. 2. Open the front door and the right door. Refer to section 8.1. 3.

  • Page 53: Remove Condensation From The Cabinet

    Operation Procedure 1. Measure the DC voltage between the output terminals: • Power module group output 1- (A) to power module group output 1+ • Power module group output 2- (C) to power module group output 2+ • EV charge cable 1 output - (E) to EV charge cable 1 output + (F) •...

  • Page 54: Local Service Portal

    Operation Local service portal 6.8.1 Start the local service portal 1. Open the front door of the EVSE. Refer to section 8.1. The HMI starts the local service portal application. The outside HMI goes into idle mode. On the inside HMI, the authorization screen shows. 2.
  • Page 55 Operation 3. If the local service does not close automatically, select the Trigger Discovery button. 4. Close the front door of the EVSE. Refer to secion 8.2. BCM.S1103.0-EN | 001...

  • Page 56: Maintenance And Cleaning

    Maintenance and cleaning Maintenance and cleaning Maintenance schedule Task Frequency Procedure Clean the cabinet. 4 months Refer to section 7.2. Do a check for damage on 3 months Refer to section 7.3. the EV charge cables and the connectors. Do a check for damage on 6 months Refer to section 7.3.

  • Page 57: Do A Check On The Cabinet

    Maintenance and cleaning 3. Manually remove dirt. Use the non-abrasive tool. Caution: Do not use abrasive tools. 4. Rinse with low-pressure tap water. 5. If necessary, apply wax on the front for extra protection and gloss. 6. If there was rust and you want it not to appear again, apply a rust-preventive primer.

  • Page 58: Replace The Air Outlet Filter

    Maintenance and cleaning Procedure 1. De-energize the EVSE. Refer to section 6.6. 2. Open the left and right doors. Refer to section 8.1. 3. Loosen the nuts (A). Use the spanner. 4. Carefully remove theses parts: 1. Cover (B) 2. Air inlet filter (C) Caution: Prevent contamination of other parts of the EVSE.
  • Page 59 Maintenance and cleaning 5. Carefully pull and remove the outlet filter (C). Caution: Prevent contamination of other parts of the EVSE. Make sure that contamination on the filter does not come off. 6. Install the new air outlet filter. Make sure that the air flow direction that is indicated on the air outlet filter corresponds with the air flow.

  • Page 60: Access To Parts

    Access to parts Access to parts Open the doors Preliminary requirements Installation engineer • Door key Owner Danger: Hazardous voltage • Make sure that only qualified persons have access to the door key. Note: There is one unique door key for each cabinet. Procedure 1.

  • Page 61: Remove The Border Covers

    Access to parts Note: There is one unique door key for each cabinet. Procedure 1. If the left or right doors (A) are open, close the doors through the opening of the front door. 2. Close the front door (B). 3.
  • Page 62 Access to parts Procedure 1. Install these parts: 1. Border covers (A) 2. Fasteners (B) BCM.S1103.0-EN | 001...

  • Page 63: Troubleshooting

    Troubleshooting Troubleshooting Troubleshooting procedure 1. Try to find a solution for the problem with the aid of the information in this document. 2. If you cannot find a solution for the problem, contact your local representative of the manufacturer. Refer to section 1.12. Troubleshooting table Problem Possible cause...

  • Page 64: Technical Data

    Technical data Technical data 10.1 EVSE type The EVSE type is a code. The code is has 7 parts: Q R S T U V W Code part Description Value Meaning of the value Brand Terra Model and design gen- Fourth generation charger, 90 kW eration DC output: 3 power modules in-...

  • Page 65: General Specifications

    Technical data 10.2 General specifications Parameter Specification Compliance and safety UL 2202:2009 R2.18 CSA STD C22.2 No 107.1-16 FCC Part 15 Class A FCC Part 22, FCC Part 27 RSS-132 Issue 3, RSS-139 Issue 3, RSS-199 Issue 6 CHAdeMO 1.2 IP rating The type plate shows the specification.

  • Page 66: Required Tools For Installation

    Technical data 10.4 Required tools for installation Parameter Specification [mm] [in] Philips screwdriver Size: PH2 Size: PH2 Slot screwdriver Size: 2.5 and 4.5 Size: 0.1 and 0.18 Hex keys Size: 5, 5.5 and 6 Size: 0.2, 0.22 and 0.24 Torx screwdriver Size: 15, 20 and 25 Size: 0.59, 0.79 and 0.98 Torx angled or bit with...

  • Page 67: Torque Specifications

    Technical data 10.6 Torque specifications Parameter Specification [Nm] [Nm] [lb-in] Fasteners for the PE wire Between 33 and 44 Between 292 and Fasteners for the L1, L2, L3 and neutral Between 33 and 44 Between 292 and wire 10.7 Maintenance schedule for the service engineer Part name Years after startup 10 11 12 13 14 15...

  • Page 68: Mass

    Technical data Parameter Specification SI units Imperial units Maximum altitude above sea level 2500 m 8200 ft Temperature derating From 40°C From 104°F 4% power reduc- 4% power reduc- tion for every 1°C tion for every 33.8°F 10.9 Mass Parameter Specification [kg] Terra 94 Terra 104/124...

  • Page 69: Cleaning Specifications

    Technical data Part Name Quantity DC fuse 500 A 1 x Terra x4 C DC fuse 600 A (for HC version) 2 x Terra x4 CC/CJ/JJ CPI Combo CCS 1 x Terra x4 C/CJ 2 x Terra x4 CC CPI CHAdeMO 1 x Terra x4 CJ 2 x Terra x4 JJ Touchscreen/CPU...

  • Page 70: Cable Slack

    Technical data Parameter Specification [mm] [in] Height of the cabinet (Z-dimension) 1900 74.8 Maximum opening size of the cable inlet 206 x 30 8.1 x 1.2 Parameter Specification [ft] Length of the charge cable (air-cooled) 10.15.2 Cable slack Parameter Specification [mm] [in] Required cable slack for the Ethernet ca-...

  • Page 71: Prefab Foundation

    Technical data Cabinet Total depth Total width Space to open the front door Space for air inlet and to open the Space for air outlet left and right doors Parameter Specification [mm] [in] 1550 1460 57.5 23.6 10.15.4 Prefab foundation Foundation Width of the hole Hole for the foundation...

  • Page 72: Casted Foundation

    Technical data Parameter Specification [mm] [in] 23.0 10.15.5 Casted foundation Holes to install the fasteners of the Hole for the cables EVSE Parameter Specification [mm] [in] M10, depth 60 M10, depth 2.4 100 x 250 3.9 x 9.8 14.9 25.5 12.8 BCM.S1103.0-EN | 001...

  • Page 73: Communication Interface Specifications

    Technical data 10.16 Communication interface specifications General specifications Parameter Specification RFID standard ISO 14443 A+ B to part 4 and ISO/IEC 15693 RFID-supported applications Mifare, NFC, Calypso, Ultralight, Pay- Pass, HID. For information about the op- tions, contact the manufacturer. Network connection 3G/4G modem 10/100 Base-T Ethernet Ethernet cable...

  • Page 74: Ac Input Cable

    Technical data The EVSE must be wired with a WYE input, as shown in the diagram. No neutral wire must be connected to the input. 10.17.2 AC input cable Parameter Specification Cable shielding (optional) If the local rules require shielded cables, the cable shielding must be connected to the PE rail at both ends of the cable.

  • Page 75: Terra 104

    Technical data Parameter Specification Short circuit current rating 65 kA Suggested single phase wire cross-sec- Copper : xxx mm (yyy in tion Aluminium: xxx mm (yyy in Note: Power limiting options are available. Ask the manufacturer. 10.17.4 Terra 104 Parameter Specification Maximum rated input current 130 A...

  • Page 76: Dc Output Specifications

    Technical data Note: Power limiting options are available. Ask the manufacturer. 10.18 DC output specifications 10.18.1 General specifications Parameter Specification DC output voltage range, CCS 150-920 V DC DC output voltage range, CHAdeMO 150-500 V DC (In Japan 150-450 V DC) Minimum DC output current 15 A Connection standard...
  • Page 77 Technical data Output current in function of output voltage 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (300A) Charger Capacity Voltage [V] Current [A] Power [kW] BCM.S1103.0-EN | 001...

  • Page 78: Terra 104

    Technical data Output power in function of output voltage 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (300A) CCS (200 A), CHAdeMO (200 A) CCS High Current (300 A) Current [A] Power [kW] Current [A] Power [kW] 10.18.3 Terra 104 Parameter...
  • Page 79 Technical data Note: • You can upgrade the EVSE to deliver 120 or 180 kW. • You can install a different EV charge cable to increase the output current, up to a maximum of 400 A on CCS. Output current in function of output voltage (one charge session) 1000 output voltage (V) CCS (200A) / CHAdeMO (200A)
  • Page 80 Technical data Output power in function of output voltage (one charge session) 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (Peak 400A) CCS (200 A), CHAdeMO (200 A) CCS High Current Peak (400 A) Current [A] Power [kW] Current [A] Power [kW]...
  • Page 81 Technical data Output current in function of output voltage (two charge sessions) 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (Peak 400A) Charger Capacity Voltage [V] Current [A] Power [kW] BCM.S1103.0-EN | 001...

  • Page 82: Terra 124

    Technical data Output power in function of output voltage (two charge sessions) 900 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (Peak 400A) CCS (200 A), CHAdeMO (200 A) CCS High Current Peak (400 A) Current [A] Power [kW] Current [A] Power [kW]...
  • Page 83 Technical data Note: • You can upgrade the EVSE to deliver 120 or 180 kW. • You can install a different EV charge cable to increase the output current, up to a maximum of 400 A on CCS. Output current in function of output voltage (one charge session) 1000 output voltage (V) CCS (200A) / CHAdeMO (200A)
  • Page 84 Technical data Output power in function of output voltage (one charge session) 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (Peak 400A) CCS (200 A), CHAdeMO (200 A) CCS High Current Peak (400 A) Current [A] Power [kW] Current [A] Power [kW]...
  • Page 85 Technical data Output current in function of output voltage (two charge sessions) 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (Peak 400A) Charger Capacity Voltage [V] Current [A] P [kW] BCM.S1103.0-EN | 001...

  • Page 86: Terra 184

    Technical data Output power in function of output voltage (two charge sessions) 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (Peak 400A) CCS (200 A), CHAdeMO (200 A) CCS High Current Peak (400 A) Current [A] Power [kW] Current [A] Power [kW]...
  • Page 87 Technical data Note: • You can install a different EV charge cable to increase the output current. The maximum output current on CCS is 400 A. Output current in function of output voltage (one charge session) 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (Peak 400A) Charger Capacity...
  • Page 88 Technical data Output power in function of output voltage (one charge session) 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (Peak 400A) CCS (200 A), CHAdeMO (200 A) CCS High Current (Peak 400A) Current [A] Power [kW] Current [A] Power [kW] BCM.S1103.0-EN | 001...
  • Page 89 Technical data Output current in function of output voltage (two charge sessions) 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (Peak 400A) Charger Capacity Voltage [V] Current [A] Power [kW] BCM.S1103.0-EN | 001...

  • Page 90: Power Consumption

    Technical data Output power in function of output voltage (two charge sessions) 1000 output voltage (V) CCS (200A) / CHAdeMO (200A) CCS High Current (Peak 400A) CCS (200 A), CHAdeMO (200 A) CCS High Current (Peak 400A) Current [A] Power [kW] Current [A] Power [kW] 97,83...

  • Page 91: In-Rush Current

    Technical data Power consumption during operation Parameter Specification [kVA] Terra 94 Terra 104/124 Terra 184 10.8 10.20 In-rush current Current peaks during the start of a charge session Parameter Specification [µs] Duration of the current peaks Maximum current peak (400V & 50 Hz) Parameter Specification [A] Terra 94...

This manual is also suitable for:

Terra 104 ulTerra 124 ulTerra 184 ul

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