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TPS HV 80 E Lithium Storage System
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TPS HV 80 E

Compact in The Container

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Local container manufacturing in Wittenberg – Quality Made in Germany

Easy installation and commissioning

Suitable for outdoor use

Minimises noise levels

Saves space indoors

External location of fire loads

Lower operating costs due to external attachment of inverter

Designed for a life span of 30 years

Safe cell technology

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Product Video TPS HV 80 E

FLEXIBLE, HIGH PERFORMANCE, ECONOMICAL. AND SAFE

The mature technical quality of our new TPS HV 80 E battery storage system is already evident in the impressive framework and modular structure. But for a truly intelligent storage solution you need to choose the right energy management system, one that’s precisely aligned with your specific requirements. For greater options, for true freedom.

CUSTOMISATION OF THE ENERGY MANAGEMENT SYSTEM

For most standard applications such as self-consumption optimisation and peak shaving, the integrated SMA energy management system is all you need. For more demanding functions, greater control options and a much wider range of applications, you have the option of using the TESVOLT energy management system.

FROM STANDARD TO PROFESSIONAL

The energy management system is generally an integral component of the battery inverter. The SMA version for standard applications is already built in. With the TESVOLT energy management system you can choose from Basic or Pro versions – and there’s a system upgrade option if you change your mind later on. And with a much wider range of future-proof services, it’s a prudent investment in any case.

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OVERVIEW OF APPLICATION AREAS

TESVOLT energy management system

Free Basic Version

Self-Consumption Optimisation
Use more energy from renewable sources and minimise feed-in.

Physical Peak Shaving
Shave consumption peaks and minimise demand rate costs. The grid connection must be able to supply all loads.

Load Control
Consumption optimisation via active connection/disconnection of consumers depending on the energy generated.

Charging Station Control1
Smart control of a single charge (set) point and central controls via the TESVOLT Energy Manager.

Generation Control
Consumption optimisation via active connection/disconnection of generators depending on the energy generated in grid operation.

Zero Feed-In
VDE FNN-certified fulfilment of grid requirements for not feeding electricity into the utility grid.

Fee-based Pro version

Peak Shaving RLPM (registered load profile measurement)
A smart way of reducing consumption peaks at 15-minute intervals and making full use of storage systems.

Multi-Use
Simultaneous use of various applications (e.g. SCO & PS RLM, SCO & TOU, PS & TOU)

Charging Station Control1
Smart control of multiple charge (set) points and central controls via the TESVOLT Energy Manager.

Time of Use
Time-dependent use of energy features and services.

Forecast-Based Charging
Depending on the weather forecast, curtailment losses from photovoltaic installations are avoided and self-consumption is optimised.

Dynamic Electricty Tariffs
The drawing of power from the grid can be automatically deferred to time windows with cheap electricity prices.

SMA energy management system

Self-Consumption Optimisation

Physical Peak Shaving

Zero Feed-In

Generation Control

Peak Shaving RLM (registered load profile measurement)

Direct Marketer Interface

1) Additional costs for project planing a incurred for more than one charging station

The Basic version is included in the battery storage system at no additional cost. It includes all the energy service functions listed below. These can be combined under restrictions.

1. Restriction: only if PV and battery inverter each perform one energy service feature.

2. Restriction: the customer can combine a maximum of two energy services.

3. Restriction: the customer can only combine predefined energy services .

The Pro version can be added to the battery storage system at an additional annual cost of EUR 3/kW (battery inverter output). It includes all of the energy service features listed below as well as the Basic version. These features can be combined and enable various energy service strategies to be used.

Our digital services for partners: 24/7.

As a TESVOLT partner you benefit from the full range of digital services on our Partner Portal. With the service app, you have our support every step of the way: from project planning and design, configuration and ordering, right through to commissioning – any time, anywhere.

Go to the Partner Portal

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TECHNICAL DATA ENERGY STORAGE

Length of battery string (number of battery modules) 10 7
Energy content 80  kWh 56  kWh
Nominal voltage 810 V 567 V
Minimum operating voltage 726 V 508 V
Maximum operating voltage 913 V 639 V
Maximum charging/discharging current 100 A
Maximum C-Rate 0,6C 0,9C
Cell Lithium NMC prismatic (Samsung SDI)
Cell balancing DynamiX Battery Optimizer
Cycles expected @ 100% DoD | 70% SoH | 23°C +/-5°C 1C/1C 6,000
Cycles expected @ 100% DoD | 70% SoH | 23°C +/-5°C
0.5C/0.5C		 8,000
Efficiency (battery up to 98 %
Self-consumption (standby) 5 W (without battery inverter)
Cooling concept passive via fins and active via fans
Altitude of installation site < 2,000 m above sea level.
Operating temperature 0 °C to 50 °C
Ambient temperature 0 °C to 50 °C
Humidity 0 to 80 % (non-condensing)
Weight battery module 56 kg
Weight battery magament system (APU) 13 kg
Certificates/standards Cell IEC 62619, UL 1642, UN 38.3
Certificates/standards Battery module UN 38.3, IEC 62619:2017, IEC 62620:2014
Certificates/standards Product CE, UN 38.3, IEC 62619:2017, IEC 61010-1+A1:2016, IEC 61508:2010, IEC 61000-6-2:2016,
IEC 61000-6-4:2019, IEC 61000-6-7:2015, 2006/66/EG (Battery Directive)
Guarantee 10-year performance guarantee, 5-year system guarantee
Recycling TESVOLT offers a free take-back scheme for batteries from Germany
Protection class battery module IP 20
Degree of protection battery module II
Battery specification as per IEC 62620:2014 NP46/175/127/[1P22S]M/-20+60/90

TECHNICAL DATA STPS X 50

Nominal power (AC) 50 kVA
AC voltage range 340 V to 477 V
Grid frequency range 44 Hz to 66 Hz
DC voltage range 200 V ⎓ to 980 V ⎓
Dimensions (H x W x D) 873,3 x 772 x 443,8 mm
Max. efficiency/European efficiency 98%/97.2%
Self-consumption (standby) 25 W
Operating temperature - 25 to 60 °C (with derating)
Noise emission (typical) 69 dB (A)
Weight 104 kg
Protection class IP 65 | NEMA 4X
Communication Modbus (SMA, Sunspec), SMA Speedwire, Webconnect
Topology/cooling principle Three-phase/active
Guarantee 5 years standard SMA guarantee (optional: 10 years)
Certificates see SMA website for more: https://www.sma.de

Technical Data Container

Corrosion protection (paint) C3
Ambient temperature (air conditioning) -10 °C to 40 °C
Altitude of installation site < 2,000 m above sea level
Sizes [ft] 10 20
Dimensions (as delivered) H x W x D [mm] 2,896 x 2,439 x 3,786 2,896 x 2,439 x 7,013
Dimensions (after installation) H x W x D [mm] 2,896 x 3,450 x 3,786 2,896 x 3,450 x 7,013
Max. Number of storage systems 8 16
Max. energy content [kWh] 640 1,280
Included in standard scope of delivery Rack system, AC subdistribution, air conditioning, fi re alarm system
according to DIN 14675, rupture disk
Special equipment (optional) CSC certifi cation, available in other RAL colors, extended operating
temperature range, corrosion protection up to C4
Extended ambient temperature (air conditioning) (optional) - 35 °C to 40 °C

System Structure

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1. Battery storage system

The battery storage system stands as the pivotal component for seamlessly integrating renewable energies within the broader
system. It not only stores generated energy but also facilitates load balancing, ensures supply security, and drives cost reduction. Teamed up with the externally mounted inverters, it guarantees efficient energy supply through flexible conversion of DC and AC, alongside swift responses to grid fluctuations. The integrated energy management system (EMS) optimizes energy flow, orchestrates charging and discharging processes, and unlocks a multitude of versatile applications.

2. Portal

For efficient and transparent management of the energy balance and to ensure a customised energy supply, the portal allows users to monitor energy flows, track the system status and analyse energy consumers.

3. Energy resources

The wide range of energy resources within the system design, such as photovoltaics and wind power, generate the required electricity, which the battery storage system stores without environmental impact.

4. Utility grid

The utility grid acts as an additional back-up resource within the system for times when renewable energy production is low. In combination with a battery storage system, it actively relieves the pressure on the public utility grid and provides a reliable supply of electricity, particularly at peak load times.

5. Consumers

Every consumer has their own individual energy requirements. All system components are tailored to these requirements and work together to ensure a sustainable and cost-efficient supply.

Downloads

Installation manuals, certificates and manufacturer's declarations for the complete E-series can now be found in the protected area of our partner portal:

Click here to log in or register: Partner Portal

Datasheet TPS HV 80 E

Product Brochure TPS HV 80 E

Commercial Solutions Brochure

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