Hochspannungs-Batterieemulator? 9300-Serie

Modular, Regenerative Battery Pack Emulator with Power Range from 100kW up to 2.4MW

Eigenschaften

  • Breiter Betriebsbereich mit 100 kW pro Gehäuse
  • Bidirektionale Gleichstromquelle, skalierbar auf 2,4 MW / 8000 A
  • Regenerativer Wirkungsgrad der an das Wechselstromnetz zurückgesendeten Entladungsleistung größer als 90%
  • Eingebaute digitale Messungen mit Diagramm- und Zielfernrohranzeigen
  • Current, Voltage & Mode transitions in <2 mSec
  • Batterie-Emulationsmodus
  • Touch Panel, LabVIEW® & IVI-Treiber
  • Enerchron® Test Executive
Hochspannungsbatterietestsystem der Serie 9300 - NH Research, Inc.

Anwendungen

NHR?s 9300 high voltage battery emulator, or simulator, includes power ranges from 100kW up to 2.4MW. This innovative battery emulator addresses the higher voltage and higher power battery test requirements for electric vehicles, renewable energy storage, solar PV inverters, aerospace and other critical power industries.

NHR?s 9300 battery pack battery emulator is highly configurable and provides dual voltage ranges of 600V or 1,200V. It can be paralleled up to 24 building blocks to get 2.4MW of power and up to 8,000A of current. Key differentiating features from other battery emulators, or simulators on the market include high accuracy, modular and scalable power, safety and ease of use.

The High-Voltage Battery Emulator (9300 Series) is a fast-acting, fully programmable, and bi-directional DC source (charge) that provides reversible current flow in order to act as a regenerative DC load (discharge). Both modes support any combination of constant power, constant voltage, and constant-current regulation limits.

Vorteile

  • Entwickelt zum Testen und Emulieren aller Batteriechemikalien
    - Automatische Energieintegration (vollständiger und halber Zyklus)
    ? Mehrere Sicherheitsschichten zum Schutz des Prüflings
  • Batterie-Emulation In Hardware (OCV & Serienwiderstand) Software-Tools zur Verkürzung der Testentwicklungszeit
    - PC-basierte Softpanel-Benutzeroberfläche mit Diagramm
    - Mitgelieferte LabVIEW- und IVI-C / IVI-COM-Treiber
    - Optional: Enerchron® Testsequenzer

Leistungen

  • Regenerativ: Gibt mehr als 901 TP1 Strom an die Anlage zurück, wodurch erhebliche elektrische Einsparungen erzielt werden.
  • Doppelbereich: 1200 V / 167 A & 600 V / 333 A bei 100 kW
  • Das modulare Design ermöglicht eine Felderweiterung auf bis zu 2,4 MW / 8000 A
  • Sicher simulieren und emulieren? Reale Welt? Bedingungen
    - Schnelle Spannungs-, Strom- und Modusübergangszeiten
    - Emulieren Sie sicher über / unter geladene Batterien
    - Emulieren Sie sicher BMS & Batteriefehler

Spezifikationen des Hochspannungs-Batterietestsystems der Serie 9300

Modell # 9300-100 9300-200 9300-300 9300-400 9300-500 9300-600
Bewertung 100 kW 200 kW 300 kW 400 kW 500 kW 600 kW
Maximaler Strom bei 600V 333A 666A 999A 1332A 1665A 1998A
Strom bei 1200V ± 167A ± 334A ± 501A ± 668A ± 835A ± 1002A
  9300-700 9300-800 9300-900 9300-1000 9300-1100 9300-1200
Bewertung 700 kW 800 kW 900 kW 1000 kW 1100 kW 1200 kW
Maximaler Strom bei 600V 2331A 2664A 2997A 3330A 3663A 3996A
Strom bei 1200V ± 1169A ± 1336A ± 1503A ± 1670A ± 1837A ± 2001A
Programmierfähigkeit
Betriebszustände Laden (Quelle), Entladen (Last), Standby, Batterieemulation
Lade- / Entlademodi Konstantspannung (CV), Strom (CC), Leistung (CP), Serienwiderstand (CR)
Ladehülle 0 - 600V/±333A, 0 -1200V/±167A
Umschlag entladen 30 - 600V/±333A, 60 - 1200V/±167A
Spannungsgenauigkeit 0.025% Set + 0.025% Range
Aktuelle Genauigkeit 0.1% Set + 0.1% Range
Anstiegsrate Same polarity 10 - 90%
Aktuelle Änderungszeit
Aktuelle Umkehrzeit
Parallelität Synchronsteuerung für bis zu 12 Kanäle (2,4 MW)
Makrotestprofile
Entwicklungsquelle Touch-Panel, Import aus Excel oder dem System-Controller des Benutzers
Max. Schritte 1000
Min.Time Delay 50µS
Max. Schrittverzögerung 1mS - 7 days
Körperlich
Größe (HxBxT) 78 x 28 x 39"/1981 x 711 x 991mm
Gewicht 544 kg
* Die obigen Spezifikationen zeigen typische Konfigurationen und können sich ändern. Weitere Informationen erhalten Sie von NH Research, Inc.

Downloads

Ressourcen

Datenblatt
App Hinweis: Die Grundlagen des Batterietests
Webinar: Get Your Battery Project Back On Track in 2021
Webinar: Battery Module/Pack Test Requirements
EV Powertrain - NH Research (NHR)

Testing Applications

Battery Emulation:

  • EV Powertrain, Avionics Propulsion Systems
  • DC Fast Charger
  • Power Conversion: DC/DC Converters, Inverters
  • On-board Charger, UPS, Power Distribution Unit (PDU)
  • Microgrid, ESS, PV Emulation

Battery Test:

  • EV/ESS Battery Module/Pack Test
  • Battery Characterization
  • Cycling, Life-cycle
  • Charge, Discharge
  • Fuel Cell Test-Module, Stack

Accurate Battery Emulation

Unlike other battery emulators on the market, NHR?s battery emulators have a built-in programmable series resistance with low-capacitance. Battery emulators with low output capacitance provide accurate simulation of series resistance effects, allowing the output voltage to adjust proportionally to changes in current. By comparison, many regenerative power supplies have high output capacitance to reduce noise output. This high output capacitance disrupts the series resistance models and actually negates the functionality of a programmable series resistance. As a result, high output capacitance can lead to inaccurate battery simulation.

For more information about battery emulation, see our Battery Emulators Seite.

Modular & Scalable Power

All NHR battery emulators are designed for fully independent operation and can be paralleled, increasing the maximum power and current capability to the level required. This modular expansion ensures that you can start testing today?s application levels, knowing that additional power is available in the future. Expansion of the 9300 system is as simple as adding an additional cabinet(s) to reach the desired power levels up to 2.4 MW.

Diagram of Scalable Power Provided by NH Research Battery Test Systems - NH Research (NHR)
Wide operating envelope means full power available from 300 V - 1,200 V

Breiter Betriebsumschlag

NHR?s 9300 Battery Emulators provide the flexibility to address today?s higher voltage levels, and modularity to expand for future requirements. Customers are able to simulate a wide range of battery power levels without having to change test equipment. New electric transportation architectures are now operating between 800/1000 VDC to enable faster DC charging. The 9300 has a dual power range that covers both lower (up to 600 V) and higher power (up to 1200 V) applications using a single product. Unlike custom built solutions, the 9300 provides maximum flexibility in voltage and power, providing full power from 300 V ? 1,200 V.

Schnelle Reaktionszeiten

NHR?s 9300 Battery Emulators provide the speed and performance to accurately emulate today?s technologies and tomorrow?s innovations. NHR?s 9300 provides fast hardware performance and software command response to respond to real world conditions.

Slow Response Time Diagram of Bi-directional DC Power Supply for Battery Test - NH Research (NHR)
Slow rise-time of typical DC supply
Fast Response Time Diagram of NHR Battery Test System - NH Research (NHR)
Sub-millisecond rise time of NHR

Verwandte Produkte

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