Industrial Inverter

Description

Hannibal Industrial Inverters provide efficient and reliable DC to AC power conversion for critical loads in manufacturing, power generation, and data centers. Designed for 3-phase industrial use, they feature IGBT inverter bridges with PWM, galvanic isolation for safety, and low harmonic distortion (<3%) for clean sine wave output. Built to handle high-capacity loads with consistent performance, and are ideal for demanding and harsh environments.

Options

Automatic precharge of capacitors
AC distribution
Inverter oversizing

Bypass transformer (H class)(3)
Bypass stabilizer (servo-controlled)
Backfeed protection (standard option)

Inverter with or without bypass line
Parallel con gurations
Earth fault detection or monitoring
Internal lighting
Anti-condensation heater
Cabinet temperature monitor

Bypass isolators(s)
Bypass transformer (H class)
Bypass stabilizer (servo-controlled)
Backfeed protection
Surge and/or lightning protections

External ingress protection up to IP42
Top cable entry
Specified color of panels
Special feet height (200mm or 300mm)
Special keylock
Non-magnetic gland plate (brass or aluminum)
Lifting eyes
Specified cabinet identification (tag, nameplate)
Anti-seismic design on demand

Front panel analogue meters (72×72, class 1.5 or class 1)
Transducers 4-20mA
Additional volt-free contacts, 5 in standard, up to 20 in option
Modbus RTU (RS232 or RS485)
Modbus / TCP
Pro bus
IEC61850 protocol
PPV is monitoring software
Mimic panel on front:
– Passive mimic of the system
– Active mimic with integrated LEDs Lamp indicators on
front panel (22 mm diameter)

details

Hannibal Industrial

Industrial-Inverter.pdf

Monitoring Software

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MAC
Linux

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product overview

In the dynamic world of industrial applications, Hannibal industrial
inverters stand out as essential components for converting direct current (DC) into reliable alternating current (AC). Designed to manage high power loads, they are integral to manufacturing, Power generation, and large-scale data centers.
Experience enhanced energy efficiency and operational continuity with our advanced inverters, featuring remote monitoring, fault diagnosis, and automated control. Their robust design ensures stability in fluctuating conditions, making them indispensable for your industrial systems.

Unrivalled adaptability to existing site conditions, thansk to the wide input DC voltage range:

Comptatibility with any battery configuration already installed on site
Optimum operation with DC bus having a wide voltage excursion

Technical and budgetary optimization of the battery

On greenfield or brownfield projects where battery may represent an important part of the system total price, the wide input

DC voltage range allows:

Optimization of the number of battery cells as per the input tolerance of the loads to be secured.
Optimizatin of the battery capacity and therefore the price, as per the required autonomy

Smart access to inverter data

User interface with large, colour touchscreen,
Embedded event logger (up to 2000 events) and capability to export recorded events via USB stick.

Easy maintenance and serviceability:

full front access for easy maintenance and a very low mean time to repair (MTTR),achieving the highest possible availability.

Features

Reliability: Unique design which allows the UPS to continuously operate for at least 20 years at full load at 40 °C.
Robust mechanical design: thesystem withstands vertical and horizontal acceleration stress tests 0.5g as standard
Galvanic isolation: output transformer is included as standard
Remote monitoring solutions: Modbus, Profibus, Ethernet, IEC61850, volt-free contact, monitoring software

Hannibal inverter converts a DC input voltage (from batteries or from a DC bus) into a perfect sinusoidal output voltage to provide power to critical AC loads.

It uses the patented digital Vector Control technology which increases the performances of power components, enables an active conditioning of the loadand allows personalized system settings. The result is improved reliability for the process and enhanced safety for the personnel.

Hannibal range offers a wide choice of DC input voltages (from 110 Vdc to 240 Vdc) and of output voltages. It is available from 5 kVA to 250 kVA in single-phase output configuration, and from 5 kVA to 320 kVA in three-phase output configuraiton.

Hannibal inverter is also available with 400 Vdc input. To further improve load availability and process reliability, Hannibal is able to operate in dual parallel configuration, with centralized or distributed reserve line, and can include an AC bus-tie.

technical

details

Input

Technical Data	Ratings
AC Bypass Voltage	1 x 230 V (220, 240) ; 1 x 110 V (115, 120) ; 3 x 400 V (380, 415) ; 3 x 220 V (200, 208, 230)
DC voltage	24/48/110/125/220/384 VDC

output

Technical Data	Ratings
AC Voltage- Single phase	1 x 230 V (220, 240) ; 1 x 110 V (115, 120)
AC Voltage- Three phase	3 x 400 V (380, 415) ; 3 x 220 V (200, 208, 230)
Frequency	50 Hz (60 Hz)
Frequency stability- With internal oscillator	+/- 0.05 %
Frequency stability- With reserve synchronism	+/- 3 % (from 1 to 5 % adjustable)
Voltage stability (for 0 to 100 % load variation) – Static	+/-1 % (+/-2 % for parallel systems)
Voltage stability (for 0 to 100 % load variation) – Dynamic	VFI SS 11 as per IEC/EN 62040-3:2021, class 1
Inverter overload capability – 1 minute	150 % of nominal power
Inverter overload capability – 10 minutes	125 % of nominal power
Short-circuit clearance (in % of nominal current) – 1-ph output Ph-N	250 % / 100ms – 180% / 5s
Short-circuit clearance (in % of nominal current) – 3-ph output Ph-N(ik1)	315 % / 100 ms – 220 % / 5s
Short-circuit clearance (in % of nominal current) – 3-ph output Ph-N(ik2)	190 % / 100 ms – 135 % / 5s
Short-circuit clearance (in % of nominal current) – 3-ph output Ph-N(ik3)	225 % / 100 ms – 135% / 5 s
Harmonic voltage distorsion- With 100 % linear load	< 3 %
Harmonic voltage distorsion- With 100 % non-linear load	SS as per IEC/EN 62040-3
Allowable power factor	0,5 lagging to 0,5 leading
Allowable crest factor	Up to 3/1

Standards

Technical Data	Ratings
IEC62040-1:2017 +AMD1:2013	Uninterruptible power systems (UPS) – Part 1-2: General and safety requirements for UPS in restricted access locations
IEC62040-2:2016	Uninterruptible power systems (UPS) – Part 2: Electromagnetic compatibility (EMC) requirements
IEC62040-3:2017	Uninterruptible power systems (UPS) – Part 3: Method of specifying the performance and test requirements
IEC61439-1:2011	Low voltage switchgear and controlgear assemblies – Part 1: General rules
IEC60529:1989 +AMD1:1999	Degrees of protection provided by enclosures (IP Code)
IEC60076-11:2004	Power transformers – Part 11: Dry type transformers

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Standards

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