Victron energy 12 120V, 24 120V, Phoenix 12/3000/120V, Phoenix 24/3000/120V User Manual

Manual

EN

Appendix

Phoenix Inverter (with firmware xxxx1xx)

12 | 3000 | 120V
24 | 3000 | 120V

Copyrights  2007 Victron Energy B.V.

All Rights Reserved

This publication or parts thereof may not be reproduced in any form, by any method,
for any purpose.

For conditions of use and permission to use this manual for publication in other than
the English language, contact Victron Energy B.V.

VICTRON ENER GY B.V. MAKES NO WARRANTY, EITHER EXPRESSED O R
IMPLIED, INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTIES OF
MERCHANTABILITY OR FITNESS F OR A PARTI CULAR PURPOSE, REGARDING
THESE VICTRON ENERGY PRODUCTS AND MAKES SUCH VICTRON E NERGY
PRODUCTS AVAILABLE SOLELY ON AN “AS IS” BASIS.

IN NO EVENT SHALL VICTRON EN ER G Y B.V. BE LIABLE TO ANYONE FOR
SPECIAL, COLLATERAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES IN
CONNECTION WITH OR ARISING OUT OF PURCHASE OR USE OF THESE
VICTRON ENERGY PRODUCTS. THE SOLE AND EXCLUSI VE LIAB ILITY TO
VICTRON ENERGY B.V., REGARDLESS OF THE FORM OF ACTION, SHALL NOT
EXCEED THE PURCHASE PRICE OF THE VICTRON ENERGY PRODUCTS
DESCRIBED HERE IN.

Victron Energy B.V. reserves the right to revise and improve its products as it sees fit.
This publication describes the state of this product at the time of its publication and
may not reflect the product at all times in the future

EN Appendix

1. SAFETY INSTRUCTIONS

In general

Please read the documentation supplied with this product first, so that you are familiar
with the safety signs en directions before using the product.
This product is designed and tested in accordance with international standards. T he
equipment should be used for the designated application only.

WARNING: DANGER OF ELECTRIC AL SHOCK
The product is used in combination with a permanent energy source (battery). Even if
the equipment is switched off, a dangerous electrical voltage can occur at the input
and/or output terminals. Always switch the AC power off and disconnect the battery
before performing maintenance.

The product contains no internal user-serviceable parts. Do not remove the front panel
and do not put the product into operation unless all panels are fitted. All maintenance
should be performed by qualified personnel.

Never use the product at sites where gas or dust explosions could occur. Refer to the
specifications provided by the manufacturer of the battery to ensure that the battery is
suitable for use with this product. The battery manufacturer's safety instructions
should always be observed.

WARNING: do not lift heavy objects unassisted.

Installation

Read the installation instructions before commencing installat i on activities.
This product is a safety class I device (supplied with a ground terminal for safety

purposes). The chassis must be grounded. A grounding point is located on the
outside of the product. If it can be assumed that the grounding protection is damaged,
the product should be taken out of operation and prevented from accidentally being
put into operation again; contact qualified maintenance pers onnel.

Ensure that the connection cables are provided with fuses and circuit breakers. Never
replace a protective device by a component of a different type. Refer to the manual for
the correct part.

Check before switching the device on whether the available voltage source conforms
to the configuration settings of the product as described in the manual.

Ensure that the equipment is used under the correct operating conditions. Never
operate it in a wet or dusty environment.
Ensure that there is always sufficient free space around the product for ventilation,
and that ventilation openings are not blocked.

Install the product in a heatproof environment. Ensure therefore that there are no
chemicals, plastic parts, curtains or other textiles, etc. in the immediate vicinit y of the
equipment.

Transport and storage

On storage or transport of the product, ensure that the battery leads are disconnected.
No liability can be accepted for damage in transit if the equipment is not transported in

its original packaging.
Store the product in a dry environment; the storage temperature should range from

–20°C to 60°C.
Refer to the battery manufacturer's manual for information on trans port, st orage,

charging, recharging and disposal of the battery.

EN Appendix

2. DESCRIPTION

SinusMax - Superior engineering

Developed for professional duty, the Phoenix range of inverters is suitable for the
widest range of applications. The design criteria have been to produce a true sine
wave inverter with optimised efficiency but without compromise i n performance.
Employing hybrid HF technology, the result is a top quality product with compact
dimensions, light in weight and capable of supplying power, problem-free, t o any load.

Extra start-up pow er

A unique feature of the SinusMax technology is very high start-up power.
Conventional high frequency technology does not offer s uch extreme performance.
Phoenix inverters, however, are well suited to power up difficult loads such as
compressors, electric motors and similar appliances.

Virtually unlimited power thanks to parallel and 3-phase operation capability

Up to 6 inverters can operate in parallel to achieve higher power output. Six 24/3000
units, for example, will provide 18kVA output power. Operation in 3-phase
configuration is also possible.

To transfer the load to another AC source: the automatic transfer switch

If an automatic transfer switch is required, we recommend to using the MultiPlus or
Quattro instead. The switch is included in these products and the charger functi on of
the MultiPlus/Quattro can be disabled. Computers and other elect ronic equi pm ent will
continue to operate without disruption because the MultiPlus/Quattro features a very
short switchover time (less than 20 milliseconds).

Programmable relay

The Phoenix Inverter is equipped with a programmable relay, which by default is set
as an alarm relay. The relay can be programmed for all kinds of other applications
however, for example as a starter relay for a generating set.

Programmable with DIP switches, VE.Net panel or personal computer

The Phoenix Inverter is supplied ready for use. Three features are available for
changing certain settings if desired:
─ The most important settings (including parallel operation of up to three devices

and 3-phase operation) can be changed in a very simple manner, using DIP
switches.

─ All settings, with exception of the programmable relay, can be changed with a

VE.Net panel.

─ All settings can be changed with a PC and free of charge software,

downloadable from our website www.victronenergy.com

3. OPERATION

3.1 On/Off Switch

When switched to "on", the product is fully functional. The inverter will come into
operation and the LED "inverter on" will light up.

3.2 Remote control

Remote control is possible with a simple on/off switch or with a Phoenix Inverter
Control panel.

3.3 LED Indications

LED off

LED flashes

LED illuminated

Inverter

Inverter

The inverter is on and supplies
power to the load.

on

inverter on
Overload

low battery

off

Temperature

Inverter

The nominal output of the inverter is
exceeded. The “overload” LED
flashes.

on

inverter on
Overload

low battery

off

Temperature

EN Appendix

Inverter

The inverter is switched off due to
overload or short circuit.

on

inverter on
Overload

low battery

off

Temperature

Inverter

The battery is almost fully
exhausted.

on

inverter on
Overload

low battery

off

Temperature

Inverter

The inverter has switched off due to
low battery voltage.

on

inverter on
Overload

low battery

off

temperature

Inverter

The internal temperature is reaching
a critical level.

on

inverter on
overload

low battery

off

temperature

Inverter

The inverter has switched off due to
the electronics temperature being
too high.

on

inverter on
overload

low battery

off

temperature

Inverter

-If the LEDs are flashing alternately,
the battery is nearly exhausted and
the nominal output is exceeded.

-If "overload" and "low battery" flash
simultaneously, the ripple voltage on
the battery terminals is too high.

on

inverter on
overload

low battery

off

temperature

Inverter

The inverter switched off due to
excess ripple voltage on the battery
terminals.

on

inverter on
overload

low battery

off

temperature

EN Appendix

4. INSTALLATION

This product may only be installed by a qualified electrical engineer.

4.1 Location

The product must be installed in a dry and well-ventilated area, as close as possible to
the batteries. There should be a clear space of at least 10cm around the appliance for
cooling.

Excessively high ambient temperature will result in the following:

• Reduced service life.

• Reduced peak capacity, or shutdown of the inverter.

Never position the appliance directly above the batteries.

The Phoenix Inverter is suitable for wall mounting. For mounting purposes, a hook and
two holes are provided at the back of the casing (see appendix G). The devic e can be
fitted either horizontally or vertically. For optimal c ooling, vert ical fitting is preferred.

The interior of the product must remain accessible after installation.

Try to keep the distance between the product and the battery to a minimum in order to
minimize cable voltage losses.

For safety purposes, this product should be installed in a heat-resistant

environment. You should prevent the presence of e.g. chemicals, synthetic

components, curtains or other textiles, etc., in the immediate vici nity.

4.2 Connection of battery cables

In order to utilize the full capacity of the product, batteries with sufficient capacity and
battery cables with sufficient cross section should be used. See table.

12/3000

24/3000

Recommended battery capacity (Ah)

400–1200

200–700

Recommended DC fuse 400A 300A
Recommended cross-section (mm2)

per + and - connection terminal

0 – 5m

2x 50mm2

50mm2

5 – 10m

2x 70mm2

2x 50mm2

* ‘2x’ means two positive and two negative cables.
Remark: Internal resistance is the important factor when working with low capacity

batteries. Please consult your supplier or the relevant sections of our book “elect ricity
on board”, downloadable from our website.

Procedure

Proceed as follows to connect the battery cables:

Use an insulated box spanner in order to avoid shorting the battery.
Avoid shorting the battery cables.

• Undo the four screws at the front of the enclosure and remove the front panel.

• Connect the battery cables: see Appendix A.

• Tighten the nuts well for minimal contact res istanc e.

EN Appendix

4.3 Connection of the AC cabling

This is a Safety Class I product (supplied with a protective grounding

terminal).

The neutral output of the inverter is connected to the enclusure.

This to ensure proper functioning of a GFCI (or RCCB) to be installed in the
AC output of the Inverter.
The chassis of the product must be connected to ground, or the frame (of a

vehicle) or the ground plate or hull (of a boat).

The terminal block can be found on the printed circuit board, see Appendix A. Use a
three-wire cable with a flexible core and a cross section of 2.5 or 4mm²

Procedure

The AC output cable can be connected directly to the terminal block "AC-out".

4.4 Optional Connections

A number of optional connections are possible:

4.4.1 Remote Control

The product can be remotely controlled in two ways.

- With an external switch (connection terminal H, see appendix A). Operates only if the
switch on the Inverter is set to “on”.

- With a Phoenix Inverter Control panel (connected to one of the two RJ48 sockets C,
see appendix A). Operates only if the switch on the inverter is set to “on”.

Only one remote control can be connected, i.e. either a switch or a remote
control panel.

4.4.2. Programmable relay

The inverters are equipped with a multi-functional relay that by default is programmed
as an alarm relay. (VEConfigure software needed to change relay functionality).

4.4.3 Parallel Connection

The Phoenix Inverter can be connected in parallel with several identical devices. To
this end, a connection is established between the devices by means of standard RJ45
UTP cables. The system (Two or more Inverters plus optional control panel) will
require subsequent configuration (see Section 5).
In the event of connecting units in parallel, the following requirements must be met:

• A maximum of six units connected in parallel.

• Only identical devices with the same power ratings may be connected in parallel .

• Battery capacity should be sufficient.

• The DC connection cables to the devices must be of equal length and cross-

section.

• If a positive and a negative DC distribution point is used, the cross -section of the
connection between the batteries and the DC distribution point must at least
equal the sum of the required cross-sections of the connect i ons bet ween the
distribution point and the Inverter units.

•

Place the units close to each other, but allow at least 10cm for ventilation

purposes under, above and beside the units.

•

UTP cables must be connected directly from one unit to the other (and to the

remote panel). Connection/splitter boxes are not permitted.

• Only one remote control means (panel or switch) can be connected to the
system.

4.4.4 Three-phase operati o n

The Phoenix Inverter can also be used in 3-phase configuration. To this end, a
connection between the devices is made by means of standard RJ45 UTP cables (the
same as for parallel operation). The system (Inverters plus an optional control panel)
will require subsequently configuration (s ee Section 5).
Pre-requisites: see Section 4.4.3.

EN Appendix

5. CONFIGURATION

• Settings may only be changed by a qualified electric al engineer.

• Read the instructions thoroughly before implementing changes.

5.1 Standard settings: ready for use

On delivery, the Phoenix Inverter is set to standard factory values. In general, these
settings are suitable fo stand-alone operation.

Standard factory settings

Inverter frequency 60Hz
Inverter voltage 120VAC
Stand-alone / parallel / 3-phase stand-alone
AES (Automatic Economy Switch) off
Programmable relay alarm function

5.2 Explanation of settings

Settings that are not self-explanatory are described briefly below. For further
information, please refer to the help files in the software configuration programs (see
Section 5.3).

Inverter frequency
Output frequency
Adjustability: 50Hz; 60Hz

Inverter voltage
Output voltage of the Inverter.
Adjustability: 95 –128V

Stand-alone / parallel operation / 2-3 phase setting

Using several devices, it is possible to:

• increase total inverter power (several devic es i n paral l el )

• create a 3-phase system.

To this end, the devices must be mutually connected with RJ45 UTP cables.
Standard device settings, however, are such that each device operates in stand-alone
operation. Reconfiguration of the devices is therefore required.

AES (Automatic Economy Switch)
If this setting is turned ‘on’, the power consumption in no-load operation and with low
loads is decreased by approx. 20%, by slightly 'narrowing' the sinusoidal voltage.
The AES Mode can be set with a DIP switch.
Applicable in stand-alone c onfigurat i on onl y.

Search Mode (Applicable in stand-alone configuration only)
If search mode is ‘on’, the power consumption in no-load operation is decreased by
approx. 70%. In this mode the inverter is switched off in case of no load or very low
load, and switches on every two seconds for a short period. If the output current
exceeds a set level, the inverter will continue to operate. If not, the inverter will shut
down again.
Not adjustable with DIP switches.
The Search Mode “shut down” and “remain on” load levels can be set with
VEConfigure.
The standard settings are:
Shut down: 40 Watt (linear load)
Turn on: 100 Watt (linear load)

Programmable relay

By default, the programmable relay is set as an alarm relay, i.e. the relay will de­energise in the event of an alarm or a pre-alarm (inverter almost too hot, ripple on the
input almost too high, battery voltage almost too low). Not adjustable with DIP
switches.

5.3 Configuration by computer

All settings can be changed by means of a computer or with a VE.Net panel (except
for the multi-functi onal relay and the VirtualSwitch when using VE.Net).
The most common settings (including parallel and 3-phase operation) can be changed
by means of DIP switches (see Section 5.5).

For changing settings with the computer, the following is required:

- VEConfigure3 software. You can download the VEConfigure3 software free

of charge at www.victronenergy.com .

- A RJ45 UTP cable and the MK2.2b RS485-to-RS232 interface. If your

computer has no RS232 connection, but does have USB, you will also need
a RS232-to-USB interface cable. Both are available from Victron Energy.

5.3.1 VE.Bus Quick Configure Setup

VE.Bus Quick Configure Setup is a software program with which systems with a

maximum of three Phoenix Inverters (parallel or three phase operation) can be
configured in a simple manner. VEConfigure3 forms part of this program.
You can download the software free of charge at www.victronenergy.com .
For connection to your computer, a RJ45 UTP cable and the MK2.2b RS485-to­RS232 interface is required.
If your computer does not have a RS232 connection but is equipped with USB, you
will also need a RS232-to-USB interface cable. Both are available from V ictron
Energy.

EN Appendix

5.3.2 VE.Bus System Configurator and dongle

For configuring advanced applications and/or systems with four or more Inverters,
VE.Bus System Configurator software must be used. You can download the
software at www.victronenergy.com . VEConfigure3 forms part of this program.
You can configure the system without a dongle, and use it for 15 minutes (as a
demonstration facility). For permanent use, a dongle – available at additional charge –
is required.
For connection to your computer, a RJ45 UTP cable and the MK2.2b RS485-to­RS232 interface is required.
If your computer does not have a RS232 connection but is equipped with USB, you
will also need a RS232-to-USB interface cable.
Both are available from Victron Energy.

5.4 Implementing settings with a VE.Net panel

To this end, a VE.Net panel and the VE.Net to VE.Bus converter is required.
With VE.Net you can set all parameters, with the exception of the multi-functional relay
and the VirtualSwitch.

5.5 Configuration with DIP switches

A number of settings can be changed using DIP switches (see appendix A, position I).
Procedure:

• Turn the Inverter on, preferably unloaded.

• Set the DIP switches for:

o AES (Automatic Economy Switch)
o Inverter voltage
o Inverter frequency
o selection of stand-al one, parall el or 3-phase operati on.

• To store the settings after the required values have been set: press the 'Up'

button for 2 seconds (upper button to the right of t he DIP switches, see
appendix A, position J).

Remarks:

- Dipswitches ds8,ds7 and ds6 are not assigned and should remain off.

- The DIP switch functions are described in 'top to bottom' order. Since the uppermost

DIP switch has the highest number (8), descriptions start with the switch numbered 5.

- In parallel mode or 3-phase mode, not all devices require all settings to be made

(see section 5.5.4).

- For parallel or 3-phase mode, read the whole setting procedure and make a note of

the required DIP switch settings before actually implementing them.

- The ‘down’ button is not used in this procedure and must not be pressed!

5.5.1 AES (Automatic Economy Switch)

Procedure: set ds5 to the required value:

ds5

off = AES off
on = AES on

Note: The AES option is only effective if the unit is used ‘stand alone’.

5.5.2 Inverter voltage

Procedure: set ds4 to the required value:

ds4

off = 115V
on = 120V

5.5.3 Inverter frequency

Procedure: set ds3 to the required value:

ds3

off = 60Hz
on = 50Hz

5.5.4 Stand-alone, parallel and 3-phase operation

DIP switches ds2 and ds1 are reserved for the selection of stand-alone, parallel
or 3-phase operation

NOTE:

• When configuring a parall el or 3-phase system, all relat ed dev i c es sho ul d be

interconnected using RJ45 UTP cables (see appendix C, D). All devices must be
turned on. They will subsequently return an error code (see Section 7), since they have
been integrated into a system and still are configured as ‘stand-alone’. This error
message can safely be ignored.

• Storing settings (by pressing the ‘Up’ button for 2 seconds) should be done on one

device only. This device is the ‘master’ in a parallel system or the ‘leader’ (L1) in a 3­phase system.
In a parallel system, the setting of DIP switches ds5 to ds3 need to be done on the
master only. The slaves will follow the master with regard to these settings (hence the
master/slave relationship).
In a 3-phase system, the ‘Inverter voltage setting’ is required for the other devices, i.e.
the followers (for phases L2 and L3).
(The followers, therefore, do not follow the leader for all settings, hence the
leader/follower terminology).

• A change in the setting ‘stand-alone / parallel / 3-phase’ is only activated after the

setting has been stored (by pressing the ‘UP’ button for 2 seconds) and after all
devices have bee n turn ed off an d then on again. In order to start up a VE.B us system
correctly, all devices should therefore be turned off after the settings have been stored.
They can then be turned on in any order. The system will not start until all devices
have been turned on.

• Note that only identical devices can be integrated in one system. Any attempt to use

different models in one system will fail. Such devices may possibly function correctly
again only after individual reconfiguration for ‘stand-alone’ op er atio n.

• The combination ds2=on and ds1=on is not used.

EN Appendix

Setting ds2 and ds1 for stand-alone operation

DS-8 not used Set off

off

DS-7 not used Set off

off

DS-6 not used Set off

off

DS-5 AES Set as desired

DS-4 Inverter voltage Set as desired

DS-3 Inverter frequency Set as desired

DS-2 Stand-alone operation

off

DS-1 Stand-alone operation

off

Examples of DIP switch settings for stand-alone mode are given below.
Example 1 shows the factory setting (since factory settings are entered by computer,

all DIP switches of a new product are set to ‘off’).

Four examples of stand-alone settings:

DS-8 not used

off

DS-7 not used

off

DS-6 not used

off

DS-5 AES

off

DS-4 Inverter voltage

on DS-3 Inverter frequency

on DS-2 Stand-alone mode

off

DS-1 Stand-alone mode

off DS-8

off

DS-7

off

DS-6

off

DS-5

off

DS-4

off

DS-3

off

DS-2

off

DS-1

off DS-8

off

DS-7

off

DS-6

off

DS-5

off

DS-4

on DS-3

off

DS-2

off

DS-1

off DS-8

off

DS-7

off

DS-6

off

DS-5

on DS-4

off

DS-3

on DS-2

off

DS-1

off

stand-alone

Example 1 (factory setting):

5 AES: off
4 Inverter voltage 120V
3 Inverter frequency 50Hz

2, 1 Stand-alone mode

stand-alone

Example 2:

5 AES: off
4 115V
3 60Hz

2,1 Stand-alone

stand-alone

Example 3:

5 AES: off
4 120V
3 60Hz

2,1 Stand-alone

stand-alone

Example 4:

5 AES: on
4 115V
3 50Hz

2,1 Stand-alone

To store the settings after the required values have been set: press the 'Up' button for
2 seconds (upper button to the right of the DIP switches, see appendix A, position J).

The overload and low-battery LEDs will flash to indicate acceptance of the
settings.

You can leave the DIP switches in the selected positions, so that the settings can
always be recovered.

Setting ds2 and ds1 for parallel operation

Master

Slave 1

Slave 2 (optional)

DS-8 not used

off

DS-7 not used

off

DS-6 not used

off

DS-5 AES na

x

DS-4 Inv. voltage Set

DS-3 Inv. freq Set

DS-2 Master

off

DS-1 Master

on

DS-8 not used

off

DS-7 not used

off

DS-6 not used

off

DS-5 na

x

DS-4 na

x

DS-3 na

x

DS-2 Slave 1

off

DS-1 Slave 1

off DS-8 not used

off

DS-7 not used

off

DS-6 not used

off

DS-5 na

x

DS-4 na

x

DS-3 na

x

DS-2 Slave 2

off

DS-1 Slave 2

on

To store the settings after the required values have been set: press the 'Up' button of
the master for 2 seconds (upper button to the right of the DIP switches, see appendix
A, position J). The overload and low-battery LEDs will flash to indicate
acceptance of the settings.

You can leave the DIP switches in the selected positions, so that the settings can
always be recovered.

Setting ds2 and ds1 for 3-phase operation

Leader (L1)

Follower (L2)

Follower (L3)

DS-8 not used

off

DS-7 not used

off

DS-6 not used

off

DS-5 AES na

x

DS-4 Inv. voltage Set

DS-3 Inv. freq Set

DS-2 Leader

on DS-1 Leader

off DS-8 not used

off

DS-7 not used

off

DS-6 not used

off

DS-5 na

x

DS-4 Set

DS-3 na

x

DS-2 L2

off

DS-1 L2

off DS-8 not used

off

DS-7 not used

off

DS-6 not used

off

DS-5 na

x

DS-4 Set

DS-3 na

x

DS-2 L3

off

DS-1 L3

on

As the table above shows, the Inverter voltage should be set separately (ds4) for
every Inverter
AES can be used on stand alone units only.

To store the settings after the required values have been set: press the 'Up' button of
the Leader for 2 seconds (upper button to the right of the DIP switches, see appendix
A, position J). The overload and low-battery LEDs will flash to indicate

acceptance of the settings.

You can leave the DIP switches in the selected positions, so that the settings can
always be recovered.

To start the system: first, turn all devices off. The system will start up as soon
as all devices have been turned on.

EN Appendix

6. MAINTENANCE

The Phoenix Inverter does not require specific maintenance. It will suffice to check all
connections once a year. Avoid moisture and oil/soot/vapours, and keep the devic e
clean.

7. FAULT INDICATIONS

With the procedures below, most errors can be quickly identified. If an error cannot be
resolved, please refer to your Victron Energy supplier.

7.1 General error indications

Problem

Cause

Solution

Inverter operation not

initiated when

switched on.

The battery voltage is excessively

high or too low. No voltage on DC

connection.

Ensure that the battery voltage is

within the correct ran ge .

“Low battery” LED
flashes.

The battery voltage is low.

Charge the battery or check the
battery connecti o ns.

“Low battery” LED

lights.

The converter switches off

because the batter y volt ag e is too

low.

Charge the battery or check the

battery connecti o ns.

“Overload” LED
flashes.

The converter load is higher than
the nominal load.

Reduce the load.

“Overload” LED
lights.

The converter is switched off due
to excessively high load.

Reduce the load.

“Temperature” LED

flashes or lights.

The environmental temperature is

high, or the load is too high.

Install the converter in cool and

well-ventilated environment, or

reduce the load.

“Low battery” and

“overload” LEDs
flash intermittently.

Low battery voltag e and

excessively high load.

Charge the batteries, disconnect

or reduce the load, or install
higher capacity ba tte ries. Fit
shorter and/or thicker battery

cables.

“Low battery” and

“overload” LEDs
flash simultane ously.

Ripple voltage on the DC

connection exceeds 1,5Vrms.

Check the battery cables and

battery connections. Check
whether battery capacity is
sufficiently hig h, an d inc re ase

this if necessary.

“Low battery” and

“overload” LEDs
light.

The inverter is switched off due to

an excessively hig h ripple voltage
on the input.

Install batteries with a larger

capacity. Fit short er an d/o r
thicker battery cables, and reset
the inverter (switch off, and then

on again).

One alarm LED lights

and the second
flashes.

The inverter is switched off due to

alarm activation by the lighted
LED. The flashing LED indicates
that the inverter was about to

switch off due to the related alarm.

Check this table for appropriate

measures in regard to this alarm
state.

7.2 VE.Bus LED indications

Inverters included in a VE.Bus system (a parallel or 3-phase arrangement) can
provide so-called VE.Bus LED indications. These LED indications can be subdivided
into two groups: OK codes and error codes.

7.2.1 VE.Bus OK codes

If the internal status of a device is in order but the device cannot yet be started
because one or more other devices in the system indicate an error status, the devices
that are in order will indicate an OK code. This facilitates error tracing in a VE.Bus
system, since devices not requiring attention are easily identified as suc h.

Important: OK codes will only be displayed if a device is not inverting!

• The "inverter on" LED must flash.

• A flashing "overload" LED indicat es that the device can perform inverter

operation.

• A flashing "temperature" LED indicates that the device is not blocking

charge operation. (This is just a formal indication which originates from the
relationship with the Phoenix Multi. This indication has no special meaning
on a Phoenix Inverter)

NOTE: The "low battery" LED can function together with the OK code that indicates
that the device does not block charge.

7.2.2 VE.Bus error codes

If a VE.Bus error occurs (example: a broken UTP cable) the system will switch off and
the ‘inverter on’ LED will flash.
If such an error occurs one should switch all units off, verify all cabling and switch the
units on again.

Additional information about the errror can be retrieved from the Inverter with the
VE.BUS System Configurator or the VE.BUS Quic k Configure tool.

EN Appendix

8. TECHNICAL SPECIFICATIONS

Phoenix Inverter

12/3000 24/3000

INVERTER

Input voltage range (V DC) 9,5 – 17 19 – 33

Output (1)

Output voltage: 120VAC ± 2% Frequency: 60Hz ± 0,1%

Cont. output power at 25°C (VA) (3)

3000

Cont. output power at 25°C (W)

2500

Cont. output power at 40°C (W)

2200

Cont. output power at 65°C (W)

1700

Peak power (W)

6000

Maximum efficiency (%)

93 94

Zero-load power (W)

20

GENERAL

Programmable relay

(4)

Yes

Protection

(2)

a - g

Common Characteristics

Operating temp. : -20 to +65°C (fan assi st ed co oli ng )

Humidity (non-condensing): max 95%

ENCLOSURE

Common Characteristics

Material & Colour: aluminium (blue RAL 5012) Protection: IP 21

Battery-connection

M8 bolts (2 plus and 2 minus connections)

230 V AC-connection

Screw terminals 13mm² (6 AWG)

Weight (kg) 19kg 42 lbs
Dimensions (hxwxd in mm) 362 x 258 x 218mm 14.3 x 10.2 x 8.6inch

STANDARDS

Safety

EN 60335-1, EN 60335-2-29

Emission / Immunity

EN 55014-1, EN 61000-3-2 / EN 55014-2, EN 61000-3-3

Automotive Directive

2004/104/EC

1) Can be adjusted to 50Hz

2) Protection

a. Output short circuit
b. Overload
c. Battery voltage too high
d. Battery voltage too low
e. Temperature too high

f. 120VAC on inverter output
g. Input voltage rippl e too hi g h

3) Non linear load, crest factor 3:1

4) Programmable relay which can be set for general alarm, DC undervoltage or genset start signal

function

APPENDIX A Overview connections INVERTER 3k

EN:

B

2x RJ45 connector for remote control and/or parallel / three-phase operation.

C

Load connection AC out: (left to right): L (phase), N (neutral), PE (ground).

E

Battery minus. Double M8 battery minus connection.

F

Battery plus. Double M8 battery positive connecti on.

H

Connections for remote switch: Short left and middle terminal to switch the
Phoenix “on”.

I

Dipswitches DS1 tm DS8 for set-up mode.

J

Pushbuttons for set-up mode.

K

Alarm contact: (left to right) NC, NO, COM

L

Primary ground connection (PE).

EN Appendix

APPENDIX B: Block diagram

* See table in chapter 4.2 “Recommended DC fuse”

APPENDIX C: Parallel connection

APPENDIX D: Three phase connection

EN Appendix

APPENDIX G: Dimensions

Dimensions 3k cabinet

Victron Energy Blue Power

Distributor:

Serial number:

Version : 03a
Date : October 13

th

, 2016

Victron Energy B.V.
De Paal 35 | 1351 JG Almere
PO Box 50016 | 1305 AA Almere | The Netherlands

General phone : +31 (0)36 535 97 00
Fax : +31 (0)36 535 97 40

E-mail : sales@victronenergy.com

www.victronenergy.com