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USER MANUAL SinePower MSI912 WAECO
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Line drawing of a rectangular electronic device with ventilation grilles and mounting feet (no text or symbols)
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Line drawing of a rectangular electronic device with ventilation grilles and mounting feet (no text or symbols)SinePower MSI912, MSI924, MSI1312, MSI1324, MSI1812, MSI1824, MSI1812T, MSI1824T
Installation and Operating Manual
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Technical line drawing of a rectangular electronic device with ventilation slots and mounting feet (no text or symbols)2
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Diagram of an electronic device with labeled parts including a power connector, plug, and terminal connections3
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25 cm 25 cm4
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A 进给 0.5g
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Technical line drawing of a portable electronic device with labeled ports and connectors (no text or symbols present)5
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1 A B 1 REMOTE 2 5 4 3 CHASSIS GROUND DC INPUT NEG (-) POS (+)6
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MSI900, MSI1300, MSI1800 1 2 ON OFF REMOTE 3 LOAD STATUS OUT VOLT FREQ POWER SAVING N.A. OPTION 1 2 3 4 5 6 7 8 AC OUTPUT 5
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MSI1800T 1 2 3 4 5 6 7 8 BREAKER AC OUTPUTAC INPUT ON OFF REMOTE LOAD STATUS POWER SAVING N.A. OPTION 1 2 3 4 5 6 7 8
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8 1 4 2 3
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Input 230 V AC 1 N PE L1 FI 2 RCD 2 Input DC MSI DC 230 V AC 4 5 FI 1 RCD 6 Output 230 V AC 7 N PE L1 N PE L1 N PE
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graph TD
A["ENB"] --> B["ON:INV. → ON"]
C["GND"] --> D["OFF:INV. → OFF"]
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11 ENB TR HI:INV. → ON (TR ON) LOW:INV.→ OFF (TR OFF) GND
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12 BAT+ BAT- ON:INV. → ON OFF:INV.→ OFF ENB
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13 ON:INV. → ON OFF:INV. → OFF ENB + - GND DC POWER14
EN55012: Class B
EN55014:Class B
● EN61000-6-1/6-3: Class B
● EN61000-6-2/6-4: Class A
EN61204-3
Please read this instruction manual carefully before installation and first use, and store it in a safe place. If you pass on the product to another person, hand over this instruction manual along with it.
Table of contents
1 Explanation of symbols 37
2 General safety instructions 37
3 Scope of delivery 39
4 Accessories 40
5 Target group for this manual 40
6 Intended use 40
7 Technical description 41
8 Fitting the inverter 45
9 Connecting the inverter 46
10 Using the inverter....52
11 Cleaning and caring for the inverter....56
12 Troubleshooting 56
13 Warranty 57
14 Disposal 57
15 Technical data .... 58
1 Explanation of symbols
WARNING!
Safety instruction: Failure to observe this instruction can cause fatal or serious injury.
NOTICE!
Failure to observe this instruction can cause material damage and impair the function of the product.
NOTE
Supplementary information for operating the product.
▶ Action: This symbol indicates that action is required on your part. The required action is described step-by-step.
√This symbol describes the result of an action.
Fig. 1 5, page 3: This refers to an element in an illustration. In this case, item 5 in figure 1 on page 3.
2 General safety instructions
2.1 General safety
The manufacturer accepts no liability for damage in the following cases:
● Faulty assembly or connection
● Damage to the product resulting from mechanical influences and excess voltage
- Alterations to the product without express permission from the manufacturer
● Use for purposes other than those described in the operating manual
WARNING!
- Only use the device as intended.
- Do not operate the device in a damp or wet environment.
-
Do not operate the device near any flammable materials.
-
Do not operate the device in areas that are potentially explosive.
● Maintenance and repair work may only be carried out by qualified personnel who are familiar with the risks involved and the relevant regulations. - People (including children) whose physical, sensory or mental capacities or whose lack of experience or knowledge prevent them from using this product safely should not use it without the supervision or instruction of a responsible person.
● Electrical devices are not toys
Always keep and use the device out of the reach of children.
2.2 Safety when installing the device
WARNING!
- Installing the device may only be performed by qualified personnel who are familiar with the guidelines and safety precautions to be applied.
- If electrical devices are incorrectly installed on boats, corrosion damage might occur. The device should be installed by a specialist (marine) electrician.
NOTICE!
● Ensure that the device is standing firmly.
The device must be set up and fastened in such a way that it cannot tip over or fall down.
- Do not expose the device to a heat source (such as direct sunlight or heating). Avoid additional heating of the device in this way.
- If cables have to be fed through metal walls or other walls with sharp edges, use ducts or tubes to prevent damage.
- Do not lay cables which are loose or bent next to electrically conductive material (metal).
- Do not pull on the cables.
- Do not lay the 230 V mains cable and the 12/24 V DC cable in the same duct.
- Fasten the cables securely.
- Lay the cables so that they cannot be tripped over or damaged.
2.3 Operating the device safely
WARNING!
- Operate the device only if you are certain that the housing and the cables are undamaged.
- Even after the fuse triggers, parts of the inverter remain live.
● Always disconnect the power supply when working on the device.
NOTICE!
● Make sure the air inlets and outlets of the device are not covered.
- Ensure good ventilation. The inverter produces dissipated heat which has to be diverted.
- Do not connect the 230 V output of the inverter (fig. 6 5, page 4 and fig. 7 5, page 5) to a different 230 V source.
3 Scope of delivery
MSI900, MSI1300, MSI1800
No. in
fig. 1, Designation page 3
1 Sine wave inverter
- Operating manual
MSI1800T
No. in
fig. 2, Designation page 3
1 Sine wave inverter
2 Connection cable with safety coupling (for 230 V\~ output)
3 Connection cable with safety plug (for 230 V\~ supply)
- Operating manual
4 Accessories
Designation Item no.
Remote control MCR-7
Remote control MCR-9
5 Target group for this manual
The electrical installation (chapter “Connecting the inverter” on page 46) is intended for professionals who are familiar with the applicable regulations of the country in which the equipment is to be installed and/or used.
All other chapters are intended for the users.
6 Intended use
WARNING!
Never use the inverter on vehicles where the positive terminal of the battery is connected to the chassis.
The wave inverter converts direct current of
12 V=:
SinePower MSI912, item no. 9102600111
SinePower MSI1312, item no. 9102600113
SinePower MSI1812, item no. 9102600115
SinePower MSI1812T, item no. 9102600117
24 V=:
SinePower MSI924, item no. 9102600112
SinePower MSI1324, item no. 9102600114
SinePower MSI1824, item no. 9102600116
SinePower MSI1824T, item no. 9102600118
into a 200 – 240 V AC supply of 50 Hz or 60 Hz.
7 Technical description
The inverters can be operated wherever
● a 12 V== connection (MSI912, MSI1312, MSI1812, MSI1812T)
- a 24 V--- connection (MSI924, MSI1324, MSI1824, MSI1824T)
is available. The light-weight and compact construction of this device allows for easy installation in mobile homes, commercial vehicles or motor and sailing yachts.
The output voltage corresponds to the household voltage from the socket (pure sine wave, THD < 3 %).
Please observe the values for constant output power and peak output power as indicated in chapter "Technical data" on page 58. Never connect devices that have a higher power requirement.
NOTE
Note when connecting devices with an electrical drive (such as power drills and refrigerators), that they often require more power than is indicated on the type plate.
The inverter has various protective mechanisms.
- Overvoltage shutdown: The inverter shuts itself off when the voltage exceeds the cut-off value. It restarts when the voltage returns to the restart value.
- Undervoltage shutdown: The inverter shuts itself off when the voltage sinks below the cut-off value. It restarts when the voltage rises to the re-start value.
- Excess temperature shutdown: The inverter switches off when the temperature inside the device or the temperature on the cooling element exceeds a cut-off value. It restarts when the voltage rises to the restart value.
- Overload shutdown: The LED on the inverter indicates an operating fault (constant red light) when an excess load is connected or a short circuit has occurred. The fuse in the device must be pressed in again by hand after it is triggered by excess current.
- Incorrect polarity protection: The incorrect polarity protection prevents the wrong polarity when connecting the inverter.
- Fuses (MSI1812T and MSI1824T only): The LED on the inverter indicates an operating fault (constant red light). The fuse in the device must be pressed in again by hand after it is triggered.
NOTE
The individual values are found in the chapter “Technical data” on page 58.
The device can also be configured with a PC via an RS-232 interface and using the DIP switches on the device.
The inverter can be switched to an energy-saving mode to prevent the connected battery from discharging too quickly.
The inverter can be easily controlled using the remote control (accessory).
The SinePower MSI1812T and SinePower MSI1824T inverters are fitted with a 230 V\~ priority circuit. If an external 230 V\~ voltage is available, this will have priority. If no external 230 V\~ voltage is connected, then the connected battery will be used as the power supply.
7.1 Control elements
The inverter has the following connections, displays and control elements on the back:
No. in
fig. 5, Designation Description page 4
| 1 Terminal Setup operation via remote control | |
| 2 RS-232 port,REMOTE port | Connection of a PC using a serial RS-232 interface or connection of the MCR-7 or MCR-9 remote control |
| 3 POS+ Positive terminal | |
| 4 NEG– Negative terminal | |
| 5 Earth terminal Earthing on the vehicle bodywork | |
MSI900, MSI1300, MSI1800
The inverter has the following connections, displays and control elements on the front:
No. in
fig. 6, Designation Description page 4
| 1 Main switch“ON/OFF/REMOTE”switch: | Switches the device on, off or to operation via the remote control (accessory) |
| 2 “Input Level” LED Displays the input voltage range | |
| 3 “Load Level” LED Displays the power being supplied | |
| 4 Dip switch Makes settings on the inverter (such as mains voltage, mains frequency, energy-saving mode). | |
| 5 Safety socket 230 V output | |
MSI1800T
The inverter has the following connections, displays and control elements on the front:
| No. in fig. 7, Designation Description page 5 | |
| 1 Main switch “ON/OFF/ REMOTE” | Switches the device on, off or to operation via the remote control (accessory) |
| 2 “Input Level” LED Displays the input voltage range | |
| 3 “Load Level” LED Displays the power being supplied | |
| 4 Dip switch Makes settings on the inverter (such as mains voltage, mains frequency, energy-saving mode). | |
| 5 AC output 230 V output | |
| 6 AC input 230 V input | |
| 7 Fuse Protects the inverter from overload.The fuse can be pressed in again once it has triggered. | |
| 8 Grounding screw Sets or removes the grounding bridge | |
8 Fitting the inverter
8.1 Tools required
For the electrical connection you will need the following tools:
- Crimping tool
- 3multi-coloured, flexible connection cables. Determine the necessary thickness from the table in chapter “Connecting the inverter” on page 46.
● Cable lugs and conductor sleeves
For fastening you will require the following tools:
● Machine bolts (M4) with washers and self-locking nuts or
● self-tapping screws or wood screws.
8.2 Mounting instructions
When selecting the installation location, observe the following instructions:
● The inverter can be mounted horizontally or vertically.
● The inverter must be installed in a place that is protected from moisture.
● The inverter may not be installed in the presence of flammable materials.
● The inverter may not be installed in a dusty environment.
- The place of installation must be well ventilated. A ventilation system must be available for installations in small, enclosed spaces. The minimum clearance around the inverter must be at least 25cm (fig. 3, page 3).
- The air intake on the underside or the air outlet on the back of the inverter must remain clear.
- For ambient temperatures higher than 40 °C (such as in engine or heating compartments, or direct sunlight), the heat from the inverter under load can lead to automatic shutdown.
● The device must be installed on a level and sufficiently sturdy surface.
NOTICE!
Before drilling any holes, make sure that no electrical cables or other parts of the vehicle can be damaged by drilling, sawing and filing.
8.3 Mounting the inverter
▶Hold the inverter against the installation location and mark the fastening points (fig. 4 A, page 4).
▶ Attach the inverter using your chosen fastening method (fig. 4 B, page 4).
9 Connecting the inverter
9.1 General instructions
WARNING!
- The inverter may only be connected by a qualified workshop. The following information is intended for technicians who are familiar with the guidelines and safety precautions to be applied.
- Never use the inverter on vehicles where the positive terminal of the battery is connected to the chassis.
- If you do not fit a fuse to the positive cable, the cables can overload, which might result in a fire.
● Reversed polarity can damage the inverter. -
MSI900, MSI1300, MSI1800 only: The inverter should not be used to connect to a ring main, it must only be used to power individual appliances that are plugged into the inverter outlet either directly or using a purpose-made, moulded extension lead
-
When installed in vehicles or boats, the inverter must be connected to the chassis or earth.
- When setting up a socket distribution circuit (mains setup), comply with the applicable regulations.
- Only use copper cables.
- Keep the cables as short as possible (< 1.8 m).
- Keep to the specified cable cross section and fit a cable fuse (fig. 8 3, page 5) as close to the battery as possible on the positive cable (see the table).
| Device | Required cable cross section | Cable fuse (fig. 8 3, page 5) |
| MSI912 25 mm ^2 115 A | ||
| MSI924 25 mm ^2 75 A | ||
| MSI1312 35 mm ^2 170 A | ||
| MSI1324 35 mm ^2 85 A | ||
| MSI1812/MSI1812T 35 mm ^2 228 A | ||
| MSI1824/MSI1824T 35 mm ^2 115 A |
9.2 Connecting the inverter to the battery
NOTE
Tighten the nuts and bolts to a maximum torque of 12 – 13 Nm. Loose connections may cause overheating.
▶ Set the main switch (fig. 6 1, page 4 and fig. 7 1, page 5) to "OFF".
▶ Loosen the screw (fig. 8 1, page 5) from the red positive terminal (fig. 8 2, page 5).
▶ Push the cable lug (fig. 8 2, page 5) of the positive cable into the red positive terminal and fasten it with the screw.
▶ Connect the negative cable to the black negative terminal (fig. 8 4, page 5).
▶Lay the positive cable from the inverter to the positive terminal of the vehicle battery and connect it.
▶ Lay the negative cable from the inverter to the negative terminal of the vehicle battery and connect it.
▶Connect the earth terminal to the vehicle chassis.
9.3 Connecting the 230 V power cable (MSI1800T only)
▶ Connect the 230 V\~ connection cable with safety plug to the 230 V\~ input jack (fig. 7 6, page 5).
▶Connect the safety plug to the 230 V AC mains.
9.4 Connecting the 230 V output cable (MSI1800T only)
WARNING!
Before connecting the 230V output cable, make sure the inverter is switched off at the main switch.
▶ Connect the 230 V\~ connection cable with safety plug to the 230 V\~ output jack (fig. 7 5, page 5).
9.5 Connect multiple appliances (MSI1800T only)
The device is equipped at delivery with galvanic isolation. For the safe operation of multiple appliances, it is essential that a circuit breaker (residual current circuit breaker) is built into the socket distribution circuit, see sample circuit diagram in fig. 8, page 5.
Sample circuit diagram legend:
| No. in fig. 8, Explanation page 5 |
| 1 230 V~ power source |
| 2 additional devices, e.g. battery charger, refrigerator |
| 3 DC power source (battery) |
| 4 Inverter |
| 5 Set grounding bridge (At delivery: not set, shown by dotted line) |
| 6 Circuit breaker (residual current circuit breaker) |
| 7 Socket distribution circuit for appliances |
WARNING! Danger of electrocution!
If you wish to connect more than one appliance to the inverter and install a socket distribution circuit, you must arrange a circuit breaker (residual current circuit breaker) and set a grounding bridge in the inverter.
▶ Install a residual current circuit breaker in the socket distribution circuit.
9.6 Setting the earthing bridge (fig. 7 8, page 5) (MSI1800T only)
▶Remove the earthing screw from the top hole.
▶Screw the screw into the bottom hole.
9.7 Connecting the MCR-7 or MCR-9 remote control (accessory)
NOTICE!
- Only plug in the connection to the remote control in the remote port. The device can be damaged by connecting it incorrectly.
- Ensure that the remote control and inverter are supplied with the same input voltage.
- Follow the instruction manual of the remote control.
▶ Connect the remote control (accessory) to the remote port (fig. 5 2, page 4).
9.8 Connecting the external switch for turning on and off
NOTE
Use cables with a cable cross section of 0.25 - 0.75 mm ^2 .
You can use the following as an external switch:
● external switch, voltage supply from the inverter: fig. 10, page 7
● Control unit with relay or transistor circuit (TR): fig. 11, page 7
● external switch with voltage supply from the battery (BAT) of the vehicle: fig. 12, page 7
● external switch with its own voltage supply (DC POWER) e.g. from the ignition: fig. 13, page 7
▶ Set the main switch (fig. 6 1, page 4 and fig. 7 1, page 5) to “OFF” and make sure that the connection for the remote control (fig. 5 2, page 4) is not assigned.
▶ Set the main switch (fig. 6 1, page 4 and fig. 7 1, page 5) to "RE-MOTE".
▶Connect the external on/off switch with the connection cable to the terminal (fig. 5 1, page 4).
9.9 Pin assignment
NOTE
Keep the cable lengths as short as possible (<10 m), so there is no loss in the signal transmission.
The pins of the RS-232 ports are assigned as follows:
| Inverter Computer | ||||
| Pin Description | Description | Pin | ||
| 1 Not assigned | Not assigned | 1 | ||
| 2 GND RXD 2 | ||||
| 3 | R | X | D | T |
| 4 | T | X | D | D |
| 5 Not assigned | GND 5 | |||
| 6 Not assigned | DSR 6 | |||
| RTS | 7 | |||
| CTS | 8 | |||
| Not assigned | 9 | |||
The pins of the RJ11 remote control connection are assigned as follows:
| Inverter | |
| Pin | Description |
| 1 | - |
| 2 | GND |
| 3 | RS-232 RXD |
| 4 | RS-232 TXD |
| 5 | RMT remote control |
| 6 | Not assigned |
10 Using the inverter
10.1 Switching on the inverter
▶ Set the main switch (fig. 6 1, page 4 and fig. 7 1, page 5) of the inverter to the “ON” position.
Set the On/Off switch to "OFF" to switch off.
▶The inverter performs a self-test. During the self-test, the built-in speaker emits tones and the LEDs flash.
√ After the self-test is completed successfully, the "Input Level" (fig. 6 2, page 4 and fig. 7 2, page 5) and "Load Status" (fig. 6 3, page 4 and fig. 7 3, page 5) LEDs light up green.
Observe the following when using the device (see also chapter "Troubleshooting" on page 56)
The inverter switches off if:
- the battery voltage drops below 10.5 V (12 V== connection) or 21 V (24 V== connection),
- the battery voltage exceeds 16 V (12 V--- connection) or 32 V (24 V--- connection),
● the inverter overheats.
If this happens, shut down the inverter with the main switch (fig. 6 1, page 4 and fig. 7 1, page 5).
▶ Check that the inverter is sufficiently ventilated and that the ventilation grilles are unimpeded.
▶Wait 5 – 10 minutes and switch the inverter on again without any electric consumers.
When operating the inverter at high load for lengthy periods, it is advisable to start the engine in order to recharge the vehicle battery.
10.2 Status indications
"Input Level" LED(fig. 6 2, page 4 and fig. 7 2, page 5)
The "Input Level" LED shows the present range of the input voltage.
| Display Input voltage | ||
| MSI912, MSI1312, MSI1812, MSI1812T | MSI924, MSI1324, MSI1824, MSI1824T | |
| Red, slow flash <10.6 V <21.2 V | ||
| Red 10.6 – 11.0 V 21.2 – 22.0 V | ||
| Orange 11.0 – 12.0 V 22.0 – 24.0 V | ||
| Green 12.0 – 14.2 V 24.0 – 28.4 V | ||
| Orange, flash 14.2 – 15.0 V 28.4 – 30.0 V | ||
| Red, quick flash | >15.0 | >30.0 |
"Load Level" (fig. 6 3, page 4 and fig. 7 3, page 5)
The “Load Level” LED shows the power being supplied by the inverter.
| Display | Input voltage | ||
| MSI912, MSI924 | MSI1312, MSI1324 | MSI1812, MSI1812T, MSI1824, MSI1824T | |
| Off | 0 – 80 W | 0 – 120 W | 0 – 160 W |
| Green | 80 – 320 W | 120 – 480 W | 160 – 640 W |
| Orange | 320 – 720 W | 480 – 1080 W | 640 – 1440 W |
| Red, slow flash | 720 – 800 W | 1080 – 1200 W | 1440 – 1600 W |
| Red, quick flash | >800 W | >1200 W | >1600 W |
10.3 Configuring the inverter
NOTE
Settings can only be made using the dip switch if the S8 dip switch is "On".
You can adjust the device using the dip switch (fig. 6 4, page 4 and fig. 7 4, page 5).
Setting the mains voltage
You can set the mains voltage using the S1 and S2 dip switches.
| Mains voltage S1 S2 | Dip switch |
| 200 V Off Off | |
| 220 V On Off | |
| 230 V Off On | |
| 240 V On On |
Setting the mains frequency
WARNING! Danger of electrocution
Only adjust the S3 DIP switch when the respective frequency for the output voltage should be used.
You can set the mains frequency using the S3 dip switch.
| Dip switch | |
| Net frequency S3 | |
| 50 Hz Off | |
| 60 Hz On | |
Switching to energy-saving mode
You can set the energy-saving mode using the S4, S5 and S6 dip switches. In this way, the battery you connect to the inverter is not discharged as quickly.
The inverter operates in energy-saving mode as long as the required power is below the set level. If the required power exceeds the set level, the inverter works in normal mode.
The values to be set on your inverter can be found in the following table:
| Energy-saving mode Dip switchMSI900 MSI1300 MSI1800 S4 S5 S6 | |||||
| Off Off Off Off Off | |||||
| -60 - 120 W 110 - 190 W On Off Off | |||||
| 70 - 110 W | 130 - 170 W | 190 - 240 W | On | On | Off |
| 180 - 240 W | 180 - 240 W | 240 - 300 W | On | On | On |
Defining settings
Using the S8 dip switch you can define whether the default settings or the settings of dip switches S1 – S7 are used.
| Parameter | Dip switch |
| S8 | |
| Default settings | On |
| Use dip switch S1 – S7 | Off |
Default settings
| Mains voltage | Net frequency Energy-saving mode | |
| 230 V | 50 Hz | Off |
11 Cleaning and caring for the inverter
NOTICE!
Do not use sharp or hard objects or cleaning agents for cleaning as these may damage the product.
▶Occasionally clean the product with a damp cloth.
12 Troubleshooting
WARNING!
Do not open the device. You risk sustaining an electric shock by doing this.
NOTE
If you have detailed questions on the specifications of the inverter please contact the manufacturer (addresses on the back of the instruction manual).
The “Load Status” LED (fig. 6 3, page 4 and fig. 7 3, page 5) lights up red to indicate the fault:
LED display Cause Remedy
| Quick flash Input voltage is too high Check the input voltage and reduce it. | |
| Slow flash Input voltage too low The battery needs recharging. | |
| Check the cables and connections. | |
| Occasional flash Overheating | Switch off the inverter and the con-sumer. |
| Wait 5 to 10 minutes and switch the inverter on again without any electric consumers. | |
| Reduce the load and make sure the inverter has better ventilation. Then switch the consumer back on. | |
| LED display Cause Remedy | |
| Constantly lit Short circuit or reversed polarity | Switch off the inverter and remove the consumer. |
| Excessive load | Then switch the inverter back on without the consumer. If no excessive load is now shown, then there is a short circuit in the consumer or the total load was higher than the power specified on the data sheet.MSI1812T and MSI1824T: The fuse in the device must be pressed in again by hand after it is triggered.Check the cables and connections. |
13 Warranty
The statutory warranty period applies. If the product is defective, please contact the manufacturer's branch in your country (see the back of the instruction manual for the addresses) or your retailer.
For repair and guarantee processing, please include the following documents when you send in the device:
● A copy of the receipt with purchasing date
● A reason for the claim or description of the fault
14 Disposal
▶Place the packaging material in the appropriate recycling waste bins wherever possible.
If you wish to finally dispose of the product, ask your local recycling centre or specialist dealer for details about how to do this in accordance with the applicable disposal regulations.
15 Technical data
NOTE
In the event of thermal overloading, the inverter reacts by reducing the power for temperatures of 40^ C and above.
If the temperature exceeds 60^ C, the inverter switches off.
| MSI912 MSI924 | ||
| Item no.: 9102600111 9102600112 | ||
| Rated input voltage: | 12 V --- | 24 V --- |
| Output power at 25 °C for 10 min: | 900 W | |
| Peak output power: 1600 W | ||
| Output voltage: | 200 – 240 V~ pure sine wave (THD < 3 %) | |
| Output frequency: 50 or 60 Hz | ||
| Idle current consumption: 1.8 A 1.0 A | ||
| Standby current consumption: | 0.5 A 0.3 A | |
| Input voltage range: | 10.5 V – 16 V | 21 V – 32 V |
| Efficiency up to: | 89 % | 91 % |
| Ambient temperature for operation: | -20 °C to 40 °C40 °C to 60 °C (reduced power) | |
| Ambient temperature for storage | -30 °C to +70 °C | |
| Dimensions W x D x H: | 197.5 x 94.3 x 291 mm, see fig. 14, page 8 | |
| Weight: | 4 kg | |
| MSI1312 MSI1324 | ||
| Item no.: 9102600113 9102600114 | ||
| Rated input voltage: | 12 V --- | 24 V --- |
| Output powerat 25 °C for 10 min: | 1300 W | |
| Peak output power: 2400 W | ||
| Output voltage: | 200 – 240 V~ pure sine wave (THD < 3 %) | |
| Output frequency: 50 or 60 Hz | ||
| Idle current consumption: 2.1 A 1.1 A | ||
| Standby currentconsumption: | 0.5 A 0.3 A | |
| Input voltage range: | 10.5 V – 16 V | 21 V – 32 V |
| Efficiency up to: | 90 % | 91 % |
| Ambient temperature foroperation: | -20 °C to 40 °C40 °C to 60 °C (reduced power) | |
| Ambient temperature forstorage | -30 °C to +70 °C | |
| Dimensions W x D x H: | 197.5 x 94.3 x 324.6 mm, see fig. 14, page 8 | |
| Weight: | 5 kg | |
| MSI1812 MSI1812T MSI1824 MSI1824T | ||||
| Item no.: 9102600115 91026 | 00116 91026001 | 17 9102600118 | ||
| Rated input voltage: | 12 V --- | 24 V --- | ||
| Output powerat 25 °C for 10 min: | 1800 W | |||
| Peak output power: 3200 W | ||||
| Output voltage: | 200 – 240 V~ pure sine wave (THD < 3 %) | |||
| Output frequency: 50 or 60 Hz | ||||
| Idle current consumption: 2.1 | A 1.1 A | |||
| Standby currentconsumption: | 0.5 A 0.3 A | |||
| Input voltage range: | 10.5 V – 16 V | 21 V – 32 V | ||
| Efficiency up to: | 90 % | 91 % | ||
| Bypass relay: | - | 25 A/277 V~ | - | 25 A/277 V~ |
| Ambient temperature foroperation: | -20 °C to 40 °C40 °C to 60 °C (reduced power) | |||
| Ambient temperature forstorage | -30 °C to +70 °C | |||
| Priority circuit: | 230 V inputprotection:10 ASwitchovertime of bypassrelay:< 30 m sec | 230 V inputprotection:10 ASwitchovertime of bypassrelay:< 30 m sec | ||
| Dimensions W x D x H: | 197.5 x 94.3 x376 mmsee fig. 14,page 8 | 197.5 x 94.3 x406 mmsee fig. 14,page 8 | 197.5 x 94.3 x376 mmsee fig. 14,page 8 | 197.5 x 94.3 x406 mmsee fig. 14,page 8 |
| Weight: | 5.5 kg | 6 kg | 5.5 kg | 6 kg |
Overvoltage shutdown
| Device | Overvoltage | |
| Shutdown Restart | ||
| MSI912, MSI1312, MSI1812, MSI1812T | 16 V 14.5 V | |
| MSI924, MSI1324, MSI1824, MSI1824T | 32 V 29 V | |
Undervoltage shutdown
| Device | Undervoltage warning | Undervoltage | |
| Shutdown Restart | art | ||
| MSI912, MSI1312, MSI1812, MSI1812T | 11 V 10.5 V | 12.5 V | |
| MSI924, MSI1324, MSI1824, MSI1824T | 22 V 21 V 25 | V | |
Excess temperature shutdown
| Internal temperature Temperature | on cooling element | ||
| Shutdown Restart Shutdown Restart | |||
| 60 °C 40 °C 95 | °C <80 °C | ||
Approvals
The device has E13 certification.
In compliance with the EMC directive 2004/108/EC including 2009/19/EC and the Low-voltage Directive 2006/95/EC
EN55012: Class B
EN55014:Class B
● EN61000-6-1/6-3: Class B
● EN61000-6-2/6-4: Class A
EN61204-3
7 Description technique
Control remoto MCR-7
Control remoto MCR-9
EN55012: Class B
EN55014:Class B
● EN61000-6-1/6-3: Class B
● EN61000-6-2/6-4: Class A
EN61204-3
EN55012: Class B
EN55014:Class B
● EN61000-6-1/6-3: Class B
● EN61000-6-2/6-4: Class A
EN61204-3
EN55012: Class B
EN55014:Class B
● EN61000-6-1/6-3: Class B
● EN61000-6-2/6-4: Class A
EN61204-3
Fastsett innstillinger
EN55012: Class B
EN55014:Class B
● EN61000-6-1/6-3: Class B
● EN61000-6-2/6-4: Class A
EN61204-3
EN55012: Class B
EN55014:Class B
● EN61000-6-1/6-3: Class B
● EN61000-6-2/6-4: Class A
EN61204-3
| Indicação Tensão de entrada | ||
| MSI912, MSI1312, MSI1812, MSI1812T | MSI924, MSI1324, MSI1824, MSI1824T | |
| Vermelho, pisca lento <10,6 V <21,2 V | ||
| Vermelho 10,6 – 11,0 V 21,2 – 22,0 V | ||
| Cor de laranja 11,0 – 12,0 V 22,0 – 24,0 V | ||
| Verde 12,0 – 14,2 V 24,0 – 48,4 V | ||
| Cor de laranja, a piscar 14,2 – 15,0 V 48,4 – 30,0 V | ||
| Vermelho, pisca rápido >15,0 | >30,0 | |
SinePower MSI912, apt. № 9102600111
SinePower MSI1312, apt. № 9102600113
SinePower MSI1812, apt. № 9102600115
SinePower MSI1812T, apt. № 9102600117
- 24 B=:
SinePower MSI924, apt. № 9102600112
SinePower MSI1324, apt. № 9102600114
SinePower MSI1824, apt. № 9102600116
SinePower MSI 1824T, apt. № 9102600118
EN55012: Class B
EN55014:Class B
● EN61000-6-1/6-3: Class B
● EN61000-6-2/6-4: Class A
EN61204-3
EN55012: Class B
EN55014:Class B
● EN61000-6-1/6-3: Class B
● EN61000-6-2/6-4: Class A
EN61204-3
EN55012: Class B
EN55014:Class B
● EN61000-6-1/6-3: Class B
● EN61000-6-2/6-4: Class A
EN61204-3
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