Harmonic Neutralization for Low THD, Made in the USA, Many Options for Tailored Performance
High-Power and High-Performance Standard DC Power Supplies Expandable into the Multi-Megawatts
Magna-Power Electronics MT Series uses the same reliable current-fed power processing technology and controls as the rest of the MagnaDC programmable power supply product line, but with larger high-power modules: individual 100 kW, 150 kW and 250 kW power supplies. The high-frequency IGBT-based MT Series units are among the largest standard switched-mode power supplies on the market, minimizing the number of switching components when comparing to smaller module sizes. Scaling in the multi-megawatts is accomplished using the UID47 device, which provides master-slave control: one power supply takes command over the remaining units, for true system operation. As an added safety measure, all MT Series units include an input AC breaker rated for full power.
250 kW modules come standard with an embedded 12-pulse harmonic neutralizer, ensuring low total harmonic distortion (THD). Even higher quality AC waveforms are available with an external additional 500 kW 24-pulse or 1000 kW 48-pulse harmonic neutralizers, designed and manufactured exclusively by Magna-Power for its MT Series products.
Current-Fed Topology: Robust Power Conversion
All MagnaDC programmable DC power supplies utilize high-frequency IGBT-based power processing in current-fed topology. This topology adds an additional stage over the conventional voltage-fed topology for enhanced control and system protection, ensuring that even under a fault condition, the power supply will self-protect. Due to the self-protecting characteristics of this topology, the possibility of fast rising current spikes and magnetic core saturation is eliminated.
In addition to its robust topology, key performance characteristics of MagnaDC programmable DC power supplies include:
- High-accuracy voltage and current programming accuracy
- Class-leading line and load regulation performance
- High 3Φ AC input power factor with in-rush limiting circuitry
- Computer and user I/O isolated from the power supply output
For more details, read: Current-Fed Power Processing—Ride Through Robustness
Designed and Manufactured in the USA, Available Worldwide
For complete control of quality, MagnaDC programmable DC power supplies are designed and manufactured at Magna-Power's vertically integrated USA manufacturing facility in Flemington, New Jersey. Heat-sinks and chassis are machined from aluminum. All sheet metal is fabricated and powder coated in-house. Magnetics are wound-to-order from validated designs based on a model's voltage and current. An automated surface-mount production line places components on printed circuit boards for control, driver, auxiliary power, and display circuits. And finally after assembly, products undergo comprehensive test and calibration, followed by an extended burn-in period.
For more details: Tour Our Manufacturing Operations.
Standard Safety Features
MagnaDC programmable DC power supplies have extensive diagnostic functions, including:
- AC Phase Loss
- Excessive Thermal Conditions
- Over Voltage Trip (Programmable)
- Over Current Trip (Programmable)
- Cleared Fuse
- Excessive Program Line Voltage
- Interlock Fault
When in standby or diagnostic fault, the AC mains are mechanically disconnected by an embedded AC contactor, providing confidence that the unit is only processing power when desired.
Finally, with a dedicated +5V interlock input pin and included +5V reference on all models, external emergency stop systems can be easily integrated using an external contact.
High Performance Master-Slave Operation
All MagnaDC programmable DC power supplies come with master-slaving capability.
The MagnaDC master-slaving strategy helps to ensures no degradation in performance as units are added in parallel or series by providing gate drive signals directly from the master to the slave units. This strategy ensures one control loop for the system and eliminates the noise susceptibility commonly found when sending analog control references over long distances.
The Universal Interface Device 47 (UID47) accessory eases master-slave parallel or series configuration of Magna-Power DC power supplies, enabling near equal current or voltage sharing, depending on the configuration.
Master-slave series operation is supported to combined voltages up to the product's DC Output Isolation specification. No external blocking diodes are requires for series operation.
Included Software and Drivers
All MagnaDC programmable DC power supplies come standard with National Instruments LabVIEW and IVI drivers. In addition, the support SCPI command set provides an easy to use API using ASCII commands over any interface.
In addition to being able to develop your own software, Magna-Power's Remote Interface Software is also included with all power supplies. The software provides the user with an easy and intuitive method to operate a Magna-Power Electronics power supply with computer control. The Remote Interface Software has six different windows, including:
- Virtual Control Panel. Use a virtual front panel on the desktop to remote control the power supply from a computer.
- Command Panel. Explore all the available commands, along with logs of what string the software is sending to the power supply; used for developing your own software.
- Register Panel. Quickly get the status of all the power supply registers from one screen.
- Calibration Panel. Recalibrate internal digital potentiometers.
- Firmware Panel. Upgrade the power supply's firmware.
- Modulation Panel. Emulate non-linear profiles, such as solar arrays, pseudo-resistance for N+1 redundancy without wires, or automatic compensation for leadless remote sensing.
The included Remote Interface software supports RS232, LXI TCP/IP Ethernet, and IEEE-488, along with the USB and RS485 converters.
External User I/O for Analog Control
Using the rear isolated 37-pin I/O connector, included as standard, the MagnaDC programmable power supplies can be completely controlled and monitored using external signals. The voltage, current, over voltage and over current set points are set by applying a 0-10V analog signal. Each diagnostic condition is given a designated pin, which reads +5V when high. Reference +5V and +10V signals are provided, eliminating the need for external voltage signals and allowing the use of dry contacts.
Also, the power supply features a normally closed external interlock, which when enabled, allows the power supply to be tied in with other emergency stop equipment. All these pins are isolated from the output terminals and referenced to earth-ground as standard—no additional isolation equipment or options necessary.
The following list summarizes the available I/O from the power supply:
- 4 analog inputs (0-10V)
- 2 analog outputs (0-10V)
- 5 digital inputs (5V)
- 15 digital outputs (5V)
- +2.5V, +5V and +10V reference signals
With the High Slew Rate Output (+HS) option equipped, high bandwidth operation is enabled along with fast rise times, allowing the MagnaDC programmable DC power supplies to address requirements for Hardware-in-the-Loop (HIL).
MT Series Harmonic Neutralization
Magna-Power's Harmonic Neutralizers eliminate families of harmonic components by multiplying the number of input phases with specially wound magnetic components, reducing the total harmonic distortion (THD). These magnetic components, in combination with equally loaded, high-power DC power supplies, offer a cost-effective solution to maintaining power quality at acceptable levels, enabling applications to benefit from Magna-Power's reliable high-frequency switch-mode power supplies, extended into multi-megawatts. A 12-pulse Harmonic Neutralizer is embedded in all 250 kW models and its installation is transparent to the end user. For applications demanding an even better THD level than that provided by a 12-pulse waveform, external 24-pulse and 48-pulse harmonic neutralizers are available from Magna-Power. Contact you local sales partner for more information.
Understanding AC Harmonic Waveforms
The following figures are representative of expected AC current waveforms for the various pulses available from Magna-Power Electronics power supplies. Standard models 1.5 kW through 150 kW produce 6-pulse waveforms, while 250 kW models produce 12-pulse waveforms. Magna-Power Electronics Harmonic Neutralizers suppress families of harmonics by increasing the number of power phases. It can be used when multiple power supplies are used in series or parallel and are equally loaded. Harmonic Neutralizers can produce 12-pulse, 18-pulse, 24-pulse, or 48-pulse waveforms which have harmonic current components on the order of 12n±1, 18n±1, 24n±1, or 48n±1, respectively. The following figures show the theoretical difference for waveforms with a different number of pulses. Harmonic Neutralizers are protected with appropriate sized primary-side circuit breakers.
Why Neutralize Harmonics?
Input current harmonics are a by-product of nearly all power supplies. Power can only be delivered to the load if the frequency and phase of the voltage and current match. For a three phase power supply using a three phase input rectifier, the input current has a theoretical spectrum of 6n±1 where n is an integer incrementing from 1; this is known as a 6-pulse waveform. This means that a power supply with a three phase input rectifier will produce input currents at 1, 5, 7, 11, 13, 17, 19 ... times the fundamental frequency. The theoretical magnitude decays as the reciprocal of the harmonic component. The 5th and 7th harmonic components have magnitudes of 20% and 14% of the fundamental component, respectively. Harmonics currents in power systems can find unusual paths and can cause problems if the magnitude is significant and there are loads sensitive to harmonic frequencies. For example, lighting ballasts have series connected capacitors and inductors which can be excited by harmonic currents. IEEE has introduced standard, IEEE 519, which defines recommended limits. Implementing this standard requires a knowledge of the power system and other loads producing harmonics. Unfortunately, the standard can allow the same power supply to possibly exceed limits in one application and not in another. In the same respect, a power supply may or may not can cause a harmonic related problem with or without meeting IEEE 519. The best solution to minimize the risk of a harmonic problem is to eliminate the harmonic current at the source.
Front Panel - Standard
Front Panel - C Version
1
Power switch energizes control circuits without engaging main power
2
Engages and disengages main power via integrated mechanical contactor
3
Meters display output voltage, output current, voltage set point, current set point, over voltage trip and over current trip
4
Stepless rotary knob to set voltage-current
5
POWER: Indicates power outputSTANDBY: Indicates control power only
6
Configuration
REM SEN: Remote sense enabled
INT CTL: Front panel start/stop/clear enabled
EXT CTL: External start/stop/clear enabled
ROTARY: Front panel rotary knob input
EXT PGM: External analog voltage-current control
REMOTE: Computer control
7
Diagnostic Alarms
LOC: Interlock
PGL: External input voltage beyond limits
PHL: Under-voltage AC input
THL: Over-temperature condition
OVT: Over-voltage protection has tripped
OCT: Over-current protection has tripped
8
Function Keys
MENU: Selects function
ITEM: Selects item within function
V/I DIS: Displays voltage-current settings
TRIP DIS: Displays OVT and OCT setting
CLEAR: Clears settings or resets fault
ENTER: Select item
9
Memory location indicator, used for autosequencing applications
10
Digital input keypad
Model Ordering Guide
For both ordering and production, MT Series models are uniquely defined by several key characteristics, as defined by the following diagram:
MT Series Models
There are 78 different models in the MT Series spanning power levels: 100 kW, 150 kW, 250 kW, 500 kW, 750 kW, 1000 kW+. To determine the appropriate model:
- Select the desired Max Voltage (Vdc) from the left-most column.
- Select the desired Max Current (Adc) from the same row that contains your desired Max Voltage.
- Construct your model number according to the model ordering guide.
| 100 kW | 150 kW | 250 kW | 500 kW* | 750 kW* | 1000 kW* | |||
|---|---|---|---|---|---|---|---|---|
| Max Voltage (Vdc) | Max Current (Adc) | Ripple (mVrms) | Efficiency | |||||
| 16 | 6000 | N/A | N/A | N/A | N/A | N/A | 35 | 90% |
| 20 | 5000 | N/A | N/A | N/A | N/A | N/A | 40 | 90% |
| 25 | 4000 | N/A | N/A | N/A | N/A | N/A | 40 | 90% |
| 32 | 3000 | 4500 | N/A | N/A | N/A | N/A | 40 | 90% |
| 40 | 2500 | 3750 | 6000 | 12000 | 18000 | 24000 | 40 | 91% |
| 50 | 2000 | 3000 | 5000 | 10000 | 15000 | 20000 | 50 | 91% |
| 60 | 1660 | 2500 | 4160 | 8320 | 12480 | 16640 | 60 | 91% |
| 80 | 1250 | 1850 | 3000 | 6000 | 9000 | 12000 | 60 | 91% |
| 100 | 1000 | 1500 | 2500 | 5000 | 7500 | 10000 | 60 | 91% |
| 125 | 800 | 1200 | 2000 | 4000 | 6000 | 8000 | 100 | 91% |
| 160 | 620 | 900 | 1500 | 3000 | 4500 | 6000 | 120 | 91% |
| 200 | 500 | 750 | 1250 | 2500 | 3750 | 5000 | 125 | 91% |
| 250 | 400 | 600 | 1000 | 2000 | 3000 | 4000 | 130 | 92% |
| 300 | 333 | 500 | 833 | 1666 | 2499 | 3332 | 160 | 92% |
| 375 | 270 | 400 | 660 | 1320 | 1980 | 2640 | 170 | 92% |
| 400 | 250 | 375 | 625 | 1250 | 1875 | 2500 | 180 | 92% |
| 500 | 200 | 300 | 500 | 1000 | 1500 | 2000 | 220 | 92% |
| 600 | 160 | 240 | 400 | 800 | 1200 | 1600 | 250 | 92% |
| 800 | 120 | 180 | 300 | 600 | 900 | 1200 | 300 | 92% |
| 1000 | 100 | 150 | 250 | 500 | 750 | 1000 | 400 | 92% |
| 1250 | 80 | 120 | 200 | 400 | 600 | 800 | 500 | 92% |
| 1600 | 62 | 90 | 150 | 300 | 450 | 600 | 600 | 92% |
| 2000 | 50 | 75 | 125 | 250 | 375 | 500 | 800 | 92% |
| 2500 | 40 | 60 | 100 | 200 | 300 | 400 | 900 | 92% |
| 3000 | 33 | 50 | 80 | 160 | 240 | 320 | 1000 | 92% |
| 4000 | 24 | 36 | 60 | 120 | 180 | 240 | 1100 | 92% |
| 5000 | 20 | 30 | 50 | 100 | 150 | 200 | 92% | |
| 6000 | 16.6 | 25 | 41.6 | 83.2 | 124.8 | 166.4 | 92% | |
| AC Input Voltage (Vac) | Input Current Per Phase (Aac) | |||||||
| 380/415 Vac, 3Φ | 184 | 276 | 440 | 880 | 1320 | 1760 | ||
| 440/480 Vac, 3Φ | 159 | 238 | 380 | 760 | 1140 | 1520 | ||
* Power levels marked with an asterisk are achieved through master-slave parallel of 250 kW models. Contact sales for more information or to inquire for systems as large as 4,000 kW+.
Specifications
The following specifications are subject to change without notice. Unless otherwise noted, all specifications measured at the product's maximum ratings.
| Specification | Value |
|---|---|
| 3Φ AC Input Voltage Available on all models | 380/400 Vac (operating range 342 to 440 Vac) 415 Vac (operating range 373 to 456 Vac) 440 Vac (operating range 396 to 484 Vac) 480 Vac (operating range 432 to 528 Vac) |
| Input Frequency | 50 Hz to 60 Hz |
| Power Factor | > 0.92 at maximum power, 100 kW and 150 kW models > 0.96 at maximum power, 250 kW models |
| AC Input Isolation | ±2500 Vdc, maximum input voltage to ground |
| Specification | Value |
|---|---|
| Voltage Ripple | Model specific. Refer to chart of available models. |
| Line Regulation | Voltage mode: ± 0.004% of full scale Current mode: ± 0.02% of full scale |
| Load Regulation | Voltage mode: ± 0.01% of full scale Current mode: ± 0.04% of full scale |
| Stability | ± 0.10% for 8 hrs. after 30 min. warm-up |
| Efficiency | 90% to 92% Model specific. Refer to chart of available models. |
| Maximum Slew Rate Standard Models | 100 ms for an output voltage change from 0 to 63% 100 ms for an output current change from 0 to 63% |
| Maximum Slew Rate Models with High Slew Rate Output (+HS) Option | 4 ms for an output voltage change from 0 to 63% 8 ms for an output current change from 0 to 63% |
| Bandwidth Standard Models | 3 Hz with remote analog voltage programming 2 Hz with remote analog current programming |
| Bandwidth Models with High Slew Rate Output (+HS) Option | 60 Hz with remote analog voltage programming 45 Hz with remote analog current programming |
| DC Output Isolation Models Rated ≤1000 Vdc | ±1000 Vdc, maximum output voltage to ground |
| DC Output Isolation Models Rated >1000 Vdc or Models with +ISO Option | ±6000 Vdc, maximum output voltage to ground |
| Specification | Value |
|---|---|
| Front Panel Programming | Stepless aluminum rotary knobs and keypad |
| Computer Interface | RS232, D-sub DB-9, female (Standard) LXI TCP/IP Ethernet RJ45 (Option +LXI) IEEE-488 GPIB (Option +GPIB) |
| External User I/O Port | 37-pin D-sub DB-37, female Referenced to Earth ground; isolated from power supply output See User Manual for pin layout |
| Remote Sense Limits (Wired) Available for models ≤ 1000 Vdc without High Isolation Output (+ISO) option | 3% maximum voltage drop from output to load |
| Specification | Value |
|---|---|
| Voltage Programming Accuracy | ± 0.075% of max rated voltage |
| Over Voltage Trip Programming Accuracy | ± 0.075% of max rated voltage |
| Current Programming Accuracy | ± 0.075% of max rated current |
| Over Current Trip Programming Accuracy | ± 0.075% of max rated current |
| Voltage Readback Accuracy | ± 0.2% of max rated voltage |
| Current Readback Accuracy | ± 0.2% of max rated current |
| Specification | Value |
|---|---|
| Analog Programming and Monitoring Levels | 0-10 Vdc |
| Analog Output Impedances | Voltage output monitoring: 100 Ω Current output monitoring: 100 Ω +10V reference: 1 Ω |
| Digital Programming and Monitoring Limits | Input: 0 to 5 Vdc, 10 kΩ input impedance Output: 0 to 5 Vdc, 5 mA drive capacity |
| Specification | Value |
|---|---|
| Size and Weight 100 kW Models | Floor-standing double-bay 19" cabinet with casters 67" H x 48" W x 31.5" D (170.2 x 121.9 x 80.0 cm) 1600 lbs (725.8 kg) |
| Size and Weight 150 kW Models | Floor-standing double-bay 19" cabinet with casters 67" H x 48" W x 31.5" D (170.2 x 121.9 x 80.0 cm) 2100 lbs (952.5 kg) |
| Size and Weight 250 kW Models | Floor-standing triple-bay 19" cabinet with casters 67" H x 72" W x 31.5" D (170.2 x 182.9 x 80.0 cm) 3300 lbs (1496.9 kg) |
| Specification | Value |
|---|---|
| Ambient Operating Temperature | 0°C to 50°C |
| Storage Temperature | -25°C to +85°C |
| Humidity | Relative humidity up to 95% non-condensing |
| Temperature Coefficient | 0.04%/°C of maximum output voltage 0.06%/°C of maximum output current |
| Air Flow | Front and rear inlet, top exhaust |
| Specification | Value |
|---|---|
| EMC | Complies with 2014/30/EU (EMC Directive) CISPR 22 / EN 55022 Class A |
| Safety | Complies with EN61010-1 and 2014/35/EU (Low Voltage Directive) |
| CE Mark | Yes |
| RoHS Compliant | Yes |
Dimensional Diagrams
The following are vectorized diagrams for theMT Series. Refer to theDownloadssection for downloadable drawings.
Front Side
100 kW and 150 kW Models
Rear Side
100 kW and 150 kW Models
Front Side
250 kW Models
Rear Side
250 kW Models
DC Output Bus
Models Rated 50 Vdc and Below
DC Output Bus
Models Rated 60 Vdc through 1000 Vdc
DC Output Bus
Models Rated Greater than 1000 Vdc
Integrated Options
The following are the standard integrated options available for theMT Series. Refer to theModel Ordering Guidefor details on how the option code is specified in the full model number.
Software Add-ons
TheMT Seriescomes standard with control software and drivers available underDownloads. The following are additional software add-ons available.
PPPE-1
Photovoltaic Power Profile Emulation License
Order Code:PPPE-1
A software license for an additional power supply for users who have already purchased PPPE. Licensed by product serial number with unlimited seats.
Accessories
The following is a list of available external accessories for theMT Series.
RS485
RS485 Converter
Order Code:RS485
Industrial RS232 to Addressable RS485 Converter. Plugs into product's RS232 port.
UID46
UID46: Universal Interface Device 46
Order Code:UID46
Master-slave interface device for load sharing. Includes interface device and (2) D-Sub 37 cables.
UID47
UID47: Universal Interface Device 47
Order Code:UID47
Master-slave interface device for load sharing. Includes interface device and (2) D-Sub 37 cables.
USB
USB Edgeport Converter
Order Code:USB
Industrial Plug and Play USB to RS232 Converter. Adapter plugs into product's RS232 port.
Downloads
The following downloads are for the SL Series
Documentation
MT Series Datasheet [4.4.0] [EN] [PDF]
MT Series Datasheet [4.4.0] [ZH] [PDF]
MT Series User Manual [EN] [PDF]
Drawings
MT Series Cabinet - 100 kW [09] [DWG]
MT Series Cabinet - 250 KW [02] [DWG]
MT Series Cabinet - 150 kW [00] [DWG]
Drivers
MagnaDC IVI Driver [1.5.1.0] [MSI]
LabWindows Driver [1.02] [ZIP]
MagnaDC LabVIEW Driver 32-bit [1.00] [ZIP]
MagnaDC LabVIEW Driver 64-bit [1.00] [ZIP]
Software
Photovoltaic Power Profiles Emulation [2.0.0.12] [ZIP] [License Required]
Remote Interface Software (RIS) Panel [1.26] [ZIP]