XR系列
Programmable DC Power Supply
- Size
- 2U
- Power
- 2 kW to 10 kW
- Manufactured
- USA
- Build-time
- 4-6 weeks
2U XR系列通过在2 kW,4 kW,6 kW,8 kW,8 kW和10 kW的2U封装中提供高电压(大于1500 VDC)和高电流(大于250 ADC)模型,从而补充了1U SL系列。 XR系列具有Magna-Power产品产品中最高的电压范围,最多10,000 VDC和高电流型号高达600 dC,所有这些型号都利用了公司的签名电流喂养的功率处理来提供强大的电源转换。此外,高精度编程和监视水平使电源测量值有信心,从而消除了对外部电力计的需求。
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Fast, accurate power delivery with controls and options tailored to your needs
High-voltage and high-current performance in 2U
Precise, stable output for demanding loads.
XR Series complements the 1U SL Series by extending into 2–10 kW models for high voltage, from 2000 Vdc up to 10,000 Vdc and high current, from 375 Adc up to 600 Adc—all in a compact 2U package. In constant-voltage or constant-current mode with automatic crossover, the XR Series delivers fast transient recovery, ±0.075% programming accuracy for voltage and current, and ±0.2% measurement accuracy—supporting confident control and readback without external metering.
Configured-to-order with integrated options
Rich standard features, extended when needed.
XR Series starts with a strong base: SCPI over RS232, isolated 37-pin user I/O, LabVIEW and IVI drivers, and Remote Interface Software included. When applications demand more, fully integrated options tailor performance, connectivity, and mechanics—without external boxes or ad-hoc wiring.
- Standard SCPI computer controls, RS232, isolated 37-pin analog/digital I/O, LabVIEW & IVI drivers, RIS software.
- High Slew Rate Output (+HS) for higher bandwidth and faster programmed rise times.
- Connectivity options LXI TCP/IP Ethernet (+LXI) and IEEE-488 GPIB (+GPIB).
- Ruggedized (+RUG) for MIL-STD shock & vibration
Stepless front-panel control with blank panel option
Hands-on where you want it, hidden where you don’t.
The standard XR front panel provides rotary and key-based control, bright digital metering, and clear status indicators, so operators can configure setpoints, start and stop the supply, and see system health at a glance. For OEMs and production tools, the optional blank (C-version) front panel removes local controls altogether while retaining full control via communication interfaces and rear 37-pin user I/O, keeping systems secure, clean, and operator-proof.
Rugged by design: safety + reliability, as you'd expect from Magna-Power.
Reliable current-fed power processing
Rugged by design: self-protecting topology for uptime.
The SLx Series uses a high-frequency, current-fed architecture that adds a control stage beyond conventional voltage-fed designs. This topology inherently limits fault energy—avoiding fast-rising current spikes and magnetic core saturation so the supply self-protects and your load stays safe. Paired with state-of-the-art SiC power semiconductors, SLx delivers class-leading power density, efficiency, and reliability, including continuous full-power operation up to 50°C ambient.
- Current-fed architecture with an added control stage vs. voltage-fed.
- Inherent surge immunity—no current spikes or core saturation.
- Self-protecting behavior under fault conditions.
- SiC devices for high density and efficiency; full power to 50°C.
Layered safety, interlock & emergency stop
Standard programmable limits plus hardwired shutdown.
A soft-start stage keeps inrush below steady-state draw, while built-in diagnostics watch line, thermal, and internal conditions. On a fault, an immediate one-shot (OSHT) trip halts the inverter. Faults are reported on the front-panel status display and via SCPI/Modbus for fast troubleshooting.
- Soft-start caps inrush; AC draw stays below full-load current.
- Programmable trips: over-voltage, over-current, over-power.
- Thermal monitoring on heatsink and output capacitors.
- 5V interlock input for dry-contact, latching inhibit (control power maintained).
- 24 V emergency stop bypasses logic to interrupt AC; full hardware shutdown.
From lab scripts to factory PLCs, flexible programming & integration.
Software integration made easy
Readable commands, quick results—works with any language.
MagnaDC power supplies exposes a clear, text-based API with native SCPI, an ASCII-based command language sent over socket communications. Over 40 well-documented commands cover start/stop, set points for voltage, current, high-accuracy measurements, and full configuration—so your scripts and systems go from proof-of-concept to production fast.
- SCPI command sets with consistent behavior.
- Start/stop & protections: enable output, set trip limits, query status.
- High-accuracy reads: voltage, current, power, and sense feedback.
- Developer-driven documentation & examples.
import serial
magnaPower = serial.Serial(port='COM4', baudrate=19200)
magnaPower.write('*IDN?\n'.encode())
print magna_power.readline()
magnaPower.write('VOLT 0\n'.encode())
magnaPower.write('CURR 0\n'.encode())
magnaPower.write('OUTP:START\n'.encode())
magnaPower.write('VOLT 270\n'.encode())
currSetPoints = [50, 100, 150, 250]
for currSetPoint in currSetPoints:
print 'Setting Current to %s A' % currSetPoint
magnaPower.write('CURR {0}\n'.format(currSetPoint).encode())
magnaPower.write('MEAS:VOLT?\n'.encode())
print magnaPower.readline()
time.sleep(20)
magnaPower.write('OUTP:STOP\n'.encode())
magnaPower.close()
magna_power = serial('COM4', 'BaudRate', 19200);
fopen(magnaPower);
fprintf(magnaPower,'*IDN?');
idn = fscanf(magnaPower);
fprintf(magnaPower,'VOLT 0');
fprintf(magnaPower,'CURR 0');
fprintf(magnaPower,'OUTP:START');
fprintf(magnaPower,'VOLT 270');
for currSetPoint in [50, 100, 150, 250]
display('Setting Current to '+currSetPoint+' A');
fprintf(magnaPower, 'CURR '+currSetPoint);
fprintf(magnaPower,'MEAS:VOLT?');
display(fscanf(magnaPower));
pause(20);
end
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <windows.h>
int main()
{
printf("Opening connection.\n");
uint8_t recvBuffer[sizeof(uint8_t) * 256];
memset(recvBuffer, 0, 256);
// Choose the serial port name.
// COM ports higher than COM9 need the \\.\ prefix, which is written as
// "\\\\.\\" in C because we need to escape the backslashes.
const char* device = "\\\\.\\COM4";
// Choose the baud rate (bits per second).
uint32_t baud_rate = 19200;
HANDLE port = open_serial_port(device, baud_rate);
if (port == INVALID_HANDLE_VALUE) { return 1; }
char* scpiCmd = (char*)"*IDN?\n";
size_t cmdLen = strlen(scpiCmd);
int result = write_port(port, (uint8_t*)scpiCmd, cmdLen);
if (result < 0)
return -1;
result = read_port(port, recvBuffer, 256);
printf("Sent: %s\nReceived: %s\n", scpiCmd, recvBuffer);
scpiCmd = (char*)"VOLT 0\n";
cmdLen = strlen(scpiCmd);
result = write_port(port, (uint8_t*)scpiCmd, cmdLen);
if (result < 0)
return -1;
scpiCmd = (char*)"CURR 0\n";
cmdLen = strlen(scpiCmd);
result = write_port(port, (uint8_t*)scpiCmd, cmdLen);
if (result < 0)
return -1;
scpiCmd = (char*)"OUTP:START\n";
cmdLen = strlen(scpiCmd);
result = write_port(port, (uint8_t*)scpiCmd, cmdLen);
if (result < 0)
return -1;
scpiCmd = (char*)"VOLT 270\n";
cmdLen = strlen(scpiCmd);
result = write_port(port, (uint8_t*)scpiCmd, cmdLen);
if (result < 0)
return -1;
char setPoints[4][5] = {"50", "100", "150", "200"};
char setPointBuffer[40];
scpiCmd = (char*)"MEAS:VOLT?\n";
for (int i = 0; i < 4; i++)
{
sprintf(setPointBuffer, "CURR %s\n", setPoints[i]);
printf("Setting current to %s A\n", setPoints[i]);
cmdLen = strlen(setPointBuffer);
result = write_port(port, (uint8_t*)setPointBuffer, cmdLen);
if (result < 0)
return -1;
memset(recvBuffer, 0, 256);
result = read_port(port, recvBuffer, 256);
printf("Received: %s\n", recvBuffer);
Sleep(20000); // 20000ms = 20s
}
scpiCmd = (char*)"OUTP:STOP\n";
cmdLen = strlen(scpiCmd);
result = write_port(port, (uint8_t*)scpiCmd, cmdLen);
if (result < 0)
return -1;
CloseHandle(port);
printf("Connection closed.\n");
return 0;
}
using System;
using System.IO.Ports;
using System.Threading;
namespace SerialCommunicationInCSharp
{
public class Program
{
static bool _continue;
static SerialPort serialPort;
public static void Main(string[] args)
{
Thread readThread = new Thread(Read);
Console.WriteLine("Opening connection.");
// Create a new SerialPort object with default settings.
serialPort = new SerialPort("COM4", 19200, Parity.None, 8, StopBits.One);
// Set the read/write timeouts
serialPort.ReadTimeout = 500;
serialPort.WriteTimeout = 500;
serialPort.Open();
_continue = true;
readThread.Start();
Console.WriteLine("Sending: *IDN?");
serialPort.WriteLine("*IDN?");
serialPort.WriteLine("VOLT 0");
serialPort.WriteLine("CURR 0");
serialPort.WriteLine("OUTP:START");
serialPort.WriteLine("VOLT 270");
string[] currSetPoints = { "50", "100", "150", "250" };
ß
for(int i = 0; i < currSetPoints.Length; i++)
{
serialPort.WriteLine(String.Format("'CURR {0}", currSetPoints[i]));
serialPort.WriteLine("MEAS:VOLT?");
Thread.Sleep(20000);
}
serialPort.WriteLine("OUTP:STOP");
Console.WriteLine("Closing connection.");
_continue = false;
serialPort.Close();
}
public static void Read()
{
while (_continue)
{
try
{
string message = serialPort.ReadLine();
Console.WriteLine("Received: " + message);
}
catch (TimeoutException) { }
}
}
}
}
External User I/O for PLC control or PHIL simulation
Wire it like an I/O module—no extra isolation needed.
Via the included rear 37-pin User I/O connector, MagnaDC supplies can be fully driven and monitored by external signals or a PLC. Voltage, current, OVT, and OCT set points are programmed with 0–10 V analog inputs, while each diagnostic condition has its own +5V digital status pin. Built-in +2.5V, +5V, and +10V reference rails let you use dry contacts without adding external supplies. All I/O is isolated from the output and referenced to earth ground as standard.
-
0–10 V analog programming for V, I, OVT, and OCT.
-
Per-fault digital outputs: each diagnostic has its own +5V pin.
-
Isolated user I/O referenced to earth ground—no extra isolators.
-
With High Slew Rate Output (+HS), high-bandwidth response and fast rise times support HIL/PHIL simulation applications.
High-performance master-slave operation
Scale voltage or current without sacrificing performance.
All MagnaDC supplies support master-slave operation, using gate-drive signals from the master when configured for parallel, so the whole stack behaves like a single supply—with one control loop and no noisy long analog references. The optional UID47 accessory simplifies wiring for series or parallel sets with near-equal sharing.
-
Single control loop parallel operation: Master gate-drive to slaves for consistent dynamics.
-
Plug & play with the UID47, enabling parallel or series stacks with current/voltage sharing.
-
Series up to the DC isolation rating without added hardware.
No additional ORing diodes required for parallel operation.
Magna-Power software, LabVIEW & IVI drivers
From virtual front panel to full automation—out of the box.
Every MagnaDC supply includes an IVI driver and NI LabVIEW driver with a full set of VIs, plus example programs so you can get talking to the hardware in minutes. For direct front-panel-style control from a PC, Magna-Power’s Remote Interface Software provides a rich view into the supply—from commands and registers to calibration and firmware.
-
IVI & NI LabVIEW drivers included with full VI set.
-
Example programs to jump-start integration and testing.
-
Remote Interface Software with:
-
Virtual front panel for manual control
-
Command panel to explore and send commands
-
Register panel for live status monitoring
-
Calibration panel for internal digital potentiometers
-
Firmware panel for in-place upgrades
-
Modulation panel to emulate non-linear profiles
-
-
All communication interfaces supported across software and drivers for a consistent programming experience.
State-of-the-art USA manufacturing with worldwide support
Made in the USA
Vertically integrated manufacturing for full quality control.
Magna-Power products are designed, built, tested, and serviced at Magna-Power’s 73,500 sq-ft headquarters in Flemington, New Jersey, where metalwork, magnetics, PCB assembly, and burn-in are all done in-house for tight control over quality, cost, and lead-time.
- USA-built: Engineering, manufacturing, and service under one roof.
- In-house production: Metalwork, magnetics, SMT PCBs, and finishes.
- Proven reliability: Every unit fully tested, calibrated, and burned in.
Worldwide service & OEM parts support
Factory expertise, local response.
Magna-Power backs its products with factory and authorized service centers across North America, Europe, the UK, Asia-Pacific, East Asia, and South America—using factory procedures and genuine parts to restore units to original specifications, in or out of warranty.
- Global coverage: HQ in New Jersey plus regional authorized service centers.
- Consistent repairs: Factory diagnostics, work instructions, and system diagrams.
- Genuine OEM parts: Tested replacement assemblies for predictable, low-downtime service.
Model Ordering Guide
For both ordering and production, XR Series models are uniquely defined by several key characteristics, as defined by the following diagram:
XR Series Models
There are 39 different models in the XR Series spanning power levels: 2 kW, 4 kW, 6 kW, 8 kW, 10 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.
| Max Voltage Vdc |
2 kW | 4 kW | 6 kW | 8 kW | 10 kW | Ripple mVrms |
Efficiency |
|---|---|---|---|---|---|---|---|
| Max Current Adc | |||||||
| 5 | 375 | 600 | — | — | — | 50 | 80% |
| 10 | — | 375 | 600 | — | — | 50 | 84% |
| 16 | — | — | 375 | 500 | 600 | 50 | 84% |
| 20 | — | — | 300 | 375 | 500 | 45 | 87% |
| 25 | — | — | — | 320 | 400 | 45 | 88% |
| 32 | — | — | — | — | 310 | 40 | 88% |
| 2000 | 1 | 2 | 3 | 4 | 5 | 500 | 93% |
| 3000 | 0.6 | 1.3 | 2 | 2.6 | 3.3 | 600 | 93% |
| 4000 | 0.5 | 1 | 1.5 | 2 | — | 6500 | 93% |
| 6000 | 0.33 | 0.66 | 1 | 1.33 | — | 7500 | 93% |
| 8000 | 0.25 | 0.5 | 0.75 | 1 | — | 8500 | 93% |
| 10000 | 0.2 | 0.4 | 0.6 | 0.8 | — | 9500 | 93% |
| AC Input Voltage Vac |
Input Current Per Phase Aac | ||||||
| 208/240 Vac, 1Φ | 17 | — | — | — | — | ||
| 208/240 Vac, 3Φ | 8 | 15 | 22 | 29 | 35 | ||
| 380/415 Vac, 3Φ | 5 | 9 | 12 | 16 | 19 | ||
| 440/480 Vac, 3Φ | 4 | 8 | 11 | 14 | 17 | ||
Specifications are subject to change without notice. Unless otherwise noted, all specifications measured at the product's maximum ratings.
AC Input Specifications
240 Vac (operating range 216 - 264 Vac)
240 Vac (operating range 216 to 264 Vac)
380 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)
0.70 at max power; models with 1Φ AC input
DC Output Specifications
Current mode: ± 0.02% of full scale
Current mode: ± 0.04% of full scale
Model specific. Refer to chart of available models.
< 200 ms for a programmed output current change from 0 to 63%
< 10 ms for an output current change from 0 to 63%
2 Hz with remote analog current programming
45 Hz with remote analog current programming
Programming Interface Specifications
LXI TCP/IP Ethernet RJ45 (Option +LXI)
IEEE-488 GPIB (Option +GPIB)
Referenced to Earth ground; isolated from power supply output
See User Manual for pin layout
Accuracy Specifications
External User I/O Specifications
Current output monitoring: 100 Ω
+10V reference: 1 Ω
Output: 0 to 5 Vdc, 5 mA drive capacity
Physical Specifications
3.50" H x 19" W x 24" D (8.89 x 48.26 x 60.96 cm)
45 lbs (20.41 kg)
3.50" H x 19" W x 24" D (8.89 x 48.26 x 60.96 cm)
47 lbs (21.32 kg)
3.50" H x 19" W x 24" D (8.89 x 48.26 x 60.96 cm)
48 lbs (21.77 kg)
3.50" H x 19" W x 24" D (8.89 x 48.26 x 60.96 cm)
48 lbs (21.77 kg)
3.50" H x 19" W x 24" D (8.89 x 48.26 x 60.96 cm)
48 lbs (21.77 kg)
Environmental Specifications
0.06%/°C of maximum output current
Regulatory Specifications
CISPR 22 / EN 55022 Class A
The following are vectorized diagrams for the XR Series. Refer to the Downloads section for downloadable drawings.
Integrated Options
Standard integrated options are available for Magna-Power products, allowing the product's performance and communication interfaces to be tailors to the specific application.
- Option
- +HS
- Option
- +GPIB
Accessories
External accessories and integration services available for this product.
