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TS Serie

Programmable DC Power Supply

Size
3U to 16U
Power
5 kW to 100 kW
Manufactured
USA
Build-time
4-6 weeks

The TS Series offers many models spanning a wide voltage and current range, while still maintaining among the highest power density rack-mount packaging. The TS Series covers voltages from 5 Vdc up to 6000 Vdc (floating) and current levels from 1.2 Adc up to 8000 Adc. Models 5 kW to 15 kW are available in a 3U chassis, models 20 kW and 25 kW are available in a 4U chassis, models 30 kW are available in a 6U chassis, models 40 kW and 50 kW are available in an 8U chassis with removable casters, models 75 kW models are available in a 12U chassis with removable casters, and 100 kW models are available in a 16U chassis with removable casters. In addition, there are several special low voltage high current models, enabling a more cost-effective solution for these requirements. All TS Series power supplies come standard with isolated 37-pin external I/O, RS232, Remote Interface Software, IVI drivers, and LabVIEW drivers for integration into a variety of programming environment.

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Ts 8 U 3x2 image
TS Series 8U model, 40 kW and 50 kW DC output, front view with casters installed. Rack-mount kit also included.
Ts 3u 3x2 image
TS Series 3U model
Ts 4u 4x3 image
TS Series 4U model, 20/25 kW DC output with 380/400 Vac, 415 Vac, 440 Vac or 480 Vac 3-phase AC input
Ts 6 U 3x2 image
TS Series 6U model, 20/25 kW DC output with 208/240 Vac AC input and all 30 kW models
Ts 16 U frontangled image
TS Series 16U model, 100 kW DC output, front angled view with casters installed. Rack-mount kit also included.
Ts 16 U front image
TS Series 16U model, 100 kW DC output, front view.
Ts 16 U rear image
TS Series 16U model, 100 kW DC output, rear view with protective covers removed.
Ts 16 U rear cover image
TS Series 16U model, 100 kW DC output, rear view with protective covers installed.
Ts 16 U rearangled image
TS Series 16U model, 100 kW DC output, rear angled view with protective covers removed.
Ts 16 U rearangled covers image
TS Series 16U model, 100 kW DC output, rear angled view with protective covers installed.
Ts 16u 12x image
Qty (12) TS Series 16U 100 kW power supplies packaged in Qty (6) CAB-A4
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Qty (9) TSD10-6000/480+LXI water cooled power supplies with integrated harmonic neutralizers to deliver 54 kA
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Qty (12) 50 kW 8U TS Series power supplies packaged into Qty (3) CAB-A4
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Qty (4) TSD10-4000/480 water cooled power supplies packaged into a CAB-B4 to deliver 16 kA from a single rack
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Ts 6 U 3x2 thumbnail
Ts 16 U frontangled thumbnail
Ts 16 U front thumbnail
Ts 16 U rear thumbnail
Ts 16 U rear cover thumbnail
Ts 16 U rearangled thumbnail
Ts 16 U rearangled covers thumbnail
Ts 16u 12x thumbnail
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Scalable rack performance with configured-to-order features and options

Hochleistungs-Rack-Mount-Systeme

Hochleistungs-Rack-Mount-Systeme

Schnelle Reaktion, präzise Regelung und saubere Ausgangssignale für kritische Lasten.

Die programmierbaren DC-Netzgeräte der TS Serie liefern 5 kW bis 100 kW in 3U–16U-Rack-Mount-Gehäusen und decken Bereiche von 5 Vdc bis 6.000 Vdc (potentialfrei) sowie bis zu 10.000 Adc ab. Spannungs- und Stromregelung ermöglichen Konstantspannungs-/Konstantstrombetrieb mit nahtlosem Übergang, während die Leistung mit einer Lasttransienten-Erholzeit von 2 ms (50–100%-Sprung auf ±1%), einer Programmiergenauigkeit von ±0,075% für Spannung und Strom sowie geringem Rippel (modellabhängig, bis zu 35 mVrms bei Standardkonfigurationen) präzise bleibt. Der Wirkungsgrad erreicht je nach Modell bis zu 92%, und 8U–16U-Gehäuse verfügen über abnehmbare Rollen für eigenständigen Betrieb oder Rack-Integration.

Konfiguriert nach Bestellung mit integrierten Optionen

Konfiguriert nach Bestellung mit integrierten Optionen

Umfangreiche Standardfunktionen, bei Bedarf erweiterbar.

Wie die gesamte MagnaDC-Reihe beginnen die Netzgeräte der TS Serie mit einer leistungsstarken Steuerungsbasis: SCPI über RS232, isolierte rückseitige User I/O, LabVIEW- und IVI-Treiber sowie Remote Interface Software sind im Lieferumfang enthalten. Darüber hinaus ermöglichen integrierte Optionen die individuelle Anpassung jedes Systems an seine Aufgabe – Hochspannungsisolierter Ausgang (+ISO) für erweiterte Reihenschaltung, Ausgang mit hoher Anstiegsrate (+HS) für schnellere Dynamik, LXI TCP/IP Ethernet (+LXI) und IEEE-488 GPIB (+GPIB) für zusätzliche Kommunikationsschnittstellen sowie Schutz- und mechanische Optionen wie eine integrierte Sperrdiode (+BD) oder Wasserkühlung (+WC) als Ersatz für die standardmäßige Luftkühlung.

Stufenlose Frontpanelsteuerung mit Blindplatten-Option

Stufenlose Frontpanelsteuerung mit Blindplatten-Option

Bedienung dort, wo Sie sie brauchen – verborgen, wo nicht.

The standard SL 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.

Zuverlässige stromgespeiste Leistungsverarbeitung

Zuverlässige stromgespeiste Leistungsverarbeitung

Robust durch Design: selbstschützende Topologie für maximale Betriebszeit.

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.
Technischen Artikel lesen
Sicherheitsfunktionen & Verriegelung

Sicherheitsfunktionen & Verriegelung

Sanftanlauf, programmierbare Schutzfunktionen und eine mechanische Netztrennung für echte Sicherheit.

MagnaDC supplies start gently and watch continuously. A soft-start stage keeps inrush below steady-state draw, while built-in diagnostics monitor line, thermal, and control conditions. In standby or on a diagnostic fault, an embedded AC contactor mechanically disconnects the mains, assuring the unit only processes power when intended. Faults are shown on the front-panel status display, through 5V digital outputs, and are queryable via SCPI.

  • Programmable trips: Over voltage (OVT) and over current (OCT)/

  • Control integrity: Program-line over-voltage detection.

  • Thermal protection: Over temperature on internal heatsinks.

  • Interlock/E-stop fault monitoring as a standard diagnostic.

  • Field integration: 5V interlock input (with 5V reference) for a dry-contact, latching inhibit with control power maintained.

From lab scripts to factory PLCs, flexible programming & integration.

Softwareintegration leicht gemacht

Lesbare Befehle, schnelle Ergebnisse – funktioniert mit jeder Programmiersprache.

MagnaDC-Netzgeräte bieten eine übersichtliche, textbasierte API mit nativem SCPI, einer ASCII-basierten Befehlssprache, die über Socket-Kommunikation gesendet wird. Über 40 gut dokumentierte Befehle decken Start/Stopp, Sollwerte für Spannung, Strom, hochpräzise Messungen und die vollständige Konfiguration ab – so gelangen Ihre Skripte und Systeme schnell vom Proof-of-Concept in die Produktion.

  • SCPI-Befehlssätze mit konsistentem Verhalten.
  • Start/Stopp & Schutzfunktionen: Ausgang aktivieren, Auslösegrenzen setzen, Status abfragen.
  • Hochpräzise Messwerte: Spannung, Strom, Leistung und Sense-Rückmeldung.
  • Entwicklerorientierte Dokumentation & Beispiele.
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) { }
      }
    }
  }
}
Externer User I/O für SPS-Steuerung oder PHIL-Simulation

Externer User I/O für SPS-Steuerung oder PHIL-Simulation

Verdrahten wie ein I/O-Modul – keine zusätzliche Isolation erforderlich.

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.

User I/O Pinout-Definitionen
Hochleistungs-Master-Slave-Betrieb

Hochleistungs-Master-Slave-Betrieb

Spannung oder Strom skalieren ohne Leistungseinbußen.

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-Treiber

Vom virtuellen Bedienfeld bis zur vollständigen Automatisierung – sofort einsatzbereit.

Jedes MagnaDC-Netzteil enthält einen IVI-Treiber und einen NI LabVIEW-Treiber mit einem vollständigen Satz von VIs sowie Beispielprogramme, mit denen Sie in wenigen Minuten mit der Hardware kommunizieren können. Für die direkte Steuerung im Bedienfeld-Stil von einem PC aus bietet die Remote Interface Software von Magna-Power einen umfassenden Einblick in das Netzteil – von Befehlen und Registern bis hin zu Kalibrierung und Firmware.

  • IVI- & NI LabVIEW-Treiber mit vollständigem VI-Satz enthalten.

  • Beispielprogramme für den schnellen Einstieg in Integration und Tests.

  • Remote Interface Software mit:

    • Virtuelles Bedienfeld für manuelle Steuerung

    • Befehlsfeld zum Erkunden und Senden von Befehlen

    • Registerfeld für Live-Statusüberwachung

    • Kalibrierungsfeld für interne digitale Potentiometer

    • Firmware-Feld für Vor-Ort-Upgrades

    • Modulationsfeld zur Emulation nichtlinearer Profile

  • Alle Kommunikationsschnittstellen werden software- und treiberübergreifend unterstützt – für ein einheitliches Programmiererlebnis.

Magna-Power Software, LabVIEW- & IVI-Treiber

State-of-the-art USA manufacturing with worldwide support

Made in the USA

Made in the USA

Vertikal integrierte Fertigung für vollständige Qualitätskontrolle.

Magna-Power Produkte werden am 73.500 sq-ft großen Hauptsitz von Magna-Power in Flemington, New Jersey, entworfen, gebaut, getestet und gewartet. Metallbearbeitung, Magnetfertigung, PCB-Bestückung und Burn-in erfolgen vollständig im eigenen Haus – für maximale Kontrolle über Qualität, Kosten und Lieferzeiten.

  • Made in USA: Entwicklung, Fertigung und Service unter einem Dach.
  • Eigenfertigung: Metallbearbeitung, Magnetfertigung, SMT-PCBs und Oberflächenbehandlung.
  • Bewährte Zuverlässigkeit: Jedes Gerät wird vollständig getestet, kalibriert und eingebrannt.
Magna-Power's Betrieb entdecken
Weltweiter Service & OEM-Ersatzteilsupport

Weltweiter Service & OEM-Ersatzteilsupport

Fachwissen ab Werk, Reaktion vor Ort.

Magna-Power unterstützt seine Produkte mit werks- und autorisierten Servicezentren in Nordamerika, Europa, Großbritannien, dem asiatisch-pazifischen Raum, Ostasien und Südamerika – mit werkseitigen Verfahren und Originalteilen, um Geräte innerhalb und außerhalb der Garantie auf die ursprünglichen Spezifikationen zurückzusetzen.

  • Globale Abdeckung: Hauptsitz in New Jersey sowie regionale autorisierte Servicezentren.
  • Einheitliche Reparaturen: Werksdiagnosen, Arbeitsanweisungen und Systemdiagramme.
  • Original-OEM-Teile: Geprüfte Ersatzbaugruppen für planbaren Service mit minimalen Ausfallzeiten.
Serviceoptionen entdecken

Model Ordering Guide

For both ordering and production, TS Series models are uniquely defined by several key characteristics, as defined by the following diagram:

TS Series Ordering Guide

TS Series Models

There are 275 different models in the TS Series spanning power levels: 5 kW, 10 kW, 15 kW, 20 kW, 25 kW, 30 kW, 40 kW, 50 kW, 75 kW, 100 kW. To determine the appropriate model:

  1. Select the desired Max Voltage (Vdc) from the left-most column.
  2. Select the desired Max Current (Adc) from the same row that contains your desired Max Voltage.
  3. Construct your model number according to the model ordering guide.
Max Voltage
Vdc		 5 kW 10 kW 15 kW 20 kW 25 kW 30 kW 40 kW 50 kW 75 kW 100 kW Ripple5
mVrms		 Efficiency
Max Current Adc
Chassis Height 3U 3U 3U 4U/6U2 4U/6U2 6U 8U 8U 12U 16U    
5 900 18001 27001 50 84%
8 600 25003,4 50004 75004 100004 40 85%
10 500 900 20003 27001 4000 6000 8000 40 87%
16 300 600 900 1800 35 87%
20 250 500 750 1000 1250 1500 2000 2500 3750 5000 40 88%
25 200 400 600 800 1000 1200 1600 2000 3000 4000 40 89%
32 150 300 450 625 781 900 1250 1562 2343 3124 40 89%
40 125 250 375 500 625 750 1000 1250 1875 2500 40 89%
50 100 200 300 400 500 600 800 1000 1500 2000 50 89%
60 83 166 249 333 416 498 666 832 1248 1664 60 87%
80 62 124 186 250 312.5 372 500 625 937.5 1250 60 90%
100 50 100 150 200 250 300 400 500 750 1000 60 90%
125 40 80 120 160 200 240 320 400 600 800 100 90%
160 31 62 93 125 156 186 250 312 468 624 120 90%
200 25 50 75 100 125 150 200 250 375 500 125 91%
250 20 40 60 80 100 120 160 200 300 400 130 91%
300 16 32 48 66.6 83.3 96 133.2 166.6 249.9 333.2 160 91%
375 13 26 39 53.3 66.6 78 106.6 133.2 199.8 266.4 170 92%
400 12 24 36 50 62.4 72 100 125 187.2 249.6 180 92%
500 10 20 30 40 50 60 80 100 150 200 220 92%
600 8 16 24 33.3 41.6 48 66.6 83.2 124.8 166.4 250 92%
800 6 12 18 25 31.2 36 50 62.4 93.6 124.8 300 92%
1000 5 10 15 20 25 30 40 50 75 100 350 92%
1250 4 8 12 16 20 24 32 40 60 80 375 92%
1500 3.3 6.6 9.9 13.3 16.6 19.8 26.6 33.2 49.8 66.4 400 92%
2000 2.5 5 7.5 10 12.5 15 20 25 37.5 50 450 92%
3000 1.6 3.2 4.8 6.6 8.3 9.6 13.2 16.6 24.9 33.2 500 92%
4000 1.2 2.4 3.6 5 6.2 7.2 10 12.4 18.6 24.8 550 92%
5000 1 2 3 4 5 6 8 10 15 20 1500 92%
6000 0.8 1.6 2.5 3.3 4.1 5 6.6 8.3 12.3 16.4 1700 92%
AC Input Voltage
Vac		 Input Current Per Phase Aac
208/240 Vac, 1Φ 41    
208/240 Vac, 3Φ 18 36 52 69 85 105    
380/415 Vac, 3Φ 10 20 29 38 47 57 76 94 141 188    
440/480 Vac, 3Φ 9 17 25 33 40 50 66 82 120 160    

1 Models designated as special low-voltage high-current models that may vary in size and input current from the standard TS Series models within the same power envelope.

2 20/25 kW models with 380/415, 3Φ input or 440/480 Vac, 3Φ input come in a 4U chassis. 20/25 kW models with 208/240, 3Φ input come in a 6U chassis.

3 Available with 380/415, 3Φ input or 440/480 Vac, 3Φ input only, 4U.

4 45ºC max ambient operating temperature rating for standard air cooled configurations. 50ºC max ambient operating temperature rating for configurations with Water Cooling (+WC) option.

5 Ripple specifed for standard models. Ripple will be higher for models with the High Slew Rate Output (+HS) option page for more details.

Specifications are subject to change without notice. Unless otherwise noted, all specifications measured at the product's maximum ratings.

AC Input Specifications

1Φ AC Input Voltage
1Φ, 2-wire + ground; Available on 5 kW models only
208 Vac (operating range 187 - 229 Vac)
240 Vac (operating range 216 - 264 Vac)
3Φ AC Input Voltage
3Φ, 3-wire + ground
208 Vac (operating range 187 to 229 Vac)
240 Vac (operating range 216 to 264 Vac)
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 400 Hz
Power Factor
> 0.92 at maximum power (3Φ Input)
> 0.70 at maximum power (1Φ Input)
AC Input Isolation
±2500 Vdc, maximum input voltage to ground

DC Output Specifications

Voltage Ripple
Model specific. Refer to chart of available models.
Line Regulation
Line regulation is a measure of a power supply's ability to maintain its output voltage (or current) given changes in the input line voltage. Line regulation is expressed as percent of change in the output voltage (or current) relative to the change in the input line voltage.
Voltage mode: ± 0.004% of full scale
Current mode: ± 0.02% of full scale
Load Regulation
Load regulation is a measure of the power supply's ability to maintain its output voltage (or current) given changes in the load, measured while operating at the maximum rated voltage (or current). Load regulation is expressed as the difference between voltage (or current) at full load minus voltage (or current) at min load, divided by the products max voltage (or current) rating.
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
85% to 95%
Model specific. Refer to chart of available models.
Maximum Slew Rate
Standard Models
< 170 ms for a programmed output voltage change from 0 to 63%
< 200 ms for a programmed output current change from 0 to 63%
Maximum Slew Rate
Models with High Slew Rate Output (+HS) Option
< 5 ms for a programmed output voltage change from 0 to 63%
< 10 ms for a programmed 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
±(3000 Vdc + Vo/2), maximum output voltage to ground where Vo is the maximum output voltage of the power supply

Programming Interface Specifications

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
Analog and Digital Programming
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

Accuracy Specifications

Voltage Programming Accuracy
Programming accuracy is a measure of how close the actual power supply output will be to the programmed setting, as measured by an ideal meter.
± 0.075% of max rated voltage
Over Voltage Trip Programming Accuracy
± 0.075% of max rated voltage
Current Programming Accuracy
Programming accuracy is a measure of how close the actual power supply output will be to the programmed setting, as measured by an ideal meter.
± 0.075% of max rated current
Over Current Trip Programming Accuracy
± 0.075% of max rated current
Voltage Readback Accuracy
Readback accuracy is a measure of how close the measured and displayed value will be to the actual power supply output.
± 0.2% of max rated voltage
Current Readback Accuracy
Readback accuracy is a measure of how close the measured and displayed value will be to the actual power supply output.
± 0.2% of max rated current

External User I/O Specifications

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

Physical Specifications

Racking Standard
EIA-310
Rear Support Rails
Included
Size and Weight
5 kW Models
3U
5.25" H x 19" W x 24" D (13.34 x 48.26 x 60.96 cm)
74 lbs (34.57 kg)
Size and Weight
10 kW Models
3U
5.25" H x 19" W x 24" D (13.34 x 48.26 x 60.96 cm)
94 lbs (42.64 kg)
Size and Weight
15 kW Models
3U
5.25" H x 19" W x 24" D (13.34 x 48.26 x 60.96 cm)
125 lbs (56.70 kg)
Size and Weight
20 kW Models; 380/415 Vac and 440/480 Vac, 3Φ input
4U
7” H x 19” W x 24” D (17.8 x 48.2 x 60.9 cm)
160 lbs (72.6 kg)
Size and Weight
20 kW Models; 208/240 Vac, 3Φ input
6U
10.5" H x 19" W x 24" D (26.67 x 48.26 x 60.96 cm)
185 lbs (83.9 kg)
Size and Weight
25 kW Models; 380/415 Vac and 440/480 Vac, 3Φ input
4U
7” H x 19” W x 24” D (17.8 x 60.9 x 48.2 cm)
180 lbs (81.7 kg)
Size and Weight
25 kW Models; 208/240 Vac, 3Φ input
6U
10.5" H x 19" W x 24" D (26.67 x 48.26 x 60.96 cm)
220 lbs (99.79 kg)
Size and Weight
30 kW Models
6U
10.5" H x 19" W x 24" D (26.67 x 48.26 x 60.96 cm)
245 lbs (111.13 kg)
Size and Weight
40 kW Models
With casters removed:
8U
14” H x 19” W x 24” D
(35.6 x 48.2 x 60.9 cm)
315 lbs (142.9 kg)

With casters attached:
17.75” H x 19” W x 24” D
(45.1 x 48.2 x 60.9 cm)
315 lbs (142.9 kg)
Size and Weight
50 kW Models
With casters removed:
8U
14” H x 19” W x 24” D
(35.6 x 48.2 x 60.9 cm)
355 lbs (161.0 kg)

With casters attached:
17.75” H x 19” W x 24” D
(45.1 x 48.2 x 60.9 cm)
355 lbs (161.0 kg)
Size and Weight
75 kW Models
With casters removed:
12U
21” H x 19” W x 24” D
(53.3 x 48.2 x 60.9 cm)
540 lbs (244.9 kg) With casters attached:
24.75” H x 19” W x 24” D
(62.9 x 48.2 x 60.9 cm)
540 lbs (244.9 kg)
Size and Weight
100 kW Models
With casters removed:
16U
28” H x 19” W x 24” D
(71.1 x 48.2 x 60.9 cm)
725 lbs (328.9 kg) With casters attached:
31.75” H x 19” W x 24” D
(80.7 x 48.2 x 60.9 cm)
725 lbs (328.9 kg)

Environmental Specifications

Ambient Operating Temperature
-25°C to 50°C
Storage Temperature
-40°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 Cooling
3U and 6U Models
Side air inlet, rear exhaust
Air Cooling
4U, 8U, 12U, and 18U Models
Front and side air inlet, rear exhaust
Water Cooling
With Water Cooling (+WC) Option
25°C maximum inlet temperature
1.5 GPM minimum flow rate for 3U/4U units
3.0 GPM minimum flow rate for 6U/8U units
4.5 GPM minimum flow rate for 12U units
6.0 GPM minimum flow rate for 16U units
80 PSI maximum pressure
1/4” NPT male pipe size (3U/4U models)
1/2” NPT male pipe size (6U/8U/12U/16U models)
Front air intake, rear exhaust (6U/8U/12U/16U models only)

Regulatory Specifications

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

The following are vectorized diagrams for the TS Series. Refer to the Downloads section for downloadable drawings.

Front Panel
3U Models
TS Series Front Panel Diagram
Rear Panel
3U Models
TS Series Rear Panel Diagram
Rear Panel
3U Models, With Water Cooling (+WC) Option
TS Series Rear Panel Diagram
Side Panel
3U Models
TS Series Side Panel Diagram
Front Panel
4U Models
TS Series Front Panel Diagram
Rear Panel
4U Models
TS Series Rear Panel Diagram
Rear Panel
4U Models, With Water Cooling Option (+WC)
TS Series Rear Panel Diagram
Side Panel
4U Models
TS Series Side Panel Diagram
Side Panel
4U Models, With Water Cooling Option (+WC)
TS Series Side Panel Diagram
DC Output Bus
4U Models, Rated Below 125 Vdc
TS Series DC Output Bus Diagram
DC Output Bus
4U Models, Rated 125 Vdc to 1000 Vdc
TS Series DC Output Bus Diagram
DC Output Bus
4U Models, Rated Above 1000 Vdc or with High Isolation Option (+ISO)
TS Series DC Output Bus Diagram
Front Panel
6U Models
TS Series Front Panel Diagram
Rear Panel
6U Models
TS Series Rear Panel Diagram
Rear Panel
6U Models, With Water Cooled (+WC) Option
TS Series Rear Panel Diagram
Side Panel
6U Models
TS Series Side Panel Diagram
Front Panel
8U Models
TS Series Front Panel Diagram
Rear Panel
8U Models
TS Series Rear Panel Diagram
Rear Panel
8U Models, With Water Cooling Option (+WC)
TS Series Rear Panel Diagram
Side Panel
8U Models
TS Series Side Panel Diagram
DC Output Bus
8U Models, Rated Below 125 Vdc
TS Series DC Output Bus Diagram
DC Output Bus
8U Models, Rated 125 Vdc to 1000 Vdc
TS Series DC Output Bus Diagram
DC Output Bus
8U Models, Rated Above 1000 Vdc or with High Isolation Output (+ISO)
TS Series DC Output Bus Diagram
Full View
12U Models
TS Series Full View Diagram
DC Output Bus
12U Models, Rated Below 125 Vdc
TS Series DC Output Bus Diagram
DC Output Bus
12U Models, Rated 125 Vdc to 1000 Vdc
TS Series DC Output Bus Diagram
DC Output Bus
12U Models, Rated Above 1000 Vdc or with High Isolation Output (+ISO)
TS Series DC Output Bus Diagram
Full View
16U Models
TS Series Full View Diagram
DC Output Bus
16U Models, Rated Below 125 Vdc
TS Series DC Output Bus Diagram
DC Output Bus
16U Models, Rated 125 Vdc to 1000 Vdc
TS Series DC Output Bus Diagram
DC Output Bus
16U Models, Rated Above 1000 Vdc or with High Isolation Output (+ISO)
TS Series DC Output Bus Diagram

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.

High Isolation Output
Option
+ISO
Available for models rated for 250 Vdc to 1000 Vdc, the +ISO option greatly increases the output isolation, used when the application demands floating or tying units in series beyond the standard ±1000 Vdc output isolation rating.
High Slew Rate Output
Option
+HS
A hardware and control modification that replaces the standard output stage with one of low capacitance film and/or high RMS current rated aluminum electrolytic capacitors. This option provides higher bandwidth with faster output rise and fall times.
IEEE-488 GPIB
Option
+GPIB
IEEE-488 General Purpose Interface Bus (GPIB) communication interface providing full command support and compatibility with other GPIB devices
Integrated Blocking Diode
Option
+BD
An internally heatsinked protection diode on the positive output terminal of a MagnaDC programmable DC power supply to protect the product's output from reverse voltages far exceeding the product's output voltage rating.
LXI TCP/IP Ethernet
Option
+LXI
TCP/IP Ethernet communication protocol and single RJ-45 interface, certified to the LXI Class C standard, for socket communications using conventional computer networks
Water Cooling
Option
+WC
Using an integrated central heat exchanger and specially wound magnetic components, water cooling is available for select Magna-Power power supplies for use in densely packaged system cabinets, where heat removal by the product's standard air cooling presents a challenge.

Accessories

External accessories and integration services available for this product.

BDx Module
1U blocking diode module covering a wide range of voltages and currents and providing necessary cooling, power supply controls interface, and remote sensing location.
DBx Module
High-performance add-on bringing ultra-high stability less than 10 ppm, up to 24-bit resolution, and up to 10x reduction in ripple.
DC Power Cables
DC power cables with wide range voltage ratings, current ratings, and termination options, made-to-order by Magna-Power
Rack Enclosures and Integration
Various size rack enclosures, including 12U, 24U, 30U, 36U, 30Ux2 and 36Ux2, with casters, fans and product integration.
RS485 Converter
Industrial RS232 to Addressable RS485 Converter. Plugs into product's RS232 port.
UID46: Universal Interface Device 46
Master-slave interface device for load sharing. Includes interface device and (2) D-Sub 37 cables.
UID47: Universal Interface Device 47
Master-slave interface device for load sharing. Includes interface device and (2) D-Sub 37-pin cables with a braided shield.
USB Edgeport Converter
Industrial Plug and Play USB to RS232 Converter. Adapter plugs into product's RS232 port.

Documentation

TS Series User Manual [EN] [HTML] [Recommended]
TS Series Datasheet [4.7.1] [EN] [PDF]
TS Series User Manual [49297] [EN] [PDF]

Drawings

Drivers

LabWindows Driver [1.02] [ZIP]

Software

Photovoltaic Power Profiles Emulation [2.0.0.12] [ZIP] [License Required]