The DIN rail system’s simplicity and versatility—allowing components to be easily clicked into place or removed for maintenance—has made it the preferred standard for electrical cabinet design. As a result, manufacturers offer a wide range of DIN rail-compatible components, including circuit breakers, relays, contactors, terminal blocks, data interfaces (KNX, DALI, Ethernet), PLCs, and slim DIN rail power supplies (Figure 1).
Fig. 1: Typical DIN rail installation
Advantages of the DIN Rail System
Firstly, the modular approach allows electrical cabinets and panels to be quickly assembled, moved, or rearranged for optimum use of the available space with only a standard electrician’s screwdriver as a tool. There is no drilling, cutting, or threading needed. Electrical cabinets and panels are often available with pre-installed rails so installation can begin immediately.
Secondly, the DIN rail system allows easy upgrading or repair without disrupting other components – a defective part can be simply unclipped and replaced without affecting the other components. If the new part happens to be slightly larger than the older module, then the existing components can be shifted along the rail to make space.
Thirdly, as the mounting rail dimensions are all standardized, parts from different manufacturers are interchangeable and mounting compatible. On a single rail, different electrical components can be freely mixed, so, for example, connector blocks can be placed next to power supplies to simplify the distribution of power and reduce the amount of cabling required, or actuator relays placed next to PLCs.
Fourthly, as you might expect from a German standard, the ease of mounting allows an organized, neat, and logical layout within the cabinet. This not only speeds up assembly by streamlining the whole construction process but simplifies maintenance and troubleshooting. All electrical contacts are accessible from the front without disconnecting any wiring and many electrical components have status or alarm indicators so that complex installations can be quickly inspected to find the fault.
Always-On
Power supplies in panels and electrical cabinets typically operate in “always on” mode. Even if a production line is shut down overnight, the low-voltage power supply for the relays and controllers remains active. Operating 24/7 means that DIN rail power supplies need to have a very long operational lifetime, which is achieved both by careful design and by robust input filtering stages that can withstand severe input voltage fluctuations, supply interruptions, mains transients, and power surges.
Design
DIN rail mounted power supplies are designed with all electrical connections at the front, while major heat-dissipating components—such as switching transistors and power diodes—are in good thermal contact with the back of the device (often referred to as the “book shape”). By using this thermally efficient layout, the metal DIN rail can function as an additional heatsink, allowing the REDIIN series to operate at full output power in ambient temperatures up to +50°C with only natural convection cooling. In some cases, the environment may be very cold rather than hot—for example, in an outdoor solar farm PV string controller or an unheated warehouse—so low-temperature operation is also essential. The REDIIN series supports full load operation down to -30°C, with cold start capability down to -40°C.
Protection
All REDIIN power supplies operate from a universal single-phase AC input (90 to 264 VAC), making them suitable for all global mains power supplies including undervoltage and overvoltage conditions.
Power factor correction is included as standard. The short-circuit, over-voltage, and overload protected outputs are the typical industrial supply voltages of 12V (REDIIN 120), 24V, or 48V DC, all trimmable over the range of ±10% to adjust for cable losses. They also have automatic CV/CC operational modes, making them suitable for either highly inductive or highly capacitive loads. An output over-current limit of up to 150% allows high start-up current loads to be driven without needing to oversize the power supply. If the power supply is continuously overloaded, the built-in over-temperature protection will safely turn off the output before the unit becomes damaged. A two-color indicator LED shows if the output voltage is within range or if it is in short-circuit, over-temperature, or overload protection mode.
Summary
The cost-effective REDIIN power supply series is designed to meet the demanding technical requirements needed for many industrial-grade electrical cabinet applications without compromising on quality and reliability. The series are all housed in an extremely slim ‘book-shape’ case of only 123.6mm high and 116.8mm deep. The
REDIIN120 delivers 120W output power with only 30mm width, the
REDIIN240 delivers 240W with only 40mm width, while the
REDIIN480 delivers an impressive 480W with only 56mm width. The exceptionally slim design frees up valuable space while the low weight avoids overloading the DIN rail in congested installations.
The products are fully certified according to
international safety standards IEC/EN/UL 62368-1, IEC/EN/UL61010-1, and IEC/EN/UL/CSA61010-2-201. Electromagnetic radiated and conducted emissions are compliant with heavy industrial EN 61000-6-4 Class B Emission standard and EN 61000-6-2 Immunity standard.
The REDIIN series are designed for
industrial,
automation, power distribution, and
test and measurement environments. These slim power supplies are ideal for applications in heavy engineering, production, home automation, data and telecom, traffic control, and water management—anywhere a compact, reliable, and cost-effective DC power supply is required within cabinets or electronic enclosures.
