This step-down voltage regulator consists of a 5 V buck regulator on the input side followed by a Texas Instruments UCC33420RAQR isolated DC-to-DC power module on the output side, enabling up to 300 mA at 5 V (default) or 5.5 V (selectable) out from a wide 5.5 V to 36 V input. Unlike non-isolated regulators, the output ground (GNDO) is effectively independent of the input side (GNDI), which can be useful for preventing ground loops and avoiding ground currents that can cause unpredictable system behavior or even lead to damage to potentially expensive components.

Here are some of the regulator’s key features:

• Input voltage: 5.5 V to 36 V (can operate down to 4.6 V with reduced output current capabilities)
• Output voltage: 5 V (default) or 5.5 V (selectable) with 4% accuracy
• Output current: up to 300 mA continuous
• Galvanic isolation between input and output using the Texas Instruments UCC33420, which has the following isolation ratings:
• 3000 VRMS basic isolation rating
• 820 VRMS maximum working isolation voltage
• See the UCC33420 datasheet for more information
• Typical no-load quiescent current: 1 mA to 6 mA (see the quiescent current graph below)
• Typical efficiency: 45% to 55%, depending on input voltage and load (see efficiency graph below)
• Input (buck) switching frequency: ~1.1 MHz under heavy loads
• Output (isolated DC-DC converter) switching frequency: 64.5 MHz
• Input switching frequency decreases at low currents to improve light-load efficiency
• Over-temperature protection
• Size: 0.4″ × 1.0″ with breadboard-compatible, 0.1″-pitch through holes
• The board does not have built-in protection against reverse voltage, but reverse-voltage protection modules are available for adding that functionality.

Using the module:

• The connections are labeled on the back side of the PCB and are arranged with a 0.1″ spacing along the edges of the board for compatibility with solderless breadboards, connectors, and other prototyping arrangements that use a 0.1″ grid. You can solder wires or 0.1″ header pins directly to the board. Note: header pins are not included with this product, but straight and right-angle male headers are available separately.

Typical efficiency:

• The efficiency of a voltage regulator, defined as (Power out)/(Power in), is an important measure of its performance, especially when battery life or heat are concerns. The graph below shows the efficiencies of the VOUT (5 V) output at different input voltages as a function of output current:

Please note that as this module consists of two chained regulators and includes isolated power transfer, the efficiency is below 60%, which is much lower than our non-isolated switching voltage regulators.

Maximum continuous output current

• The UCC33420 is rated for up to 300 mA out continuous, and in our tests of the D24Z3F5 at room temperature and without forced airflow, the UCC33420 was able to sustain 300 mA continuously or for several minutes across most of the operating voltage range without the thermal shutdown activating. However, under those conditions, the temperature will exceed 125°C, so the following graph shows the continuous currents it can deliver without exceeding 125°C to allow better direct comparison with our other regulators. Slight heat sinking or forced airflow should be sufficient to achieve 300 mA continuous across the full operating voltage range.

During normal operation, this product can get hot enough to burn you. Take care when handling this product or other components connected to it.

Quiescent current

The quiescent current is the current the regulator uses just to power itself. The graph below shows this as a function of the input voltage, including voltages outside the valid operating range of the device:

Reduced output current for input voltages under 5.5 V

The recommended minimum input voltage for this regulator is 5.5 V, but it can operate down to around 4.6 V with reduced output current capabilities as shown in the graph below:

Isolation rating and board creepage considerations

The UCC33420 provides basic isolation with a manufacturer-rated working voltage of 820 VRMS. The IC package has a clearance and creepage of >4.1 mm, and our PCB has a routed slot under the IC to provide a PCB creepage distance of 4.9 mm. A rough rule of thumb is that uncontaminated FR4 PCBs should have roughly 1 mm of creepage per 100 VRMS of isolation. Please note that our regulator module is not certified to any particular safety standard.

LC voltage spikes

When connecting voltage to electronic circuits, the initial rush of current can cause voltage spikes that are much higher than the input voltage. If these spikes exceed the regulator’s maximum voltage (36 V), the regulator can be destroyed. In our tests with typical power leads (~30″ test clips), we observed spikes approaching 36 V at input voltages approaching 20 V. Power supplies or leads with high inductance will make these spikes worse. An electrolytic capacitor (33 μF is a good starting point) can be added close to the regulator between VIN and GNDI to help suppress these spikes.

Package Includes:

• 1 x Pololu 5756 5V, 300mA Isolated Step-Down Voltage Regulator D24Z3F5