4.5-20V Fine-Adjust Step-Up Voltage Regulator U3V70A

Pololu item #: 2890
Brand: Pololu supply outlook
Status: Active and Preferred 
RoHS 3 compliant

Price break Unit price (US$)
1 22.95
5 21.11
25 19.42
100 17.87


backorders allowed

Output voltage Typical max input current* Min input voltage
4.5 V – 20 V 8 A 2.9 V

*Actual achievable continuous current is a function of input voltage and is limited by thermal dissipation. See the output current graphs on the product pages for more information.

Alternatives available with variations in these parameter(s): output type Select variant…

 Description Specs (11) Pictures (16) Resources (3) FAQs (0) On the blog (1) Distributors (46) 

Overview

The U3V70x boost (step-up) voltage regulators are high-current, high-efficiency synchronous switching regulators that generate higher output voltages from input voltages as low as 2.9 V. The regulators actively limit the instantaneous input currents to 10 A, and the input current can typically be as high as 8 A for several seconds before the thermal protection activates. Input currents of around 6 A can typically be maintained for many minutes without triggering thermal shutdown, though the actual performance depends on depending on the input and output voltages as well as external factors such as ambient temperature and airflow. For boost regulators, the output current equals the input current times the efficiency times the ratio of VIN to VOUT, so the more you are boosting, the lower the maximum output current will be (see the Typical efficiencies and output currents section below for performance graphs).

These regulators feature a variety of built-in protections, including reverse voltage protection to keep your load safe in the event power is accidentally connected backward, and unlike most boost regulators, these units offer a true shutdown option that turns off power to the load (with typical boost regulators, the input voltage will pass directly through to the output when they are disabled).

The U3V70x family includes six versions with fixed output voltages ranging from 5 V to 15 V as well as an adjustable version that can be set anywhere between 4.5 V and 20 V using a precision 11-turn potentiometer:

The different versions of the board all look very similar, so the bottom silkscreen includes a blank space where you can add your own distinguishing marks or labels.

We manufacture these boards in-house at our Las Vegas facility, which gives us the flexibility to make these regulators with custom fixed output voltages between 4.5 V and 20 V. If you are interested in customization, please contact us.

Details for item #2890

Features and specifications

  • Input voltage: 2.9 V to VOUT
  • Output voltage: 4.5 V to 20 V (precision-adjustable using built-in 11-turn potentiometer)
  • True shutdown option turns off power to the load
  • Typical efficiency of 80% to 95%, depending on input voltage, output voltage, and load (see the Typical efficiencies and output currents section below for performance graphs)
  • 10 A switch allows for:
    • Instantaneous input currents up to 10 A
    • Input currents up to 8 A for several seconds
    • Input currents around 6 A to 7 A for prolonged durations, depending on input voltage and output voltage
  • low quiescent current for most combinations of input and output voltages (see the quiescent current graph below for more details)
  • Integrated protections:
    • Reverse voltage protection
    • Short-circuit protection with hiccup recovery
    • Over-temperature shutoff
    • Under-voltage lockout (typical thresholds are 2.4 V falling, 2.8 V rising)
    • Cycle-by-cycle input current limiting to 10 A
  • Compact size: 1.6″ × 0.6″ × 0.22″ (40.6 × 15.2 × 5.5 mm)
  • Weight: 3.9 g
  • Two mounting holes for #2 or M2 screws
  • Smaller holes for 0.1″ header pins and larger holes for terminal blocks offer several options for connecting to the board

U3V70A connections

The input voltage, VIN, must be at least 2.9 V and should not exceed the output voltage, VOUT. (If VIN is higher than VOUT, the higher input voltage will show up on the output, which is potentially dangerous for your connected load and could also damage the regulator.)

The regulator is enabled by default: a 100 kΩ pull-up resistor on the board connects the ENABLE pin to reverse-protected VIN. The ENABLE pin can be driven low (under 0.4 V) to turn off power to the load and put the board into a low-power state. The typical no-load quiescent current is less than 1 mA (see the quiescent current graph below for more details).

Setting the output voltage

The output voltage of the regulator is controlled with a 11-turn precision potentiometer. Turning the potentiometer clockwise increases the output voltage, and it can be measured using a multimeter.

Output voltage settings for the 4.5-20V Fine-Adjust Step-Up Voltage Regulator U3V70A.

Please note that the output voltage can be set below 4.5 V at the low end and above 20 V at the high end. While this should not damage the regulator, the regulator might not work reliably or its output could become unstable when the output voltage is not within the recommended 4.5 V to 20 V range.

Warning: You should be careful not to use an input voltage that exceeds the output voltage setting, so we recommend setting the output voltage with an input voltage that is below 4 V. We do not ship these with any particular default output voltage setting.

Included hardware

4.5-20V Fine-Adjust Step-Up Voltage Regulator U3V70A with included hardware.

4.5-20V Fine-Adjust Step-Up Voltage Regulator U3V70A, assembled with included terminal blocks.

This regulator offers several options for making electrical connections. The nine smaller through-holes on the ends of the board are arranged with a 0.1″ spacing for compatibility with solderless breadboards, connectors, and other prototyping arrangements that use a 0.1″ grid. The included 0.1″ male header can be broken or cut into smaller pieces as desired and soldered into these smaller through-holes. Alternatively, the included terminal blocks can be soldered into the larger holes to allow for convenient temporary connections of unterminated wires (see our short video on terminal block installation). You can also solder wires directly to the board for the most compact installation.

Typical efficiencies and maximum output currents

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. As shown in the graphs below, the U3V70x regulators have an efficiency of 80% to 95% for most combinations of input voltage, output voltage, and load.

The maximum achievable output current is approximately proportional to the ratio of the input voltage to the output voltage. Additionally, the maximum output current can depend on other factors, including the ambient temperature, air flow, and heat sinking. The graph below shows the typical maximum continuous output currents these regulators can deliver at room temperature with no forced airflow or heat sinking.

Typical maximum quiescent current of Step-Up Voltage Regulator U3V70x (regulator enabled, no load).

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

LC Voltage Spikes

When connecting voltage to electronic circuits, the initial rush of current can cause damaging voltage spikes that are much higher than the input voltage. In our tests with this family of regulator connected with typical power leads (~30″ test clips), we found that input voltages above 17 V caused voltage spikes in excess of 20 V, which could damage the regulator. Lower input voltages caused smaller spikes that could still be problematic for boost regulators operating with the input voltage close to the set output voltage, since input voltages above the set output voltage will propagate to the output and could damage circuits being powered by the regulator. A large electrolytic capacitor (33 μF is a good starting point) can be added close to the regulator between VIN and GND to help suppress these spikes.

More information about LC spikes can be found in our application note, Understanding Destructive LC Voltage Spikes.

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