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What ATE or Bench DC Power Supply is correct for you?
On a bench or in a system, Keysight variable DC power supplies are ready for your application, offering optimal voltage, current, capability and performance choices.
This video will help you pick the correct variable DC power supply by understanding the critical characteristics you should consider in your selection process. Key aspects of programmable DC power supplies include available power, noise requirements, programming accuracy, available software, and more.
How to Select the Correct DC Power Supply for Your Application
Choose the Variable DC Power Supply That Is Right for You
Enhance your bench with a low-noise power supply that is easily viewable from any angle
Reduce integration and test times with a compact programmable power supply
Solve your power challenges with hardware and customized software
Extend Your Capabilities With The Right Tools
Technology is constantly changing. So too are the requirements engineers face. Get more functionality out of your existing hardware today by complementing it with the right accessories to improve productivity and the right Keysight PathWave design and test automation software to accelerate your product development.
The Power Handbook
This handbook serves as a one-stop shop for information on power-related topics, incorporating information from many of Keysight’s popular application notes. You will gain insight into the fundamentals of electrical power and DC power supplies, including defining the different types of power supplies. You’ll also learn about the key characteristics of power supplies and electronic loads.
The handbook has chapters on how to test battery performance, power converters (DC-DC and AC-DC), and solar arrays. Plus, it includes a chapter on using software to control supplies, automate tests, and analyze data.
DC Power Supply FAQ
What is a variable DC power supply?
It is a power source with an output voltage that the user can vary. Keysight variable DC power supplies allow you to change the voltage and the current to the DUT.
Why is a DC power source needed?
A DC power source provides a constant biasing voltage or current to electrical devices, components, or circuits and ensures that the DUT operates as expected.
How do you use a DC power source?
A programmable DC power source connects to a DUT via leads that connect to the DC power supply panel. Engineers can set voltages or current levels to power the device for testing purposes.
How does a DC power source work?
A DC power source converts alternating current (AC) power into DC power using either a linear or switching methodology. A switching power supply has higher efficiency, reduced weight, and smaller size. Linear power supplies can achieve lower noise, but modern switching supplies have minimized or eliminated this advantage.
What is a bench DC power supply?
A bench DC power supply is designed to sit on an engineer’s bench. It will typically have a large, legible display and a user interface so engineers can easily control all aspects of the power supply from the front panel. Users can also control modern bench power supplies via software. In addition, the output terminals are easily accessible from the front.
Variable bench power supplies are handy tools for testing circuits, as they allow you to adjust the voltage on the fly. If you have a project that needs a specific voltage or haven’t designed the power section yet, a bench power supply can be a lifesaver.
What is an ATE system power supply?
Automated test equipment (ATE) system power supplies are programmable power supplies designed for use in ATE systems. Size is a crucial factor; ATE power supplies with greater power density take up less rack space and reduce the factory floor space required for test equipment.
Can you use an AC power supply to produce DC power?
Yes — many AC power sources can produce DC power, either alone or as a DC offset to an AC waveform.
How do you build a DC power supply?
You can build a DC power supply using an AC-to-DC converter or rectifier to convert AC power to DC power, followed by a voltage regulator to maintain a stable output voltage. The basic steps to build a DC power supply are:
1. Obtain a transformer: you can use this to step down the voltage from the AC source to a more manageable level.
2. Build a rectifier circuit: You can accomplish this by using a diode bridge (full-wave rectifier), which consists of four diodes connected in a specific configuration. The rectifier circuit converts the AC voltage to pulsating DC voltage.
3. Build a filter circuit: you use this to smooth out the pulsating DC voltage and produce a steady DC voltage. The most common filter circuit is a capacitor filter, which uses one or more capacitors to smooth out the pulsations.
4. Build a voltage regulator circuit: you can create this using a linear or switching regulator. The voltage regulator maintains a stable output voltage regardless of input or load changes.
5. To make a complete power supply, assemble all components in a proper packaging or enclosure.
It is important to note that building a power supply requires a good understanding of electronics and electrical safety. It is best to consult with a professional or use a pre-built kit to avoid any potential hazards.
How to connect two DC power supplies in a series?
Connecting two DC power supplies in series involves connecting the positive terminal of the first power supply to the negative terminal of the second power supply. This creates a "daisy chain" connection where the voltage of the two power supplies is added together.
The following are the steps to connect two DC power supplies in series:
1. Turn off both power supplies and unplug them from the wall to ensure safety.
2. Locate the positive and negative terminals of each power supply. The mark for the positive terminal is usually a plus sign or the word VCC, and the negative terminal is usually a minus sign or the word GND.
3. Connect the positive terminal of the first power supply to the negative terminal of the second power supply using a wire.
4. Connect the load (the device you need to power) to the positive terminal of the second power supply and the negative terminal of the first power supply.
5. Plug both power supplies back in and turn them on.
It is important to note that the voltage of the load should be equal to or higher than the sum of the voltage of both power supplies to prevent damage to the load or the power supplies. Also, the current rating of the load should be equal to or lower than the lowest current rating of both power supplies.
Only use power supplies from the same product series and with the same rated output current. The maximum load current should not exceed the smallest rated output current when selecting power supplies with different current ratings.
Also, it is essential to check the polarity of the power supplies before connecting since connecting them with opposite polarities could cause damage to the power supplies or the connected devices.
How to test a DC power supply?
There are several ways to test a DC power supply, but here are a few common methods.
Continuity test: You can perform this test using a multimeter set to the continuity setting. Touch the positive and negative terminals of the power supply with the multimeter leads. The multimeter should beep if there is continuity. This test can help to determine if the power supply is providing power and if there are any broken connections in the wiring.
Voltage test: You can do this test using a multimeter set to the DC voltage setting. Touch the positive and negative terminals of the power supply with the multimeter leads. The multimeter should display the voltage that the power supply is providing. Compare this to the power supply's rated voltage to ensure it is within the correct range.
Load test: You can perform this test by connecting a load (such as a light bulb or motor) to the power supply and measuring the voltage and current with a multimeter. The voltage should remain stable and within the expected range, and the current should be within the power supply's rated current.
Ripple test: You can do this by measuring the AC component of the power supply's output voltage. You can connect an oscilloscope to the power supply's output terminals and measure the voltage ripple. The ripple voltage should be as low as possible and within the acceptable range.
It is important to test a power supply with caution by following the instruction manual and safety guidelines. Also, if you are unfamiliar with electronic testing, consulting a professional or using pre-built testing equipment is better.
Build Your DC Power Supplies Skill Set
Today's designs place higher demands on the DC power systems you develop, which often cause design problems.
In this eBook, our experts help you better understand DC power supply issues and provide four ways to build your DC power supply skill set so you can overcome design challenges.
10 Tips to Enhance DC Power Testing and Analysis
A power supply is an integral part of any good test system. The capability to deliver clean and accurate power to your Device Under Test (DUT) removes doubts and gives you the right results every time. Our practical tips will let you get more out of your programmable power supply. Also if you ever need to get a new power supply, you can count on these tips to help you choose the right one. Remember, more power and features do not mean a better power supply. It’s about how you use your power supply.
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Learn more with Keysight University
Bench Power Supply Basics
- Gain an understanding of the technology behind them
- Learn best practices for using power supplies and how to get the most out of them
Power Supply and Electronic Load Basics
- Learn how power supplies and electronic loads work
- Gain insight into maximizing the effectiveness of both instruments
DC and AC Power Fundamentals
- Learn about the basics of AC and DC power
- Gain insight into power transmission and conversion