Product details
OWON SPE6103 60V 10A Programmable Lab DC Power Supply
The OWON SPE6103 is a very compact single-channel DC bench power supply designed for precision and reliability. This 60V 10A power supply comes with all the essential features such as over-voltage protection (OVP) and over-current protection (OCP), making it suitable for a wide range of electronics applications.
The Owon SPE6103 offers high resolution at 10mV/1mA, ensuring accurate voltage and current adjustments. It features a high-resolution 2.8" LCD display that shows set values, limits, and real-time parameters. With the SPE6103, users can monitor voltage and current dynamically using graphical representations on the screen.
This programmable bench power supply allows you to store and edit up to 4 groups of output waveforms, making repetitive tasks easier and more efficient. It can also be connected to a host PC via USB and supports SCPI communication, enabling remote control and automation.
Its slim form factor, intuitive interface, and powerful output make the OWON SPE6103 an excellent choice for beginners, hobbyists, and professional labs.
Also, check out the Owon SPE3102 DC Power Supply 30V 10A – Price drop!
The following steps check basic current functions with a short across the power supply's output:
• Connect a short across (+) and (-) output terminals with an insulated test lead on this channel. Use a wire size sufficient to handle the maximum current.
• Set the output voltage to the maximum rating on this channel.
• Turn on the channel output. Ensure the channel you used is in Constant Current output mode.
• Set some different current values on this channel; check if the actual current value displayed is close to the set current value, and to check if the actual voltage value displayed is nearly zero.
• Check that if the output current can be adjusted from zero to the maximum rating, When it is set to the maximum or minimum, a beep is heard, indicating that the limit has been reached.
• Turn off the channel output and remove the short circuit from the output terminals.
Features
•
Programmable Output: Allows precise control over voltage and current settings
•
Memory Function: Stores up to 4 custom output profiles for quick recall
•
Multiple Protection Modes: Includes over-voltage, over-current, and over-temperature protection
•
User-Friendly Interface: Easy-to-navigate controls with a clear LCD display
•
USB Connectivity: Supports SCPI communication for remote control and monitoring
Applications
• Ideal for laboratory experiments, electronics testing, and prototyping
• Suitable for powering various electronic components and devices
• Useful in educational settings for teaching electronics principles
The OWON SPE6103 is a very compact single-channel DC bench power supply designed for precision and reliability. This 60V 10A power supply comes with all the essential features such as over-voltage protection (OVP) and over-current protection (OCP), making it suitable for a wide range of electronics applications.
The Owon SPE6103 offers high resolution at 10mV/1mA, ensuring accurate voltage and current adjustments. It features a high-resolution 2.8" LCD display that shows set values, limits, and real-time parameters. With the SPE6103, users can monitor voltage and current dynamically using graphical representations on the screen.
This programmable bench power supply allows you to store and edit up to 4 groups of output waveforms, making repetitive tasks easier and more efficient. It can also be connected to a host PC via USB and supports SCPI communication, enabling remote control and automation.
Its slim form factor, intuitive interface, and powerful output make the OWON SPE6103 an excellent choice for beginners, hobbyists, and professional labs.
Also, check out the Owon SPE3102 DC Power Supply 30V 10A – Price drop!
The following steps check basic current functions with a short across the power supply's output:
• Connect a short across (+) and (-) output terminals with an insulated test lead on this channel. Use a wire size sufficient to handle the maximum current.
• Set the output voltage to the maximum rating on this channel.
• Turn on the channel output. Ensure the channel you used is in Constant Current output mode.
• Set some different current values on this channel; check if the actual current value displayed is close to the set current value, and to check if the actual voltage value displayed is nearly zero.
• Check that if the output current can be adjusted from zero to the maximum rating, When it is set to the maximum or minimum, a beep is heard, indicating that the limit has been reached.
• Turn off the channel output and remove the short circuit from the output terminals.
Features
•
Programmable Output: Allows precise control over voltage and current settings
•
Memory Function: Stores up to 4 custom output profiles for quick recall
•
Multiple Protection Modes: Includes over-voltage, over-current, and over-temperature protection
•
User-Friendly Interface: Easy-to-navigate controls with a clear LCD display
•
USB Connectivity: Supports SCPI communication for remote control and monitoring
Applications
• Ideal for laboratory experiments, electronics testing, and prototyping
• Suitable for powering various electronic components and devices
• Useful in educational settings for teaching electronics principles


