Looking for precision, reliability, and flexibility in your testing equipment? The IT-N6300 Series DC Power Supply from ITECH is here to meet your needs.
Housed in a compact 2U half-rack chassis, this high-performance power supply features triple independent outputs, allowing for series/parallel configurations and synchronisation. With a 4.3-inch high-resolution LCD display, accessing control parameters, test programs, and waveform monitoring has never been easier.
The IT-N6300 delivers precision output of 1 mV/0.1 mA, making it ideal for demanding applications. Perfect for use in laboratories, manufacturing, and communications testing, the IT-N6300 offers exceptional accuracy, efficiency, and reliability in advanced power management.
Features
- 4.3-inch Colour LCD Display
- Fully Isolated Triple Channels with Independent Control
- Multiple Output Modes: Series, Parallel, and Synchronous
- Auto Range Mode for Versatile Testing Needs
- Transient Response Time: ≤50 μs
- High Accuracy: ≤0.02% + 3 mV / ≤0.03% + 1.5 mA
- Programming Response Time: 5 ms
- Low Output Ripple and Noise
- CC/CV Priority Modes
- Comprehensive Protection Features: OVP, UVP, OCP, UCP, OPP, OTP, and FOLDBACK
- Supports Local and Remote Sensing Modes
- Built-in USB, LAN, Digital I/O, and RS232 Communication Interfaces (on Select Models)
Multiple Output Modes
The IT-N6300 Series incorporates multiple built-in output modes, allowing for flexible range expansion without requiring extra wiring. This efficient design simplifies setup, reduces the complexity of external cabling, and minimises errors from poor connections or complicated wiring, ensuring greater reliability and safety. With its ability to handle complex testing scenarios, the IT-N6300 Series enhances operational efficiency, improves measurement accuracy, and provides a smooth, professional user experience.
LIST Functionality for Custom Waveforms
The IT-N6300 Series includes a LIST sequence editing function on each channel, enabling users to customise output waveforms and save them to the device's internal memory or an external USB drive for later use. It also allows for the import of externally created waveform files for quick loading, eliminating the need for reconfiguration before testing. This feature simplifies waveform setup, enhances testing efficiency, and provides users with outstanding flexibility to tackle a variety of testing scenarios.
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Top FAQs
When purchasing a power supply, the first choice to be made is linear supply or switching supply. Linear power supplies offer low ripple and noise specifications and have fast transient behavior. However they are inefficient and generate a lot of heat. They are also quite heavy. As a result most engineers prefer linear power supplies for low power applications. Using switching power supplies is a better choice for higher output power or multichannel applications. They provide higher power density. Switching power supplies are easier to control than linear supplies and cost about the same per channel.
Transient response is a measure of how well a power supply copes with changes in current demand or how well the supply follows the changes in the load impedance. This is an important specification for many applications.
DC output voltage slew rate is a rise or fall time. DC programmable power supplies have output filters that use large capacitors that store a lot of energy. It’s mainly the charge and discharge time of this filter, combined with the current demand of the DUT, which determine a supply’s voltage slew rate. The voltage slew rate is mostly independent of the connected EUT.
Load Regulation is an important specification of programmable power supplies. This means some percent output voltage change from its set-point due to a change in the current demand of the EUT. Normally this effect should be very small, less than 0.01% of set output voltage.
Line regulation specifies the percent change of the DC output voltage or current as a function of AC input line voltage. This specification is important when the input line voltage is not stable.
Stability is a measure of a supply’s long term output voltage or current drift. Stability is primarily specified in parts per million or ppm.
If more output current is required then paralleling power supply outputs is generally the solution. Ametek Programmable Power uses a dedicated control bus to connect its power supplies in parallel. The system configures itself automatically, identifying which unit is the master and which units are the slaves.
If more output voltage is required then connecting power supplies outputs in series is generally the solution. All you have to do is to connect the positive terminal of one supply to the negative of another. The limitation is that when operated in series, there are no master and slave units. Individual power supplies has to be programmed.
DC programmable power supplies typically provide a standard and isolated analog interface. Through the analog interface a supply’s DC output voltage, current and over voltage protection can be set. The control signal can be a voltage signal, a current signal or by connecting a resistor to the analog input.
Many DC programmable power supplies can be configured for either local or remote sensing. For a more accurate output voltage setting, remote sensing should be use. This method compensates for the voltage drop across the leads to the load terminals.
Applicable Industries
Upgrading to the Asterion power supply system has given us significant more testing capability and flexibility. It has been a wise investment. Thank you for your advice and support.
Margaret Smith
TEST LABORATORY SENIOR ANALYST AT UNIVERSITY OF NSW
Buying the MX45 California Instruments power source has given us enhanced testing capabilities. We have the SNK option, which is a bidirectional sink option. We are now able to simulate all grid conditions in our lab environment up to 45kVA. For me, reliability is important and I’m happy to say that we have been using this device for many years without any issues.
Keith Boydell
RESEARCH FELLOW AT UNIVERSITY OF WOLLONGONG
We have several Sorensen power supplies in our lab and they are the lowest output noise power supply we have experienced. For any critical research project where output noise and line/load regulations are important, we use only Sorensen power supplies.
Annette Eskdale
TEST LABORATORY MANAGER AT MONASH UNIVERSITY
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