Description
The National Instruments PS-14 Industrial Power Supply, part number 783167-01, is designed to deliver high performance and reliability in industrial settings. It supports a broad input voltage range from 100 V to 240 V, making it versatile for various electrical environments. The power supply provides a steady 24 VDC output voltage, which can be adjusted up to 28 V to suit specific application needs.
Efficiency is a key feature of the NI PS-14, with an operational efficiency of approximately 90%, ensuring minimal energy loss during power conversion. It comes equipped with four output terminals, with two positive and two negative terminals that are internally wired together, capable of supplying 3.3 amperes at 24 VDC. The unit also includes three input terminals, designated for Line Input, Protective Ground Input, and Neutral Input, which provide flexibility and safety in connecting to power sources.
Installation is made easy with the availability of both side mounting and panel mounting kits, allowing for secure and convenient integration into various setups. The PS-14 is compact and lightweight, measuring only 32 x 124 x 102 mm and weighing 430 g, which is ideal for space-constrained environments. Lastly, it is built to operate within a temperature range of 0 °C to 49 °C and can handle relative humidity levels from 0 to 90%, ensuring reliable performance under a wide range of environmental conditions.
Specification | Detail |
---|---|
Part Number | 783167-01 |
Model | National Instruments PS-14 Industrial Power Supply |
Input Voltage Range | 100 V to 240 V |
Output Voltage | 24 VDC (adjustable up to 28 V) |
Efficiency | Approximately 90% |
Output Terminals | Four (2 positive and 2 negative, internally wired together) |
Output Current | 3.3 amperes at 24 VDC |
Input Terminals | Three (Line Input, Protective Ground Input, Neutral Input) |
Mounting Kits | Side mounting or panel mounting kit available |
Weight | 430 g |
Dimensions | 32 x 124 x 102 mm |
Operating Temperature Range | 0 °C to 49 °C |
Operating Relative Humidity Range | 0 to 90% |
Question 1: What is the operational efficiency of the National Instruments PS-14 Industrial Power Supply, and what are its dimensions and weight?
Answer 1: The efficiency rate of the National Instruments PS-14 Industrial Power Supply, part number 783167-01, is approximately 90%, and it operates within a temperature range of 0 °C to 49 °C.
Question 2: What are the key features and specifications of the National Instruments PS-14 Industrial Power Supply, part number 783167-01?
Answer 2: The efficiency rating of the National Instruments PS-14 Industrial Power Supply, part number 783167-01, is approximately 90%, and it operates within a temperature range of 0 °C to 49 °C.
Question 3: What is the efficiency rate and temperature operating range of the National Instruments PS-14 Industrial Power Supply, part number 783167-01?
Answer 3: The National Instruments PS-14 Industrial Power Supply has an operational efficiency of approximately 90%, and its dimensions are 32 x 124 x 102 mm with a weight of 430 g.
Question 4: What is the operational efficiency of the National Instruments PS-14 Industrial Power Supply, and how does it contribute to power conversion in industrial settings?
Answer 4: The National Instruments PS-14 Industrial Power Supply, part number 783167-01, features a broad input voltage range from 100 V to 240 V, an adjustable 24 VDC output up to 28 V, high operational efficiency of approximately 90%, four output terminals for 3.3 amperes at 24 VDC, three input terminals, options for side and panel mounting, a compact size of 32 x 124 x 102 mm, a light weight of
Question 5: What is the efficiency rating and the operational temperature range of the National Instruments PS-14 Industrial Power Supply with part number 783167-01?
Answer 5: The National Instruments PS-14 Industrial Power Supply boasts an operational efficiency of approximately 90%, which contributes to power conversion in industrial settings by ensuring minimal energy loss during the process, thereby enhancing the overall energy efficiency of the system it is integrated with.