Description
Product Description
Overview
The Yokogawa AAl141-S00 is a 16-channel analog input module engineered for precise signal acquisition in industrial systems. It supports both current and voltage input types, offering flexible integration into control and monitoring networks. Unlike isolated input modules, this variant features non-isolated channels, providing a cost-effective solution for systems where isolation is not required.
Key Features
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16-channel analog input
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Supports 4 to 20 mA or 1 to 5 VDC input signals depending on configuration
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Non-isolated channel design for simpler installation
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Sampling rate of 100 samples per second for rapid signal acquisition
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Operating temperature range from -10 to 55 Celsius (14 to 131 Fahrenheit)
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Compact and lightweight design for easy integration
Technical Specifications
| Parameter |
Specification |
| Channels |
16 analog inputs |
| Input Type |
Voltage or Current (4-20 mA, 1-5 VDC) |
| Isolation |
Non-isolated channels |
| Sampling Rate |
100 samples per second |
| Operating Temperature |
-10 to 55 Celsius |
| Dimensions |
40 x 130 x 110 mm |
| Weight |
0.3 kg |
| Communication |
Direct analog input (no digital communication) |
Applications
Ideal for process monitoring, data acquisition, and control applications where high channel density is required. This module is suitable for laboratories, industrial process plants, and any environment needing multiple analog signal inputs without channel isolation.
FAQ
Q: Can the AAl141-S00 handle both voltage and current inputs?
A: Yes, it supports 4-20 mA current and 1-5 VDC voltage input ranges depending on the module configuration.
Q: Are the channels electrically isolated?
A: No, channels are non-isolated, unlike models such as the AAl143-S00.
Q: What environments can it operate in?
A: It functions reliably between -10 and 55 Celsius, suitable for standard industrial environments.
Similar Models Comparison
The AAl141-S00 is non-isolated, making it lighter and more compact than the AAl143-S00, which offers full channel isolation for enhanced signal integrity in critical applications.
