YATAN

High Accuracy Signal Conditioner

AllHigh Precision

The High Accuracy Signal Conditioner is a precision signal processing device designed for industrial measurement and sensor applications. It is widely used in pressure sensors, load cells, multi-axis force sensors, and automated test systems. This device provides high-precision amplification, filtering, and linear compensation for weak sensor signals, significantly improving system stability and noise immunity. As an industrial-grade signal conditioning solution, the High Accuracy Signal Conditioner offers high resolution, low drift, and multi-channel compatibility, making it an essential component in advanced data acquisition and control systems for precision measurement and industrial automation applications.

FD-1 High Precision Signal Conditioner

Industrial automation weighing control systemsPressure, tension and force measurement systemsHopper, tank and batching weighing systemsTesting machines and material mechanical testing equipmentProcess control and industrial signal acquisition systems
  • Power supply:24VDC(12–30VDC)
  • Input signal range:0.5mV/V to 3mV/V
  • Output signal options:4–20mA, 0–5V, 0–10V, 0.5–4.5V, mV output, RS485 Modbus-RTU, CANopen, 4–20mA(HART), PNP, NPN, relay, ±5V, ±10V
  • Accuracy (comprehensive):0.5%FS, 0.2%FS, 0.1%FS, 0.05%FS, 0.02%FS, 0.01%FS
  • Zero drift:0.001mV/°C
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Yatan FD-1-A(V-W1) High Precision Load Cell Signal Conditioner

Industrial automation weighing control systemsPressure, tension and force measurement systemsHopper, tank and batching weighing systemsProcess control and industrial signal acquisition systems
  • Power supply:24VDC(12–30VDC)
  • Excitation voltage:5VDC
  • Input signal range:0.5mV/V to 3mV/V
  • Output signal options:4–20mA, 0–5V, 0–10V, ±5V, ±10V
  • Operating environment:-40°C to 85°C
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Frequently Asked Questions (FAQ)

Q1: Do you support OEM customization for signal conditioners?

Most industrial signal conditioner manufacturers support OEM customization, including output types, accuracy levels, communication protocols, and housing design.

Q2: What is the role of signal conditioners in industrial automation?

Signal conditioners improve sensor signal quality and convert signals into standardized outputs, acting as a key interface between sensors and PLC/DCS systems.

Q3: How to choose the right high accuracy signal conditioner?

Selection should consider input signal type (mV/V), required output (4-20mA or voltage), accuracy level, environmental conditions, and communication interfaces such as RS485 or CANopen.

Q4: What are the advantages of RS485 Modbus signal conditioners?

Signal conditioners with RS485 Modbus enable long-distance communication, multi-device networking, and digital control, improving flexibility and reliability in industrial automation systems.

Q5: Can a signal conditioner connect multiple sensors at the same time?

Some high-performance signal conditioners support multiple sensor connections in parallel, making them suitable for multi-point measurement or large-scale weighing systems.

Q6: Why are high accuracy and low temperature drift important in signal conditioners?

High accuracy and low temperature drift ensure stable and reliable measurements under varying environmental conditions, which is critical for precision weighing, force measurement, and testing applications.

Q7: What output signals are supported by high accuracy signal conditioners?

High accuracy signal conditioners typically support outputs such as 4-20mA, 0-5V, 0-10V, ±10V, as well as digital communication protocols like RS485 Modbus and CANopen.

Q8: What is the difference between a signal conditioner and a signal amplifier?

A signal amplifier only increases signal strength, while a signal conditioner provides amplification, filtering, isolation, and signal conversion, making it a complete solution for industrial signal processing.

Q9: How to convert load cell mV signals to 4-20mA output?

A high precision signal conditioner amplifies, filters, and linearizes the mV/V signal from a load cell and converts it into a standard 4-20mA output for long-distance transmission and PLC integration.

Q10: What applications are high accuracy signal conditioners used for?

High accuracy signal conditioners are used in load cells, pressure sensors, multi-axis force sensors, and industrial automation systems to amplify low-level mV signals and convert them into standard outputs such as 4-20mA, 0-10V, or RS485 for reliable measurement and control.

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