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Choosing The Right Signal Conditioner


Identify the signal you need to condition

Begin by determining the input signal type coming from your sensor or electrical source.

Input Type Overview

Input Type

Common Sources

Recommended Conditioner

AC Voltage

Mains supply, equipment voltage

Volt Signal Conditioner

DC Voltage

Battery systems, control circuits

Volt Signal Conditioner

AC Current

Motors, feeders, CT-based circuits

CT Signal Conditioner / Amp Signal Conditioner

DC Current

Process loops, solar, battery charging

Amp Signal Conditioner / Shunt Signal Conditioner

Micro Current

Sensors producing µA-level signals

Micro Signal Conditioner

Frequency / Pulse

Flowmeters, tachometers, rotating equipment

Frequency Signal Conditioner / Rate Signal Conditioner

Temperature

Thermocouples

Temperature Signal Conditioner

Single, Split or Three Phase Power

Panels, generators, distribution

Power Signal Conditioner


Select Your Required Output

Choose the output format your PLC, HMI, or controller accepts.

Output Format Comparison

Output Type

Use When

Notes

4–20 mA

Long cable runs, noisy environments

Most common industrial standard

0–10 V

Short cable runs, high-resolution analog inputs

Ensure your controller supports voltage inputs

Open-collector digital outputs

Alarm conditions or switching needs

Available on many models


Match the Measurement Range

Make sure the conditioner covers your expected signal range.

Range Selection Guide

Conditioner Type

Supported Ranges

Notes

Amp SC

Up to 5 A direct

For low-to-medium current measurement

CT SC

Depends on CT ratio

Use for high current (motors, feeders)

Shunt SC

Matches DC shunt values

Use for DC current with shunts

Micro SC

0–200 µA

For very low-level signals

Volt SC

AC or DC voltage ranges

Check max voltage requirements

Rate / Frequency SC

2 Hz to 60 kHz depending on model

Match to sensor pulse rate

Power SC

Single or 3-phase networks

Confirms voltage, current, and PF ranges

Selecting a range that is too large reduces accuracy; selecting one too small can clip the signal.


Verify Isolation Requirements

Isolation prevents ground loops and protects sensitive electronics.

Isolation Levels and Use Cases

Need

Recommended Level

Suitable Models

Prevent noise and drift

Standard isolation

Amp, CT, Volt, Micro, Rate, Frequency

Protect against electrical surges

Higher functional isolation

Power SC

Mixed AC and DC signals

Input-to-output isolation

Most conditioners


Check Power Supply Compatibility

Confirm the auxiliary power available in your control panel.

Power Supply Options

Conditioner Type

Supply Voltage

Notes

M1 / M2

12–24 V AC/DC or 100–240 V AC (model dependent)

Multi-function options

Amp / CT / Rate / Micro / Frequency

24 V DC

Standard for most panels

Power SC

24 V DC

Used in power monitoring applications

Incorrect supply voltage may prevent startup or affect accuracy.


Consider Functional Requirements

Some applications require additional capabilities.

Feature Comparison

Feature

Description

Available On

Alarm Outputs

Digital outputs triggered by set thresholds

Amp, CT, Rate, Frequency, Micro, M1/M2

Non-linear Scaling

Allows 20-point custom scaling

Frequency, Rate, Micro, M1/M2

Dual Outputs

Analog + digital output for control and alarms

Many SC models

Multi-Function Input Types

One device for current, voltage, or frequency

M1 / M2


Select the Conditioner That Fits Your Application

Use the table below to choose your final model.

Application-to-Model Guide

Application

Recommended Conditioner

Why

Motor load monitoring

CT Signal Conditioner

Works with CTs for high current

Battery systems (DC)

Volt or Shunt SC

Handles DC voltage and shunt inputs

Flow measurement (pulse output)

Frequency or Rate SC

Converts frequency to analog

Low-level sensor outputs

Micro SC

Designed for µA-level inputs

Multi-signal panels

M1 or M2

Flexible, covers V/A/Hz

Power quality monitoring

Power SC

Measures V, A, PF, kW in AC networks