Conductivity Analyzer Product
Overview
A conductivity analyzer measures electrical conductivity of dissolved salts, acids, or bases by applying an AC voltage across a Electrode Pair and measuring the resulting current. Conductivity is the inverse of resistivity and is proportional to dissolved ion concentration, so it serves as a fast proxy for total dissolved solids (TDS). Conductivity analyzers are standard in water treatment, boiler makeup control, cooling tower chemistry, and desalination—anywhere a continuous measurement of salinity or ionic strength is needed without chemical analysis.
The system comprises a Excitation Signal Generator driving the electrode pair at 1–10 kHz (the frequency chosen to minimize electrode polarization and cell charging artifacts), a Measurement Amplifier detecting the resulting AC current via synchronous demodulation, a Temperature Compensation Module compensating for temperature-dependent conductivity drift, and a Transmitter Electronics linearizing and outputting 4–20 mA.
How it works
Two electrodes separated by a fixed distance form a conductance cell. When AC voltage is applied, ions in the solution carry current from anode to cathode at a rate proportional to ion mobility and concentration. The current I is given by Ohm's law: I = V × G = V × (σ × A / L), where σ is conductivity (S/cm), A is electrode area, and L is distance between them. The ratio K = L/A is the cell constant; the transmitter must know K to calculate conductivity from measured conductance.
The Measurement Amplifier uses synchronous demodulation (lock-in detection) to suppress noise: it detects AC current only at the excitation frequency, filtering out noise at other frequencies. The Phase Detector multiplies the cell current by the excitation signal (phase-locked), then low-pass filters to extract DC magnitude proportional to conductance. High excitation frequency (e.g., 10 kHz) minimizes electrode double-layer capacitance effects that would otherwise distort measurement at low frequencies; DC would cause electroplating and cell damage.
Conductivity is temperature-dependent: pure water becomes more conductive as temperature rises because ion mobility increases (~2%/°C for electrolytes). The Temperature Compensation Module measures sample temperature via an RTD Sensor and applies a temperature coefficient correction. Many analyzers normalize to a standard reference temperature (e.g., 20 or 25 °C) so that readings are comparable across time and location.
The Transmitter Electronics stores a cell constant K (measured during factory calibration or field calibration using a conductivity standard) and a temperature coefficient. From the lock-in magnitude and temperature, it calculates conductivity and outputs 4–20 mA. Two-point calibration is supported: zero (pure water or low-conductivity buffer) and span (known standard, e.g., 10 mS/cm). Graphite electrodes are inexpensive but wear over years; coated titanium electrodes last longer but cost more. The Flow Cell Union allows quick sensor replacement without breaking threaded connections.
Build & assembly graph
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Bill of materials
6 top-level lines · 34 rows shown · 29 parts total · indented to 3 levels| # | Item / sub-assembly | Part no. | Qty/assy | Ext. qty | Parts | Type |
|---|---|---|---|---|---|---|
| 1 | Sensor Assembly 5 parts | conductivity-analyzer-sensor-assembly | 1× | 1 | 9 | assembly |
| 1.1 | Electrode Pair 3 parts | conductivity-analyzer-electrode-pair | 1× | 1 | 3 | assembly |
| 1.1.1 | Electrode 1 | conductivity-analyzer-electrode-1 | 1× | 1 | — | part |
| 1.1.2 | Electrode 2 | conductivity-analyzer-electrode-2 | 1× | 1 | — | part |
| 1.1.3 | Electrode Holder | conductivity-analyzer-electrode-holder | 1× | 1 | — | part |
| 1.2 | Electrode Material | conductivity-analyzer-electrode-material | 2× | 2 | — | part |
| 1.3 | Electrode Spacing | conductivity-analyzer-electrode-spacing | 1× | 1 | — | part |
| 1.4 | Sensor Body | conductivity-analyzer-sensor-body | 1× | 1 | — | part |
| 1.5 | Electrode Connector | conductivity-analyzer-electrode-connector | 2× | 2 | — | part |
| 2 | Excitation Signal Generator 3 parts | conductivity-analyzer-excitation-signal-generator | 1× | 1 | 3 | assembly |
| 2.1 | Oscillator | conductivity-analyzer-oscillator | 1× | 1 | — | part |
| 2.2 | Output Buffer | conductivity-analyzer-output-buffer | 1× | 1 | — | part |
| 2.3 | Frequency Adjustment | conductivity-analyzer-frequency-adjustment | 1× | 1 | — | part |
| 3 | Measurement Amplifier 4 parts | conductivity-analyzer-measurement-amplifier | 1× | 1 | 4 | assembly |
| 3.1 | Transimpedance Stage | conductivity-analyzer-transimpedance-stage | 1× | 1 | — | part |
| 3.2 | Phase Detector | conductivity-analyzer-phase-detector | 1× | 1 | — | part |
| 3.3 | Lock-In Filter | conductivity-analyzer-lock-in-filter | 1× | 1 | — | part |
| 3.4 | Gain Control | conductivity-analyzer-gain-control | 1× | 1 | — | part |
| 4 | Temperature Compensation Module 3 parts | conductivity-analyzer-temperature-module | 1× | 1 | 3 | assembly |
| 4.1 | RTD Sensor | conductivity-analyzer-rtd-sensor | 1× | 1 | — | part |
| 4.2 | RTD Excitation | conductivity-analyzer-rtd-excitation | 1× | 1 | — | part |
| 4.3 | Compensation Circuit | conductivity-analyzer-compensation-circuit | 1× | 1 | — | part |
| 5 | Transmitter Electronics 7 parts | conductivity-analyzer-transmitter | 1× | 1 | 7 | assembly |
| 5.1 | Microcontroller | mcu | 1× | 1 | — | part |
| 5.2 | ADC Stage | conductivity-analyzer-adc-stage | 1× | 1 | — | part |
| 5.3 | DAC Stage | conductivity-analyzer-dac-stage | 1× | 1 | — | part |
| 5.4 | Calibration Memory | conductivity-analyzer-calibration-memory | 1× | 1 | — | part |
| 5.5 | Bare PCB | pcb-bare | 1× | 1 | — | part |
| 5.6 | Connector | connector | 1× | 1 | — | part |
| 5.7 | Power Supply | power-supply | 1× | 1 | — | part |
| 6 | Flow Cell Union 3 parts | conductivity-analyzer-flow-cell-union | 1× | 1 | 3 | assembly |
| 6.1 | Union Body | conductivity-analyzer-union-body | 1× | 1 | — | part |
| 6.2 | Insertion Depth | conductivity-analyzer-sensor-insertion-depth | 1× | 1 | — | part |
| 6.3 | Fastener Set | fastener-set | 1× | 1 | — | part |
Sourcing — likely vendors
Companies that make this · indicative price $1k–$500k · MOQ & lead are typical| Vendor | HQ | Specialty | MOQ | Lead time |
|---|---|---|---|---|
| thermofisher.com ↗ | Waltham, US | Lab instruments | 100 units | 10–18 wks |
| 🇺🇸Agilent agilent.com ↗ | Santa Clara, US | Analytical instruments | 100 units | 10–18 wks |
| 🇺🇸Bruker bruker.com ↗ | Billerica, US | Scientific instruments | 100 units | 10–18 wks |
| 🇯🇵Shimadzu shimadzu.com ↗ | Kyoto, JP | Analytical instruments | 100 units | 10–18 wks |
| 🇺🇸Waters waters.com ↗ | Milford, US | Chromatography & MS | 100 units | 10–18 wks |
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