Overview
The PCA1000 Piezoelectric Ceramic Parameter Analyzer from MatMeas is designed to evaluate the comprehensive performance parameters of piezoelectric ceramics using resonance analysis technology. The system enables fast and intuitive measurement of dielectric constants, mechanical quality factors, electromechanical coupling coefficients and frequency characteristics. It is widely used in research laboratories and industrial production lines to analyze piezoelectric materials, improve product quality and accelerate material development.
Specifications
| Parameter | Value |
| Dielectric Parameters | Z, θ, C, D, ε’, ε”, tgδ, Z’, Z”, Cole‑Cole |
| Piezoelectric Parameters | kp, kt, k31, k33, Qm, d31, d33, d15 |
| Characteristic Frequencies | fr, fa, fs, fp, fm, fn |
| Equivalent Circuit | C0, C1, R1, L1 |
| Frequency Range | 20 Hz – 10 MHz |
| Measurement Accuracy | ±0.05 % |
| Sample Size | φ ≤ 20 mm, thickness ≤ 5 mm |
| Instrument Dimensions | 340 × 336 × 147 mm |
| Power Supply | 220 V / 50–60 Hz |
| Weight | 3 kg |
| Warranty | 1 Year |
Applications
- Piezoelectric ceramic material research
- Ferroelectric and dielectric material testing
- Electronic component development
- University and research institute laboratories
- Industrial quality control of piezoelectric components
More Details
PCA1000 Analyzer Features
The PCA1000 system integrates measurement fixtures, data acquisition and analysis software into a single platform. It allows researchers to quickly obtain key dielectric and piezoelectric parameters of ceramic materials.
PCA1000 Intelligent Sweep Technology
The analyzer performs intelligent frequency sweeping to obtain impedance spectra and dielectric spectra. This helps engineers evaluate resonance characteristics and optimize piezoelectric material performance.
PCA1000 Visualization and Data Analysis
The software interface displays real‑time curves, Cole‑Cole plots and equivalent circuit models, enabling efficient interpretation of measurement results.
FAQ
What is the primary measurement principle of M?
M is designed using advanced electrical characterization methods to measure piezoelectric poling system with extreme precision, eliminating lead resistance and temperature fluctuations.What sample shapes and forms are supported?
The system supports standard sample geometries including solid blocks, circular thin-sheet discs, and rectangular bars with specialized test fixtures.Does M comply with international laboratory standards?
Yes, all measurements fully align with international norms such as ASTM, IEEE, and GB/T standards to deliver publishable, research-grade data.
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