HALL EFFECT MEASUREMENT SYSTEM
PDL-1000 High-Sensitivity Parallel Dipole Line Hall Measurement System
PDL-1000 High-Sensitivity Parallel Dipole Line Hall Measurement System

 

PDL-1000 High-Sensitivity Parallel Dipole Line Hall Measurement System

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Kategorya: HALL EFFECT MEASUREMENT SYSTEM Magagamit
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Deskripsyon

PDL-1000 High-Sensitivity Hall Measurement System

High-sensitivity parallel dipole line Hall measurement system for AC and DC field Hall testing of low-mobility, semi-insulating, semiconductor, photovoltaic, and thermoelectric materials.

Product Overview

PDL-1000 is a high-sensitivity parallel dipole line Hall measurement system developed for research and characterization applications where accurate Hall data and low-mobility measurement capability are essential.

The system supports both alternating current (AC) and direct current (DC) field Hall measurement methods using permanent magnets, fully integrated instrumentation, and proprietary software for enhanced research productivity. It is specifically designed to measure a wide range of mobilities, including extremely low mobilities and semi-insulating samples. 

The AC field Hall measurement mode is especially valuable for materials with mobility not exceeding 0.1 cm²/Vs, offering an important advantage over traditional DC field measurement in challenging low-signal applications. Materials in this range are commonly semiconductor, photovoltaic, or thermoelectric materials. 

PDL-1000 is built as a simple, robust tabletop Hall system that uses rotating parallel dipole line magnets instead of bulky electromagnets. The compact design, user-friendly operation, and software-controlled measurement environment make it well suited for advanced materials research, semiconductor characterization, and productivity-focused laboratory workflows.

Key Specifications

  • Measurement ModesAC and DC field Hall measurement
  • SensitivityHandles mobility below 0.1 cm²/Vs
  • Magnetic FieldApproximately 2 T pk-pk
  • Uniformity< 2% standard for 5 × 5 mm sample
  • SoftwareProprietary signal processing and user interface software
  • OptionsWhite light background illumination and gate bias voltage
  • PlatformCompact tabletop design with permanent magnets

Main Features

AC & DC Hall Capability

Measures a wide range of material mobilities, including extremely low mobility and semi-insulating samples, with both AC and traditional DC Hall measurement modes. 

High Sensitivity

Designed for very weak Hall signals, with software-based lock-in detection that helps extract low Hall signal without the need for costly hardware-based lock-in detection. 

Integrated Software & Automation

Provides software-controlled measurement, automated parameter extraction, proprietary signal processing, and a user-friendly interface for improved research efficiency. 

Compact Tabletop Design

Uses rotating parallel dipole line magnets in a simple tabletop setup, eliminating the need for a bulky electromagnet or cooling system. 

The PDL Hall system is capable of both AC and DC Hall measurement modes. Its AC field measurement can be used for materials with mobility not exceeding 0.1 cm²/Vs, which gives it an advantage over DC field measurement for very low-mobility materials and weak Hall signal conditions. 

This makes the PDL-1000 especially suitable for semiconductor, photovoltaic, and thermoelectric materials research, where precise Hall characterization is often required even when standard Hall methods become difficult to apply effectively. 

The compact and robust tabletop design supports straightforward integration into laboratory environments, while the permanent-magnet approach avoids the complexity and space demands typically associated with electromagnet-based Hall systems. 

Benefits

  • Wide Mobility RangeMeasures extremely low mobilities and semi-insulating samples
  • Low Signal ExtractionSoftware-based lock-in detection improves low Hall signal recovery
  • No Bulky ElectromagnetRotating parallel dipole line magnets reduce size and complexity
  • No Cooling NeededNo cooling system necessary for normal operation
  • Automated WorkflowSoftware-controlled measurement and automated parameter extraction
  • Ease of UseUser-friendly operation in a simple and robust tabletop system

Application Focus

Low-Mobility Materials Research

Optimized for Hall measurement of materials with very low mobility, especially where AC field measurement offers better performance than DC methods. 

Semiconductor Characterization

Suitable for semiconductor materials research where high-sensitivity Hall measurement is required for mobility and related electrical property evaluation. 

Photovoltaic & Thermoelectric Materials

Well suited for photovoltaic and thermoelectric materials that fall within low-mobility regimes where sensitive Hall signal extraction is important. 

Efficient Research Productivity

Combines integrated instrumentation, proprietary software, and automated parameter extraction to support faster and more productive Hall measurement workflows. 

System Highlights

The brochure highlights the operation of the magnets and measurement results as core parts of the PDL-1000 system concept, emphasizing how the rotating parallel dipole line design works together with the integrated software environment to support advanced Hall data collection. 

The system is based on patents and technology developed by IBM, reinforcing its positioning as a specialized research instrument for advanced Hall measurement and material characterization applications.

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