ENERGY 30 Fourier Transform Infrared Spectrometers FTIR

ENERGY-30 Fourier Transform Infrared Spectrometer (FTIR) for High-Precision Laboratory Analysis

ENERGY-30 FTIR spectrometer is designed for advanced material analysis in laboratories, offering high sensitivity detection, stable signal output, and reliable performance in demanding environments such as research institutes, chemical laboratories, and industrial quality control centers.

It is especially optimized for high-humidity environments and long-term continuous operation, reducing maintenance risks and improving analytical stability.

Advanced Optical and Electronic Design

• DSP-Controlled Michelson Interferometer: Enables continuous dynamic adjustment and automatic energy optimization, eliminating manual intervention.
• 3D Gold-Plated Reflective Mirrors: Fixed right-angle mirrors maintain collimated optical paths without mechanical adjustments.
• Super Test Digital Electronics: 24-bit, 500 kHz A/D conversion with high-speed USB output ensures reliable, real-time spectral data.
• Temperature & Humidity Protection: Industrial-grade module displays readings and triggers alarms to safeguard core components.
• Moisture-Protected Optical Cavity: Sealed cavity and reusable 304 stainless steel desiccant boxes extend component life.
• Non-Orthogonal Michelson Design: Optimizes energy utilization for more efficient spectral acquisition.

High-Performance Light Sources and Optics

• 24W Silicon Carbide Infrared Source: Stabilized digital power guarantees long-lasting, consistent output.
• Long-Life Diode Lasers & Coated Optics: Slides, detectors, and beam splitters (KBr, ZnSe, CaF₂) resist moisture corrosion and improve transmittance.
• Precision SPDT-Cut Mirrors: Ensure high reflectivity and consistent optical alignment for accurate measurements.

Flexible Expansion Options

Supports multiple measurement modes including transmission, ATR, diffuse reflection, planar reflection, and external reflection attachments—ideal for diverse research applications.

The ENERGY-30 fourier infrared spectrometer is a reliable FTIR machine for labs requiring precision, stability, and versatility in spectral analysis.

High-Precision Spectral Analysis

ENERGY-30 Fourier transform infrared spectroscopy equipment features advanced optics and sensitive detectors to deliver accurate spectral data with minimal noise. Its automated workflow allows efficient sample measurement and processing. As part of Hench’s lineup of Fourier transform infrared spectrometers, this instrument ensures reliable and reproducible results in demanding lab environments.

User-Friendly and Flexible

• Compact Laboratory Design: Fits easily in labs with limited space.
• Intuitive Software Interface: Simplifies operation for both routine and advanced analyses.
• Wide Accessory Compatibility: Works seamlessly with a range of consumables and lab supplies, allowing full integration with Hench’s laboratory equipment.

Reliable and Versatile Instrumentation

• High-Stability Components: Ensure consistent performance for long-term research.
• Broad Application Range: Suitable for qualitative identification and quantitative analysis across various fields.
• Workflow Integration: The ENERGY-30 FTIR spectroscopy instrumentation can be combined with other instruments, such as hydraulic presses machines, to streamline sample preparation and lab workflows.

Challenges in Infrared Spectroscopy Analysis and How ENERGY-30 Solves Them

Challenge/Problem	Impact in Laboratory Use	ENERGY-30 Solution	Technical Advantage / Result
Moisture sensitivity in high-humidity environments	Signal instability, reduced accuracy, and sample degradation when using conventional FTIR systems, especially with KBr-based preparation methods	Advanced moisture-resistant optical design with fully sealed optical path system	Significantly reduces humidity interference, ensuring stable spectral output and improved long-term measurement reliability
Light source instability and short lifespan	Frequent lamp replacement increases maintenance cost and causes downtime in laboratory workflows	High-durability ceramic light source with optimized energy output system	Provides long operational life, stable infrared energy emission, and reduced maintenance frequency
Detector performance degradation in harsh environments	Reduced sensitivity and inconsistent results under fluctuating temperature and humidity conditions	High-performance DLATGS detector with anti-moisture protection technology	Ensures stable signal detection, high sensitivity, and improved measurement repeatability in demanding laboratory conditions

Principle of Instrument

The ENERGY-30 FTIR instrument operates on the interferometer frequency modulation principle. Infrared light emitted from the source passes through the Michelson interferometer to create interference light, which then irradiates the sample. The receiver collects the interference light carrying sample information, and specialized software processes it via Fourier transform to generate a precise sample spectrum.

Experimental Principle

ATR Designed based on the principle of internal light reflection. The infrared emitted from a light source passes through a crystal with a high refractive index and is projected onto a crystal with a low refractive index.On the surface, when the incidence Angle is greater than the critical Angle, the incident light will be reflected. In fact, not all infrared light is reflected back Instead, it penetrates to a certain depth within the specimen surface and then returns to the surface. In this process, the sample has selective absorption in the region of incident light frequency.The intensity of the reflected light is weakened, and the spectrum similar to that of the transmitted absorption is produced, so that the structural information of the chemical composition of the surface layer of the sample is obtained.

Product analysis

• The sample warehouse can store ATR accessories and infrared Sample making mold, liquid pool, gas pool.

• This viewing window is a viewing moving mirror Mechanical scanning of operating status.

• Instrument built-in industrial temperature and humidity module, display Screen directly digital display temperature and humidity, and has Humidity alarm device, effectively prevent the core of the instrument Parts are damaged by delixing.

• Integral moisture proof design is adopted inside the instrument. Improve the service life of key components.

• Built-in efficient renewable desiccant,Customers can replace it after drying.

Complete FTIR Sample Preparation and Analysis Workflow

FTIR analysis is not a standalone instrument operation. In laboratory environments, accurate infrared spectroscopy results depend on a complete and well-controlled sample preparation and measurement workflow. ENERGY-30 is designed to integrate seamlessly into this workflow, ensuring consistency, repeatability, and high analytical precision.

Step 1: Sample Preparation

Solid or powder samples are first prepared before spectral testing. Depending on the material type, the sample must be finely ground and evenly distributed.

In most FTIR applications, a hydraulic press machine is used to compress the prepared powder into a uniform and stable pellet structure. This step is critical because uneven density or particle distribution can directly affect infrared transmission accuracy.

Step 2: Pellet Formation

The prepared sample is mixed with FTIR-grade potassium bromide (KBr) or other suitable binding agents, then compressed under controlled pressure conditions.

This process forms a transparent or semi-transparent pellet, which is essential for infrared light transmission. Proper pressure control ensures:

• Uniform pellet density
• Minimal air gaps or cracks
• Consistent optical performance during analysis

Step 3: Spectral Measurement

The prepared pellet is placed into the ENERGY-30 FTIR spectrometer for infrared spectral acquisition.

During this stage, the system collects high-resolution spectral data based on molecular vibration absorption. The stability of the optical system and detector directly influences the clarity and reliability of the results.

Step 4: Data Processing and Analysis

After spectral collection, the system performs automated data processing, including:

• Compound identification
• Functional group analysis
• Spectrum comparison with reference libraries
• Material quality evaluation

This allows researchers to quickly interpret results and make accurate material assessments.

Integrated Laboratory Solution

To ensure a complete and efficient FTIR workflow, we also provide a fully integrated sample preparation solution designed for laboratory and research applications.

The FTIR Sample Preparation Equipment Set includes:

• FTIR Moisture-proof Box
• IR Dies
• IR Oven
• Automatic hydraulic press

System Value

By combining sample preparation equipment with the ENERGY-30 FTIR spectrometer, users can achieve a fully standardized workflow from raw material to final spectral analysis. This integrated approach helps improve:

• Analytical consistency
• Sample preparation efficiency
• Measurement repeatability
• Laboratory workflow stability

About Hench

Hench is recognized among leading infrared spectrometer manufacturers, offering high-quality laboratory instruments with a focus on precision, durability, and comprehensive support. Their products are trusted worldwide by universities, research institutes, and industrial laboratories, supporting both everyday testing and advanced scientific research.