Benchtop Colorimeter

Labmate Benchtop Colorimeter offers precise color measurement with visible light filters and a low-noise silicon photodiode. Accurate and economical, it uses just 1.5ml of reagent and covers a wavelength range of 420 to 660 nm with a 420 nm filter. Ideal for efficient analysis.

Choosing the Right Color Measurement Device: Portable VS Benchtop Spectrophotometers (Benchtop Transmittance Spectrophotometer)

There are many different brands of color spectrophotometers on the market, and even within the same brand, there are multiple products available. The handheld and desktop types are the most popular categories, but what are the differences between these two types? Portable Colorimeters – also known as Portable spectrophotometers Can directly read data and connect to a computer through software: Small size, convenient to carry, high accuracy, and moderate price. Easy to operate, even ordinary personnel can easily handle it. Desktop Colorimeters – also known as Benchtop Transmittance Spectrophotometer: Equipped with a reading window, used with color matching software when connected to a computer, has high accuracy color matching function, large size, stable function, and high price. As we all know, Benchtop Transmittance Spectrophotometer are more accurate and consistent than portable devices. When using strict tolerances or setting color specifications, desktop devices are usually the preferred choice. Professionals working with brand colors or components of their products must match each other in the final assembly process, using desktop devices to set specifications, formulas, and quality control. On the other hand, portable colorimeters are more suitable for spot checking product quality as they are easy to carry around. Portable VS Benchtop Spectrophotometers: If you want to measure liquids such as orange juice, laundry detergent, or shampoo, please choose a Benchtop Transmittance Spectrophotometer; Benchtop Transmittance Spectrophotometer are also the preferred choice for setting color formulas. They are suitable for controlling fluorescence and fluorescent whitening agents in paper, textiles, plastics, pigments, and paints. Using automatic instrument settings eliminates the possibility of speculation and errors during instrument configuration. Portable colorimeters are convenient to carry around and can be used for quality control in the laboratory. They are widely used in industries such as plastics, printing, and metal spraying for quality inspection and monitoring. They are compact, handheld, simple, and inexpensive instruments, but still effective for specific purposes. In a Benchtop Transmittance Spectrophotometers, a specific light source (such as A or D65) illuminates the object. The reflected light passes through primary filters: red, green, and blue, which simulate the spectral sensitivity curve and reach the detector, where it provides a response proportional to the three-stimulus values. Therefore, colorimeters provide information about the amount of red, green, and blue light reflected by the object. This color information is useful for color evaluation that does not require complexity or accuracy. For example, colorimeters are very useful in production environments where measuring color differences between products and standards, or between production batches, is important. It can also be compared to color charts for evaluation purposes. Benchtop Transmittance Spectrophotometers are more complex and accurate color evaluation devices than colorimeters. They are used for color quality control in processes that require higher accuracy, such as research labs, color formulas in paint and cosmetics companies, etc. Spectrophotometers can be handheld, with a compact and user-friendly design, suitable for industrial environments on the product line. Or they can be desktop spectrophotometers that require a more comprehensive understanding of the user, but offer greater versatility. Generally, handheld spectrophotometers or handheld measurements are used to measure opaque solid objects, while desktop spectrophotometers can be used to measure the color of opaque solids, semi-transparent solids, and liquids. DSCD-910_Benchtop Spectrophotometer (Transmittance) Benchtop Transmittance Spectrophotometers used for color evaluation measure the reflection or transmission radiation of the entire visible spectrum. To do this, a monochromatic radiation is used to illuminate the sample or object (spectrophotometers have monochromators, filters, or prisms that can distinguish wavelengths), and the amount of reflected or transmitted radiation is recorded. Benchtop Transmittance Spectrophotometers are very common instruments used in color measurement. They are widely used in areas such as color evaluation, color control, color matching, and material composition analysis. As a precision instrument for color measurement, its working principle is to use a spectrophotometer to display the ratio of the spectral composition and diffraction curve of a graph and calculate the measured value accordingly. It automatically records the data measured by the spectrophotometer, and then calculates the measurement result automatically. In addition to the microprocessor and related circuits, the spectrophotometer has four main components: light source, integrating sphere, grating (monochromator), and photodetector. Different models of spectrophotometers have different components, which affect the accuracy of the measurement results. Spectrophotometers, as precise measurement instruments, have a unique measurement method that is not complicated. It mainly consists of four steps: 1. Calibration In actual use, calibration is required to ensure accuracy. There are two calibration methods: one is to use standard samples to calibrate, and the other is to use raw data from the light source for calibration. Calibration can ensure that the spectrophotometer has consistent standards under different test conditions. 2. Sampling Before testing, a sample of the object needs to be taken. This step usually requires taking a small piece from the surface of the object while avoiding contamination and damage to the sample surface as much as possible. 3. Measurement Before measuring, the sample needs to be fixed on the spectrophotometer according to the requirements. Then, using the instrument’s built-in operating interface, input the required measurement items and illuminate the sample with the light source. After a certain test time, the test data is recorded. 4. Analysis and Results After obtaining the measurement data, it is necessary to perform analysis and statistics and further processing based on the analysis results. For example, by calculating the color difference value, the level of color difference from the standard sample can be determined, thereby determining the color accuracy. As a highly precise color inspection device, spectrophotometers can detect the “reflectivity curve” of each color point, which cannot be achieved by many simple color difference meters. In addition, spectrophotometers can simulate multiple light sources, allowing you to perform color difference calibration work in the designated light source box specified by the inspection company. Read the full article

Colorimeter Market - Analysis, Size, Share, Growth and Opportunity Assessment till 2027

Market Research Reports Search Engine (MRRSE) has recently updated its massive report catalogue by adding a fresh study titled “Colorimeter Market - Analysis, Size, Share, Growth and Opportunity Assessment till 2027”. This business intelligence study encapsulates vital details about the market current as well as future status during the mentioned forecast period of 2027. The report also targets important facets such as market drivers, challenges, latest trends, and opportunities associated with a growth of manufacturers in the global market for Colorimeter. Along with these insights, the report provides the readers with crucial insights on the strategies implemented by leading companies to remain in the lead of this competitive market.

This research report provides a detailed analysis of the colorimeter market and offers insights on the various factors driving the popularity of colorimeters. The colorimeter market report includes an extensive analysis of the key industry drivers, challenges, market trends and market structure. The colorimeter market study provides a comprehensive assessment of the stakeholder strategies and imperatives for succeeding in the business. The colorimeter market report includes market segmentation on the basis of product type, end use, light source and region.

The stringent standards and regulations related to quality testing of samples which includes testing of color, appearance and other crucial parameters in various end use industries such as food & beverage, agriculture is driving the colorimeter market. The colour of materials plays an important role when it comes to the appearance and quality of a particular product and colorimeters are increasingly used for the study of these properties.

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Colorimeters are rapidly adopted in various end use industries such as food & beverages, automotive, electronics. The most common applications of colorimeters include monitoring the growth of the yeast culture and bacteria present in food & beverage products and for the detection of spoilage, transport damages and the presence of nutrients using the colour properties of food and beverages.

Colorimeters are available in benchtop as well as handheld forms. The demand for handheld colorimeters is expected to witness significant growth over the forecast period as they are easy to use on the field due to their compact size, light weight and easy operating method. Colorimeters are known for their quantification of human colour perception, which is boosting the penetration of colorimeters in various industries.

The colorimeter market is expected to witness significant value and volume growth during the forecast period owing to the increasing applications of colorimeters in environmental analysis and for studying food & beverages based on their colour for the detection of bacterial growth, etc.      

The global colorimeter market report starts with an overview of the colorimeter market in terms of value and volume. In addition, this section includes an analysis of the key trends, drivers and challenges from the supply, demand and economy side, which are influencing the colorimeter market.  

On the basis of product type, the colorimeter market has been segmented into portable/handheld and bench top. On the basis of end use, the colorimeter market has been segmented into food & beverages, healthcare & pharmaceuticals, textile, automotive, environmental analysis, electronics and others (toys & plastic). On the basis of light source, the colorimeter market has been segmented into LED and tungsten.

A detailed analysis has been provided for every segment in terms of the market size analysis of the colorimeter market across different regions. This section provides a detailed analysis covering the key trends prevalent in the global colorimeter market.                

The next section of the global colorimeter market report covers a detailed analysis of the colorimeter market across various countries in the region. It provides an outlook for the colorimeter market for 2019–2027, and sets the forecast within the context of the colorimeter market. This study discusses the key trends within the countries contributing to the growth of the colorimeter market as well as analyses the degrees at which the drivers are influencing the colorimeter market in each region. The key regions and countries assessed in the colorimeter market report include North America (U.S. & Canada), Latin America (Brazil, Mexico & the rest of Latin America), Europe (Germany, U.K., Spain, France, Russia & the rest of Europe), Japan, APEJ (China, India, Malaysia, Singapore, Australia & the rest of APEJ) and MEA (GCC Countries, Israel, South Africa & the rest of MEA). This report evaluates the present scenario and the growth prospects of the colorimeter market across various regions globally for the period 2019–2027. We have considered 2017 as the base year, and provided data for the remaining 12 months.      

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To offer an accurate forecast, we have started by sizing the current market, which forms the basis of how the colorimeter market is expected to grow in the future. Given the characteristics of the global colorimeter market, we have triangulated the outcomes of different types of analysis based on the technology trends.      

As previously highlighted, the global colorimeter market has been split into a number of segments. All the segments on the basis of product type, end use, light source and region have been analysed in terms of basis points to understand the relative contribution of each individual segment to the growth of the colorimeter market. This detailed information is important for the identification of various key trends in the global colorimeter market.        

In addition, another key feature of the global colorimeter market report includes the analysis of all the key segments in terms of absolute dollar opportunity. This is traditionally overlooked while forecasting the market, however, the absolute dollar opportunity is critical in assessing the level of opportunity that a provider can look to achieve as well as to identify the potential resources from a sales and delivery perspective in the global colorimeter market.    

In the final section of the global colorimeter market report, we have included a competitive landscape to provide clients a dashboard view based on the categories of providers in the value chain, their presence in the colorimeter market and key differentiators. This section is primarily designed to provide clients an objective and detailed comparative assessment of the key providers specific to a segment of the colorimeter supply chain and the potential players for the same. Report audiences can gain segment-specific vendor insights to identify and evaluate the key competitors based on an in-depth assessment of their capabilities and success in the colorimeter market. Some of the key competitors covered in the colorimeter market report are Konica Minolta Sensing Americas, Inc., PCE Deutschland GmbH, Danaher (Hach), LaMotte Company, Harvard Bioscience (Biochrom), Xylem Analytics, Admesy, Klein Instruments, SCHMIDT + HAENSCH GmbH & Co., Metrohm AG, Taylor Technologies Inc., Milwaukee Instruments, Hanna Instruments and Bionics Scientific Technologies (P). Ltd.

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