This reliable Diamond Scriber performs fast, easy and precise scribing and cutting of silicon wafers, as well as thin and thick film ceramic and glass substraits. It forms the grooves necessary for effective glass or ceramic cutting: shallow, even...
This reliable Diamond Scriber performs fast, easy and precise scribing and cutting of silicon wafers, as well as thin and thick film ceramic and glass substraits. It forms the grooves necessary for effective glass or ceramic cutting: shallow, even and continuous. All essential operating parameters – the angle of the scribing tool, the scribing force, the touchdown point and the lift up point of the tool are precisely adjustable to ensure optimal felxibility and repeatable results.
ATV’s successful SRO-71X series IR vacuum reflow oven is the heart of ATV’s reflow soldering principle. Our ATV-TCB, Thermal Compression Bonding is also based on which this system is developed. The Single Cold Wall Process C...
ATV’s successful SRO-71X series IR vacuum reflow oven is the heart of ATV’s reflow soldering principle. Our ATV-TCB, Thermal Compression Bonding is also based on which this system is developed. The Single Cold Wall Process Chamber approach is a standard on itself and is also applied for the ATV-TCB which fulfills all your process requirements.
Our Thermal Compression Bonding system has an isostatic press in combination with an elastomer membrane. This patented technology gives you the opportunity to use a maximum pressing force of 0,5MPa over 150 mm Ø. This pressure can be gradually built up to the desired process pressure under which you want to perform your process. With our applied membrane technology you will not be faced with product shifting from start to finish. Another advantage for our technology is that you may process simultaneously products which have a different topography. This will have no influence on the expected final process results.
Also in this tool ATV uses all its know-how of the cold wall technology in combination with the IR heating concept, vacuum assembly as well as formic acid atmosphere to achieve the prefect solder joints you need for a reliable product. Working with the ATV-TCB you will notice that programming is easy and with the 100 step programming steps you will be able to fine tune your process in such a way that a process success is guaranteed.
The all-new and groundbreaking SRO i-Line is a high volume production tool used for vacuum reflow soldering. Implementing this tool within the ATV single chamber approach will help to fulfil all your current and future ...
The all-new and groundbreaking SRO i-Line is a high volume production tool used for vacuum reflow soldering. Implementing this tool within the ATV single chamber approach will help to fulfil all your current and future demands. Since 1982 ATV‘s single chamber approach has proven equally successful in the R&D and pilot line production market.
With more than 550 devices in use worldwide ATV is ready to step into high volume production with its brand-new SRO i-Line. This system can easily be upgraded from the basic one process chamber version to three process chambers all within the same footprint. Each chamber is individually programmable to perform its own process. This allows for the most flexible solution within your production.
Key Features
High Throughput
Short Cycle Times
Formic Acid
Process Temperature Up To 450°c Temperature Ramp-up Rate 3k/sec.
Temperature Cool-down Rate 2k/sec.
Excellent Temperature Uniformity
IR Heating
Small Footprint (No Footprint Change Up To 3 Process Chambers)
This table top soldering system is the ideal tool for R&D applications. With its rapid thermal annealing and brazing capabilities the SRO-700 is equally suited for your basic reflow soldering applications as well as all your...
This table top soldering system is the ideal tool for R&D applications. With its rapid thermal annealing and brazing capabilities the SRO-700 is equally suited for your basic reflow soldering applications as well as all your R&D assignments. A cold wall chamber principle in combination with the IR lamp heating technology and the vacuum option will reward you with all the required process repeatability and perfect void free solder joints.
With its 100 mm clearance over the heated surface the system can handle products like IGBT and power electronics packages. The SRO-700 is an incredibly versatile reflow oven for semiconductor and MEMS application. Whatever the objective the SRO-700 is ready to handle it all.
ATV’s approach using the Cold Wall Process Chamber is also applied in the SRO-706 Getter system. This system can be applied for Thermal Getter processes in R&D and Production line applications. The basis for the Getter sys...
ATV’s approach using the Cold Wall Process Chamber is also applied in the SRO-706 Getter system. This system can be applied for Thermal Getter processes in R&D and Production line applications. The basis for the Getter system is the successful SRO-706 series IR vacuum reflow oven. Common applications are sealing of packages with kovar caps or optical windows for gyroscopes, microbolometer and various MEMS sensors under high vacuum by applying thermal Getter activation.
With its proven direct IR heating approach, ATV applies for the SRO-706 Getter system a top and bottom heating. The IR lamp arrays are independently monitored and controlled as 2 separate heating zones. This results that there is an excellent heating uniformity under vacuum when reaching a maximum temperature of 450°C during the Thermal getter process. The sensor or chip temperature remains below 100°C during the getter activation process. Optionally, a mass spectrometer can be added for residual gas analysis during the sealing process.
The SRO-706 Getter is a result of in-depth cooperation with our customer base and listing to the needs of the market as you may expect form ATV.
The ATV SRO-716 series standalone IR vacuum reflow ovens are the benchmark for R&D, low volume pilot line and medium volume batch production. The system produces high quality results with outstanding process stability and re...
The ATV SRO-716 series standalone IR vacuum reflow ovens are the benchmark for R&D, low volume pilot line and medium volume batch production. The system produces high quality results with outstanding process stability and repeatability. Configuration dependent, process capabilities include: flux-less soldering, eutectic die attach, gold tin soldering, void-free soldering, hermetic lid sealing, formic acid processing and flip chip soldering etc.
Key Features
Small Footprint, Freestanding Vacuum Reflow Oven
Touch TCs with Quick Swap Hotplates
Maximum Temperature 450°C, (optional 700°C)
Temperature ramp-up rate 3.5K/sec
Up to 100 process steps per profile recipe
Automatic Chamber Opening / Closing
Optional Top Heating
Heated Area: 314 x 314 mm
Oxygen < 1 ppm
Optional High-Pressure Atmosphere: up to 3 bar (abs)
This unique subboiling system is employed to produce high-purity acids for use in trace analysis by acid distillation. The acid is always fresh and is therefore guaranteed to be of the desired purity. Contaminated acids can be re-cleaned. Contact-...
This unique subboiling system is employed to produce high-purity acids for use in trace analysis by acid distillation. The acid is always fresh and is therefore guaranteed to be of the desired purity. Contaminated acids can be re-cleaned. Contact-free heating of the acids by means of an infrared lamp allows an equilibrium between the absorbed IR radiation and the liquid’s evaporation heat to be established. This equilibrium state is reached at approx. 10°C/50°F below the individual acid’s boiling point. This allows the acid to evaporate slowly for a gentle distillation. By cleaning more economical low purity acids, you can save up to 90% of the cost of analytically pure acids. As a rule, the system therefore pays for itself within the first year.
Each pressure reactor is the product our experience in pressure vessel design and construction, gained in over 25 years. This is “added value” you can comprehend:
Technically safe and relia...
Greater value
Each pressure reactor is the product our experience in pressure vessel design and construction, gained in over 25 years. This is “added value” you can comprehend:
Avoid sample contamination through corrosion-resistant oven coating and gas collection system
High digestion quality and extremely low blank values ...
Avoid sample contamination through corrosion-resistant oven coating and gas collection system
High digestion quality and extremely low blank values thanks to vessels made of isostatically molded TFMTM-PTFE
Easy handling thanks to innovative vessel design and and QuickStart control
Constant sample temperature and digestion process results through the power control system in dependence on sample temperature
20% faster cooling and therefore higher sample throughput through additional exhaust unit
Complete reaction control due to optical temperature measurement
In modern analytics, tasks must be carried out quickly, easily and flawlessly, especially in trace analysis, systematic errors can be reduced to a minimum with the help of modern microwave digestion devices
The all-rounder for demanding digestions at elevated temperatures and pressures.
Powerful
Sophisticated
Intuitive
In addition to the “simple routine samples”...
The all-rounder for demanding digestions at elevated temperatures and pressures.
Powerful
Sophisticated
Intuitive
In addition to the “simple routine samples”, many users also need to process the most challenging sample materials. For this target group, devices are required that are both powerful and meet the highest safety requirements. In this context, the all-rounder Speedwave Xpert shines thanks to its new SafePrep concept. The use of 2 magnetrons with a total of 2000 W power significantly increases performance, enabling digestion of the most difficult sample materials. At the same time, the microwave is equipped with dynamically regulated fans which provide a marked noise reduction during digestion in comparison with similar models.
Pressure digestion vessels from Berghof are the systems of choice when it comes to difficult samples, large sample masses, or in labs that value high levels of flexibility. Typical digestion times lie in the range of 2-4 hours. For difficult to di...
Pressure digestion vessels from Berghof are the systems of choice when it comes to difficult samples, large sample masses, or in labs that value high levels of flexibility. Typical digestion times lie in the range of 2-4 hours. For difficult to digest samples (e.g., SiC), the ability to extend digestion time for practically any desired period represents a decisive advantage. Microwave units cannot be employed for such applications. An additional advantage over microwave systems lies in the fact that larger sample quantities (e.g., 2 g organic samples) can be digested because of the larger available pressure range up to 200 bar / 2900 psi.
The Berghof easyH2O analyzer selectively determines the water content in a sample by means of thermo-coulometric determination. For this purpose the sample is heated up in a closed sample chamber and the evaporated water is conveyed to the sensor....
The Berghof easyH2O analyzer selectively determines the water content in a sample by means of thermo-coulometric determination. For this purpose the sample is heated up in a closed sample chamber and the evaporated water is conveyed to the sensor. Unlike the gravimetric moisture-measuring techniques, the result is not distorted by substances which evaporate out of the sample together with the water. The Berghof easyH2O delivers reproducible and exact results. It facilitates separate identification of free surface and capillary water as well as bonded water. Even strongly bonded water is released and quantified by means of temperature programs up to 400°. The results correspond to those of a Karl Fischer titration.
PowderPro A1 automatically analyze powder characteristics such as Angle of Repose, Angle of Fall, Angle of Spatula, Bulk Density, and Tapped Density of a variety of powder materials. Applied image technology automatically controlled by PAD or Andr...
PowderPro A1 automatically analyze powder characteristics such as Angle of Repose, Angle of Fall, Angle of Spatula, Bulk Density, and Tapped Density of a variety of powder materials. Applied image technology automatically controlled by PAD or Android App, PowderPro A1 is an essential tool to research and assess powder materials.
Nanoptic 90 is a nanoparticle size analyzer based on the DLS (Dynamic Light Scattering) theory. It can measure nanomaterial down to 1 nanometer. Its high-power semiconductor laser device provides stable light intensity and long lifespan; while its...
Nanoptic 90 is a nanoparticle size analyzer based on the DLS (Dynamic Light Scattering) theory. It can measure nanomaterial down to 1 nanometer. Its high-power semiconductor laser device provides stable light intensity and long lifespan; while its correlator with 1000 channels and sensitive photomultiplier tube deliver measurement results with high repeatability and accuracy.
BeVision W1 is a high-resolution dynamic image particle size and particle shape analyzer. Based on sheath flow theory, BeVision W1 particle size distribution analyser can capture each particle and deliver accurate image data. BeVision W1 particle ...
BeVision W1 is a high-resolution dynamic image particle size and particle shape analyzer. Based on sheath flow theory, BeVision W1 particle size distribution analyser can capture each particle and deliver accurate image data. BeVision W1 particle analyzer is the best solution for scientific research and quality control.
The BeVision D2 particle image analyzer(particle shape analyzer) is a microscopic image particle size and particle shape analyzer for non-destructive measurement of coarse particles and millimeter range powder materials. BeVision D2 particle size ...
The BeVision D2 particle image analyzer(particle shape analyzer) is a microscopic image particle size and particle shape analyzer for non-destructive measurement of coarse particles and millimeter range powder materials. BeVision D2 particle size analyzer’s high speed CCD camera and multi-threaded software quickly identify particles and obtains stable and accurate measurement results.
The BeVision D2 particle image analyzer(particle shape analyzer) is a microscopic image particle size and particle shape analyzer for non-destructive measurement of coarse particles and millimeter range powder materials. BeVision D2 particle size analyzer’s high speed CCD camera and multi-threaded software quickly identify particles and obtains stable and accurate measurement results.
BeVision S1 particle size analyzer employs the latest software particle image processing technology for the traditional microscope imaging method, providing intuitive and accurate particle size distribution analysis. BeVision S1 particle shape ana...
BeVision S1 particle size analyzer employs the latest software particle image processing technology for the traditional microscope imaging method, providing intuitive and accurate particle size distribution analysis. BeVision S1 particle shape analyzer is widely used in particle shape observation and analysis fields, such as grinding abrasives, super-hard materials, spherical materials, and metal powder abrasives.
BeVision M1 particle analyzer is an automatic image scanning system for filter paper cleanliness analysis. Equipped with a metallurgical microscope, programmable motorized stage, autofocus function, and high-resolution CCD camera, BeVision M1 part...
BeVision M1 particle analyzer is an automatic image scanning system for filter paper cleanliness analysis. Equipped with a metallurgical microscope, programmable motorized stage, autofocus function, and high-resolution CCD camera, BeVision M1 particle analyser can capture and recognize each individual particle, automatically stitching the images to a large panorama.
The integrated and robust laser particle size analyzer, Bettersizer 2600, can deliver reliable particle size measurement results from submicron to millimeter. Driven by the innovative optical system and Standard Operation Procedure (SOP), the Bett...
The integrated and robust laser particle size analyzer, Bettersizer 2600, can deliver reliable particle size measurement results from submicron to millimeter. Driven by the innovative optical system and Standard Operation Procedure (SOP), the Bettersizer 2600 wet and dry particle size analyzer strikes a harmonious balance between high-functionality, easy operation, low maintenance, and cost-effectiveness.
Bettersizer ST laser scattering particle size distribution analyzer includes the patented Dual Lens Optical System (DLOS) which provides a compact design without resorting to folding optics that are susceptible to misalignment caused by vibrations...
Bettersizer ST laser scattering particle size distribution analyzer includes the patented Dual Lens Optical System (DLOS) which provides a compact design without resorting to folding optics that are susceptible to misalignment caused by vibrations often present in most industrial labs.
The ST Laser Granulometry incorporates 86 high-speed detectors, which produces the high-resolution data from 0.1 to 1000 microns. This high-speed detector system delivers fast results, often in as little as 15 seconds.
Bettersizer S3 laser particle analyzer represents the leading particle size analysis technology for wet dispersion solution. Measuring range from 0.01 to
3500μm can meet the most stringent requirements of fundamental research, product developme...
Bettersizer S3 laser particle analyzer represents the leading particle size analysis technology for wet dispersion solution. Measuring range from 0.01 to
3500μm can meet the most stringent requirements of fundamental research, product development, and process control applications. The advanced optical design, DLOIOS, automatic refractive index measurement, and high quality manufacturing ensure convenient, reliable operation and accurate results. SOP and automatic circulation & dispersion system ease the workload and improve user experience.
Seamlessly combined laser diffraction and automated imaging in one model, Bettersizer S3 Plus particle size analyser not only achieves a wide size range from 0.01 to 3500μm, but also analyzes all size and shape parameters of a ...
Seamlessly combined laser diffraction and automated imaging in one model, Bettersizer S3 Plus particle size analyser not only achieves a wide size range from 0.01 to 3500μm, but also analyzes all size and shape parameters of a great variety of bulk materials. The reliable performance and user-friendly operation mode make Bettersizer S3 Plus the best choice for research in need of material characterization.
