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Vacuum Coating plant Vacuum Coating plant by Dinesh High Vacuum Engineering acclaims great demands among vast number of industries due to its high proficiency and output and the quality of utmost standards. Our range of Vacuum Coating products is equipped with high production output for Decorative mirrors, Auto light reflectors, Cold mirrors, Rear View mirrors and Glass Bangles.

For accurate measurement of pressure in the rough to high vacuum range 10^{-3} to 10^1 mbar), the Pirani Gauge is an industry standard. This thermal conductivity gauge provides reliable, cost-effective, and robust pressure monitoring, making it indispensable for controlling vacuum processes and protecting high vacuum equipment. Dinesh High Vacuum Engineering (DHVE) supplies a versatile range of Pirani Gauges, offering both the simplicity and durability of Analog units and the high precision and integration features of Digital sensors, ensuring you have the right monitoring tool for every application. I. ⚙️ The Pirani Principle: Measuring Pressure via Thermal Conductivity The Pirani Gauge operates based on the principle that the thermal conductivity of gas changes proportionally with its pressure in the rough to medium vacuum range. How It Works Heated Filament: A fine metal filament (often made of platinum or tungsten) is suspended within a sensor cell exposed to the vacuum environment. Constant Heating: An electrical current is passed through the filament, heating it to a temperature significantly higher than the ambient temperature. Heat Loss: Heat is lost from the filament primarily through two mechanisms: Radiation: This heat loss to the chamber walls is relatively constant. Thermal Conduction: This heat loss to the surrounding gas molecules is pressure dependent. Pressure Measurement: As the pressure decreases (i.e., the vacuum improves), fewer gas molecules are present to carry heat away from the filament. This causes the filament's temperature to increase, which, in turn, causes its electrical resistance to increase. The gauge circuitry measures this change in resistance and converts it into a pressure reading. Note: Pirani gauges are gas-type dependent. The reading is accurate for the calibration gas (usually Nitrogen or Air). If measuring other gases (e.g., Helium, Argon), conversion factors must be applied, as each gas has a unique thermal conductivity. II. 📊 The Legacy: Analog Pirani Gauges (DHVE Classic Series) Analog Pirani Gauges are known for their simplicity, reliability, and cost-effectiveness. They utilize basic bridge circuitry and rely on a physical meter movement to display the pressure. They are often chosen for applications where a simple, quick visual confirmation of vacuum status is required. Key Features of DHVE Analog Pirani Gauges: Simple, Durable Operation: They are highly reliable with minimal complex electronics, making them durable for continuous industrial use. Visual Indication: The needle movement on the meter provides an intuitive, quick check of vacuum status (e.g., 'Good Vacuum' or 'Rough Vacuum'). Cost Efficiency: They offer the most economical entry point for accurate measurement in the 10^{-3} mbar range. Output: They typically provide a basic electrical output (often a 0-10V signal) proportional to the pressure, easily integrated with older control systems or simple relays. III. 💻 The Future: Digital Pirani Gauges (DHVE Smart Sensors) Digital Pirani Gauges integrate microcontrollers and sophisticated signal conditioning directly into the sensor head, offering greater precision, stability, and connectivity than their analog counterparts. They are essential for automated and data-intensive modern vacuum systems. Key Features of DHVE Digital Pirani Gauges: Enhanced Accuracy and Stability: Digital linearization and precise temperature compensation circuitry provide a highly stable and accurate reading across the entire measuring range. Microprocessor Control: Allows for advanced functions like automatic zero adjustment and endpoint calibration for increased precision and ease of use in the field. Digital Communication: Equipped with digital interfaces (e.g., RS-232, RS-485, or fieldbus protocols), enabling seamless integration into PLC-controlled systems, remote monitoring, and complex data logging. Integrated Display and Relays: Features integrated digital LED or LCD screens for direct pressure reading at the point of use. Many include internal set-point relays, enabling the gauge to automatically trigger system events (e.g., turning on a Turbomolecular Pump or opening a valve) when a specific pressure threshold is reached. Combined Sensing (Optional): DHVE offers advanced digital units that combine the Pirani sensor with a thermal-coupled MEMS sensor for faster response and improved linearity near atmospheric pressure. IV. 🌍 Applications Across Industries Both analog and digital Pirani Gauges are essential for many processes monitored by Dinesh High Vacuum Engineering clients. The choice between them depends on the need for simple indication versus automation and data integration: Fore-Vacuum Monitoring: Monitoring the inlet pressure to a Turbomolecular Pump or Roots Blower is crucial to ensure the backing pump reaches the safe startup pressure, often best handled by the reliable switching of Digital gauges. Vacuum Furnace Control: Used to monitor pump-down progress in the rough and medium vacuum stages. Freeze Drying (Lyophilization): Digital gauges are preferred for precise monitoring and data logging of chamber pressure during the critical drying cycles to ensure product quality. General Lab Vacuum: Analog gauges offer a simple, visual, and cost-effective pressure check for rotary evaporators or desiccators, while Digital units are integrated into analytical instrumentation. PVD/CVD Coating Systems: Used to monitor pressure during gas-backfilling and process transitions in the medium vacuum range. Choose Precision and Reliability with DHVE Whether your operation requires the fundamental reliability of an Analog Pirani Gauge or the advanced integration and precision of a Digital Pirani Gauge, Dinesh High Vacuum Engineering (DHVE) provides quality, calibrated instruments engineered for accuracy and longevity. ➡️ Optimize your vacuum system control. Contact Dinesh High Vacuum Engineering today to select the ideal Pirani Gauge—Analog or Digital—for your pressure monitoring needs and system integration requirements!

The successful outcome of any brazing operation is that the mating surfaces of the joint are substantially free from oxide films when brazing alloy melts and flows. Vacuum brazing is no different in this respect to any other brazing procedure; oxide-film removal has to be achieved before the production of a satisfactory joint can be achieved Vacuum brazing is not only efficient, cost effective and environmentally friendly – working in a vacuum also allows brazing without aggressive and environmentally damaging fluxing agents. It also makes it possible to do without complex reworking or finishing of the treated components. The lack of flux inclusions in the base material improves its mechanical stability and corrosion resistance, thereby improving its joint strength and the durability of the treated components. Vacuum brazing with DHVE furnace technology is simply perfect. The advantages of high temperature brazing in fine or high vacuum make it predestined for use in producing joints that must stand up to intense thermal conditions and heavy mechanical loads. The use of vacuum brazed components has become well established in safety-critical aerospace technologies. Whether you are talking about jet engine components and control systems, turbine blades, heat ex changers and heating coils, honeycombs and fasteners, or medical implants and instruments, the list of products that achieve their incredible performance characteristics thanks to vacuum processing is extensive. DHVE has been in the field of vacuum science and technology for over 5 decades offering hardware, measuring instrument, controllers to vacuum equipment with process solutions in vacuum technology with indigenous, but match to the international standards from raw material selection through manufacturing process to demonstrating it for repeatable quality results. The recently made vacuum brazing furnace is a horizontal front loading high vacuum heat treatment with external gas quench furnace is intended

Fully customizable and low-cost, our hydroformed metal bellows are ideal for a broad spectrum of applications including industrial and aerospace. Cost competitive, medium to high volume applications Multiple metal selections: brass, bronze, stainless steel, monel, and beryllium copper

We have established ourselves as a renowned manufacturer, trader and supplier of Vacuum Chambers. These vacuum chambers are used in labs, studio and many more places. Our offered vacuum chambers are tested on numerous parameters under the direction of our quality experts in order to deliver a flawless range. We provide these vacuum chambers in different specifications as per the need of customers. Features: Application specific design Smooth performance Low maintenance cost Specifications: Voltage: 380V Humid. range: 10 ~ 98 percent R.H. Other Information: Item Code: VC-001

For applications that demand incredibly high pumping speeds and large volumetric throughput in the medium to rough vacuum range (10^{-3} to 10 mbar), the Roots Blower Vacuum Pump (also known as a Roots booster or mechanical booster pump) is the unmatched solution. Used primarily as a booster pump in conjunction with a fore-vacuum pump (such as a dry screw or rotary vane pump), the Roots Blower dramatically increases the system’s capacity, particularly at lower pressures. Dinesh High Vacuum Engineering (DHVE) supplies robust Roots Blowers, designed to turbocharge the speed and efficiency of your industrial vacuum system without adding contamination to the process. I. ⚙️ Principle of Operation: Non-Contact Momentum The Roots Blower is a type of positive displacement pump characterized by its high volume, high speed, and oil-free pumping chamber. Unlike many other positive displacement pumps, the Roots Blower does not generate an ultimate vacuum on its own; it must exhaust into a backing pump. The Counter-Rotating Lobes Figure-Eight Lobes (Rotors): The pump consists of two synchronized, counter-rotating, kidney-bean-shaped rotors (often called lobes) housed within a tight casing. Timing Gears: The lobes are driven by external timing gears (located in a separate, oil-lubricated gear chamber) to ensure they spin in perfect synchronization without ever touching each other or the casing walls. This non-contact operation is key to its high speed and dry pumping chamber. Gas Trapping: As the lobes rotate, they trap a volume of gas from the inlet port. This gas is then carried around the periphery of the casing toward the exhaust port. Compression (External): When the trapped volume reaches the exhaust port, it meets the higher-pressure gas flowing out of the backing pump. The resulting backflow causes rapid external compression. The volume is then forced out to the backing pump. The lack of internal compression makes the Roots Blower highly efficient at moving large volumes of gas quickly, which is why it excels at boosting the speed of a backing pump at low pressures where the backing pump's efficiency typically drops off. II. 📈 Why Choose a DHVE Roots Blower? The Booster Advantage The installation of a Roots Blower upstream of a backing pump yields significant operational improvements: Massive Speed Boost: The primary advantage is the dramatic increase in pumping speed (volumetric flow rate), especially in the 10^{-3} to $10^0mbar range. A Roots Blower can increase the speed of a system by a factor of 5 to 10. Deep Vacuum Capability: By adding a Roots Blower, the combined system can reach a significantly lower ultimate vacuum than the backing pump could achieve alone. Contamination-Free Pumping: Since the rotors operate without contact and the pumping chamber is entirely separated from the timing gears, the process gas remains 100% oil-free, even if an oil-sealed pump is used as the backing stage. High Pumping Efficiency: The Roots Blower maintains high volumetric efficiency over a broad pressure range, leading to faster pump-down times for large chambers and industrial systems. Robustness: The non-contact design means minimal mechanical wear, resulting in high reliability and long service life, essential for continuous industrial operation. III. Designing Your DHVE Roots System: The Differential Pressure Challenge Properly integrating a Roots Blower requires careful consideration of the compression ratio —the ratio of the discharge pressure to the inlet pressure Limitation: Roots Blowers have a limit on the maximum safe compression ratio (typically around 10 to 20:1). If this limit is exceeded, the extreme pressure differential causes excessive heat buildup that can lead to lobe distortion and seizure. DHVE Solutions: To manage this, Dinesh High Vacuum Engineering often employs two key strategies: Multiple Stages: Linking two or more Roots Blowers in series, with the last stage exhausting into the backing pump, to increase the overall compression ratio without overloading any single stage. Bypass/Relief Valves: Integrating an automatic bypass valve that opens when the pressure differential becomes too high, recirculating gas from the discharge back to the inlet until the pressure equalizes. Maximize Your System Speed with DHVE Boosters For industrial processes where speed and volume are critical, there is no substitute for the performance of a Roots Blower system. By integrating a Dinesh High Vacuum Engineering Roots Booster with your existing backing pump, you will dramatically reduce cycle times, increase productivity, and achieve a deeper ultimate vacuum. ➡️ Supercharge your vacuum system today. Contact Dinesh High Vacuum Engineering to design a custom Roots Blower setup tailored to your specific flow rate and pressure requirements!

For modern vacuum systems requiring automated control, data logging, and high precision in the rough to medium vacuum range (999 to 10^{-3} mbar), the Digital Pirani Vacuum Gauge is the essential sensor. Unlike its analog counterpart, the digital Pirani integrates sophisticated electronics and microprocessors directly into the sensor head, providing enhanced stability, accuracy, and seamless integration into industrial control systems.1 Dinesh High Vacuum Engineering (DHVE) supplies advanced Digital Pirani Gauges, designed to meet the rigorous demands of automated industrial and laboratory processes. I. ⚙️ Principle & Digital Enhancement The fundamental principle of the Pirani Gauge—measuring pressure based on the thermal conductivity of the gas and the resulting change in the filament's electrical resistance—remains the same. However, the digital design enhances this measurement significantly: Microprocessor Integration: The sensor includes an embedded microcontroller that performs the complex functions of signal conditioning, linearization, and computation right at the source. Temperature Compensation: A key function of the digital circuitry is automatic temperature compensation. Since the filament's resistance is affected by ambient temperature changes, the microprocessor uses a secondary reference sensor to continuously correct the pressure reading, ensuring high accuracy and stability regardless of environmental fluctuations. Linearization: In the Pirani range, the relationship between pressure and resistance is inherently non-linear.4 The digital circuitry uses look-up tables or mathematical models to linearize the output signal, providing a smooth and highly accurate reading across the full range, especially at the transition point between rough and medium vacuum. II. 🌟 Key Advantages of DHVE Digital Pirani Gauges The integration of smart electronics provides several powerful operational benefits over traditional analog units: High Accuracy and Resolution: Due to advanced compensation and linearization, DHVE Digital Pirani Gauges offer superior measurement resolution and lower measurement uncertainty than standard analog devices. Seamless Digital Communication: Digital gauges are equipped with modern communication protocols (e.g., RS-232, RS-485, Modbus, or fieldbus) that allow for direct, noise-immune data transfer to PLCs, computers, and centralized control systems. This is vital for Industry 4.0 automation. Integrated Control Relays: Most digital units include built-in, user-configurable set-point relays.8 These relays can be programmed to automatically switch based on specific pressure thresholds (e.g., turning off the roughing pump or opening a high vacuum valve), simplifying system interlocks and safety mechanisms. Integrated Display: Many models feature a direct LED or LCD digital display on the sensor head, allowing local reading of the pressure value with high precision, complementing the remote electronic signal. Automatic Calibration: DHVE digital gauges often include features for automatic zero adjustment with the push of a button or via a remote command, simplifying maintenance and ensuring the gauge is always calibrated against a known reference. III. 🌍 Applications for Automated Vacuum Control The precision and connectivity of the Digital Pirani Gauge make it the preferred sensor for all automated and data-intensive vacuum processes: Automated Vacuum Coating (PVD/CVD): Precisely monitoring and controlling pressure during gas dosing and pump-down stages to ensure coating quality and batch consistency. Fore-Vacuum Interlocks: Providing the critical, highly reliable signal needed to safely switch on sensitive Turbomolecular Pumps or Roots Blowers when the required low base pressure is reached. Data-Intensive Research: Used in research facilities and universities for continuous, logged pressure data collection in experiments involving vacuum ovens, freeze dryers, and analytical instrumentation.10 Central Vacuum Systems: Monitoring and providing feedback for large, multi-user vacuum networks in manufacturing facilities or large research labs. Optimize Automation with DHVE Digital Sensors The Digital Pirani Vacuum Gauge from Dinesh High Vacuum Engineering (DHVE) is not just a sensor; it's a smart control component. It delivers the precision, stability, and connectivity required to optimize your pump-down times, protect your high-vacuum equipment, and fully automate your vacuum cycles. ➡️ Future-proof your vacuum system with advanced monitoring. Contact Dinesh High Vacuum Engineering today to integrate our high-precision Digital Pirani Gauges into your automated processes!

When it comes to Silicon oil, DHVE offers one of the highest performing formulas in the market today. As the use of hydrocarbon based pump oils are becoming less common, silicone diffusion pump fluid has become the ideal solution due to its low vapor pressure, excellent resistance to oxidation and radiation, chemical and thermal stability, and more importantly, a long life cycle before requiring an oil change. Due to these properties, our DHVE-702, DHVE-704 and DHVE- 705 silicone diffusion pump oil is able to withstand and maintain ultimate vacuums of 10E-5 Torr up to 10E-10 Torr (untrapped) without much maintenance, just the occasional topping off when oil levels decrease. For vacuum applications in most severe operating environments including strong acids, oxygen, combustible or corrosive compounds, and even ionizing radiation, our PFPE diffusion pump oils is your ideal solution. Choose this oil if : +You are looking for very high vacuum of the order of 1 x 10-9 Torr. +Better performance than DC-705, Hivac F5 +Very clean vacuum is required. +Gases being pumped out are corrosive or have high moisture. +Very long service life is required.

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