HPLC Control Boxes

If analytical laboratories require chromatography systems protected from solvent spills, temperature fluctuations, and electromagnetic interference, instrument enclosures become essential. HPLC Control Boxes provide protective housings for high-performance liquid chromatography pumps, detectors, and autosampler controllers in pharmaceutical quality control laboratories. 
HY D R O L Y SIS RESIS T ANCE
Material & Grade
  • Stainless Steel – SS304, SS316L 
  • Medical-grade stainless steel
  • Cold Rolled Steel – SPCC
  • Electropolished stainless
  • Sheet thickness – Uto 2.0mm capable
  • Maximum capable – 1200mm (H) x 800mm (W) x 500mm (D) 
  • Customizable based on instrument configuration
  • Powder Coating – RAL 7035 (Grey), RAL 9010 (White) 
  • Thickness – 60-80 microns
  • Electropolished (Stainless Steel) 
  • Chemical-resistant finish
  • Laboratory-grade coating
  • CNC Laser Cutting
  • CNC Punching & Bending
  • TIG/MIG Welding
  • CNC Press Brake Forming
  • Vibration-dampening construction
  • Chemical-resistant assembly
  • Stainless Steel 304/316 Hardware
  • Chemical-resistant hinges
  • Quick-release latches
  • Grounding provisions 
  • DIN rail mounting (35mm)
  • Instrument mounting brackets

Product Description

Floor-standing or benchtop configurations accommodate analytical instrumentation with external dimensions reaching 1200mm while maintaining organized solvent line routing. We engineer chemical-resistant construction protecting electronics from methanol, acetonitrile, and buffer salt corrosion common in reversed-phase chromatography. Through vibration isolation and thermal management, these control boxes enable reliable analytical measurements supporting product release testing and stability studies. 

Mounting Type
  • Floor Standing with base frame
  • Wall Mount
  • Benchtop configurations
  • Laboratory furniture integration
  • Vibration-isolated mounting
  • Mobile cart provisions
  • Standard – IP54 (dust/splash protected) 
  • Enhanced – IP65 (dust-tight/water jet protected)
  • Laboratory – IP66 (chemical splash protected)
  • Pharmaceutical – NEMA 4 rated
  • Cable glands – M16, M20, M25, M32 
  • Bottom/Side entry configurations
  • Detector cable provisions 
  • Pump tubing penetrations
  • Solvent line routing
  • Power and signal cable separation
  • Hinged front door with gasket
  • Transparent viewing window (optional)
  • 180° door opening capability
  • Removable side panels
  • Tool-required or quick-access
  • Instrument access provisions 
  • Natural convection with venting
  • Forced air cooling with fans
  • Heat exchanger compatibility
  • Operating Temperature – +5°C to +40°C
  • Pump heat dissipation
  • Detector cooling provisions
  • ISO 13485 (Medical Devices QMS)
  • FDA 21 CFR Part 11 (Electronic Records)
  • EU GMP Annex 15 (Qualification/Validation)
  • GAMP 5 (Analytical Instrument Validation) 
  • IEC 61010 (Laboratory Equipment Safety)
  • CE Marked
  • ISO 9001:2015 Manufacturing

Technical Advantages

HPLC pump vibration during high-pressure solvent delivery can transmit through mounting surfaces affecting detector baseline stability and peak resolution. Addressing this challenge, vibration-isolated mounting frames decouple pump assemblies from enclosure structures preventing mechanical noise propagation. Internal cable management provisions separate high-voltage detector cables from low-voltage analog signals preventing electromagnetic interference degrading chromatographic data quality. 

Solvent vapor accumulation within enclosed spaces creates explosion hazards and corrodes electronic components requiring ventilation strategies. Frigate engineers forced air circulation with chemical-resistant filters exhausting solvent vapors while maintaining positive pressure preventing laboratory contaminants from entering enclosures. Organized solvent line routing through sealed penetrations prevents leaks from contaminating internal electronics during tubing failures or connection loosening. 

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Industry Applications

Pharmaceutical Quality Control

Houses HPLC systems performing potency assays, impurity profiling, and dissolution testing for drug product release and stability programs. 

Biopharmaceutical Analytics

Protects chromatography equipment analyzing protein purity, aggregation levels, and post-translational modifications in biologics manufacturing. 

Environmental Testing Laboratories

Consolidates HPLC instrumentation measuring pesticide residues, water contaminants, and pollutant concentrations in regulatory compliance testing. 

Food Safety Analysis

Secures analytical systems detecting additives, preservatives, and mycotoxins in food products during quality assurance screening.

Clinical Diagnostic Laboratories

Manages chromatography equipment measuring therapeutic drug levels, vitamin concentrations, and metabolic markers in patient samples.

Research and Development Facilities

Contains HPLC systems supporting formulation development, method validation, and pharmacokinetic studies during drug discovery programs. 

HPLC Control Boxes

Built for Analytical Reliability

Chromatography configurations vary from single-channel systems analyzing individual samples to multi-detector arrays performing comprehensive compound characterization. HPLC Control Boxes arrive in formats supporting basic binary pump systems through complex gradient systems with mass spectrometry integration. 

Chemical-resistant powder coating withstands routine cleaning with laboratory solvents and disinfectants maintaining appearance throughout equipment service life. Transparent viewing windows enable visual confirmation of solvent levels and detector status indicators without opening enclosures during extended analytical runs preventing environmental disturbances affecting measurement accuracy. 

HPLC Control Boxes

Having Doubts? Our FAQ

Check all our Frequently Asked Questions

How does Frigate engineer vibration-isolated mounting frames in HPLC Control Boxes preventing pump mechanical noise from affecting detector baseline stability?

Frigate designs internal mounting frames with vibration-damping interfaces that decouple pumps from sensitive detector assemblies. Isolation materials and frame stiffness are selected based on pump speed and mass to reduce transmitted vibration. This helps preserve baseline stability during long analytical runs

Are internal cable management provisions designed separating high-voltage detector cables from low-voltage analog signals?

Electrical separation is maintained through – 

  • Dedicated wire ducts for power and signal circuits 
  • Physical spacing between high-voltage and analog paths 
  • Shielded routing for low-level detector signals 

Layouts are planned to minimize noise coupling while remaining serviceable, as organized by Frigate. 

How does Frigate address forced air circulation in HPLC Control Boxes exhausting solvent vapors while maintaining positive pressure?

Frigate balances exhaust and make-up airflow so solvent vapors are removed without pulling contaminants into the enclosure. Fan placement and airflow rates are selected to maintain slight positive pressure. This supports electronics protection while managing solvent exposure. 

Does organized solvent line routing through sealed penetrations prevent leaks from contaminating internal electronics during tubing failures?

Yes. Solvent tubing is routed through sealed bulkhead penetrations and drip-managed paths that direct leaks away from electronics. This containment approach limits damage and simplifies cleanup during unexpected tubing failures. 

How does Frigate validate chemical-resistant powder coating in HPLC Control Boxes withstanding laboratory solvents and disinfectants?

Surface durability is confirmed by – 

  • Selecting coatings rated for common solvents and cleaners 
  • Verifying adhesion and thickness during production 
  • Reviewing compatibility against lab cleaning protocols 

Frigate aligns coating selection with the chemicals used in your laboratory environment. 

Are transparent viewing windows integrated enabling solvent level verification without opening enclosures during analytical runs?

Visibility is supported using – 

  • Flush-mounted transparent panels 
  • Chemical-resistant window materials 
  • Smooth interfaces that maintain enclosure sealing 

Window size and placement are selected so Frigate enables operational checks without interrupting runs. 

How does Frigate design thermal management in HPLC Control Boxes dissipating heat from high-pressure pumps and detector electronics?

Thermal control is achieved by combining directed airflow, heat sinks, and compartmentalization of heat-generating components. Frigate sizes cooling features to the combined load of pumps and detectors. This helps maintain stable temperatures for analytical accuracy. 

Does cable entry system accommodate detector signal cables, pump power lines, and solvent tubing routing without compromising environmental sealing?

Multi-service entry is handled through – 

  • Sealed pass-throughs for solvent tubing 
  • Retained ingress protection ratings 

Entry configuration is reviewed so Frigate preserves sealing while supporting mixed services. 

How does Frigate optimize internal layouts in HPLC Control Boxes supporting binary pump systems through multi-detector mass spectrometry configurations?

Internal layouts are modular to support different system architectures, from simple binary pumps to multi-detector MS setups. Component spacing, access paths, and service zones are planned to accommodate upgrades. Frigate aligns layouts to your method complexity and expansion plans. 

Are DIN rail mounting provisions compatible with data acquisition modules and temperature control systems in analytical method validation?

DIN rail integration typically supports – 

  • Data acquisition and I/O modules 
  • Temperature and flow controllers 
  • Spare rail capacity for future additions 

Rail spacing and load ratings are selected so Frigate supports validation hardware without enclosure modification. 

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LOCATIONS

Registered Office

10-A, First Floor, V.V Complex, Prakash Nagar, Thiruverumbur, Trichy-620013, Tamil Nadu, India.

Operations Office

9/1, Poonthottam Nagar, Ramanandha Nagar, Saravanampatti, Coimbatore-641035, Tamil Nadu, India. ㅤ

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LOCATIONS

Registered Office

10-A, First Floor, V.V Complex, Prakash Nagar, Thiruverumbur, Trichy-620013, Tamil Nadu, India.

Other Locations

GENERAL ENQUIRIES

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HPLC Control Boxes

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