How to Calibrate any industrial instrument with Actual Calibration.

LIST OF INSTRUMENTS WE CALIBRATE

Pressure and vacuum

• Pressure Gauge
• Digital Pressure Gauge 
• Vacuum gauge
• Digital Vacuum Gauge 
• Pressure Transmitter 
• Vacuum Transmitter
• Pressure Transducer
• Vacuum Transducer
• Pressure Recorder
• Compound gauge 
• Safety Valve
• Pressure Controller

Pressure and vacuum calibration is a meticulous process crucial for maintaining accuracy in industrial measurement instruments. It involves comparing pressure and vacuum gauges to reference standards, ensuring traceability to recognized measurement standards. Utilizing devices like deadweight testers or digital calibrators, technicians apply varying pressures and vacuums, systematically recording readings. Any discrepancies are adjusted to align with the reference standard, ensuring precise measurements. Comprehensive documentation is essential for quality control and regulatory compliance. Regular calibration intervals are established to sustain accuracy over time, contributing to the reliability and precision of pressure and vacuum measurements in diverse industrial applications.

Thermal

• Glass Thermometer 
• Digital Thermometer 
• Digital Temperature indicator with sensor
• Temperature Recorder 
• Temperature Data Logger
• Temperature Gauge 
• Digital Temperature Gauge 
• RTD sensor
• Pt–100 sensor
• “J” Type thermocouple 
• “K” Type thermocouple
• COD
• Muffle Furnace
• Oven
• Incubator
• Temperature bath
• Temperature transmitter 
• Temperature transducer 
• Digital Tempe with rature controller
• RTD sensor
• Digital Temperature indicator with RTD sensor
• Liquid temperature bath
• Furnace
• BOD Incubator 
• Freeze 
• Deep Freezer

Thermal calibration is a meticulous process crucial for ensuring accuracy in temperature measurement devices. It involves comparing the readings of a temperature sensor or instrument to a reference standard under controlled thermal conditions. Utilizing calibrated heat sources or temperature baths, technicians subject the device to various temperatures, recording and adjusting readings as necessary. This systematic approach ensures the reliability and precision of temperature measurements. Thorough documentation is essential for quality control and compliance. Regular calibration intervals are established to maintain accuracy over time, contributing to the integrity of temperature-sensitive processes across industries such as manufacturing, healthcare, and research.

Mass