PG7202 is a member of the PG7000 family of reference level piston gauges that covers the range of high pressure gas up to 110 MPa (16,000 psi).
PG7202 is a member of the PG7000 family of reference level piston gauges that covers the range of high pressure gas up to 110 MPa (16,000 psi). Operating directly in gas avoids difficult to use liquid/gas separators that add uncertainty to the measurement process. PG7202's gas operated, liquid lubricated piston-cylinder design overcomes the disadvantages of lubricating the piston-cylinder with gas at high pressure. Performance is not affected by gas cleanliness and piston drop rates are even lower than those typically found in hydraulic piston gauges.
PG7202 is combined with the GPC1 gas pressure controller to configure a complete manually operated calibration system with effort free gas pressure setting and adjusting. By substituting a PPCH-G automated pressure controller for GPC1 and adding on AMH-100 automated mass handler, PG7202 operation can be fully automated.
All PG7202 piston-cylinder modules can be delivered using Krytox®, a fluorinated synthetic oil, to lubricate the piston-cylinder for applications in which the system must be free of hydrocarbons.
Two PG7202s can be used in combination to define low differential pressures at elevated line pressures. Contact Fluke Calibration for more information.
Hydraulic operation: The PG7202 platform can also be operated using oil as the pressurized medium in the range of 1 to 200 MPa (145 to 30 000 psi). To operate with oil, piston-cylinder modules PC-7300-1, -2, or -5 are used (see PG7000 brochure). A simple 10 minute switch over procedure, detailed in the product manual, is all that is needed to switch between pneumatic and hydraulic operation.
Upgrades of Type 5200 piston gauges: DH Instruments or Desgrange et Huot Type 5200 and 5500 piston gauges can be upgraded to PG7202 system by installing the piston-cylinders in new PG7202 modules.
The PG7000 Series calibration standards are based on the fundamental principle of mass loaded onto a piston to apply a known force to a known effective area
Each PG7000 piston-cylinder is an integrated metrological assembly that includes the critical piston-cylinder mounting components. All of the mechanical parts that affect piston cylinder metrology are associated with the individual piston-cylinder, rather than being common parts of the piston gauge platform, enabling the user to:
The number of independent parts between the piston and mass load has been reduced to two—the piston cap and the mass loading bell. The piston head is effectively made part of the piston by machining it after installation concentrically to the piston within ± 20 microns.
The electronics for monitoring all ambient and instrument conditions and functions are integrated into the PG7000 platform. RS-232 and IEEE 488 interfaces are included for remote communication. The system power supplies are also contained in the terminal to remove their heat source from the PG platform. For local operation, the user interacts with the PG7000 through a keypad and alphanumeric display on a compact terminal, allowing rapid, intuitive operation.
PG7000 includes integrated on-board measurement of all the ambient and operating conditions needed to calculate pressure within tolerance, including relative humidity, barometric pressure, ambient temperature, piston-cylinder temperature, and reference vacuum.
Individual measurements can be observed in real time, both locally through the PG terminal and remotely over the RS-232 or IEEE 488 interface. Verification and recalibration of the on-board sensors is supported by embedded software.
PG7000 measures and provides real time indication of piston position, drop rate, rotation rate, and rotation deceleration. Piston position is measured on the LVDT principle, with a ring on the inside of the mass loading bell acting as the armature. Rotation rate is measured optically by a sensor in the mounting post, which detects the movement of a notched ring on the inside of the mass loading bell. Both measurement systems are completely non-interfering, with no influence on the free movement of the piston in any axis.
The “ready/not ready indication provides the operator with a clear “go/no go indication of when an in-tolerance measurement can be made. It is based on testing for a variety of operating conditions, including piston position, piston fall rate, piston rotation rate, piston rotation deceleration, piston temperature rate of change and vacuum reference (when applicable). A ready condition is indicated when all conditions fall within specific limits. The limits for the various ready/not ready criteria can be customized by the user if desired.
One of the most tedious aspects of operating a conventional piston gauge is adjusting pressure to float the piston. The piston lifts suddenly and without warning at the exact pressure corresponding to the mass loaded on the piston. Finding that point without overshooting requires slow and cautious pressure control.
PG7000 makes it easier to float the piston with a piston preloading system, which provides advance warning that the pressure is near the point where the piston will leave end of stroke. The preloading system only affects the piston when it is at end of stroke; it does not interfere with the free movement of the piston when it is floating.
PG7000 is the first commercially available piston gauge to provide monitoring of rotation rate and decay in rotation rate. These measurements are used to assure that pressure readings are always made within limits. This relieves the operator of rotation rate monitoring responsibility and replaces subjective operator judgment with objective measurement.
The PG7000 piston gauge platform and mass set are packaged in heavy duty, weather proof, molded transit cases with custom inserts to provide optimum protection. PG7000 piston-cylinders modules are delivered in compact, virtually indestructible PVC bullet cases.
All PG7000 pressure accessories are designed to increase the efficiency and ergonomics of piston gauge operation. These include manual, semi-automated and fully automated options to quickly and easily generate pressure and float the piston at the set point.
COMPASS software sets up records for the units under test (UUT), defines and associates test procedures with UUTs, runs tests, acquires reference and test data, produces standard and custom calibration reports. All reference, UUT and test data is collected and stored in a database and standard delimited files. COMPASS can manage any kind of test from manual operator control and logging of test data to fully automated, unattended test execution.
The PG7000 line of piston gauges covers the complete range of pressure from very low absolute and differential in gas, up to 500 MPa (75 000 psi) in oil. While several piston gauge platforms and specialized accessories may be needed to cover different ranges and media, a consistent user interface and operational principles are maintained throughout the line. In most cases, complete gas and oil calibration capability can be achieved with just two PG platforms, four piston-cylinder modules and one mass set. Maintaining consistency from system to system makes them easier to learn and to use. Maintenance costs are reduced by minimizing the number of metrological elements to be supported.
The piston-cylinder defines effective area and is the piston gauge's principal metrological element. The piston-cylinder's intrinsic characteristics and how it is mounted and exploited are the keys to piston gauge performance.
PG7000 piston-cylinders are manufactured by Fluke Calibration using proprietary production techniques that result in pistons and cylinders whose typical shape is within less than 0.2 micron from ideal geometry. Pure gas operated piston-cylinders use large diameters and very small annular gaps to minimize gas species and operating mode effects and to maximize piston float times. For example, the typical annular gap of a 35 mm gas operated piston-cylinder is less than 1 micron. Oil operated piston cylinders use small diameters to reduce the quantity of mass needed to cover the typical high pressure range.
All Type 7000 pistons and cylinders are made of tungsten carbide. Each PG7000 piston-cylinder is a complete, integrated metrological assembly that includes the critical piston-cylinder mounting components for improved metrological performance. All Type 7000 piston-cylinders use free deformation mounting systems in which the cylinder is allowed to deform under the influence of applied pressure, without O-rings or seals along the cylinder length. For higher pressure gas assemblies, a new mounting system, negative free deformation, applies the measured pressure uniformly along the full length of the cylinder. This reduces deformation under pressure, so piston drop rates remain low even at high operating pressures, while avoiding the unpredictable strain points of conventional reentrant designs.
Masses loaded on the piston are accelerated by gravity to apply a known force on the piston against which the defined pressure is balanced.
A PG7000 manual mass set is made up of main masses of 10 kg or 5 kg, fractionary masses in 5-2-2- 1 progression from 0.5 kg to 0.1 kg, and a trim mass set with masses from 50 kg to 0.01 g. Any desired mass value within the mass set range can be loaded to 0.01 g. All main and fractionary masses are machined from solid, nonmagnetic stainless steel and adjusted to their nominal values in the mass without cavities or trimming hardware which can reduce mass stability over time. Individual masses are comfortable to handle, with angled lifting surfaces on the edge of each mass and special mass trays that assist in orderly loading and unloading.
A PG7000 automated mass set is composed of main mass discs of 6.2 or 10 kg each and a set of tubular masses in binary progression from 0.1 to 3.2 or 6.4 kg. A pneumatically driven automated mass handling accessory (AMH) loads requested mass values in increments of 0.1 kg. The AMH and mass set are easily removed to access the piston-cylinder module when necessary.
|Power requirements||85 V ac to 264 V ac, 47 Hz to 440 Hz, 22 VA max consumption|
|Normal operating temperature range||18 °C to 28 °C (64 °F to 82 °F)|
|Weight||Instrument platform with no mass loaded: 13 kg (28 lb)
PG terminal 1.4 kg (3 lb)
|Dimensions||Instrument platform (HxWxD): 36 cm x 40 cm x 35 cm (14.5 in x 15.8 in x 13.8 in)
Height: Top of mounting post with piston-cylinder module installed
PG terminal (HxWxD): 12 cm x 15 cm x 20 cm (4.7 in x 5.9 in x 7.9 in)
|Communications ports||RS-232 COM1: Host computer
COM2: AMH automated mass handler, external barometer
COM3: Automated pressure controller
IEEE-488.2: Host computer
|Maximum pressure ranges||Actual range depends on piston-cylinder and mass set selection.|
|Operating media||Gas Operation: air, nitrogen
Oil Operation: ethyl hexyl Sebacate (oil)
|Maximum mass load||100 kg|
|Pressure connections||Test port: DH500
Note: DH200 and DH500 are gland and collar type fittings for 1/4 in (6 mm) coned and left hand threaded tube. DH200 is equivalent to AE SF250C, HIP LF4, etc. DH500 is equivalent to AE F250C, HIP HF4, etc.
|CE conformance||Available, must be specified|
|Mass set specifications||All masses are delivered in molded, reusable transit cases with custom inserts.|
|Masses||Material: 304L non-magnetic stainless steel
Adjustment tolerance: ± 20 ppm of nominal value Accuracy of measured values: ± 5 ppm or 1 mg, whichever is greater
Traceability of measured values: National Institute of Standards and Technology (NIST)
Ambient and instrument condition measurements
|Piston-Cylinder Temperature||Range: 0 to 40 degrees C
Resolution: 0.01 degrees C
Accuracy: ± 0.1 degrees C
|Ambient Temperature||Range: 0 to 40 degrees C
Resolution: 0.1 degrees C
Accuracy: ± 1 degrees C
|Barometric pressure with internal sensor||Range: 70 kPa to 110 kPa
Resolution: 10 Pa
Accuracy: ± 140 PaBarometric pressure can also be read automatically from any RS-232 device such as DHI RPM4
|Relative humidity||Range: 5 % to 95 % RH
Resolution: 1 % RH
Accuracy: ± 10 % RH
|Piston position||Range: ± 4.5 mm
Resolution: 0.1 mm
(rate and deceleration)
|Range: 2 to 150 rpm
Resolution: 1 rpm
Sensitivity1 2 Pa + 1 ppm
Reproduceability2 ± 2 ppm
Typical Measurement Uncertainty3 ± (2 Pa + 20 ppm)
Typical Drop Rate4 0.10 mm/min @5 MPaPC-7202-200
Sensitivity1 4 Pa + 1 ppm
Reproduceability2 ± 3 ppm
Typical Measurement Uncertainty3 ± (3 Pa + 20 ppm)
Typical Drop Rate4 0.15 mm/min @10 MPa
1 Sensitivity: The smallest variation in input detectable in output.
2 Reproducibility: Combined long term stability of piston cylinder effective area and masses
|Pressure measurement uncertainty||Typical pressure measurement uncertainty All sources of uncertainty under typical operating conditions are identified, quantified and combined following ISO/TAG4/WG3. The result is rounded upwards to provide conservative global uncertainty figures for the typical user under typical conditions|
|Automated Mass Handling||See AMH-100 and AMH mass sets for automated mass handling options.|
|Booster, gas - 152:1||152:1, with control kit|
|Booster, gas - 75:1||75:1, with control kit|
|COMPASS||Calibration Assistance Software|
|GPC1-10000||Gas pressure controller|
|GPC1-16000||Gas pressure controller|
|3990-803 Manual Pressure Control Pack||Manual Pressure Control to 20 MPa (3000 psi)|
|PPCH-G||High Gas Pressure Controller/Calibrator|
|RPM4-BAROM-1||Barometric Pressure Monitor|