molbox2 Flow Terminal
主要特性
- ± 0.125 % of reading uncertainty on mass row measurements with molbloc-L and molbloc-S elements with premium calibrations
- Get accredited and traceable uncertainty specification of +/- 0.5% of reading for 9 select gases and get traceable uncertainty specifications for 18 additional gases for molbloc-L, without calibrations in actual gases - based upon gas properties in NIST REFPROP10 and the default N2 gas calibration
- Three times faster flow response speed compared to previous molbox versions
- Full suite of software automation products and hardware accessories to create a complete gas row calibration system—including COMPASS® for Flow calibration assistance software
产品概述: molbox2 Flow Terminal
Achieve the lowest uncertainty available for gas flow meter and controller calibrations
The molbox2 flow terminal from Fluke Calibration represents a significant update to the molbloc/molbox gas flow calibration system. molbox2 combined with molbloc flow elements enables you to achieve the lowest uncertainty available for gas flow meter and controller calibrations. A special configuration, molbox2-S, allows you to use molbox-S sonic nozzle flow elements at higher pressures than were previously possible, greatly extending their usable flow range.
A molbloc/molbox2 gas flow calibration system is the ideal solution for calibrating flow meters, thermal mass flow controllers (MFCs), rotameters, turbine meters, bubble meters, and other flow measurement devices. With real-time measurements, no moving parts and supported by traceable calibration in several different gases and operating pressures, molbloc/molbox can handle virtually any calibration application without compromise. molbloc/molbox systems are widely used in many industries, including pharmaceuticals, semiconductors, aerospace, environmental monitoring, energy production, reference gas blending, and research and standards laboratories.
Unparalleled uncertainty specifications
molbox2 innovations enable the molbloc/molbox2 system to achieve the lowest gas flow measurement uncertainties in the industry. The lower uncertainty is made possible by several key improvements, including:
- Use of Fluke Calibration’s exclusive quartz reference pressure transducer (Q-RPT) technology to precisely measure both absolute and differential pressure. molbox2 Q-RPTs are specially characterized sensors benefitting from the same technology used in Fluke Calibration’s pressure transfer standards.
- “Premium” molbloc calibrations linearize molbloc flow output to better capitalize on existing precision and repeatability.
- Expanded molbloc modelization enables improved performance of molbloc-L laminar flow elements across their range of operating pressures.
- Reduced uncertainty on gas properties utilizing data from NIST Reference Fluid Thermodynamic and Transport Properties Database (REFPROP10).
- Continued improvements in Fluke Calibration’s molbloc calibration chain, based on fundamental mass- and time-based mass flow measurements using Fluke Calibration’s own dynamic Gravimetric Flow Standard.
- Get accredited and traceable uncertainty specification of 0.5 % of reading for 9 select gases, without calibrations in actual gases, based upon gas properties of NIST REFPROP10 and N2 gas calibration.
- Get traceable uncertainty specifications for 18 additional gases based upon gas properties of NIST REFPROP10 and N2 gas calibration.
- Three time faster flow response speed compared to previous molbox versions.
Four levels of molbloc-L flow element calibration are now available to let you balance uncertainty, accreditation, traceability and costs:
- Premium: ± 0.125 % reading or 0.0125 % full scale of reading flow measurement uncertainty
- Standard: ± 0.2 % reading or 0.02% full scale flow measurement uncertainty
- Accredited and traceable: ± 0.5% of reading or 0.05% full scale flow measurement uncertainty for 9 select gases
- Traceable but not accredited: ± greater of 0.5% reading, 0.05% full scale, or root sum square*[0.2% reading, gas property uncertainties] for 18 additional gases
New molbloc-Ls are eligible for either calibration type. Existing molblocs are compatible with molbox2 at ± 0.2 % of reading uncertainty (standard) and +/- 0.125% of reading uncertainty (premium) with actual gas calibrations.
molbox2-S expands rangeability—without vacuum pumps
molbox2-S is a special configuration of molbox2 that enables you to cover a wide range (10:1 range turndown) with molbloc-S sonic nozzle flow elements, without requiring costly vacuum pumps. molbox2-S is available with upstream Q-RPT pressure range up to 2 MPa (300 psia) to allow molbloc-S elements to be conveniently used over a wide flow range upstream of flow meters being tested at atmospheric pressure, a common application. This extra rangeability makes it simple to configure a calibration system using fewer molbloc elements and minimal accessories. It also greatly extends the range of your existing molbloc-S elements when a high pressure molbloc calibration is added.
molbloc-S range example with device under testat atmospheric pressure
molbloc-S element | Usable range with SP calibration and molbox2 A700K | Usable range with HP calibration and molbox2-S -A2M |
1E2-S | 15 to 60 slm* | 20 to 300 slm |
5E2-S | 67 to 300 slm* | 100 to 1000 slm |
*Minimum usable flow of molbloc-S elements with SP calibrations are limited by back pressure requirements for sonic flow when used upstream of a device at atmospheric pressure. Flow values are in standard liters per minute referenced to 0 °C.
molbox2-S is designed for use with molbloc-S elements and therefore is configured for absolute pressure measurement only, reducing its cost. It also reduces flow system complexity and overall cost, as well as ongoing recalibration costs.
Use the same molbloc in multiple applications
Multiple molbloc calibrations are now supported for each gas. This means that you can now have a molbloc calibrated separately for use both at high pressure (upstream of the device under test) and low pressure (downstream of the device under test) to support different applications instead of requiring two molblocs or manually loading separate molbloc calibration files. All calibrations are stored on the molbloc EEPROM and the user simply selects the calibration type from the molbox1+ front panel or via molbox2 remote interface.
Fluke Premium Care eligible
When you invest in your Fluke test tools, you want your money to go as far as possible. Fluke Premium Care is a paid offering that provides coverage above and beyond the original product warranty, so you don’t need to worry about unexpected downtime caused by damaged test equipment, accessories, or tools in need of calibration or repair.
产品规格: molbox2 Flow Terminal
| Specifications | ||
| General | ||
| Power requirements | 85 V ac to 264 V ac, 47 Hz to 440 Hz, 18 VA max consumption | |
| Normal operating temperature range | 15 °C to 30 °C (59 °F to 86 °F) | |
| Storage temperature range | -20 °C to 70 °C (-4 °F to 158 °F) | |
| Vibration | Meets MIL-T-28800D | |
| Weight | 6.8 kg (15 lb) max | |
| Dimensions (WxHxD) | 32 cm x 12 cm x 30 cm (12.6 in x 4.7 in x 11.8 in) approx. | |
| Communication ports | RS-232 (COM1), RS-232 (COM2), IEEE-488.2 | |
| Pressure connections (molbox2 and molbloc) | Quick connectors equivalent to Swagelok® QM Series (SS-QM2-B200) | |
| Flow ranges | <1 sccm to >5000 slm. See separate molbloc-L and molbloc-S range tables | |
| Flow measurement rate | 340 milliseconds | |
| Gases supported (Consult your sales representative for a current list of gases available for factory molbloc calibration.) | Nitrogen (N2), Air, Argon (Ar), Carbon Monoxide (CO), Helium (He), Oxygen (O2), Carbon Dioxide (CO2), Carbon Tetrafluoride (CF4), Ethane (C2H6), Ethylene (C2H4), Fluoroform (CHF3), Hexafluoroethane (C2F6), Hydrogen (H2), Methane (CH4), Nitrous Oxide (N2O), Propane (C3H8), Sulfur Hexafluoride (SF6), Butane (C4H10), Octafluorocyclobutane (C4F8), Xenon (Xe), Propylene (C3H6), Acetylene (C2H2), Neon (Ne), Krypton (Kr), isoButane (iBtn), Deuterium (D2), Natural Gas (NG) *Availability to add custom gases and mixtures not currently on the molbox2 | |
| Valve driver option | (8) 12 V outputs. Each output can sink 500 mA at 12 V, max 1 Amp total | |
| MFC control option (analog input/output) | Nominal voltage range: 0 V dc to 6 V dc input, 0 V dc to 5 V dc output Nominal current range: 4 mA to 20 mA input, 4.01 mA to 20 mA output Accuracy: ± 0.1 % FS (set), ± 0.05 % FS (measure) | |
| Pressure Measurement | ||
| Type | Q-RPT Characterized Quartz Reference Pressure Transducers – Oscillating quartz crystal with mechanical bellows | |
| Calibrated pressure range (full scale) | ||
| A700K | 0 to 600 kPa absolute (0 to 87 psia) | |
| A350K | 0 to 300 kPa absolute (0 to 44 psia) | |
| S A1.4M (molbloc-S only) | 0 to 1.2 MPa absolute (0 to 174 psia) | |
| S A2M (molbloc-S only) | 0 to 2 MPa absolute (0 to 290 psia) | |
| Measurement uncertainty (one-year) | ||
| Absolute pressure⁴ | ± (0.01 % of reading or 0.003 % Q-RPT span, whichever is greater) | |
| Differential pressure (A700K with Tare) | ± (8.4 Pa (0.0012 psi) or 0.032 % ΔP, whichever is greater) | |
| Differential pressure (A350K with Tare) | ± (4.2 Pa (0.0006 psi) or 0.026 % ΔP, whichever is greater) | |
| Temperature Measurement | ||
| Type | molbloc PRTs with molbox2 Ohmic Measurement System | |
| Range (FS) | 0 to 40 °C | |
| Resolution | 0.01 °C | |
| molbloc PRT precision | ± 0.02 °C (15 to 30 ˚C) | |
| S A2M (molbloc-S only) | 0 to 2 MPa absolute (0 to 290 psia) | |
| On-board | ||
| Reference resistor | 100 and 110 W ± 0.01 %, stability < 25 ppm/year | |
| Ohmic measurement | ± 0.02 % of reading (15 °C to 30 °C) | |
| Flow Measurement | ||
| with molbloc-L laminar flow elements | ||
| Standard molbloc calibration | Premium molbloc calibration | |
| Range | 0 to 100 % molbloc full scale | 0 to 100 % molbloc full scale |
| Resolution | 0.0015 % FS | 0.0015 % FS |
| Precision¹ | 0.07 % of reading, ± 0.007 % FS under 10 % FS | 0.07 % of reading, ± 0.007 % FS under 10 % FS |
| Stability (one-year)² | ± 0.09 % of reading, ± 0.009 % FS under 10 % FS | ± 0.03 % of reading, ± 0.003 % FS under 10 % FS |
| Measurement uncertainty³ (For any gas for which the molbloc in use is calibrated) | ± 0.2 % of reading, ± 0.02 % FS under 10 % FS | ± 0.125 % of reading, ± 0.0125 % FS under 10 % FS |
| Measurement uncertainty⁵ (For any molbox2 supported gas that Fluke is accredited and the molbloc in use is NOT calibrated in actual gas) | ±0.5 % of reading from 10 % to 100 % FS, ±0.05% FS under 10 % FS | ±0.5 % of reading from 10 % to 100 % FS, ±0.05% FS under 10 % FS |
| Measurement uncertainty⁶ (For any molbox2 supported gas that Fluke is not accredited and the molbloc is use is NOT calibrated in actual gas) | ± greater of 0.5% reading, 0.05% full scale, or root sum square*[0.2% reading, gas property uncertainties] | ± greater of 0.5% reading, 0.05% full scale, or root sum square*[0.2% reading, gas property uncertainties] |
| with molbloc-S sonic nozzle flow elements | ||
| Standard molbloc calibration | Premium molbloc calibration | |
| Range | 10 to 100 % molbloc full scale | 10 to 100 % molbloc full scale |
| Resolution | 0.0015 % FS | 0.0015 % FS |
| Precision¹ | ± 0.06 % of reading | ± 0.06 % of reading |
| Stability (one-year)² | ± 0.05 % of reading | ± 0.03 % of reading |
| Measurement uncertainty³ (For any gas for which the molbloc in use is calibrated) | ± 0.2 % of reading | ± 0.125 % of reading |
| 1. Precision: Combined linearity, hysteresis, repeatability. 2. Stability: Maximum change in zero and span over specified time period for typical molbox and molbloc used under typical conditions. As stability can only be predicted, stability for a specific molbox and molbloc should be established from experience. 3. Measurement uncertainty: Maximum deviation of the molbox2 flow indication from the true value of the flow through the molbloc including precision, stability and Fluke calibration. 4. With regular use of Autozero. Add 0.005 % of Q-RPT span for one year without use of AutoZero, (translates to 0.005 % FS for molbloc-S, does not significantly affect molbloc-S standard calibration or molbloc-L uncertainty.) 5. Measurement uncertainty of a gas other than N2 that Fluke has experience with but the molbloc does not have an actual gas calibration. 6. Measurement uncertainty of a gas other than N2 that Fluke does not have experience with and the molbloc does not have an actual gas calibration. | ||
型号: molbox2 Flow Terminal
MASS FLOW TERM A700K STD
Includes:
- MASS FLOW TERM A700K STD
TERM A700K STD, MFC CTRL
Includes:
- TERM A700K STD, MFC CTRL
MASS FLOW TERM A350K STD
Includes:
- MASS FLOW TERM A350K STD
TERM A350K STD, MFC CNTRL
Includes:
- TERM A350K STD, MFC CNTRL
SONIC MASS FLOW TERM A1.4M STD
Includes:
- SONIC MASS FLOW TERM A1.4M STD
SONIC A1.4M STD MFC CTRL
Includes:
- SONIC A1.4M STD MFC CTRL
SONIC MASS FLOW TERM A2M STD
Includes:
- SONIC MASS FLOW TERM A2M STD
SONIC TERM A2M STD, MFC CNTRL
Includes:
- SONIC TERM A2M STD, MFC CNTRL
