MEMS Gas Flow Meter
Micro-flow Thermal Mass Sensor for Lab, OEM, and Analytical Service
DN8 – DN25 micro-bore threaded
0.05 Nm/s low-flow detection · 100 : 1 turndown
MEMS chip, no moving parts, direct mass flow
- mL/min to kg/h output range covers lab analytical through OEM skid integration
- Eight factory-calibrated gas curves: air, N₂, O₂, Ar, He, CH₄, CO₂, H₂; plus mixture-gas custom calibration at order
- Ex d II C T6 Gb hazardous-area option for hydrogen, fuel-cell, and battery service
MEMS-chip gas mass flow on DN8–DN25 micro-bore lines. Integrated heater + thermopile on one silicon die; direct mass flow, no T/P compensation. 0.05 Nm/s floor (4× more sensitive than CTD inline) suits micro-leak detection, lab carrier gas, and OEM skids.
Eight standard curves (air/N₂/O₂/Ar/He/CH₄/CO₂/H₂); mixtures ship with custom curves. Up to five gas profiles selectable; 4-20 mA, RS485 Modbus RTU, HART, pulse, 1-2 NO/NC. Lead time 5–7 business days.
Benefits
- MEMS chip, no moving parts; heater + thermopile on one silicon die, short warm-up, low zero-drift, 1-s response.
- 0.05 Nm/s low-flow detection; catches micro-leaks and weekend-purge drift that CTD inline drops below 0.2 Nm/s.
- 100:1 turndown on one instrument; 50 mL/min on DN8 through 2000 NL/min on DN25 across the DN range.
- Direct mass flow, no compensation; chip-level physics returns mass flow without T/P/humidity inputs; no flow computer.
- Eight standard curves + custom mixtures; air/N₂/O₂/Ar/He/CH₄/CO₂/H₂ calibrated; battery H₂/N₂ and semiconductor CDA/N₂ ship custom.
- Ex d II C T6 Gb optional, IP65 standard; Zone 1 for H₂ lab, fuel-cell, battery formation; standard env at lower cost.
- 5–7 business days lead time; ISO 9001 cert with each meter, EMC 2014/30/EU; 304/316L/aluminium housing.
Configure your build.
Build a quotable model code from DN, environment, output, material, and gas-calibration options. Send the configured code with your gas type and flow target; the engineering team replies with a sized quote and unit price within one business day.
Your configuration
TMF-MEMS-15-U-B-P-1-Y-1-1-W
DN15 MEMS gas flow meter, 24 V DC, ±1.5 % of rate, standard env, 4-20 mA 2-wire, threaded ZG-1/2, −40 to +125 °C, 304 SS, air calibration, integral transmitter.
Estimated unit price
$ 520
Request engineering quote
Request datasheet
Applications
🔬
Analytical lab / GC carrier
GC carrier, mass-spec sample-stream, He/N₂/Ar/H₂. RS485 Modbus to LabVIEW at 1-s resolution.
⚡
Fuel-cell & electrolyzer bench
PEM/SOFC anode/cathode and electrolyzer output. Ex d II C T6 Gb for H₂ Zone 1; mL/min catches idle leakage.
🔋
Battery formation & dry-room
Formation H₂/N₂, dry-room dew-point purge, electrolyte-fill equalization. Custom mixture curve; 100:1 turndown.
🧪
Semiconductor & medical gas
Process-tool CDA/N₂ purge, clean-zone curtain, hospital O₂ branch flow measurement. Aluminium housing for non-corrosive lab.
Full specifications.
| Measurement principle | MEMS thermal mass; integrated heater + thermopile array on silicon die, constant-temperature-differential firmware reads gas mass flow directly |
|---|---|
| Nominal diameter | DN8 · DN10 · DN15 · DN20 · DN25 (threaded ZG-1/4 to ZG-1) |
| Connection | Threaded (ZG / G series per DN) |
| Accuracy | ±1.5 % of rate |
| Repeatability | 0.2 – 0.5 % of span |
| Turndown | 100 : 1 maximum |
| Velocity range | 0.05 to 50 Nm/s |
| Response time | 1 second |
| Pressure | 0 to 1.0 MPa standard · 1.0 to 2.0 MPa special |
| Medium temperature | −40 °C to +125 °C |
| Ambient temperature | −20 °C to +65 °C |
| Pressure loss | None (face-flush MEMS chip, zero permanent pressure drop) |
| Housing material | 304 stainless · aluminium alloy · 316L stainless (custom available) |
| Sensor material | Ceramic-glass-coated MEMS resistive sensor (silicon die with corrosion-resistant glass passivation) |
| Compatible gases | Clean dry air, N₂, O₂, Ar, He, CH₄, CO₂, H₂ standard curves; known-composition mixture gases with factory custom calibration |
| Output signals | 4-20 mA (2-wire or 3-wire), pulse, RS485 Modbus RTU, HART optional, control output 1-2 channels NO/NC at 24 V / 0.5 A |
| Available units | mL/min · NL/min · g/s · g/min · kg/min · kg/h · Nm³/min · Nm³/h |
| Display | Integral LCD reading instantaneous flow, cumulative totalizer (8-digit), daily log, alarm status |
| Logging memory | 1000+ daily entries plus scheduled-interval point logging |
| Transmission distance | Sensor to remote display up to 1000 m |
| Power supply | 24 V DC |
| Hazardous area | Ex d II C T6 Gb (optional) |
| Ingress protection | IP65 |
| Electrical interface | Ex-rated M12 connector (5-pin) |
| Compliance | EMC 2014/30/EU (Annex II), ISO 9001 calibration certificate with each meter |
| Lead time | 5 to 7 business days from factory |
Flow range by line size
Air reference at standard conditions. For other gases, the factory calibration table applies a gas-specific conversion factor; N₂ ≈ 1.00, O₂ ≈ 0.99, Ar ≈ 1.40, He ≈ 1.45, CH₄ ≈ 0.72, CO₂ ≈ 0.74, H₂ ≈ 1.01 typical, finalized at order time.
| Nominal DN | Thread spec G | Air flow range | Velocity at full scale |
|---|---|---|---|
| DN8 | ZG-1/4 | 50 mL/min – 50 NL/min | 0.05 – 50 Nm/s |
| DN10 | ZG-3/8 | 0.3 – 300 NL/min | 0.05 – 50 Nm/s |
| DN15 | ZG-1/2 | 5 – 500 NL/min | 0.05 – 50 Nm/s |
| DN20 | ZG-3/4 | 10 – 1000 NL/min | 0.05 – 50 Nm/s |
| DN25 | ZG-1 | 20 – 2000 NL/min | 0.05 – 50 Nm/s |
100 : 1 turndown applies to each DN size; minimum flow is approximately 1 % of full-scale velocity. Submit your target flow rate plus gas type at quote stage so the engineering team confirms the correct DN and calibration curve.
Installation rules.
Five rules keep the chip accurate and protected.
- Verify pipe-fill; 100 % gas; liquid carryover corrupts the reading. KO-pot upstream on condensate-prone lines.
- 10D upstream / 5D downstream; single elbow at distance OK; double-elbow in different planes doubles the upstream stretch.
- Align flow arrow; single-direction calibrated; reverse-flow needs two meters or a separate type.
- Upstream 5 µm filter on dusty/oil-mist lines; oil-mist on the chip face is the main failure mode; coalescing filter on lubricated compressors.
- Torque on body flat; chip is robust to gas but fragile to impact; never torque through or strike the housing.
Frequently asked questions
What is a MEMS gas flow meter and how does it differ from a CTD thermal mass flow meter?+
Both measure gas mass flow by thermal-dispersion physics, but the sensor scale differs. A CTD (constant-temperature-differential) industrial thermal-mass meter uses a pair of heated wires inserted into a full-bore pipe; it serves DN50 to DN400 plant-scale gas billing at 0.2 Nm/s low-flow detection and Nm³/h output scale. The MEMS gas flow meter integrates the same heater-plus-thermopile principle onto a single silicon die in a DN8 to DN25 threaded micro-bore body, with a 0.05 Nm/s low-flow detection; four times more sensitive than CTD; and mL/min to kg/h output range covering lab analytical through OEM skid integration. Pick MEMS for any service below DN25 and any application needing mL/min resolution; pick thermal-dispersion inline for DN50+ industrial gas billing on biogas, natural gas, hydrogen, compressed air, nitrogen, or oxygen plant lines.
When does MEMS micro-bore beat industrial inline TMF on the same gas service?+
Three patterns. First, micro-flow detection; the 0.05 Nm/s velocity floor catches leak rates and weekend-purge drift that thermal-dispersion inline misses below its 0.2 Nm/s floor; on a DN10 line that is 0.3 NL/min of leak that MEMS sees and thermal-dispersion does not. Second, output unit resolution; mL/min and g/s lab-instrument units come native on the MEMS firmware, which CTD industrial firmware does not output (CTD is Nm³/h scale). Third, OEM integration cost; the MEMS micro-bore body with threaded ZG-1/4 to ZG-1 connections drops into a lab skid or OEM gas-supply module without flanges, weld-prep, or upstream straight-pipe footprint that thermal-dispersion inline demands. For any line under DN50 carrying clean dry gas, MEMS is the more cost-effective integration.
Which gases does the MEMS sensor support, and how is per-gas calibration done?+
Standard factory calibration covers clean dry air, nitrogen, oxygen, argon, helium, methane, carbon dioxide, and hydrogen; each as a separate factory-loaded curve. For mixture gases with known composition (battery formation H₂/N₂ blends, semiconductor CDA/N₂ purge, calibration gas streams), factory calibration takes the buyer-specified mix at order time and ships a custom curve. The MEMS chip ships with a 5-curve memory slot, so one meter can carry up to five gas profiles selectable by digital register, which fits multi-gas lab service. Out-of-list gas chemistries (corrosive HCl, Cl₂, wet sour digester gas) are outside scope; route those services to the alternate family per the platform medium-binding rule.
Can the MEMS gas flow meter replace a premium mass flow controller (MFC)?+
It replaces the meter half of an MFC stack, not the controller half. A mass flow controller integrates a flow sensor, a proportional control valve, and a PID loop in one housing; the MEMS gas flow meter is the metering element only; it reads and reports mass flow without valve actuation. For lab and OEM applications where the buyer already has a control valve (manual needle valve, electronic proportional valve, or downstream solenoid), the MEMS meter pairs into the existing control loop via 4-20 mA or RS485 Modbus. Buyers who need the integrated valve-plus-meter MFC stack should specify a separate proportional valve at order, or source the MFC from a dedicated MFC vendor. The factory-direct MEMS gas flow meter price is typically 40 to 60 % of an equivalent-flow premium MFC because the actuator cost is removed.
What does Ex d II C T6 Gb certification mean for installation in lab and process areas?+
Ex d II C T6 Gb is a flameproof-housing certification for explosive-atmosphere service, covering hydrogen-bearing atmospheres (gas group II C) at surface temperature up to 85 °C (T6 class) in Zone 1 hazardous area. This is the right rating for hydrogen lab service (electrolyzer test rig, fuel-cell test stand, hydrogen calibration), battery cell formation rooms where venting H₂ can collect, and chemical-process areas with solvent vapor presence. For non-hazardous lab and analytical service (standard GC carrier gas, oxygen lab supply, calibration gas), specify the standard environment option which ships at lower price without the Ex d housing. Both versions ship in 5–7 business days from the factory.
How does the meter integrate with lab data acquisition and OEM SCADA systems?+
Three signal-output options cover the lab and OEM integration patterns. 4-20 mA analogue output (2-wire loop-powered or 3-wire externally sourced) integrates with industrial PLC, DAQ cards (NI cDAQ, Agilent, Yokogawa), and analog-input modules. RS485 Modbus RTU exposes the totalizer register, instantaneous flow, alarm status, and per-gas curve selection over serial; fits LabVIEW, Python pymodbus, and SCADA Modbus polling. HART (optional) supports HART-multiplexer rollouts in industrial OEM skids where field-instrument digital overlay is already deployed. Pulse output handles totalizer counting into PLC counter inputs or third-party flow computers. Up to two NO/NC contact channels support alarm threshold tripping and batch-control shutoff signalling at 24 V / 0.5 A.
What is the lead time, and what certification ships standard?+
Standard lead time is 5 to 7 business days from order confirmation, factory direct, including factory calibration for the specified gas. The meter ships with an ISO 9001 calibration certificate listing the serial number, calibrated gas type, and tested flow range, plus a mill-cert traceability note for the 304 / 316L wetted parts (heat number traceable to the steel mill). Ex d II C T6 Gb hazardous-area certification is the optional environment-class upgrade. EMC compliance to the EU Electromagnetic Compatibility Directive 2014/30/EU (Annex II) ships standard. The factory does not ship lab-specific qualification packages (USP, FDA, GAMP 5, IQ/OQ/PQ); buyers running validated lab environments source those documents from their own calibration program.
Need help sizing the MEMS build?
Send DN, target flow range, gas/mixture, environment class, output. Engineer replies with sized model code and price in 1 business day.