When engineers say “pressure,” the number is only half the story. The other half is the 참조—what that pressure is measured against. That reference determines whether you need an 순수한,,, 계량기, 또는 미분 pressure sensor, and it’s one of the most common sources of wrong specifications in RFQs and datasheets.
Quick comparison
| 압력 유형 | What it measures | “Zero” reference | 공통 라벨 | Typical applications |
|---|---|---|---|---|
| 절대 압력 (파스) | Pressure relative to vacuum | Vacuum (0 absolute) | kPa(a), 바(a), 사이아 | Vacuum systems, sealed chambers, barometric/altitude compensation |
| 게이지 압력 (Pg) | Pressure relative to ambient atmosphere | 국소 대기압 | kPa(g), 바(g), psig | Pumps, compressors, tires, open tanks, most industrial lines |
| 차등 압력 (ΔP) | Difference between two points | P1 minus P2 | Pa DP, kPa ΔP, 프시드 | Filters (pressure drop), HVAC ducts, flow elements (orifice/venturi), cleanrooms |
The 3 core definitions (with formulas you must know)
1) Absolute Pressure (Pabs)
절대 압력 is measured relative to a near-perfect vacuum.- Vacuum = 0 on an absolute scale
- Atmospheric pressure is about 101.325 kPa(a) at sea level (it changes with weather/altitude)
피ab에스=피g+피에이티중
Use absolute pressure when:- You care about true physical pressure independent of weather/altitude
- You are measuring 비어 있는 or near-vacuum
- You have sealed/closed systems where “ambient reference” is meaningless or variable
- Vacuum chamber: “30 kPa(a)” is unambiguous; “-71 kPa(g)” is easy to misread.
- Refrigeration / boiling / cavitation calculations: absolute pressure is often the correct input.
- Barometric pressure and altitude: needs absolute reference.
- Buying a gauge sensor for a sealed vessel and then being surprised the reading shifts with weather. Gauge follows Patm.
2) Gauge Pressure (Pg)
게이지 압력 is measured relative to local atmospheric pressure (ambient air).
- If a gauge sensor is open to air, it reads ~0
- Gauge pressure answers: “How much above (or below) atmospheric is it?”
Formula relationship
피g=피ab에스- -피에이티중
Use gauge pressure when:
- Your system is exposed to ambient (or you want relative-to-ambient readings)
- Operators think in “pressure above atmospheric” (most industrial contexts)
Real examples
- Tire pressure: 35 psig means 35 psi above atmosphere.
- Air compressor: “8 bar(g)” is the pressure above ambient in the line.
- Open water tank with a pressure tap near the bottom: gauge is often acceptable because the tank is vented.
Important note: gauge can be negative
When a system is below atmospheric (vacuum relative to air), gauge pressure becomes negative (e.g., -20 kPa(g)).
3) Differential Pressure (ΔP)
차등 압력 is the difference between two pressures:
디피=피1- -피2
A differential pressure sensor has two ports (high and low). It directly outputs the pressure drop or pressure difference you care about—without needing you to subtract two separate sensors.
Use differential pressure when:
- You care about pressure drop (filters, ducts, heat exchangers)
- You need a stable “difference” measurement even when both sides drift together
- You measure flow with restrictions (orifice/venturi/pitot-style arrangements)
Real examples
- Filter monitoring: ΔP increases as the filter clogs.
- Cleanroom: maintain a slight positive ΔP to prevent contaminant ingress.
- Flow measurement: ΔP across an orifice plate relates to flow rate (application-specific).
Common installation mistake
- Swapping high/low ports → negative readings or confusing sign. Always label tubing.
How to choose the right one
선택하다 순수한 if:
- You measure vacuum or near-vacuum
- You need weather/altitude independence
- The chamber is sealed and “ambient reference” is not stable/meaningful
선택하다 계량기 if:
- You want “pressure above ambient air” (most operator-facing equipment)
- The system is vented or exposed to atmosphere
- Your spec uses psig/barg/kPa(g)
선택하다 미분 if:
- You want pressure drop across a component (filter, coil, valve, orifice)
- You need room/duct differential control
- You need P1–P2 directly (two ports, one sensor)
Sensor selection checklist
When you publish or source a pressure sensor, specify all of these:
- 압력 유형: 절대 / 게이지 / 차동
- 범위: e.g., 0–10 bar(g), -100–0 kPa(g), 0–5 kPa ΔP, 0–200 kPa(a)
- Overpressure / burst ratings (especially for DP sensors)
- 메디아: air, water, oil, refrigerant, corrosive gas, etc.
- Port / mechanical interface: thread, barb, manifold, face seal
- 산출: 4–20 mA, 0–10 V, ratiometric, I²C/SPI/UART
- Accuracy definition: %FS, %reading, including temperature effects
- Operating temperature + compensation range
- Environmental protection: ingress, condensation, vibration
Practical tip: Always write the reference into the unit:
- kPa(a), kPa(g), Pa ΔP
- psia, psig, psid
That single letter prevents misunderstandings.
자주 묻는 질문
Is psig a unit?
No. psi is the unit. psig means “psi gauge” (relative to atmosphere). 사이아 means “psi absolute.”
Do I need absolute pressure for vacuum?
If you want unambiguous vacuum readings, yes, absolute is usually the cleanest way to specify vacuum level.
Can gauge pressure be negative?
Yes. Negative gauge pressure indicates pressure below atmosphere (vacuum relative to ambient).
Is differential pressure the same as gauge pressure?
No. Gauge is referenced to atmosphere (one reference). Differential compares two system points (two ports).
Why do gauge readings change with weather?
Because gauge uses atmospheric pressure as its reference. If Patm changes, the relationship between gauge and absolute shifts too.
