What is superheat and why measure it?

Superheat is how many degrees the refrigerant vapor leaving the evaporator has risen above its boiling (saturation) temperature. On a fixed-orifice system it is the primary charging measurement because the metering device cannot self-adjust, so the charge sets how fully the evaporator is fed.

How is the target superheat determined?

On fixed-orifice systems the correct superheat depends on operating conditions, not a single number. The tool uses the standard target-superheat matrix indexed by outdoor dry-bulb temperature and indoor return-air wet-bulb temperature, the same chart manufacturers print on charging stickers.

What does the result tell me?

If measured superheat is above target, the evaporator is being starved — the system is undercharged. If superheat is below target, liquid is flooding toward the compressor — the system is overcharged. Adjust charge until measured superheat matches the target for current conditions.

Why does superheat charging not use subcooling?

Fixed-orifice metering devices like pistons and capillary tubes do not hold a steady subcooling, so subcooling is unreliable on them. TXV and EEV systems instead maintain superheat automatically and are charged by subcooling. Match the method to the metering device.

What if conditions are outside the matrix?

Very low outdoor temperature combined with low indoor wet-bulb can call for near-zero or impractical superheat targets, where the matrix is unreliable. In those cases charge by the manufacturer's weigh-in amount instead, and avoid charging on extreme days.

Superheat Calculator (Fixed-Orifice Systems)

Fixed-orifice systems — those with a piston or capillary tube — are charged by suction superheat, because the metering device cannot adjust itself. This calculator converts your suction pressure to evaporator saturation temperature, subtracts it from the measured suction-line temperature to get actual superheat, and compares it with the target from the standard conditions matrix.

How it works

Superheat is the gap between the suction-line temperature and the evaporator boiling temperature set by the suction pressure:

satTemp    = PT-chart lookup(refrigerant, suction psig)
superheat  = suctionLineTemp − satTemp
target     = matrix(outdoor dry-bulb, indoor wet-bulb)
verdict    = compare superheat to target

Because the refrigerant is boiling at constant pressure in the evaporator, its temperature is fixed by that pressure. The amount the vapor has warmed beyond that point before reaching your probe is the superheat. The target comes from a two-way table of outdoor dry-bulb and indoor wet-bulb temperature.

Example and tips

On an R-410A system reading 130 psig suction, the evaporator saturation temperature is about 45 degrees Fahrenheit. A suction line at 57 degrees gives 12 degrees of superheat. With a 90-degree outdoor dry-bulb and a 63-degree indoor wet-bulb the target is also near 12 degrees, so the charge is correct. Measured superheat above target means undercharge; below target means overcharge. Let the system run at least 15 minutes to stabilize before reading, and weigh in the charge instead when conditions fall outside the matrix.