Relative Power

The power in terms of light output is proportional to the square of the guide number. However, a simple comparison in this way isn't necessarily the most useful in practice. Generally the relative power of each flash is mostly consistent across the zoom range, but depending on how the flash is to be typically used, different factors may be more important. So, it's helpful to look at the data in a number of different ways.

### Focused Power

Since the guide number at the narrowest reflector zoom setting is the biggest, flash makers like to focus on it, usually working it into product names.

The Metz, Sigma, and Promaster flashes have a reflector which can focus the burst more tightly than the Pentax and Sakar flashes — they go to 105mm (35mm full-frame), whereas the Pentax and Sakar models have zoom reflectors which stop at 85mm. (The zoom reflectors move in discrete steps rather than being continuous, so there's no particular benefit at until you go above the final step.) So, on a current 1.5×-crop Pentax dSLR, if you're at a (real) focal length of 70mm or above, the relative list looks like this, normalized to the Pentax AF360FGZ.       * Sigma EF-610 DG = 2.9×
* Metz 58 AF-1/AF-2 = 2.6×
* Pentax AF540FGZ = 2.2×
* Metz MZ-4i = 2.2×
* Sigma EF-530 DG = 2.1×
* Metz 52 AF-1 = 2.1×
* Tumax DPT5 = 1.9×
* Metz 50 AF-1 = 1.9×
* Metz 48 AF-1 = 1.8×
* Tumax DPT3 = 1.6×
* Metz 44 AF-1 = 1.5×
* Promaster 7500EDF = 1.4×
* Promaster 5750DX = 1.2×
* Promaster 7400EDF = 1.0×
* Promaster 5550DX = 1.0×
* Pentax AF360FGZ = 1.0× (Of course.)
* Metz 36 AF-4/AF-5 = 1.0×
* Promaster 7200EDF = 0.72×
* Promaster 5250DX = 0.44×
* Metz 24 AF-1 = 0.44×
* Tumax DSL28 = 0.37×
* Pentax AF200FG = 0.31×
* K20D/K200D/K-7/K-5 built-in = 0.13×
* K100D/K10D/K2000/K-m/K-x/K-r built-in = 0.09×

### Normal Power

The narrow beam guide numbers are interesting, but they're only relevant at higher focal lengths. This list represents the middle of the zoom range — a field of view which covers the "normal lens" range of 50mm equivalent focal length — that is, about 35mm on a current Pentax dSLR. If a flash only has a zoom setting wider than this field of view, this table shows the power with the most focused beam available.       • Sigma EF-610 DG = 2.4×
• Pentax AF540FGZ = 2.2×
• Tumax DPT5 = 2.1×
• Metz 58 AF-1/AF-2 = 2.0×
• Tumax DPT3 = 1.9×
• Metz 54 MZ-4i = 1.8×
• Sigma EF-530 DG = 1.8×
• Metz 52 AF-1 = 1.6×
• Promaster 5750 = 1.4×
• Metz 50 AF-1 = 1.4×
• Metz 48 AF-1 = 1.4×
• Promaster 7500EDF = 1.3×
• Metz 44 AF-1 = 1.1×
• Pentax AF360FGZ = 1.0× (Of course.)
• Promaster 7400EDF = 1.0×
• Promaster 7200EDF = 1.0×
• Promaster 5550DX = 1.0×
• Promaster 5250DX = 0.64×
• Metz 36 AF-4/AF-5 = 0.64×
• Metz 24 AF-1 = 0.64×
• Tumax DSL28 = 0.54×
• Pentax AF200FG = 0.44×
• K20D/K200D/K-7/K-5 built-in = 0.19×
• K100D/K10D/K2000/K-m/K-x/K-r built-in = 0.13×

### Wide-Angle Power

The relative power level of each flash at different zoom levels is relatively consistent: the 50mm chart above is so close to the ones for 35mm, 70mm, and 85mm that there's no point in graphing them separately. The only exceptions are at the narrowest zoom position as detailed above, and at the widest setting.

Most of the fixed-reflector flashes are set at a 28mm coverage angle (35mm equivalent), and can't go wider than that without a diffuser, while all of the zoom flashes except the Metz 36 AF-4/AF-5 go as wide as 24mm. At higher focal lengths, the inability to produce a more focused beam severely penalizes the fixed-reflector packages. This is particularly unfair to the tiltable-reflector Promaster flashes, because it is common to use a non-zoomed setting when using bounced light — so this value may be your typical use case.

This chart shows the 28mm fixed-reflector flashes, normalized to the Pentax AF360FGZ set to 28mm.

The Metz 24 AF-1 isn't included, because it's an anomaly, with a fixed 35mm coverage area. I estimate that it's "true" power is roughly equal to the Pentax AF200FG; it's just slightly more focused. The Tumax DSL28 series doesn't have a documented coverage area, but I assume that it is similar. • Promaster 7200EDF = 1.9×
• Promaster 5550DX = 1.9×
• Promaster 5250DX = 1.2×
• Pentax AF200FG = 0.83×
• K20D/K200D/K-7/K-5 built-in = 0.35×
• K100D/K10D/K2000/K-m/K-x/K-r built-in = 0.25×

Note the oddity with the Promaster figures when compared against the Promaster zoom-head flashes — the 7200EDF does not zoom but Promaster claims a GN of 100' at its fixed 28mm coverage, the same as the 7400EDF zoomed to 50mm. Promaster confirms by e-mail that the 7200EDF does indeed have a more powerful strobe to compensate for its lack of zoom. In fact, at 28mm it is more powerful than all but the most expensive offerings from other companies.

And, not quite related but perhaps important: if wide-angle light is valuable to you, the Metz 58 AF-2 has a built-in wide-angle panel which Metz says diffuses light to cover the field of view of an 8mm lens on APS-C. No other flash in this guide comes close. You can copy from this site, with conditions. See the license page for copyright and licensing details.