And what a transformation the 600 PRO is, both in function and design.
The 600 PRO are only Godox / Flashpoint’s second generation TTL cordless strobe, and already challenging the best available. In many ways setting a benchmark for others to follow.
The 600 PRO now offer exceptionally fast recycle times, powerful LED modelling light, and color accuracy to provide a serious alternative to traditional AC powered monolights.
This 600 Pro really are a significant development, being the first and currently only cordless strobe available (at any price) which provides all of the most required functions into one strobe, for studio and location use.
And that’s mainly because still no one else is offering a cordless strobe with the option of a remote head. And having these 2 options in the one strobe has been a large part of the success of the original XPLOR.
With fast recycle times, powerful LED modelling light, and Color Stability Mode, the 600 PRO now provides the additional flexibility of a portable location strobe and studio monolight in the one unit.
There are also significant refinements in the strobes swivel design, and even modifier mount, which make the 600 PRO now much more enjoyable to use.
The flash tube design and spacing has also been refined, which is discussed in more detail further bellow.
The only things missing are possibly a very fast flash duration mode, and 1/10th power level adjustment for studio use.
Significant improvements over the original XPLOR 600 / AD600B include –
- Super Fast 0.9 Second Recycle Time
- Color Stability Mode (+/- 75K Over Power Range)
- Powerful 38 Watt LED Modelling Light
- Refined Flash Tube Design & Positioning
- Streamline Reflector Included
- Smooth Action All Metal Compact Swivel Mount
- Refined S-Type Modifier Mount
- Optional Rear Studio Tilt Handle
XPLOR 600 PRO FEATURES
- GN 87M (ISO 100, Included Reflector)
- Fan Cooled
- 38W LED Modelling Light (Fully Adjustable)
- Bowens S-type Mount
- Optional Remote Head
- Optional AC Power Adapter
- Built in (removable) 28.8V / 2600mAh Lithium-ion Battery
- Up to 360 Full Power Pops Per Battery Charge
- 0.01 – 0.9 Seconds Recycle Time
- Flash Modes – TTL / M / Multi
- HSS to 1/8000th
- Second Curtain Sync
- FEC / FEB – 1/3rd Increments (±3 Stops)
- FEL (Flash Exposure Lock)
- Manual Flash – 1/256 – 1/1 Output (1/3rd Increments)
- Flashpoint R2 / Godox X, 2.4GHz Radio System
- Canon, Nikon. Sony, Fuji, M4/3, Radio Slave Modes (Auto Switching)
- Range – 100m + with X1 as Transmitter
- Groups – A / B / C / D / E
- 32 Channels
- Supports Legacy Godox FT-16 XT-16 Remote Manual Trigger System
- S1 & S2 Optic Slave Modes
- Flash Duration – 1/220s－1/10100s
- Large Dot Matrix LCD Display
- Custom Functions
- Auto Memory Function
- Type C USB Port for Firmware Upgrades
- USB Communication Port (For FTR-16 & XTR-16 Receivers)
- 3.5mm Sync Port
A major feature of the Godox / Flashpoint R2 System has become the cross platform support for Canon, Nikon. Sony, Fuji, and Olympus / Panasonic (M4/3) camera systems, supporting TTL and HSS.
The auto sensing radio receiver mode built into the 600 PRO, and most of the Flashpoint R2 system strobes, allows different camera brands to be used with the same set of remote strobes at the same time.
The recent R2 Pro / Xpro transmitters have provided a big improvement in the system, with a very user friendly interface. And an improved Flashpoint transmitter is still to come later in the year.
The provided TCM function is also a significant feature, allowing quick initial TTL exposures to be converted to manual power settings for further refinement and consistency.
Normally when looking at a new TTL strobe, examining the TTL exposures, and radio trigger performance, would be some of the highest priorities, though these are already quite a well known quantity with the Godox / Flashpoint R2 System.
As a very brief overview, a large part of the success of the original XPLOR / AD600 has been fairly solid TTL exposures, and a simple though reliable radio system from the beginning.
There are numerous intricacies and ongoing generally small loose ends which will hopefully be ironed out over time. And it would be best to look at the post on the transmitter or master flash version you intend to use to see more discussion on these.
If you’re a wedding photographer looking for an integrated system with a master speedlight on camera, at this stage I can only suggest trying a TT685 or V860II speedlight first to see if they are going to meet your needs.
The original XPLOR / AD600B, TTL or Manual versions, are not being replaced by the 600 PRO. They will still be sold along side the new version as a more economical alternative.
So I have tried to include something of a comparison between the strobes in this review.
Though keep in mind, although the RT 610 in many respects weigh up favorably compared with the original XPLOR, they do not have a remote head option, and the radio system is not as mature as Godox’s.
The 600 PRO’s body is actually now slightly longer than the original –
Though with the new included compact reflector, and slimline swivel design, the 600 PRO comes out considerably more compact overall.
Its clear the designers were conscious of the demand for a unit that is as compact as possible for transport and use on location etc.
The 600 PRO’s included compact reflector is more of a wide angle umbrella style reflector though, so its not a completely direct comparison.
And even supplied with a similar size reflector, the ORLIT RT 610 starts to appear large overall in comparison.
The 600 Pro has also added 433 grams of weight over the original.
There is no free lunch unfortunately, and the trade off for fast recycle times, and powerful LED light etc, is some added weight, due to the additional metal heat sinks and cooling required.
The metal swivel and refined modifier mount would also contribute.
- 600 PRO – 3234g
- XPLOR – 2801g
- RT 610 – 3008g
The 600 PRO’s LCD interface is also a nice improvement over the original.
The LCD screen is the same size, though the resolution is higher, and important information like the Group and Power Level display have been emphasized.
The buttons are now spaced further apart for easier access, and the larger dial makes adjustments considerably quicker and easier.
I have noticed a trend with Godox simplifying things where possible, and so the Canon and Nikon etc optic wireless modes are no longer provided. Basic S1 and S2 optic receiver modes are still available though.
Overall the interface is very clean, simple, fast to use, and hard to fault.
There is a nice simple custom function menu, with numerous options available. The Alternate and Mask function being a significant feature.
One thing some people will be missing is 1/10th power level adjustment for finer studio use. Though hopefully that may be something which could possibly still be able to be updated with future firmware.
Personally I would really have liked to have seen a second LCD screen on the opposite side of the strobe as well. Mainly just to display the current group, and confirm when remotely adjusted power levels are changing on the strobe.
And an option to hear a beep when power levels are changing on the strobe would be nice as well, particularly for the times when you can’t view the LCD screen.
Possibly the most controversial change (at least for current XPLOR / AD600 strobe owners) has been the change from a 14.4 volt, to a 28.8 volt battery system.
Godox have apparently made the change to allow for the strobes very fast recycle times, which are certainly a significant upgrade.
One trade off though is battery capacity has now decreased from an exceptional 500 full power shots, down to around 360.
The other issue for current XPLOR / AD600 owners is that the new battery is not compatible with the original strobes. And that adds to the charger, AC power supply, remote head, and bulb all not being compatible between units.
Still the most important thing is that both strobes work well together on the same radio system, just like combining any of the other strobes in the system like the EVOLV / AD200 etc.
Though for people more serious about simplifying their lighting kit, this lack of compatibility means twice as much back up gear required. And this may be the point which will see people eventually moving completely into one camp or the other.
Personally I think that at least Godox have made the change relatively early in their system, and it will be interesting to see how other manufacturers possibly deal with this in the future.
Its also why I think Godox should really work towards a 360Ws version of the strobe, which would integrate seamlessly with the 600 PRO, and accessories. And eventually a larger strobe in the system as well.
NOTE – Lithium-ion batteries like to be used, and generally last longer with at least some occasional use.
If you’re going to store them its not good to fully charge them, and especially not good to allow them to completely deplete. Personally I just check them monthly and keep the level around 40% to 75%.
The 600 Pro battery is quite similar in size to the original, and and a little lighter at 566 grams, verses 618 grams.
Once again a battery level indicator is built-in (as well as provided on the strobes LCD display).
The battery mount has now adopted a system very similar to the one used with the EVOLV / AD200 modular flash head.
And the backing plate on the strobe itself is now plastic, rather than metal like the original strobe.
This appears fairly solid though, and its still fast and easy to attach and remove the battery.
As with the original strobe, an optional AC power adapter will also be available for the 600 PRO.
To allow for a larger, and unobstructed, LED modelling light, Godox have moved to a more traditional horseshoe style flash tube.
Though this is still a convenient plug in design (which also allows for the remote head unit).
The shape of the flash tube, spacing, and frosted front diffuser all have effects on the quality of light projected, which is discussed further below under the Power and Light Pattern heading.
The flash tube has also been spaced out further from the modifier mount, so that it will protrude further into modifiers.
With the change of flash tube shape, this may not appear to have created much advantage. Though as shown further below, when using the average width Bowen’s speedring this can make a difference.
LED MODELING LIGHT
The 600 PRO’s 38W LED modelling light is a substantial upgrade from the 10W used in the original, and now brings the battery powered strobe far more inline with the capability of AC powered studio lights.
The LED has full manual control from 1% to 100%, as well as proportional mode to follow the strobes manual power levels. And can be set to run constantly, or intermittently (switching off just while the strobe fires and recycles).
Measured in a double diffused Glow ParaPop 38″ softbox, the 600 PRO’s LED provided a light meter reading of 0.6 stops more light than the Rapid 600 / QT600 II with traditional 150W halogen bulb. So comparable to around a 230W traditional bulb.
In the same softbox the 600 PRO was also 0.6 stops more than the 20W LED in the ORLIT RT 610.
And 1.6 stops more light than the 10W LED in the original XPLOR / AD600.
The color temperature of the 600 PRO’s LED is a slightly unusual 4600K (measured at 4679K).
And the CRI (Ra) reading has also gone backwards a little from the original strobe, from around 93.8 back to around 91.
Note the ORLIT RT 610 is only at 86.3, with its warmer tungsten balanced temperature.
The 600 PRO’s LED appears to be able to run constantly at full power for some time. Though after a few minutes at full power the fan will go into high speed mode, which does make some noise.
So combined with the CRI, the PRO’s LED doesn’t appear to be aimed at high quality video use. Though its probably fine for some impromptu filming.
Overall the 600 PRO’s LED now appears to work very well as a modelling light though.
The only main thing missing is remote power control from the transmitter. I had asked for that in the coming Flashpoint transmitter (which would likely flow through to the Xpro), though nothing has been confirmed there as yet.
The 600 PRO’s new S-type modifier mount has improved significantly over the original strobes.
With what appears to be a combination of using stiffer spring tabs, and just getting the tolerances right, modifiers now have a very neat and firm fit.
No more rattling reflectors or sagging softboxes.
Possibly just lucky, though every modifier I have tried fits straight on, and with a nice firm fit.
With the ORLIT / Jinbei strobes in comparison it sometimes requires filing down the outer diameter of the bayonet lugs, just to fit the speedring etc into the strobe mount. And once on they still rattle around!
So this new mount is a great step forward, and really makes the 600 PRO feel a lot more refined.
One of the nicest physical improvement over the original strobes has go to be the new smooth action, stepless, metal swivel mount.
This is really a very simple design, just using a disc made of friction material in the swivel joint, something like a miniature grip head.
It works well though and would hold my 120cm deep parabolic without creeping down. For larger modifiers it would be better to attach those directly to the light stand in any case.
There is no friction at all once you release the swivel’s handle though, so the strobe and modifier will basically free fall if not supported before loosening the handle.
Where the ORLIT / Jinbei swivels are a slightly more sophisticated design, always providing some resistance.
And once the strobes optional handle is available, the swivel should really be a pleasure to use.
UPDATE – The handles are now supplied with the strobes and also available separately.
The handle will attache via the 4 small cap screws shown bellow near the battery.
The large ON / OFF switch now relocated to the bottom of the strobe is a nice improvement as well. It also switches off quickly now, though still requires a 2 second hold to switch on.
One small issue with the swivel base is the depth of the hole when attaching to baby pin studs like those used on C-stands and Avenger light stands.
The 600 PRO swivel base does actually mount really nicely on these, though there is only 1mm or 2mm at most, covering past the recessed section of the stud.
That’s not really an issue on light stands where the weight of the strobe is forcing it down onto the stud, though it makes me a little nervous if using a Avenger drop down pin on the end of a boom arm.
To fix this I would simply file more of a chamfer on the end of the drop down pin like this, so that it goes a bit further into the swivel base hole.
The light shouldn’t fall off completely in any case, though it would save giving someone a fright if it dropped a little and propped sideways on the stud.
Otherwise the 600 PRO’s swivel fits nicely even on the C-stands without rocking at all. Where the ORLIT RT 610 will rock a little on the stud even with the thumbscrew tight
Which is a little annoying, and I hope Godox don’t read this and possibly try and make the hole deeper in the current 600 PRO swivel base, and possibly make it worse.
The hole in the side of the swivel base appears to be mainly provided to improve the mounting options when attaching the strobe to a light stand, during remote head use. Which is a good idea.
This was an issue with the original strobe sitting out a way from the stand, unless you could rig up a stud for yourself with a 90 degree elbow. (A superclamp etc is needed here, the image is just an illustration).
The 600 PRO swivel handle is once again plastic. It feels more solid, though still flexes a little.
The handles metal insert is now shaped like a regular nut though. So the handle can not strip on the insert, and leave you with a broken handle that is very difficult to remove, as can happen with the original strobes handle.
If using larger modifiers often it may still be best to just swap the handle with a metal one anyway.
The umbrella mount provides clearance on 8mm umbrella shafts, and just uses a simple spring tab to place a little tension on the umbrella shaft.
Some people don’t like the way this type of mount allows the umbrella shaft to sag down, and move around.
While others have said its a good thing that the umbrella will come out of the mount freely if there is a gust of wind, saving the strobe from damage.
One good thing is the mount is a separate part, screwed on, so Godox or third parties could possibly provide other options later.
There is no longer a handle built in to the swivel mount like the original strobes.
Inexpensive handles like shown below can be purchased on Ebay etc though, which should do the job fine if ever needed.
If holding the strobe at head height or higher, its generally much easier to use a pole or monopod than hold your arms up for any period anyway.
Overall, unless mainly just using the strobe mounted on a pole, in a fixed position, the new swivel is a really nice improvement.
And I would personally really like to see an EVOLV Twin PRO bracket with a much nicer swivel and modifier mount as well.
Once again the XPLOR 600 PRO comes with a nice carry case. Now much more compact than with the original strobes.
The design has been revised, and being smaller makes the sidewalls and overall case significantly more rigid.
The strobe now fits into the case with the reflector attached, and a supplied end cap for the reflector protects the flash tube.
With reflector mounted, the strobe only its in the case with the battery removed though. I wasn’t sure if this was intentional, or possibly originally designed for a different configuration.
Though I have just realized the strobe is not going to fit with reflector mounted, and the coming handle attached. So it may not be the most ideal option anyway.
If looking for a good inexpensive case that will fit the 600 PRO with battery (and handle) attached, ready to go, the ORLIT RT 610 case is actually one good option.
It needs some added padding at the end of the strobe, and the second compartment dividers could be wider. Otherwise its a nice option.
Ideally though its probably time to supply rigid plastic hard cases with padded dividers with these strobes.
COLOR & CONSISTENCY
Below is a quick overview of the color and consistency results as tested with a Sekonic C-700 color meter.
The XPLOR PRO’s Color mode is only available when using manual power levels, and outside of HSS mode.
Though I would really like to look into the color results in more detail in a separate post, covering HSS and TTL results where possible as well.
Note – When using Color Consistency mode with the 600 PRO, the strobe acts partially like a voltages controlled flash, so whenever changing to a lower power level you need to press the test fire button to release the excess energy in the capacitors. There is no auto dump.
In Color Consistency mode the XPLOR 600 PRO ranged from 5435K at full power, to 5624K at 1/32 power.
A total variation of 189K, which is possibly just within Godox’s spec of +/- 100K. Though outside the +/- 75K spec Flashpoint have stated at times.
CRI (Ra) readings are above 98 at all a power levels, and the Green / Magenta balance is mostly neutral, with a slight 0.1 Magenta tint only showing around 1/128 power level.
Please Note – The reading below are just provided as an indication. Results may vary from strobe to strobe, and with different meters, and test conditions etc.
|XPLOR 600 PRO – COLOR MODE|
|1/1||5445 K||5449 K||5441 K||5435 K||5438 K||5442 K||11 K|
|1/2||5510 K||5509 K||5517 K||5517 K||5507 K||5516 K||10 K|
|1/4||5535 K||5532 K||5532 K||5536 K||5543 K||5531 K||12 K|
|1/8||5548 K||5555 K||5546 K||5550 K||5566 K||5550 K||20 K|
|1/16||5594 K||5602 K||5594 K||5599 K||5584 K||5600 K||18 K|
|1/32||5619 K||5620 K||5624 K||5612 K||5599 K||5604 K||25 K|
|1/64||5596 K||5607 K||5573 K||5611 K||5607 K||5590 K||38 K|
|1/128||5570 K||5625 K||5603 K||5603 K||5572 K||5580 K||55 K||0.1M|
|1/256||5593 K||5547 K||5602 K||5569 K||5560 K||5540 K||62 K|
|Maximum Variation : 5624 K – 5435 K = 189 K|
XPLOR 600 PRO – REGULAR MODE
In regular mode the XPLOR 600 PRO ranged from 5430K at full power, to 5788K at 1/16 power.
A total variation of 358K, which again is within Godox’s spec of 5600K +/- 200K.
Variation from shot to shot is still fairly minimal.
CRI (Ra) readings are also above 98 at all a power levels, and a slight Magenta tint creeping in.
|XPLOR 600 PRO – REGULAR MODE|
|1/1||5430 K||5446 K||5441 K||5445 K||5440 K||5442 K||16 K|
|1/2||5559 K||5571 K||5565 K||5562 K||5565 K||5568 K||12 K||0.1M|
|1/4||5650 K||5657 K||5615 K||5661 K||5650 K||5658 K||46 K||0.1M|
|1/8||5729 K||5726 K||5722 K||5738 K||5725 K||5723 K||16 K||0.1M|
|1/16||5718 K||5788 K||5781 K||5778 K||5782 K||5783 K||70 K||0.1M|
|1/32||5755 K||5746 K||5772 K||5763 K||5769 K||5763 K||26 K||0.1M|
|1/64||5711 K||5699 K||5693 K||5715 K||5711 K||5693 K||22 K||0.1M|
|1/128||5729 K||5728 K||5748 K||5695 K||5696 K||5726 K||53 K||0.1M|
|1/256||5748 K||5638 K||5630 K||5736 K||5631 K||5683 K||118 K||0.2M|
|Maximum Variation : 5788 K – 5430 K = 358 K|
The original XPLOR 600 ranged from a cooler 5688K at full power, to 6435K at 1/256 power.
A total variation of 747K, which is well outside of Godox’s spec of 5600K +/- 200K.
Though again variation between shots is still mostly minimal, which is generally most important.
CRI (Ra) readings are also above 98, and slightly more Magenta tint is creeping in.
|1/1||5700 K||5695 K||5705 K||5695 K||5696 K||5688 K||17 K|
|1/2||5846 K||5836 K||5826 K||5843 K||5836 K||5833 K||20 K||0.1M|
|1/4||5951 K||5975 K||5945 K||5956 K||5962 K||5957 K||30 K||0.1M|
|1/8||6058 K||6055 K||6050 K||6052 K||6057 K||6043 K||15 K||0.2M|
|1/16||6125 K||6131 K||6139 K||6114 K||6128 K||6127 K||25 K||0.2M|
|1/32||6134 K||6122 K||6103 K||6146 K||6157 K||6157 K||54 K||0.2M|
|1/64||6096 K||6100 K||6124 K||6121 K||6150 K||6143 K||54 K||0.2M|
|1/128||6249 K||6216 K||6152 K||6310 K||6296 K||6277 K||158 K||0.2M|
|1/256||6390 K||6435 K||6434 K||6406 K||6388 K||6398 K||47 K||0.3M|
|Maximum Variation : 6435 K – 5688 K = 747 K|
ORLIT RT 610
In Normal mode (not Freeze mode) the ORLIT RT 610 ranged from 5408K at 1/16 power, to 5790K at 1/128 power.
A total variation of 382K, which is just within ORLIT / Jinbei’s spec of 5600K +/- 200K.
Variation from shot to shot is again mostly minimal.
CRI readings (Ra) are mostly around 97.6, and a slight Green tint is starting to show around 1/16 and 1/32 power.
|ORLIT RT 610 – NORMAL MODE|
|1/1||5581 K||5587 K||5590 K||5582 K||5585 K||5578 K||12 K|
|1/2||5552 K||5562 K||5556 K||5556 K||5548 K||5549 K||14 K|
|1/4||5571 K||5567 K||5557 K||5579 K||5569 K||5565 K||22 K|
|1/8||5733 K||5738 K||5750 K||5730 K||5729 K||5734 K||21 K|
|1/16||5408 K||5435 K||5432 K||5436 K||5408 K||5422 K||28K||0.1G|
|1/32||5570 K||5586 K||5572 K||5562 K||5572 K||5577 K||24K||0.1G|
|1/64||5629 K||5624 K||5636 K||5631 K||5639 K||5636 K||15 K|
|1/128||5790 K||5759 K||5733 K||5746 K||5756 K||5746 K||57 K|
|1/256||5688 K||5632 K||5671 K||5630 K||5609 K||5569 K||119 K|
|Maximum Variation : 5790 K – 5408 K = 382 K|
Being an IGBT strobe the 600 PRO natively provide fairly fast T0.1 flash durations, stated as 1/220s at full power, to 1/10100s at 1/256 power.
Looking at it now though, it is a little surprising Godox did not include a Freeze Mode with faster durations, as this is the only thing stopping the 600 PRO completely knocking it out of the ball park on almost every level.
Measuring the flash durations with the Sekonic L-858D light meter I found most of the 600 / PRO stated durations to be fairly accurate, mainly the full and minimum power were a little optimistic.
I would like to go through these in more detail in another post though, and include all the power levels etc.
If you’re wanting to compare with other strobes, keep in mind the durations are often stated as T0.5 times, not T0.1. So I have also included the T0.5 times for the 600 PRO in second pair of graphs below.
XPLOR 600 PRO –
XPLOR 600 PRO T0.5 –
XPLOR 600 COLOR MODE –
XPLOR 600 –
ORLIT RT 610 FREEZE MODE –
RAPID 600 / QT600 HIGH SPEED MODE –
The 600 PRO recycle times are genuinely fast. A second or just under at full power, and less than half a second at 1/2 power.
That’s fast enough to basically shoot single frames whenever you want to at 1/2 power.
At 1/16th power the 600 PRO will keep up with 10 frames per second.
And the strobe will still allow 100 shots at 1/1 power before over temperature protection comes in. And again 50 shots at 1/1 in HSS mode like the original XPLOR.
That seems impressive considering the extra heat created when shooting over twice as fast.
Again I would like to look at this in more detail in another post. Regarding frame rates, HSS, and possibly how the “Alternate” function may react cycling between a couple of strobes etc.
POWER AND LIGHT PATTERNS
Considering the impressive recycle times of the 600 PRO, it wouldn’t be unreasonable to suspect Godox may have tweaked the overall power output to allow for that (if so they wouldn’t be the first).
To cut a long story short though, the power output of the 600 PRO does appear to be the same as the original strobes, as Godox have stated.
In modifiers like softboxes and beauty dishes the light output tends to be a little more than the original strobes, due to the different flash tube style and spacing.
The compact 5″ reflector supplied with the 600 PRO appears to be much more of a wide angle umbrella style reflector, than the more focused 7″ reflector supplied with the original XPLOR strobes.
And that 5″ reflector, providing a broader even light pattern, is nice, though over a stop less bright than the original XPLOR with 7″ reflector.
Where this gets tricky though, is placing the 7″ reflector on the 600 PRO does not focus, and boost the light output to match the original XPLOR.
So Flashpoint are currently looking into different 7″ reflector options that may suit the 600 PRO better.
Having said all of that, the 600 PRO with 5″ reflector is much like the ORLIT RT 610 with 5.5″ reflector, and even going back to the original Rovelights, many people have preferred to use them with the smaller reflector just for convenience.
As mentioned previously, the 600 PRO’s flash tube has now been spaced out further from the modifier mount, to improve penetration into speedring and modifiers.
And as show below, with an average Bowens style speedring, the 600 PRO’s flash tube can often be 100% exposed with a 180 degree spread of light.
Where in the same situation almost half of the original flash tube is blocked from directing light to the sides.
Also looking at the bare flash tubes, the horseshoe style tube of the 600 PRO natively directs a larger ring of light to the sides, all the way around.
And the frosted front diffuser on the face of the bulb cuts down and diffuses the light being projected directly forward.
When combined with the speedring the 600 PRO flash tube is still projecting a lot of light directly outward, which is going to help fill larger and shallow modifiers, and strip boxes etc.
And even in a relatively small 38″ ParaPop softbox below, you can start to see the broader even spread of light. And slightly greater intensity pushing light out further.
The 22″ beauty dish equalizes things more, though the different light pattern is noticeable from the 600 PRO tube.
And looking at the 600 PRO with 5″ reflector, there is a much broader spread of light. Though it doesn’t have the focus and intensity of the original XPLOR with 7″ reflector.
Projected into an umbrella the 600 PRO and 5″ reflector provide virtually full coverage, and much more even light than the hot spot created with the XPLOR and 7″ reflector. (Side view here as well).
Measuring the light output I have included the ORLIT RT-610 / Jinbei HD 610, which is also an example of the more commonly spaced horseshoe flash tube configuration found in many regular strobes.
(The frosted front diffuser does also effects the outcome though).
The focused 7″ reflector with the original XPLOR meters 1.4 stops ahead of the much more broad light pattern of the 600 PRO and 5″ reflector.
And the RT 610 with 5.5″ reflector is somewhat similar to the 600 PRO, though 0.2 stops ahead.
Please Note – Although the light meter readings where taken at full power, the images where shot at 1/8 power. And the RT 610 was down 0.3 to 0.4 stops at 1/8 power compared to the other lights, that’s why those images look darker than the readings suggest.
For simplicity All images where shot at the same distance of 4′ (120cm) to the light itself. The lights where not moved back to account for larger modifiers being attached.
With the XPLOR 7″ reflector mounted to the 600 PRO, the result was still 1.2 stops below the original XPLOR. The PRO still providing a very broad spread of light.
Though the RT 610 with 7″ reflector now matches the XPLOR.
I tried all of the 7″ reflectors I have from other strobes etc with the 600 PRO, and the best result was only 0.2 stops brighter (using a Phottix Indra500 7″ reflector).
So possibly I was just unlucky so far, otherwise Flashpoint and Godox may possibly need to create a dedicated 7″ reflector specifically designed for the 600 PRO.
Mounting the 600 PRO 5″ reflector on each strobe.
Mounting the RT 610 5.5″ reflector on each strobe.
This provides a better umbrella reflector style result with the original XPLOR than using the 600 PRO reflector as above.
45° LONG FOCUS REFLECTOR
And the 600 PRO does pretty well with the 45° Long Focus, at 0.3 stops behind the XPLOR.
The light pattern is more of a gradual fall off though, rather than the crisp edge which is likely more unique to the original XPLOR.
The 45° Long Focus roughly lights an area the same diameter as the distance its positioned is away.
70° MAGNUM REFLECTOR
With the 70° Magnum Reflector (14″), the original XPLOR is very efficient at 0.8 stops ahead of the 600 PRO.
So if you’re looking to shoot sports or similar at a distance the original XPLOR may be the preferred option here.
The RT 610 is very poor in comparison, almost 2 stops behind the XPLOR, and 1 stop behind the 600 PRO.
22″ BEAUTY DISH
In the 22″ beauty dish the 600 PRO starts to show its advantage, with slightly higher output, and even light pattern.
While the RT 610’s more recessed flash tube loses 1/2 a stop of light to the 600 PRO.
38″ GLOW PARAPOP
And with the 38″ Glow ParaPop softbox the 600 PRO is creeping ahead slightly further in output, and with broader even spread of light.
Bellow are some comparison sample images. I’m not sure how useful the subject is, though the shadow thrown behind provides something of an indication of how the light is reacting.
The exposures were equalized on the face, so this is not a comparison of output. All lights are at 4′ (120cm) from the subject, except the beauty dish at 3′.
Note the third image down is using the 600 PRO in all 3 images.
Its in the larger and shallow softboxes and umbrellas etc where the difference will be more prominent. Though again that’s a topic to explore properly in a separate post.
This has been part one of the review. I would like to look into things like flash duration, color consistency, recycle times (frame rates etc), power consistency, in further detail in separate posts.
PRICE AND AVAILABILITY
The Flashpoint XPLOR 600 PRO TTL are available now from Adorama for $899.
Or $968 with R2 PRO Transmitter for Canon, Nikon, Sony, Fuji, and M4/3.
Adorama provide a 3 year warranty.
For details on service options its best to contact the brands team at email@example.com
Flashpoint – Website
Flashpoint – User Manual
Godox – Website