Canon Community

It’s a thought, but in my experience, nothing catastrophic has ever happened putting metallic foil in tight spaces in close proximity to vital electrical contacts.  Yanno?  Except when I do it...

The one variable I haven’t explored is whether a Canon battery grip would cause this same effect on the sensor platform.  No one knows.

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@ChrisPBacon wrote:

 

The one variable I haven’t explored is whether a Canon battery grip would cause this same effect on the sensor platform.  No one knows.

 

 

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A battery grip might work for you as the batteries are further removed form the camera.  The way the grip works is it switches between the two batteries but don't know if it would do that during a long exposure.

BTW another solution might be modifying a car LP-E6N charger to power the camera.  I havent thought a lot about it but there may also be a way to use remote batteries to provide the 7.2 volts provided by the LP-E6N.  I know the camera is picky about what is in the battery slot, but a mod of a AC power adapter might be possable.

Also there is a "

Lanparte D-Tap to LP-E6 Fixed Voltage Battery Pack for Select Canon Cameras

Avaible through Adorama that may be usefull.  There is also a 

LP-E6 Dummy Battery - ACK-E6 AC Power Adapter E6 Adapter 

available from Amazon that can be powered from a USB power bank, 

Thank you for the suggestion.

I asked someone about using a splice into an existing piece of Canon DC gear: a splice will decrease line voltage and increase resistance (minimal in a low-voltage system, but still, it’s there). Soldering it will decrease the effects, but it will still change performance.

I’m very reluctant to risk cumulative damage to the camera’s electronics, or to do something that might introduce unwanted noise into the collected data stream. In the latter case, it’s difficult to obtain the photos with a lot of expense and hard work involved: nothing is worse than finding out that everything you did was worthless.

Still looking.

DC to DC converters are the most efficient means for reducing DC voltage but they are electrically noisy and expensive.  Simple three terminal linear regulators to handle the current needed and to regulate a vehicle nominal 12 volt source to the 8 volts that the Canon DC coupler wants are inexpensive but they will waste around 12 watts of power at the maximum rated current draw of the DC coupler (although it should be considerably less most of the time). 

If you are thinking about building your own circuit to provide the regulated input to the Canon DR-E6 coupler, I would use a TI LM338 5 amp rated adjustable positive voltage regulator  TI's application notes for the device specifiy the calculation of the two resistors needed to set the desired regulated output voltage along with the input and output capacitors needed for stability and the heat sink required to keep the device at a safe operating temperature.  Total cost for all parts should be  under $20, considerably less if you buy the heat sink from one of the many electronics surplus dealers. 

Again, if you are thinking about doing this grab the application notes for the LM338 from TI's website. Be careful if you are considering the DC to DC converter route, these are high efficiency switching type regulators that are fairly complex and develop a lot of noise which could well create artifacts in the camera data stream if not well filtered.  And unlike the highly reliable three terminal regulators (like the LM338) which has had a stable and tested design for decades, there is a lot of "junk" in the DC to DC regulator world and I wouldn't trust a camera or anything else important to one that isn't well tested and the quality units make Canon OEM batteries look very cheap by comparison.

Rodger

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@Coldincanada wrote:

I am having the exact same problem. There must be a dummy battery for the D6 to USB to DC power supply. Did you find one as to this date?

Regards

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The only solution thus far that I've found is Canon's AC-E6N AC Adapter and DR-E6 (or DR-E18) DC Coupler.  It's intended only for indoor use with an AC power source: my inquiry came as a result of configuring a telescope with a mounted EOS 6D or 6D2 cameras, to be operated in remote sites and powered by either a dual-fuel inverter-equipped generator (directly) or through a 1100/1500-watt lithium-ion battery, itself charged by the generator or 2-100 watt solar panels.

Ideally, if I could power the camera's power supply through one of the two DC-power sources, I wouldn't lose power through the DC-AC-DC transfer [battery/generator-inverter to (AC-E6N AC Adapter and DR-E6) to camera battery].  The EOS R can be recharged through use of a USB cable — perhaps even operated while powered by the USB cable — but Canon must not believe that a remote power requirement could exist where a battery grip, spare batteries, or vehicle-connected battery recharging unit would be inadequate.  My power requirements, operating cameras and telescope at high altitude for extended periods (3-4 weeks), create a logistical nightmare even with 2 generators, solar panels, and 4 large lithium-ion batteries.