BBW Production, shot this short video of the "Speedtest Glassdrive Racing" Event entirely on the CAME-7800 Gimbal!
With a max payload of roughly 6.6 pounds, the CAME-7800 Gimbal is designed for cameras like the 5Dmk3, GH4 or the Sony A7s.
In this beautifully shot video, Scotty Ray, traveled to Yosemite National Park to hike up "Half-Dome". He brought along the CAME-Single Gimbal to document his trip and was able to piece together this video.
"I used the CAME-Single over other gimbals because of its size and reliability. It does everything I need and fits inside my normal DSLR bag. It's a great overall gimbal.
For the video, I used a Sony A7s with a Sony 16-35 Zeiss version lens. The video was shot in one day which took about 14 hours without having to charge the CAME-Single."
The CAME-Single is a one handed 3-axis gimbal featuring motor encoders that prevent the motors from losing synchronization and skipping steps, decreases power consumption, increases precision of stabilization, and more. The CAME-Single is perfect for small mirrorless cameras such as the Panasonic GH4, Sony A7s or A7RII, and BlackMagic Pocket Cinema Camera. With the upgraded battery, the gimbal can run up to 20 hours on a single charge.
All CAME-TV gimbals have been designed to support numerous camera/lens setups. That is, as long as the overall payload does not exceed that particular gimbal's pre-determined weight capacity. However, it is also possible for a camera setup to be too light. When this happens, users may notice shaking, vibrating, and even noises coming from the motor of their gimbal. But don't panic!! Essentially, the gimbal's motors have been programmed to expect a slightly heavier payload and are just working a little bit harder than they have to.
A quick fix to this problem, would be simply to lower the Motor Power in the SimpleBGC software. But first, before making any changes, we advise archiving all of your current settings (ex: saving your profile or capturing screenshots). In the unlikely event that you may have to revert back to those values, you'll at least have your screenshots for reference. Once that's done, investigate the gimbal and find out which motor (Yaw, Pitch, or Roll) is giving you problems. Once you have determined the culprit, connect to the software and reduce the Motor Power settings accordingly. Step by step details can be found in the video below.
NOTE: For heavier camera setups, simply increase motor power settings instead of decreasing them.
During this motor power adjustment process, it is ok to turn on your gimbal and test functionality after applying changes. Please know that this is a trial & error process and it may take some time to find the perfect settings for your camera setup. And just as a reminder, once you're able to determine the correct settings in one profile to stabilize your gimbal, apply those settings to the remaining 2 profiles in the Basic Tab of the software.
FocusPulling (.com), uploaded this video about getting some extra battery power for your camera. He goes through a bunch of gear that you might need and if you skip to around the 07:32 mark in the video, he goes over the specs of the CAME-TV VM02 V-Mount Plate.
The CAME-TV VM02 V-Mount Plate offers 12V, 7.2V and 5v outputs and comes with an industry standard 15mm rail mount, so that mounting it to your rig is a breeze.
One of the more useful functions of any CAME-TV gimbal is the built-in joystick/remote control feature. Simply enough, the 2-axis joystick essentially allows you to do seemless panning and tilting movements while maintaining smooth and steady shots with the gimbal.
However, all gimbals come with a pre-programmed joystick speed that dictates how fast its movements are. And sometimes this default speed isn't ideal for the shot that you may want to execute. But luckily, speed can easily be adjusted using the SimpleBGC software. Full step-by-step details are shown in the video below.
Perhaps one of the more common questions we get from customers is "why is my gimbal drifting when it's powered on?." Obviously, a properly balanced and calibrated gimbal will stay put and only move when (and how) you want it to move.
A likely reason for the drifting is that the RC Sub-Trim settings may be off. The RC Sub-Trim is used to calibrate the Joystick. This is an electro-mechanical control surface that over time may need calibration for it’s true Neutral Position. The most common problem is slow ‘drifting’ of camera position. When the Joystick is not calibrated properly, the gimbal believes that someone is applying Joystick commands and starts to move. The video below will help you properly calibrate your joystick and thus likely eradicate the problem of drifting.
NOTE: If you're using a gimbal with an external wireless remote, then make sure the remote is turned on during this process.
NOTE: After completing this process, if drifting persists on any 1 profile, but is no longer present on either of the 2 Profiles, then you can manually copy the RC subtrim values from the non-drifting profile onto the profile that does drift. In other words, after completing the Auto RC-Subtrim process, if Profile 3 still drifts, but Profile 1 & 2 remains still, then you can manually copy the RC-Subtrim settings from Profile 1 or 2 onto Profile 3. Drifting should then be eliminated from all 3 profiles as a result.
When you purchase a CAME-TV gimbal, chances are that it has been pre-programmed with 3 main profiles. And each profile contains its own unique set of follow modes, which you can toggle between depending on which mode you need to use.
Profile 1 will enable Follow Modes for both Pan and Tilt (Yaw and Pitch). Profile 2 will enable Follow Mode ONLY for Pan (Yaw) and will Disable Tilt (Pitch). Profile 3 will disable All Follow Modes. The Camera heading will stay constant.
However, in the event that these follow mode settings are unknowingly or mistakenly altered in the SimpleBGC software, you can manually restore them by dialing them in yourself.
Service Modes are used to assign button clicks to various gimbal operations. On most CAME-TV gimbals, you can toggle between these different modes simply by clicking on the service button (or joystick) to operate them. By default, the first three modes are set as follows:
1 Click: Switch to Profile 1 2 Clicks: Switch to Profile 2 3 Clicks: Switch to Profile 3
To see how Profiles 1, 2, and 3 are configured, click here.
It's also a good idea to take advantage of your Service Modes by using the Profile 4 and Profile 5 options. These profiles should specifically be set to calibrate your sensors and gyro, respectively. These modes will especially come in handy when you're shooting out in the field and don't have access to your laptop to recalibrate your gimbal.
4 Clicks: Calibrate ACC (Calibrate sensors. Must hold camera and gimbal level and square when using this option) 5 Clicks: Calibrate Gyro (Calibrate Gyros. Must hold camera and gimbal level and square when using this option)
SAMPLE: Once you have Profiles 4 & 5 programmed and saved, you can now calibrate your sensors and gyros directly through the gimbal. (Demonstrated in video below with a CAME-Single, but the process applies to all CAME-TV gimbals when calibration modes have been programmed in them.)
Gimbal calibration demonstrated on CAME-Single and CAME-7800 gimbals below. (Process applies to all gimbals with service modes programmed in).
You4reel, shot this huge Corona sponsored event in Ireland with the CAME-TV 7800 Gimbal! The CAME-7800 is a 3-axis gimbal designed for cameras like the Canon 5Dmk3, Canon 5Dmk2, Canon 7D and even the Panasonic GH-4.
The CAME-7800 features a clean design that hides all of the wires to ensure they don't get damaged while it's being used. The 7800 Gimbal, also gives the shooter multiple operation modes that can easily be switched by pressing the joystick.