Kinefinity Inc. has been developing cameras covering optical design to FPGA, circuits and software, with
assistance from filmmakers, broadcasting industry and academic schools.
Large format MAVO LF and flagship S35 camera MAVO 6K are the latest 6K cameras with high performance.
TERRA 4K is the entry-level cinema camera but as easy as DSLR for video shooting. Employing sub S35 frame
CMOS imaging sensor, TERRA 4K records up to 4K+ resolution, with 4K wide up to 100fps and 2K wide up to
240fps, can shoot either ProRes or RAW.
Sub S35 3:2 CMOS imaging sensor: crop factor is 1.85; but it is 1.3 if with KineEnhancer;
Dual ISO: 3200/800, low noise level and high latitude image no matter low light or regular shoot;
ProRes: ProRes recording at full resolution, in-camera oversampling 4K to 2K, super image quality;
Compressed RAW cDNG: The compression ratio of cDNG can be set to 3:1, 5:1, or 7:1, which is
supported by DaVinci Resolve for editing or grading;
Compressed RAW KRW 2.0: It might be enabled in firmware in 2019;
240 fps: Up to 240fps@2K Wide; up to 150fps@3K Wide; up to 100fps@HiSpeed 4K Wide;
Low rolling effect: Image quality is still high even for moving shoot;
13+ stops with KineLOG3: Preserve highlight and shadow perfectly, provide maximum room for
post;
Custom LUT: Support third-party 3D LUT from shooting to post;
2.5-inch 7mm professional KineMAG SSD as Record Media, compatible with consumer-type SSD;
KineMOUNT (Interchangeable mounting system) supports PL/EF/Sony E Mount and even EF/PL
Mount with e-ND;
Multiple monitoring outputs: Video port x2 and HD output x1 on the body; 3G SDI output X2
through KineBACK-W.
This is TERRA, a high-performance sub S35 cinema camera with such a compact body, no boundaries for
creating: suitable for both one-man job and film crew shoot without limitation; ProRes codec enables fluent
post workflow. With professional ports, TERRA is a powerful cinema camera offering amazing footages while
supporting effective post workflow.
Page 3
TERRA 4K Operation Manual(KineOS 6.2)
SAFETY TIPS
Please read all contents of the manual carefully:
Pay attention to the CAUTION and NOTE;
Do not use the camera near water in case of water droplets splash on the camera body;
Do not expose the camera to severe vibration;
Do not use camera under direct sunlight; operating temperature should be from 0 ℃ to 40℃;
Do not use the camera near strong magnetic field, pretty dust, high humidity or lighting storm places;
Avoid condensation during transportation or transitions;
Do not block the vent, or it will cause overheating and damage to the camera;
Do not face the LCD/OLED screen to direct sunlight, and do not squeeze or hit the monitor in case of
any damage to the screen;
Only use accessories recommended by Kinefinity.
While using the camera, please:
Please turn off the camera when you try to attach or detach a lens Mount, KineBACK-W or HDMI
monitor;
Avoid touching the OLPF when attach or detach an adapter, as the optical element is fragile. TERRA 4K
delivered after May 2018 is with new structure, and OLPF can be changed by customers;
KineMOUNT plus EF mounting adapter is a lever-locking (cine-type) EF mount. When mounting a lens
to the camera, the position of red dot in the mount is DIFFERENT from DSLR camera. Secondly, it is
LOCKING RING rotation, NOT lens rotation to make sure EF lens locked firmly and to be contacted well
with pogo-pin contact inside of EF mount in any case (According to the direction of the arrow);
Hold tight the lens to prevent dropping when loosening the locking ring to remove the lens.
Strongly recommend inserting or removing the SSD after camera powers down. If you like to hotswap,
you must Deactivate the SSD at first (SSD section in UI shows SSD: Ins), and then push up the SSD latch
to get the SSD out.
2.1 Power Supply .......................................................................................................................................................... 11
2.2 Mount ........................................................................................................................................................................ 12
2.5 Record Media SSD ................................................................................................................................................ 15
2.9 Downscale and Crop Mode ............................................................................................................................... 19
2.10 Access clips on PC/MAC .................................................................................................................................. 20
3. SETTINGS AND ADVANCED OPERATIONS ........................................................................................................ 22
3.1 Footages and Slate ............................................................................................................................................... 22
3.2 Exposure and White Balance ............................................................................................................................ 23
3.2.1 Color Temperature List ................................................................................................................................ 23
3.2.2 Auto White Balance ...................................................................................................................................... 23
3.3 Slow-Mo and Quick-Mo ..................................................................................................................................... 26
3.3.1 Two Types of FPS ........................................................................................................................................... 26
3.5.2 Black Balancing ............................................................................................................................................... 29
3.6 TimeCode and SYNC ............................................................................................................................................ 30
3.6.1 TC port and TC cord ..................................................................................................................................... 30
3.7 Configure Camera ................................................................................................................................................. 32
3.7.3 Camera Fan and Core Temperature ........................................................................................................ 33
3.7.4 ISO ....................................................................................................................................................................... 34
3.8 Control Cameras with iPad (KineRemote) .................................................................................................... 35
3.9 3D and SYNC .......................................................................................................................................................... 36
3.9.1 Steps to set the two cameras .................................................................................................................... 36
3.9.2 Playback and Change Parameters ........................................................................................................... 37
3.9.3 Clip Name for Post Workflow .................................................................................................................... 37
3.10 Anamorphic Lens Support And 4:3 Recording ........................................................................................ 38
5.2.1 DC IN .................................................................................................................................................................. 44
The native mount is KineMOUNT, which works together with Mounting Adapters for different lenses, but
only the lenses that are tailored for KineMOUNT can be mounted directly.
Front View (KineMOUNT) Left View of Body with KineBACK-W (KineMOUNT)
More details about the professional ports on KineBACK-W is introduced in the buttons review.
CAUTION Keep clear of the air intakes at both front and rear of the body as well as the air vents at top and
CAUTION Cameras delivered after May 2018 is with the new quick release port, which is for the KineBACK-
W. It is easy to mount it on the body, but please also be careful when you do it. While other
TERRA is with old version port and KineBACK instead of the quick and hard connection,
therefore, please follow the instructions and be cautious when you install/remove KineBACK
to/from camera body.
Back View Right View of Body with KineBACK-W (KineMOUNT)
For the definition of ports, please refer to 5.2 Connectors. SYNC and Video Ports are proprietary.
NOTE TERRA 4K cameras shipped before Dev. 2018 only have one Video port.
Under Liveview Mode, set the parameters by [Multifunction Wheel]; under Playback Mode, select and switch
between clips by [Multifunction Wheel]. Detailed instructions as follows:
Buttons and wheel on SideGrip are basically the same as on the body,
functions:
NOTE SSD Button is only on camera body; Sleep Mode Button is only on SideGrip.
Once the camera is powered on, it enters into the Liveview mode right away: parameters of current scene are
displayed on the top and bottom. Press [Multifunction WheelCentral Button] to show/hide Waveform.
NOTE CMOS Imaging Sensor FPS is the actual capturing FPS of the sensor, set by [Multifunction
Wheel]; Project FPS is the playback FPS in post work, set by [Configuration].
NOTE EF Iris control is only for lenses in the White list; other lenses might not be recognized or
The camera allows different types of power supplies:
GripBAT 45Wh (compatible with BP-U30) fits TERRA with SideGrip.
Single GripBAT 45Wh is able to power TERRA for 100 mins. SideGrip is
connected to the "SideGrip Port" on camera body by three M2.5
screws, which enables a kind of “DSLR”shooting style.
Supper Compact V battery KineBAT 120Wh (compatible with V-
mount batteries) fits TERRA with KineBACK-W. Single KineBAT 120Wh
can power TERRA for more than four hours. KineBACK-W only comes in
a V-mount version, and does work with other V-mount batteries.
KineBACK-W has one EXT port providing 12V outputs and two D-TAP
ports. For the definition of EXT port, please refer to Chapter 5.2.3.
Use different power cords to the 2-pin power port of camera body:
D-Tap Power Cord: connect the D-Tap plug to the D-Tap socket of battery/battery plate, and
connect 2-pin push-pull plug to the 2-pin power socket of camera body;
XLR Power Cord: connect the 4-pin standard XLR plug to the XLR socket on storage battery
(11~19V), and connect the 2-pin push-pull plug to the 2-pin power port on camera body;
Kine AC Power Adapter: connect the adapter to a power bar, and plug 2-pin push-pull plug to the
2-pin power socket of camera body.
CAUTION The input range for TERRA is 11~19V, or the camera might be burned.
CAUTIONPlease pay attention to the direction of 2-pin DC IN port on camera body when pull/plugging the
power cords: align the red dots.
NOTE A V-mount to Anton-Bauer Plate Adapter is needed if you want to use Anton-Bauer (golden
mount) broadcast battery.
NOTE When two of the three power supplies are available at the same time, TERRA will automatically
choose the source with higher voltage, and allows hot-swap of batteries.
NOTETo save power, use other power supply for monitors and turn off WIFI.
NOTE Since KineOS 6.2, if the voltage detected is too low to continue shooting, the camera will
automatically stop recording to avoid damage on the clip. But for sudden power failure due to
accident during the recording of a file, the last clip might be damaged, and please refer to
Chapter 2.5 SSD MAG.
Page 12
TERRA 4K Operation Manual(KineOS 6.2)
2.2 Mount
TERRA is designed with original KineMOUNT, which needss a Mounting Adapter II before attaching a lens.
The adapters include EF Mounting Adapter II, EF Mounting Adapter II with KineEnhancer, EF Mounting
Adapter II with e-ND, PL Mounting Adapter II, PL Mounting Adapter II with e-ND, and also SONY E Mounting
Adapter.
There are only three steps to install adapter II to the KineMOUNT, take EF adapter as an example. Turn off
the camera and then:
1. Release: keep pressing the KineMOUNT Release Button and rotate the locking ring of KineMOUNT
counter-clockwise, then take off the KineMOUNT cover;
2. Install: there is a positioning slot above the electronic contacts of KineMOUNT, please match the
arcuate protrusion on the adapter with the locating slot of KineMOUNT when attaching the
mounting adapter to the camera;
3. Lock: rotate the locking ring of KineMOUNT clockwise to fasten the adapter to KineMOUNT firmly.
Power on TERRA after mounting the adapter. Press "CONFIG" and check the bottom of this menu, if it
presents EF sys 9(or other number), it means you have mounted the adapter successfully.
CAUTION Power off camera when swapping different adapters, else camera or adapters may get burned.
CAUTION As the FFD of KineMOUNT is very short, please don't try to attach any lens directly to
KineMOUNT, or it will cause permanent damage to CMOS imaging sensor and OLPF, except
lenses tailored for KineMOUNT.
NOTE TERRA's New KineMOUNT only works with Mounting Adapter II.
NOTE When install the EF Mounting Adapter II with KineEnhancer or e-ND, please don't touch the
optical glass. Any damage caused to the glass is irreversible, and the glass has to be replaced.
No matter attaching a DSLR still lens or PL cine lens, TERRA employs Lever-locking (Cine-style) mounting
system, rather than DSLR camera mount.
Steps to attach EF lenses
1. Release: Rotate the locking ring of the EF mount clockwise, take off the cover and lens cover;
2. Install: Align the "red dot" on the lens with the "red dot" on the mounting adapter. Make sure that
the pin on mount engages with the hole in the mount of the lens. For EF-S lens, align the white
square on lens with the one on the mount.
3. Lock: Rotate locking ring (NOT lens) counter-clockwise (follow the arrow of "lock sign" on mount)
until it is fastened firmly.
CAUTION The mounting adapter might be burned if a lens/adapter with all-metal rear end is attached
directly to the camera body. In this case, please keep electronic iris control off:
[ConfigurationSetting Active MountDisable].
NOTE The following mount lenses with electronic contacts: Sigma18-35 T2.0 and Canon18-80 T4.0,
may show iris value on UI, but please do not change the value by the Wheel, or it will cause the
malfunction of the camera or the lens, we strongly recommend turning off the electronic iris
control. [ConfigurationSettingsActive MountDisable].
KineEnhancer
TERRA 4K can use adapters with KineEnhancer and turns sub S35 into a larger format than S35 (crop factor is
1.3) with shallower depth of field, and even one more stop on max aperture.
NOTE EF-S lens can NOT be used on KineEnhancer as it has longer rear end than EF lens and will touch
and damage the optical glass. Lenses that need to move the rear under for focusing also can
NOT be used on KineEnhancer.
Please choose recommended EVF or Field Monitor with Video, 3G-SDI (Not HD-SDI) or HD digital input, and
connect the input port of EVF or monitor to output port of the camera body with a high quality cable.
Suggestions for monitoring:
KineMON 5″ Full-HD Monitor: with the Kine Video Cord our monitor gets both power supply and
video signal through the same cable. There are many appropriate accessories available to firmly
mount the monitor according different needs.
SmallHD Monitors 500 series and 700 series: can be connected to the HD Type-A port and two 3G-
SDI ports on KineBACK-W.
FSI broadcasting/cine monitor or other monitor with 3G-SDI port as director monitor or DIT monitor.
For the current firmware, HD Type-A port is only for video monitoring, but SDI port also supports audio
signal: output audio during the playback of files.
CAUTION Connect the monitors to the camera by HD video cable or SDI cable (75Ω) before they are turned
on, and please also pay attention to the direction of D-TAP cord.
NOTE Please choose the LP-E6 Battery Coupler (7.4V) when using the 3rd-party monitors,.
NOTE TERRA video output is only for monitoring, not recording. The monitoring FPS is different from
CMOS imaging sensor FPS; therefore, the external recorder cannot get the clips with the same
FPS and resolution as CMOS imaging sensor.
Functions of Buttons on KineMON
PEAK: peaking focus, show the red line peaking and black-and-white screen;
CLIP: marks clip exposure, show the overexposure and underexposure area;
False: marks false color exposure: overexposure/underexposure areas and the area between;
Wheel: press the wheel to trigger backlight setting, and rotate the wheel to set the level of backlight.
NOTE Turn off the KineMON to save the power for longer duration.
Please insert the KineMAG 500G/1T SSD or other 2.5" 7mm SSD to SSD slot before powering the camera.
SSD slot has a secure latch: push the latch upwards before inserting or pulling out the KineMAG. Button
under the slot controls the operation of KineMAG, and the LED indicator beneath the button shows the
status of KineMAG.
Check the SSD status on the monitoring screens:
Blinking red [No SSD]: the SSD indicator is off, which means that there is no SSD in the slot, you can
not shoot. Insert the SSD into the slot and reboot the camera;
Blinking yellow [SSD: Ins]: the SSD indicator is red now, which means that there is a SSD detected but
hasn't been activated, you still can't shoot under this status. You need to:
Activate the SSD: press [SSD] button, and choose [SSD Maintenance Activate] or twice-
quick press on SSD button; if the SSD has been formatted into HFS or NTFS, it will be
activated successfully showing SSD capacity and green [SSD: Act].
Rebuild SSD: if fail to activate SSD, please rebuild it in camera. Press [SSD] button, choose
[SSD Maintenance Rebuild]. Then activate SSD, SSD status displays green [SSD: Act.
Green [SSD: Act] with SSD available capacity and total capacity: SSD indicator is Green which means
the SSD is ready for shooting and the clips will be recorded into it.
Please make sure that the SSD is deactivated before taken out: pressSSD button [SSD Maintenance
Deactivate] or press the SSD button twice, SSD status turns into [SSD: Ins], then push the latch upward and
pull out the SSD.
CAUTION Data can't be recovered after the SSD is rebuilt/formatted; please backup all data before
formatting.
CAUTION Due to the protrusion on case of Samsung 860 Pro, the door of SSD slot may be damaged when
taking this SSD from the slot.
NOTE Please do insert the SSD before the camera is powered on, or the SSD will not be detected.
NOTE Only recommend KineMAG. Performance of 3rd-partyon data spec are not guaranteed. No
technical support or help on recording issues such as frame drop or data loss for 3rd-partySSD.
NOTE Please prepare backup SSD cards for backup in case of emergency on the set.
NOTE If it shows red "Flush" during recording, please try a KineMAG. If the issue still exists, please
contact us by email: sales@kinefinty.com, or your local dealer.
In-camera MIC: record audio using the in-camera MIC even if there is no KineAudio or 3.5mm MIC;
3.5mm Plug-in-power port: suit for 3.5mm MIC;
KineAudio dual XLR ports with Phantom 48V: KineAudio is a high quality pre-amp audio module with
Phantom 48V, and it is integrated into KineBACK-W. Also it has dual industry-standard XLR ports for
professional shotgun microphone. KineAudio CH1 and CH2 channel can be set independently since
KineOS 6.112.
If the camera has no KineBACK-W or KineAudio is disabled, audio is recorded by 3.5mm MIC if a microphone
is connected to the 3.5mm port; if no microphone is connected, audio will be recorded by the in-camera
MIC.
NOTE The audio will be packed into mov file only when the project FPS is the same as sensor FPS, or it
will be recorded into a separate mov file. For example, if the project FPS is 25.000, when the
sensor FPS is set to 30.000, it will show yellow 30.000 on the UI.
KineAudio and Phantom 48V
If a microphone needs Phantom 48V, you need to set the KineAudio: press the [Audio] button twice
[Audio ButtonAudio Management] [KineAudio: ON] and [Phantom 48V: ON]
Three modes for audio tracks:
Two audio tracks as CH1: recorded two tracks as CH1;
Two audio tracks as CH2: recorded two tracks as CH2;
Stereo: recorded two tracks as CH1(Defaut: left track) and CH2 (Default: right track) separately.
Generally, the camera audio can be set as one input if just using one MIC.
CAUTION When using microphones that don't need Phantom power, please turn off the Phantom 48V.
2.7 Playback
While in Liveview mode, press [Playback] button and enter into Playback mode, and [Preset List] button and
[Configuration] button act as Play/Pause button. Playback of the current clip is looped by default. Press
[Multifunction WheelRight Button] to the next clip; press [Multifunction WheelLeft Button] to the
previous clip. You can also fast forward or fast reverse by [Multifunction Wheel]. Please note that the
parameters in Playback mode are different from the ones in Liveview mode. Press [REC] button or [Playback]
to switch back to Liveview mode.
Recommend shooting ProRes as TERRA supports in-camera ProRes recording at all resolution and fps:
4K/3K/2K even 4K Wide 100fps. TERRA keeps all dynamic range of ProRes clips with KineLOG3, while the
monitoring LUT will not be burned into the clips.
TERRA also can in-camera record compressed RAW with cDNG format, and the compression ratio is
configurable, from 3:1, 5:1 to 7:1. DaVinci Resolve natively supports cDNG, so that you can directly import,
edit and grade the cDNG footage shot by the camera in DaVinci Resolve! No matter what compression ratio
3:1, 5:1 or 7:1, every format is able to achieve super high quality image and room for post-production.
NOTE No need to reboot the camera when switching between codecs, but the screen will be black with
a cross in the center for 5 seconds during the switch.
TERRA 4K doesn't have HiSpeed mode compared to TERRA 6K, but has lower rolling effect, which shows the
feature of high speed and low noise.
Oversampling/Downscale
Oversampling/Downscale: recording (output) resolution is less than actual sampling resolution by COMS
imaging sensor, while the image format of recording is the same with the image format of sampling. As all
effective area of imaging sensor is used, there is higher resolution but lower noise level. Oversampling at sub
S35 is 2K.
For most cases, downscale 4K/2K ProRes at sub S35 is recommended.
NOTE Due to the downscale in-camera process, there is no 2K KRW RAW at sub S35.
Cropping Mode
Cropping means that the CMOS imaging sensor only utilizes a center part of the image as effective sampling
area. Cropping mode can boosts frame rate higher than full resolution sampling:
Output 4K Wide full resolution sampling, up to 100fps;
Cropping Mode, 3K Wide (sub M4/3), up to 150fps;
Cropping Mode, 2K Wide (sub S16), up to 240fps.
Oversampling + Cropping = infinity combination of resolution, fps and framing. Select Cropping Mode by:
[Preset List(<)] Button or [ConfigurationShootingImage Format]
To access Clips from SSDs on PC or MAC, a SATA to USB3.0 reader is used to connect SSD to workstation or
laptop:
MAC platform (MacOS Sierra) can access SSD with either NTFS or HFS file format;
Windows platform can only access SSD with NTFS file format (format must be set as NTFS in camera).
NOTE Only the reader that supplied by Kinefinity is recommended to access SSD as some 3rd-party
reader may not work.
Play Clips on PC/MAC
All dynamic range of KineLOG3 ProRes clips is retained, and monitoring LUT will not be burned into the clips.
Therefore, LOG clips retain all of their dynamic range and color information. While playbacking the footage
at a computer use the LUT file that was used inside the camera and the image looks identical to the one
while monitoring during the recording.
When using Windows you need to install Quicktime7 to access ProRes mov file, while other DI softwares
such as SCRATCH, DaVinci Resolve do not need to install Quicktime7 to work with those files. MAC platform
can access or play ProRes files without other software tools.
Clip Folder
Each clip is saved in the SSD. The folder name is nearly the same as the clip name, but no file extension, eg:
folder PRJ-0002-003-A2_5D8A (meaning of clip name, see 3.1 Footages and Projects Information) includes:
PRJ-0002-003-A2_5D8A.mov: is ProRes mov file.
PRJ-0002-003-A2_5D8A-L.wav and PRJ-0002-003-A2_5D8A-R.wav: are the uncompressed audio files
of CH1 and CH2.
***.cube and ***.look are the LUT while monitoring, format is cube or look format.
PRJ-0002-003-A2_5D8A_snapshot.bmp: the snapshot of this clip, resolution 1/2x1/2.
PRJ-0002-003-A2_5D8A -slate.txt: contains most of the information when shooting the clip, like
shutter speed, ISO, highlight, color temp, etc.
0.mt: internal camera information when recording.
Please send slate.txt and 0.mt to Kinefinity if clip files show abnormal.
NOTE If Project FPS is the same as Sensor FPS (shooting FPS), audio is embedded into ProRes mov file,
else audio is not embedded into mov file. But the camera always records audio into two wav files
at the same time, no matter slow-mo, quick-mo or regular speed.
NOTE Whenimporting mov files into editing software, enter and search *.mov by the dialog box, all
mov files will be listed automatically, then press CTRL+A / ⌘+A to select all mov files and drag
them inside your NLE.
Post Workflow on cDNG
The camera can in-camera record compressed RAW as cDNG format, and the compression ratio is
configurable, from 3:1, 5:1 to 7:1, each is able to achieve super high quality image and room for postproduction. Da Vinci Resolve natively supports cDNG, so that you can directly import, edit and grade the
cDNG footage shot by the camera in DaVinci Resolve! And cDNG is also natively supported by SCRATCH
V9.0. The LUT used on site is automatically applied when you import the cDNG clip into SCRATCH, and the
audio track is also connected automatically.
For RAW files, they might look different in DI tools. But SCRATCH V9.0 has optimized the process for clips of
Kine cameras, it applies the LUT you used automatically to the clip. After disabling the LUT, you will get the
right RAW clip embedded with KineLOG3, which looks the same as the ProRes clip with KineLOG3, and you
can add Kine Neut LUT or other LUT into it. Since DaVinci Resolve doesn't have such optimization for the
clips, the color will be quite different when import cDNG file into Resolve. But we can adjust the RAW
decoding settings to get the actual RAW clip embedded with KineLOG3.
1. Set RAW Project: open Resolve, then [Project
SettingsCamera RAW];
2. Set decoding method: select [RAW
ProfileCinemaDNG], and then choose [Decode
UsingProject];
3. Set decoding details:
a) White Balance: choose [Cloudy];
b) Gamma: select [Linear];
c) Lift: set to 3.20;
d) Tint: unboxed, and use the default as 10.00
After the settings are done, you can import cDNG files
and get the clip with KineLOG3.
PRJ: Project Name;
0002: Scene Num;
003: Take Num;
A: Camera Unit;
2: Camera Num;
5D8B: random
numbers
SSD Roll Label
A002_6D09B6
A: Camera Unit;
002: Roll Num;
6D09: First Four
Digits of Serial
Number;
B6: Random numbers
Menu Operation
Change Project FPS
[ConfigurationShooting
Project FPS]
Menu Operation
Set Project Information
[ConfigurationShooting
Slate]
3. SETTINGS AND ADVANCED OPERATIONS
3.1 Footages and Slate
When start a new project, please make sure:
Project FPS: the fps used by playback clips, editing clips or delivery
matches up with the project FPS of the camera. For example: 24fps
for feature movie and 25fps for TV (PAL). Project FPS should not be
changed after project kicks off;
Slate information: set clip name, director name, DoP and so forth on to
the project, and you can find all the information in slate.txt.
Codec: choose in-camera ProRes or cDNG RAW;
Project Blanking: can choose from 2.4:1, 2:1, 17:9, 16:9, 4:3 or
Instagram ratio 1:1, also 9:16 and 1:2 for smart screens. Project
Blanking is also applicable for anamorphic shooting.
Codec: choose based on the project, post workflow or the habit of the colorist:
In-camera ProRes: most of the projects can be recorded in ProRes
422HQ (visually lossless), and in-camera oversampling to 4K/2K ProRes
with high image quality, efficient and reliable;
Compressed RAW cDNG: can in-camera record compressed RAW with
CinemaDNG format (compression ratio 3:1, 5:1 and 7:1) which is
natively supported by DaVinci Resolve.
Set the project information, such as Project Name, DoP Name, Roll Num, Take
Num and so on, in [Configuration]
Set Project FPS: [ConfigurationShootingProject FPS]
Set Slate: [ConfigurationShootingSlate]
Set Project Blanking: [ConfigurationShootingProject Blanking]
Use the left/right/up/down buttons on [Multifunction Wheel] to change the
information. All will be listed on the Slate and the SSD Roll Label, see eg:
Before a new project, we suggest setting Scene Num, Roll Num and Take Num
as "1". Then Roll Num of the SSD card will be incremented by 1 each time of
shooting after formatted in the camera, convenient for DIT to backing-up clips.
NOTE Project Blanking only acts as a reference for monitoring, camera will record the full active image.
NOTE For 3D shooting or multi-cam SYNC, please refer to 3.9 3D and SYNC.
The color temperature is tuned by directly adjusting RGB channels of sensor to
change original RAW data, rather than apply a digital LUT. Although you can
modify white balance of RAW data or change color temperature by post
processing, all the modifications are based on the data you shoot previously. In
order to minimize the distortion in post processing, it is important to gain as
accurate color temperature as possible in shooting stage.
3.2.1 Color Temperature List
The camera has two types of color temperature lists for white balance: Simple
List and Complete List.
Simplel List: with typical color temperatures such as 2800K, 3200K,
4300K, 5500K, 5600K, 6400K and UserWB. Among them, UserWB is
user-defined value, which is automatically generated when do the
Auto WB manually.
Complete List: complete color temperatures according to the
portfolios of color temperatures (in accordance with the 100K for a
step) and lighting types. You can simply choose the one to match with
your shooting condition.
To change color temperatures: [ConfigurationLiveview Color
Temperature List]
3.2.2 Auto White Balance
For most cases, the Complete List of color temperature will meet the needs.
However, if the color temperatures listed in the built-in lists are not enough
to meet complex shooting lighting conditions, use a gray card or white card
to do Auto WB to achieve specific color temperature. To do the Auto WB:
1. Put a gray card at front of the camera;
2. You may Zoom to make the gray/white card cover the whole display;
3. Choose: [ConfigurationLiveview Custom White Balance]
The camera corrects the white balance parameters, and writes the color
temperature value to the UserWB. Once the UserWB is set, it can be used
anytime later on.
Waveforms, zebra and histogram help cinematographers determine the
exposure of images. Waveform indicates the brightness of images over the
horizontal direction, while histogram right corner of UI shows the statistical
information on the brightness of whole image.
The Waveform matches the images by default, and shows the LUT NeuM,
too. Waveform will change according to the different LUT. You can also
choose to check the waveform without LUT by
[ConfigurationLiveviewWaveform]
You can choose different displays for waveforms and:
LUT: The waveform information displays distribution of RGB, which is
based on RAW data after the processing of monitoring LUT loaded.
LOG: The waveform information display R/G/B three color channels
distribution based on the RAW data. It is pure RAW with KineLOG3.
NOTE When over 100% on the waveform of LUT, images do not mean
overexposure definitely, only over clipping line on waveform with
Zebra strip is a very straightforward way to show the overexposed area in an
image.
For TERRA, the zebra calculation is based on RAW data: RAW data is
overexposed when the zebra appears. So observe carefully to avoid
unintentional over-exposure in most cases, as it is the "dead white" in the post
workflow.
Zebra threshold value can be set in different values:
[ConfigurationLiveviewZebra Pattern].
The default threshold value is 90%: it means that it displayS zebra when the
light exceeds 90% of the maximum range.
3.2.5 e-ND
E-ND refers to electronic ND (Electronic Neutral Density Filter), it is based on
modern liquid crystal materials and optics controlled electronically, which is
completely unlike conventional technology such as a rotating filter wheel or
polarising ND Filters. It covers a wide range from 0.6 to 3.0 (2 stops to 10 stops),
and brings sharp images with color fidelity.
Seamless adjustment brings a very important feature: accurate exposure stop,
which is what traditional glass ND filters don't have. You can also set the
accuracy to one stop (0.3) for each rotate, but the default set is seamless
adjustment by 0.1 stop (0.03).
NOTE E-ND is only embedded to EF/PL adapters, but not inside the
Sensor fps: It is the capturing fps of the sensor. Shown on the up center on
the UI as well as on the slate, it can be set by the [Multifunction Wheel].
Project fps: It is the fps that is used for playback clips, editing clips or
delivery. You can choose one of them based on your need. For example:
24fps for movie and 25fps for TV release (PAL). Set the Project FPS:
[ConfigurationShootingProject FPS]
When the Project fps is set to 25fps, whatever you set your sensor fps, clips
will be played at 25fps in post-production or in-camera playback. For
example: we usually choose 22fps Sensor fps for shooting action movies, but
choose 25fps for playback. It makes the actions seems faster when playback.
The factory setting of project fps is 25fps.
3.3.2 User-defined Sensor FPS
Regular fps, like 24, 25, 30, 48, 50, 96, 200, are available in FPS Shortcut List,
you may also customize other fps in menu:
[ConfigurationShootingCustom Sensor FPS].
You can define three fps to any value between minimum fps (6fps) and the
max fps of current resolution w/ accuracy 0.001fps.
Define the sensor FPS to 22fps, there will be 22fps option in the
sensor shortcut list at any resolutions;
Define the sensor FPS to 149fps, the 149fps option would not appear
at sub S35 4K resolutions, but will appear in the Sensor fps menu at
sub S35 M4/3 3K resolutions.
You can delete the customized Sensor fps by modifying it to 24 fps.
NOTE When shoot slow-mo or fast-mo (Sensor FPS is different from
Project FPS), the audio track will not be packaged into mov file if
the record codec is ProRes mov, but instead two uncompressed
TERRA supports custom LUT perfectly: from shooting to post with custom
LUT. There is one in-camera preset LUT: KC_Neut. KC_Neut has more accurate
highlight and details in shadow than Kine709 and covers balanced tone with
normal saturation and contrast.
You can upload a LUT to TERRA, switch different LUT/Look instantly when
monitoring. While record cDNG or ProRes with custom LUT; it does not get
burned into the footage: RAW is RAW, on-site LUT for monitoring is dumped
to clip folder, and can be used by the editor for a quick grade.
You can upload 3rd-partyLUT to the camera as many as you want; supporting
up to 33x33x33 3D LUT Cube, SCRATCH and DaVinci Resolve can output
cube LUT.
3.4.1 Upload Custom LUT
It just needs three simple steps:
1. Output from DI software and rename it, rename the LUT into four
letters in English, like CAN1.cube;
2. Copy the LUT into root folder of USB stick as FAT/FAT32;
3. Upload to TERRA: insert USB stick to USB port:
[ConfigurationLUTLoad Custom LUT]; it only takes one second.
Reboot the camera, and the new LUT will be shown in the LUT
shortcut list if press [Multifunction Wheel Right Button].
NOTE The LUT will be overwritten, if the name is same, and there
3.4.2 Erase Custom LUT
Erasing the uploaded custom LUT is also intuitive,
Then all custom LUT will be deleted in a second, and only native KC_Neut will
be remained.
should be no blank in the name and not more than four letters.
[ConfigurationLUTClean Custom LUT]
Page 28
TERRA 4K Operation Manual(KineOS 6.2)
Menu Operation
Update Firmware
[ConfigurationSystem
Update Firmware]
3.5 Firmware Update and Option Upgrade
Updating firmware is easy and quick: download firmware from Kinefinity
website, prepare a USB thumb as FAT32. Besides, you can also downgrade to
the previous firmware version.
3.5.1 Firmware Update
The firmware version is shown at the bottom of Configuration menu, for
example, firmware: KineOS V6.2 (02), means KineOS version is 6.2 with
building number of 6202. Upgrade the firmware as following steps:
1. Download: Download the latest firmware, and copy it to the root
folder of a FAT32 USB disk; insert the USB disk into USB socket of
TERRA; there will be an USB label in the UI;
2. Update: do [ConfigurationSystemUpdate Firmware]. Confirm to
upgrade, wait about fifteen minutes till the successful display comes
out;
3. Reboot: Power down, and get USB disk out. Power on, and then the
new firmware takes effective.
If the camera shows the USB information but cannot update the firmware,
please refer to TERRA FAQ.
CAUTION Do NOT take any other operation and Never lose power when
CAUTION Remove any lenses before updating the firmware.
NOTE It is highly recommended that user should restore to factory
update firmware, else it may lead to failure of firmware update,
even camera has to be sent to Kinefinity for repair.
Every Kine camera has calibrated black balancing before shipping, which is
done under Calibration Mode. After a long period of usage, please do the
balancing again, and factory reset would not change the balancing data.
After upgrading to KineOS 6.1, please do as following:
1. Enter into Calibration Mode: hold configuration button when press
and release power button, after three seconds, release
[Configuration] button;
2. Calibration: put on lens cover or mount cover to make sure a total
black display, then [Configuration SystemBlack Balancing], it will
take about 5 mins;
3. Factory Reset: [ConfigurationSystem Factory Reset], then reboot
camera.
CAUTION Please reset to factory settings, or camera will stay in calibration
mode after reboot.
NOTE After black balancing, there is no dead pixel in normal ISO, but
there might be a few red/green/blue spot when ISO is
extremely high.
NOTE If there is white dot in some frames, it may be due to the
cosmic rays, not the malfunction of CMOS imaging sensor.
Timecode is one of key features of cinema camera. TERRA shows time code
in the Liveview and Playback state. Timecode is written into recorded clips.
For ProRes, the mov file contains a single timecode track; for RAW, every
single frame contains a specific timecode.
TERRA supports three types of timecode:
Free run: timecode runs all the time, no matter if you recording or
not, and the timecode is embedded into recorded clips;
Record run: timecode runs only when recording. We suggest to set
timecode to 00: 00: 00: 00 when a new project begins;
External TC: TERRA can use timecode from external device like
Ambient NanoLockit as timecode of camera: using special cable to
connect timecode generator to the TC port (on KineBACK-W) of
TERRA, then set timecode source as external in TERRA menu.
To set the timecode:
[ConfigurationSettingsTimeCode]
Choose the timecode mode or reset the timecode.
3.6.1 TC port and TC cord
The TC port is MOCO 0B 5-pin port as definitions right side. It is compatible
with ARRI Alexa camera TC port for LTC IN and OUT.
For timecode generator based on Ambient timecode system, such as
NanoLockit, also a 0B 5-pin port; check the TC cord on Kinefinity website or
contact sales@kinefinity.com.
In addition, camera can output timecode to other devices: connect the TC
input port of the device to the TC output port of TERRA by a special TC cord.
NOTE The external mode doesn't support Jam TC input.
There are three kinds of frame rates when using external TC: Project FPS of
TERRA, Sensor FPS of TERRA and External FPS of TC generator. From KineOS
6.1, make sure that the Sensor FPS is an integral multiple of the External FPS.
Timecode on UI will be green if you successfully set the system. If there is no
external timecode feeding into the camera, it will automatically employ the
internal timecode of the camera and show Yellow. If the timecode blink
green/red/yellow, you need to check if there is:
Improper settings on the frame rates
Poor cable connection;
Power loss of external timecode device;
Special settings needed for the timecode device. For example,
NanoLockit TC output needs to be activated manually.
3.6.3 Beeper and SYNC
The beeper in TERRA has two usages:
It makes a tone of 1KHz and 2KHz respectively when trigger on/off
record, to give signal to crew in the field. You can disable the beeper
by:
[ConfigurationSYNCBeeper: on/off]
It records a tone of 1KHz and 2KHz at the beginning of the video and
end of the video when trigger on/off record, as pilot for postworkflow. Disable the function by:
You can save settings to the camera: preset list, body fan speed, EI/ISO
mode, shutter mode, etc. When power on with USB disk, the camera will do
factory reset.
3.7.1 Preset
In-Camera Presets are a set of parameters for recording and shooting:
Image Format; Resolution; FPS; Shutter Speed; Record Format
Moreover, there are eight in-camera presets, and it provides quick switch for
these presets: [<] button to pop up the Preset Shortcut list.
Besides, customers can define and save these in-camera presets. After setting
these parameters in Liveview state, then:
[ConfigurationShootingSave as Preset]
You will find the preset you save on the list.
3.7.2 Shutter Display Mode
There are two modes for shutter display: Shutter Speed and Shutter Angle:
[ConfigurationLiveviewShutter Mode: Time/Angle]
Calculation between Speed and Angle, if Shutter Speed is 1/50s, and fps is
25, and then the shutter angle is:
25*360*(1/50) = 180 Degree.
The Shutter Angle of TERRA ranges from 0.7~358 Degree; the Shutter Speed
has min value 1/2000, and the max value depends on the FPS.
Besides, Shutter Speed List does NOT match Shutter Angle List.
NOTE Set appropriate shutter speed to avoid flickering: for example,
Core Temperature is the real-time temperature of core processor, not the
body temperature. It is shown in the Liveview and bottom of Configuration
menu, so that users can monitor it. For TERRA, if the core temperature
reaches up to 80 degrees, the temperature indicator turns into yellow; up to
90 degrees, indicator turns red, camera needs to be cooled down or even
turned off for safety, else it may bring permanent damage to camera body.
Two fans inside the camera:
Core Fan: cools the Core Processor; the fan runs quietly for most of
time, and can NOT be set manually;
Body Fan: cools the whole camera body, can be set manually.
You can adjust the body fan speed (factory set: 40%) from 30% to 100% or
even turn off:
[ConfigurationSettingsFan Speed].
Besides, you can choose to stop the Body Fan while recording, and there will
be less noise; the fan will be turned on automatically when stop recording:
ISO is a group of settings to capture light on the Sensor. ISO value of TERRA
4K is displayed at the upper right corner of the main interface. The default
setting is ISO 800, Highlight level (Highlight, that is from 18% gray to ADC
Clip) is 4.3 stops. TERRA 4K employs a whole-new, high speed &low noise
CMOS imaging sensor featuring with Dual Native ISO: 3200/800, which means
higher ISO and lower noise. No need to lower ISO when shoot slow motion. It
captures low-noise images with hight dynamic range in regular scenes or lowlight environment easily.
ISO Mode
Nominal value of ISO is ISO ASA, takes effect on the RAW data, and applies
different gain on the CMOS imaging sensor.
Change ISO: sensitivity and the image brightness are changed, while highlight
is unchanged. The dynamic range of 4K and crop mode is 13 stops, and
higher than 13 stops under sub S35 2K.
Highlight Stops
As the name suggests, more highlight stops means less shadows details. Less
shadows may mean more noise. If you want to retain more highlight details,
we suggest increasing to higher than 4.0 stops.
Change highlight Stops: sensitivity is unchanged, the image brightness and
dynamic range remain the same, but highlight and Shadow stops changed.
To set the highlight stops:
choose from 3.3~5.6 stops.
Dual ISO
TERRA 4K is with Dual Native ISO: 3200/800, which allows it to capture lownoise images with high dynamic range in regular scenes or low-light
environment very easily. When highlight level is 4.3, the native ISO for range
from 320 to 1000 is on 800 base, and on 3200 base for range from 1280 to
higher ISO.
If the camera is configured with WIFI option, you can use iPad (iOS 10 or
below) to control TERRA.
Current KineRemote APP is only available in App Store (New APP might be
launched in later 2019), search Kinefinity or KineRemote, then download and
install.
Turn on WIFI: [ConfigurationSettingsWIFI Power: On].
How to use KineRemote:
1. Set camera: Plug in Antenna to WIFI socket, and turn on the camera.
A wireless hotspot (AP) will be generated by camera automatically
such as kinefinity_5D8A, 5D8A stands for the first four digits of the
camera serial number.
2. Set iPad: Run KineRemote App installed on iPad: [SettingWIFI], and
choose to connect kinefinity_5D8A.
3. Open the APP: open the KineRemote, if you see the Timecode running,
it means you have successfully connected the camera to your iPad.
You can directly modify a parameter in KineRemote App by finger tap. For
example, to changes shutter, tap shutter Angle to pop up shutter setting list,
tap the Up or Down button with your finger to desired value, and click blank
space to confirm and exit.
NOTE LOOK is for Iris if attached an EF lens.
NOTE You need close the KineRemote in background when KineRemote
does not show parameter properly. Then open it again.
Two TERRA with KineBACK-W can implement real 3D shooting; you can
shoot multiple cameras in total sync with more TERRAs and KineSYNC box.
For TERRA cameras in sync state, the sensors are almost completely
synchronized: time code synchronization, frame synchronization and
scanning synchronization with less than 5us mismatch. You need to prepare:
1. Each TERRA equipped with KineBACK-W (3D shooting option
embedded); all cameras with the exact same firmware;
2. One or more 3D SYNC cables;
3. For multi-cam SYNC, a KineSYNC box is a must.
NOTE One KineSYNC Box can help a Master to synchronize seven
slaves. To synchronize 32 cameras, you will need 32/7=5
KineSYNC Boxes.
3.9.1 Steps to set the two cameras
For 3D shooting:
1. Connect the cameras: power off the two cameras, and connect them
with 3D SYNC cable to their SYNC ports on KineBACK-W;
2. Settings: mirror shooting parameters for both of the cameras such as:
shutter, sensor fps, project fps, resolution, ISO, highlights, etc. (suggest
factory reset at first);
3. Naming the clip: [ConfigurationShootingSlate] Please set the Lens
number of Master to 0001, and slave one to 0002, which represent the
left eye clips and the right eye clips. All the other clip parameters must
be set exactly the same, except clip names;
4. Auto WB with gray or white card for two cameras respectively, so that
they gain consistent color temperature;
5. SYNC: choose one camera to set: [ConfigurationSYNC3D Master],
and the other one: [ConfigurationSYNC3D Slave], then a sync
confirmation will pop up to confirm the serial number of the Master
camera.
After confirming the connection, Master/Slave in Green font appears on the
upper left corner of the screen, then press REC button of the Master Camera,
two cameras shoot fully consistent clips, which match the left eye and right eye respectively.
In current firmware version, playback is yet not supported in 3D, and you can
only playback in 2D mode. Therefore, you have to exit 3D settings firstly:
If you want to change parameters, please exit from SYNC mode and set the
parameters before you SYNC the camera again when in Liveview mode.
Here are the steps:
1. Exit from SYNC: please press Configuration or Playback button on the
Master Camera, choose [Disconnect 3D Sync] in the pop-up window.
The Master Camera turns into 2D/Single operation mode, and the
SLAVE enters SYNC mode: Green Slave will become Yellow SYNC
indicating that the Slave Camera enters into the standby state.
2. Change parameters: set the parameters for shooting or play back clips;
3. Sync again: set the 3D menu of the Master Camera, and connect the
Slave Camera again.
During the process, you don't have to set the Slave Camera, meanwhile, the
3D SYNC cable keeps connecting the two cameras.
3.9.3 Clip Name for Post Workflow
After the 3D shooting, the names of Master Camera and Slave Camera will be:
They represent the Left eye clip and Right eye clip. A1 and A2 stand for lens
number just as you set before shooting, A1 is the Master camera, A2, the Slave
Camera.
In this case, even you put all clips under one folder, there won't be naming
conflicts, and all the right eye clips are adjacent to the corresponding left eye
clips naturally.
For the naming of clips in details, please refer to Section 3.1.
Anamorphic was a technical choice for filming, but now an aesthetic
preference. Echo to more affordable anamorphic lenses, TERRA 4K, MAVO
and MAVO LF are now also good choices for anamorphic shooting, as the
CMOS imaging sensors are all 3:2. For TERRA 4K:
4:3 anamorphic: 3700x2700; with 2x anamorphic lens, the desqueezed
resolution is 7400x2700;
Open Gate: 4096x2700, all pixels of the CMOS imaging sensor are
captured, leave maximum room for post processing.
Under 4:3 anamorphic and Open Gate, frame rate up to 50fps support 2x,
1.8x, 1.75x, 1.5x, 1.33x, 1.25x, 0.5x anamorphic shooting, which falls into
almost all anamorphic lenses in the market.
When use 2x anamorphic lens:
De-squeezed image means images are recovered from 2:1 anamorphic lens.
It gets clips with amazing 7.4K resolution, and downscale to 4K and 2K in
post workflow.
For monitoring when shooting at 4:3 with anamorphic lens, you can desqueeze the images into normal image by setting anamorphic lens factor in
Configuration menu. For example, anamorphic lens factor is 2, set the factor
in camera to 2, then you can get normal view of 7.4K CinemaScope, not
squeezed image by lens.
Set the ratio: [ConfigurationLiveview Anamorphic Lens]
NOTE The recorded clips are 4:3 instead of de-squeezed and
monitoring depends on the ratio you set. To get normal
monitoring, you need to set de-squeeze factor to match lens,
but the actual clips are still 4:3.
Page 39
TERRA 4K Operation Manual(KineOS 6.2)
4. FAQ
If there is an issue about the camera or accessory, please check the related chapter in this manual. If the
issue still exists, please make a short video and fill in the issue report on issue report page. We will contact
you within one working day. The issues below are mostly due to improper operation of accessories or
camera settings.
1. Windows OS cannot get access to SSD:
Please check if the file system of KineMAG is NTFS. To change the format into NTFS before recording,
you need to set: [ConfigurationSettingsSSD file system: NTFS], then rebuild the SSD in the
camera.
Try another SSD reader.
2. Press REC button, camera does not record, no tally light.
Please insert the SSD into the camera before power on, rebuild the SSD into NTFS or HFS and
activate it, the SSD is ready for recording only when the SSD indicator is green.
3. Camera stop recording automatically after a few seconds when recording:
Check if your SSD has no capacity, and it shows red on the UI;
Check if you use KineMAG SSD: if you use 3rd-party SSD, its speed may not be fast enough.
4. No signal on Monitor:
Power off camera and connect output ports on the camera body to the input ports of monitors with
high quality cable. Power on the camera and monitors after all parts set up well.
Power off the monitor and reconnect the video cable.
5. Liveview seems dropping or skipping frames, stutter when camera pans:
It is normal for monitoring when panning, but recorded clips do not drop any frame if using KineMAG SSD.
Skipping frame on monitoring: monitoring signal from Kine camera is based on 25fps progressive (or
other CMOS imaging sensor fps), not 50i;
Skipping frame when playback on workstation: if recorded clips are 25fps, less than 30fps, the clips
will show it. If recording 50fps, and playback at 50fps, it will be much better.
6. No images from SDI on KineBACK-W:
Check if the monitor supports 3G-SDI, as the SDI output of KineBACK-W is 1080p;
Restore to factory reset: [ConfigurationSystem Factory Reset], or power on the camera with a USB
thumb connected to USB port.
7. No audio when playback the clip
Please check if the project fps is the same with sensor fps, if not, the audio will not be packed into
ProRes mov, but be saved as two wave files to the clip folder. For details, see section 3.3 Slow-Mo
and Quick-Mo.
8. Iris of electronic EF lens cannot be adjusted:
Make sure attach EF lens to EF mount in right way: please refer to Section 2.3 Quick Guide – Lens;
Make sure that the Active EF mounting adapter is assembled well: please refer to 2.2 Mount. EF
mounting adapter will show the "ef sys" + version number at the bottom of the menu;
Make sure the EF lens is compatible with Kine cameras: Whitelist for lens;
Make sure the iris control enabled: [ConfigurationSettingActive MountEnhanced]
9. There is no sound after inserting with XLR MIC of KineBACK-W:
Make sure there is a good connection between XLR port and the MIC;
Turn on KineAudio: press twice on Audio button or [ConfigurationAudioKineAudio: ON];
Turn on Phantom 48V if using phantom powered MIC: press twice on Audio button or
[ConfigurationAudioPhantom 48V: ON]
10. KineOS cannot update camera with new firmware:
Check whether [USB] shown in the UI after USB stick is inserted to the USB socket of camera, else
change another USB socket to try it;
Check USB disk is FAT32, not NTFS, nor HFS;
Check if the firmware is stored at the root folder of USB disk, and no other firmware files in the same
place;
Rebuild the USB disk as FAT applying MBR partition.
11. Black screen with a cross while switch between the codecs:
You don't have to reboot the camera when switching between codecs, but the screen will be black
with a cross in the center for a few seconds, this is not a failure or a bug.
Please try to enter into Calibration Mode: hold configuration button when press and release power
button, after three seconds, release configuration button. You can also upgrade the firmware under
this mode. But if you can not enter into calibrtation mode, please contact us by sales@kinefinity.com,
or contact your local dealer.
13. Recover the footage due to power failure:
Power failure during shooting may damage the currect footage, and footage can not be played back
in camera or computer. For ProRes footage, please use the method below. Please work in Windows
and that Quicktime 7 is installed. Download KineRecovery.zip to your PC, and then:
1. Copy files: unzip the file and copy KineRecovery.exe and QTCF.dll to the folder of footage, like PRJ-
0002-003-A2_5D8A;
2. Run: run the KineRecovery.exe to start the recovery;
3. Complete: the recovered mov file will be generated in the footage folder, name starting with “r”.
For more questions, please visit TERRA FAQ on official website.
This chapter introduces specification and pin-out of some connector/ports on camera body and KineBACKW including DC IN, CTRL, EXT and TC.
5.2.1 DC IN
DC IN is on the lower right of camera body, a 1B 2-pin MOCO socket. The voltage
range for camera is 11V~19V, DO NOT use power source higher than 19V, or the
camera will be burned. Also, please note that:
Max current of external power is 3A;
Max consumption of camera body only is 25W;
With KineMON, max consumption is 30W.
NOTE Red dot and groove on the socket should match pin #1.
5.2.2 CTRL
CTRL is on the lower front of the camera body, a 0B 4-pin MOCO socket.
Shorten pin #1 and pin #3 can trigger on/off;
Pin #2 can output 3.3V, max 1A. Pin #2 and #3 are for power supply;
Pin #4 is reserved.
CAUTION The camera will shut down if the current through Pin #2 is higher than
EXT port is on KineBACK-W, a 1B 6-pin MOCO socket. It outputs 12V, max current
1A, or even outputs power from V-lock battery plate when a battery is attached.
Meanwhile, EXT port is also used to provide power and control to Movcam motor
for follow-focus (UM4).
CAUTION The camera will shut down if the current through Pin #4 is higher than
1A.
NOTE CAN_L and CAN_H are for the control of Movcam motor.
5.2.4 TC
TC port is on KineBACK-W, a 0B 5-pin MOCO socket for timecode in or out. For
different timecode generators, such as Ambient timecode generator Nano
Lockit, or SoundDevice recorder which has TC system, the physical spec and
definition is the same.