DVR Express® Core 2 CORE2CLMAXSERVER
IOI Recorder
Product Family |
DVR Express® Core 2 MAX |
Interface |
Camera Link |
Salient Features
DVR Express® Core 2: CORE2CLMAXSERVER
CORE2CLMAXSERVER – DVR, Core 2, PC System, Camera Link Inputs, SDI Video Out, IRIG-B/LTC,
optional GPS, AC power cords for Europe and UK sold separately
Core 2 MAX Server Product Highlights
- A single-
box solution combing the Core 2 MAX video recorder with an integrated Control- PC - Reliable uncompressed video recording from Camera Link, CoaXPress or SDI video sources
- Long recording durations at high frame rates
- Precise timestamps with integrated IRIG input or optional single/dual-
channel GPS receiver - Network control and real-time h.264 streaming
- DVR Express® Core 2 MAX Server Datasheet PDF>>
- DVR Express® Core 2 MAX Datasheet PDF>>
Advanced High-Speed Digital Recorder with IRIG and GPS
- Records up to (4) cameras with Camera Link Base, Medium, Full or Full 80-bit output formats and clock rates up to 85MHz
- Area and Line Scan camera types supported
- Power over Camera Link (PoCL) provided on all ports
- Bidirectional ports allow pass-through repeat features as well as output of recorded video over Camera Link, simulating
up to (2) CL-Base cameras at once or (1) CL-Full camera
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Supported Camera Link Connections |
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Model |
Base |
Med/Full |
Base In/Out |
Med/Full In/Out |
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CORE2CLMAXSERVER |
4 |
1 |
2 |
1 |
DVR Express® Core 2 MAX Server Applications
- Test Range Video Recording
- Space Launch Imaging
- Multi-Camera Motion Capture
- Stereo and 3D PIV/PTV
Compatible with IO Industries CoreView and Streams™ 7
Back to DVR Express® Core Recorders
DVR Express® Core 2 MAX Server
Specifications
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DVR Model |
DVR Express Core 2 MAX Server Option |
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CPU |
Intel Core i7 (quad core) |
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RAM |
16GB DDR4 |
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Graphics |
Intel HD w. DisplayPort, HDMI and DVI- |
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OS Disk |
240GB SSD (removable) |
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Operating System |
Windows 7 Embedded |
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Optical Drive |
Blu- |
|
Export Drive |
Removable 2.5” SATA drive tray provided (empty) |
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COM |
2 RS232 ports |
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Network |
2 Gigabit Ethernet ports |
|
USB |
6 USB 3.0 ports (2 front, 4 rear) |
Mechanical/ Electrical
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Dimensions |
409 x 434 x 86mm (16.1 x 17 x 3.4″) |
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Weight |
Approx. 9.6kg* (21.2 lbs) |
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Construction |
Powder- |
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Power |
100- |
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Shock/Vibration |
TBD |
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Temperature |
Operating: 0° to 45°C Storage: – |
*Depending on model and installed media, excludes PoCL/PoCXP power for cameras.
Mechanical Diagrams
Front View
Side View
GPS Options Available
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Supported Constellations |
Supported Frequencies |
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Receiver |
Description |
GPS |
GLONASS |
BEIDOU |
L1 |
L2 |
B1 |
B2 |
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G01 |
Entry- |
X |
X |
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G02 |
Entry- |
X |
X |
X |
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G03 |
GPS receiver, L1, 20Hz |
X |
X |
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G04 |
GPS/GLONASS receiver, L1, 20Hz |
X |
X |
X |
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G05 |
GPS/BEIDOU receiver, L1/B1, 20Hz |
X |
X |
X |
X |
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G06 |
GPS/GLONASS/BEIDOU receiver, L1/B1, 20Hz |
X |
X |
X |
X |
X |
||
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G07 |
GPS receiver, L1/L2, 20Hz |
X |
X |
X |
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G08 |
GPS/GLONASS receiver, L1/L2, 20Hz |
X |
X |
X |
X |
|||
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G09 |
GPS/BEIDOU receiver, L1/L2/B1/B2, 20Hz |
X |
X |
X |
X |
X |
X |
|
|
G10 |
GPS/GLONASS/BEIDOU receiver, L1/L2/B1/B2, 20Hz |
X |
X |
X |
X |
X |
X |
X |
|
RECEIVER |
G01- |
G03- |
|
GPS Timing Accuracy |
20ns RMS |
20ns RMS |
|
Position Accuracy |
L1: 1.5m, SBAS: 0.6m |
L1: 1.5m, L1/L2: 1.2m, SBAS: 0.6m |
|
Channels |
14 |
120 |
|
Signal Reacquisition |
L1: 1.0s |
L1: 0.5s / L2: 1.0s |
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Time to First Fix |
Cold: 65s / Hot: 35s |
Cold: 50s / Hot: 35s |
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Data Rate |
1Hz |
20Hz |
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Video Timestamp Accuracy |
+/- |
+/- |
GNSS (Global Satellite Navigation System):
GNSS refers to any satellite-
GPS (Global Positioning System):
GPS is a GNSS with global coverage operated by the U.S. Department of Defense. The constellation includes 31 satellites using two frequencies referred to as L1 and L2.
GLONASS (Global Navigation Satellite System):
GLONASS is a GNSS with global coverage operated by Russia, with comparable precision to GPS. The constellation includes 24 satellites using two frequencies referred to as L1 and L2. GLONASS’ orbit makes it especially suited for usage in high latitudes (north or south), where locking to a GPS signal can be problematic.
BeiDou Navigation Satellite System (BDS):
BDS is a GNSS with regional coverage operated by China. The constellation includes 21 satellites that cover the Asia-
Receiver:
A GNSS receiver is a hardware option available when ordering a Core 2 MAX digital video recorder. When paired with an appropriate antenna and RF cable (sold separately) this device receives and digitally processes signals from GNSS satellites. Depending on the selected receiver, one or more frequencies from one or more constellations (including GPS, GLONASS and BDS) can be received. This results in an accurate time reference for the timestamps applied to all video frames during recording. As well, a stream of accurate position data (up to 20 updates per second), can be recorded along with the video.
GPS Timing Accuracy:
Refers to the accuracy of the precise clock used by the GNSS receiver.
Position Accuracy:
Refers to the accuracy of the position data determined by the receiver. Typically stated as a radius, the position accuracy can be improved from the basic single-
SBAS (Satellite-
A system that provides correction data to GNSS receivers to further improve position accuracy. A system may provide correction information applicable to a wide area or a smaller regional area. Multiple ground stations, located at accurately-
receive GNSS signals and calculate the position error. This is transmitted to a satellite network which then broadcasts the data to any SBAS-
Channels:
A GNSS receiver searches for satellites on multiple signal channels simultaneously, attempting to lock to as many satellites as possible to compute the best solution for the position of the receiver. The number of channels a receiver supports affects how fast the receiver can lock to enough satellites to achieve a solution, as well as the Time to First Fix and Signal Reacquisition rates.
Signal Reacquisition:
The time it takes a GNSS receiver to lock to satellite signals after a complete loss of all signals for a short period of time.
Time to First Fix:
The time it takes a GNSS receiver to produce a first position solution.
Data Rate:
The frequency of time and position messages transmitted by the receiver to the Core 2 MAX video recorder. A higher sampling rate leads to better position accuracy, especially for mobile applications, and a higher video timestamp accuracy for all situations.
Video Timestamp Accuracy:
Refers to the accuracy of the timestamps applied to all video frames during recording, relative to GPS time, when the receiver is locked. With no GPS receiver installed, the timestamp clock of the Core 2 MAX is initialized to the time of the connected PC, then experiences drift throughout operation. With a GPS receiver, the timestamp clock is updated continuously (at a rate equal to the receiver’s data rate), reducing total drift over time to the maximum drift between an update period.
