Mermaid Technology 240 Appendix C Technical specifications, Electrical parameters Reference 25 C

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mermaid ventura 213/240 - Users manual Version 3.0

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Appendix C: Technical specifications

Electrical parameters

reference :

tA 25 ° C

 

 

 

 

 

 

 

 

 

Symbol

Descriptio

 

Mi

Ty

 

Ma

Uni

 

 

 

 

 

 

 

 

VDD

DC power supply

 

TBD

14.0

 

TBD

V

 

 

 

 

 

 

 

 

V i(RGB)

Video input signal (w.r.t. GND)

 

0.5

0.7

 

1.0

VPP

 

 

 

 

 

 

 

 

fS

Video sample rate

 

 

 

 

200

MHz

fH

Horizontal sync frequency

 

30

 

 

93

KHz

f vs

Vertical sync frequency

 

30

 

 

75

Hz

 

 

 

 

 

 

 

 

IDD1

Supply current +12V (w/o LCD & inverter)

 

 

0.85

 

 

A

 

 

 

 

 

 

 

 

IDD2

Supply current +12V (with LCD & inverter)

 

 

6.31

 

 

A

 

 

 

 

 

 

 

 

IDDPS1

Supply current +12V (with LCD & inverter, power save)

 

 

0.45

 

 

A

 

 

 

 

 

 

 

 

Additional features

Paramete

Value

Unit

 

 

 

Max. output resolution

1920/1600 x 1200

pixel

 

 

 

Data

24

bit

 

 

 

Input impedance: Analog

 

 

vide

75

oh

syn

470

oh

 

 

 

Sync polarities

+/-

 

 

 

 

Sync levels

TTL

 

 

 

 

Max. number of colours

16.7M

color

 

 

 

Operating temperature

0 ~ 50

° C

 

 

 

Storage temperature

-20 ~ 70

° C

 

 

 

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Contents Mermaid ventura 213/240 Table of Contents Connections FeaturesPreface Important informationUnpacking, placement and setup. PC Content of the BoxOSD Key functions Hot KeyNormal OSD Menu Main MenuSub-Menu Changes the color tone of the display OSD Functions & AdjustmentsChanges the overall brightness of image Moves the vertical and horizon location of the displayPicture by Picture Erases all user settings and go back to the default settingModify the sharpness of the display Picture in Picture¢¸ Bluish OSD set Sets up OSD appearanceInformation ¢¸ DecrementIf you need to contact us Guarantee termsSymptom Suggestions Reference TroubleshootingAppendix a List of tested graphic boards DVI In P3 Appendix B Connector specificationsPower In P1 Analog RGB in P2Pb In/Blue P7 Video in P4Cvbs n Composite Video P5 In/Green* P6Appendix C Technical specifications Additional featuresElectrical parameters Reference 25 C Wuxga Appendix D Video Mode SupportMin Typ Max Appendix E Optical Characteristics ventura 240 TMin Appendix F Optical Characteristics ventura 213 T

240, 213 specifications

Mermaid Technology 213,240 represents a significant leap forward in underwater exploration and communication systems, designed to enhance marine research, environmental monitoring, and underwater tourism. This innovative technology is characterized by its robust build, cutting-edge features, and ease of use, making it an essential tool for both professionals and enthusiasts alike.

One of the main features of Mermaid Technology 213,240 is its advanced sonar capabilities, allowing for precise mapping and navigation in complex underwater environments. The integrated multi-beam sonar system provides high-resolution imaging, enabling users to identify underwater structures, marine life, and geological formations with unmatched clarity. This feature is particularly valuable for researchers conducting marine biology studies or oceanographic surveys.

Moreover, Mermaid Technology 213,240 boasts real-time data transmission capabilities. Utilizing state-of-the-art wireless communication protocols, the technology can transmit information to surface stations or other submerged devices, ensuring uninterrupted connectivity. This functionality allows researchers to share findings instantly, facilitating collaboration and data analysis on a larger scale.

The system also incorporates an intelligent AI-driven analysis tool that assists in interpreting sonar data, detecting patterns, and identifying anomalies. This feature can significantly reduce the time required for data analysis, enabling teams to make informed decisions quickly during underwater missions.

In terms of sustainability, Mermaid Technology 213,240 is designed with eco-friendly materials and energy-efficient systems. The technology operates on renewable energy sources, reducing its carbon footprint and minimizing impact on marine ecosystems. This commitment to sustainability is crucial, considering the delicate balance of underwater environments.

Furthermore, the user interface of Mermaid Technology 213,240 has been optimized for ease of use. A user-friendly touchscreen display presents data in a visually engaging manner, allowing operators to navigate through different functionalities effortlessly. The intuitive design ensures that even those with minimal technical expertise can operate the system effectively.

In summary, Mermaid Technology 213,240 stands out due to its advanced sonar features, real-time data transmission, AI-driven analysis, eco-friendly design, and user-friendly interface. This technology promises to revolutionize underwater exploration, paving the way for significant advancements in marine science and conservation efforts. Whether for research institutions, environmental organizations, or recreational divers, the Mermaid Technology 213,240 has set a new standard in underwater technology.