Connections

$ Connection of a remote control box (RCB)

The RCB (WV-CB700A) and the camera must be connected with the optional RCB cable AW-CA50T10.

1.Turn RCB power off before connecting cables.

2.Connect the 50-pin connector of the RCB cable to I/F REMOTE connector of the camera. The 10-pin connector must be connected to the RCB.

3.Turn RCB power on and the camera can be controlled remotely by the RCB.

Notes:

The monitor output signals of the RCB attenuate and deteriorate with cable length. It is recommended that the signals from the monitor output be used for monitoring purposes only.

No gen-lock signal is available from the RCB.

If a longer distance (more than 3 m) is desired between the camera and the RCB, use the following optional cable.

AW-CA50B10 and WV-CA10B02 (2 m)

WV-CA10B25 (25 m)

WV-CA10B50 (50 m)

RCB cable AW-CA50T10 (3 m)

Video signal IN

RCB

MONITOR OUT

DC Power supply Cable AW-CA4T1

AC adapter AW-PS505

RCB WV-CB700A

-20-

Page 20
Image 20
Panasonic F0205Y0, VQTB0088D manual $ Connection of a remote control box RCB

VQTB0088D, F0205Y0 specifications

The Panasonic F0205Y0 and VQTB0088D are premium components designed to elevate various electronic applications, showcasing Panasonic's commitment to innovation and quality. These models embody advanced technologies and features that cater to a wide range of consumer needs.

The F0205Y0 is a highly efficient power supply module that offers an impressive energy conversion ratio. It is designed for optimal performance in industrial and consumer electronics. One of its standout features is its wide input voltage range, making it adaptable to different power environments. The built-in protection mechanisms, including overvoltage and overcurrent protection, ensure the device operates safely even under adverse conditions. Additionally, the compact design allows for easy integration into various systems, saving valuable space in equipment layouts.

Moreover, the F0205Y0 employs Panasonic’s cutting-edge thermal management technology, which enhances durability and longevity. Superior heat dissipation techniques help maintain operational efficiency, preventing overheating that can damage components. This is critical in applications that require continuous operation, such as telecommunications and automated manufacturing.

On the other hand, the VQTB0088D is a state-of-the-art sensor module that is integral for IoT applications. This sensor utilizes advanced MEMS (Micro-Electro-Mechanical Systems) technology to achieve high sensitivity and accuracy in detecting environmental parameters. Its primary features include low power consumption, making it ideal for battery-operated devices.

The VQTB0088D also features wireless connectivity options, enabling seamless integration into smart home and industrial automation systems. This connectivity capability facilitates real-time monitoring and data analytics, crucial for enhancing operational efficiency and decision-making processes. Its small form factor makes it versatile, allowing it to be embedded in various devices without compromising size or function.

Both the F0205Y0 and VQTB0088D highlight Panasonic's dedication to sustainability through energy efficiency and compact design. Their innovative features ensure they meet the demands of modern applications while supporting a greener future. In summary, these models exemplify Panasonic's leadership in electronic technology, contributing to advanced solutions across multiple sectors.