- VS 88DTP – Overview

Figure 2: VS-88DTP 8x8 DVI - Twisted Pair Matrix Switcher Rear Panel

#

Feature

Function

14

IN 1 to IN 8 DVI Input Connectors

Connect to the DVI sources

15

OUT 1 to OUT 8 RJ-45 TP Output

Connect to the TP receivers (for example, PT-572HDCP+ and TP-574)

 

Connectors

 

16

RS-2329-pin D-sub (F)

Connect to a PC or other serial remote controller

17

PROG TERM 2-way DIP-switch

DIP-switch 1 Sets the RS-485 bus termination (see Section 5.2.2) Up = Off, Down = On. Default = On

 

 

DIP-switch 2 Sets the Programming mode. Only for the use of Kramer service personnel. Default = Off

18

RS-4853-pin Terminal Block

Connect to a serial controller or to another VS-88DTPunit.

 

 

Connect G to Ground, B to B, and A to A (see Section 5.2)

19

ETHERNET RJ-45 TP Connector

Connect to a PC or LAN for remote control

20

REMOTE IR 3.5mm Mini Jack

Connect to an external IR receiver unit for controlling the device via an IR remote controller (instead of

 

 

using the front panel IR receiver)

21

MACH # DIP-Switch

Sets the RS-485 bus machine number (see Section 5.2.1)

22

RESET Button

Press the reset button while turning the device on in order to reset the Ethernet factory default

 

 

definitions (see Section 9)

23

AC Power Receptacle

Connect to the AC mains power supply

24

AC Mains Fuse

AC mains supply protection fuse

25

AC Mains Power Switch

Turns the AC mains power supply to the device on and off

7

VS-88DTP - Overview

7

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Kramer Electronics VS-88DTP user manual Feature Function

VS-88DTP specifications

Kramer Electronics VS-88DTP is a versatile and advanced 8x8 matrix switcher designed primarily for handling high-resolution video and audio signals. This device stands as a pivotal solution for various applications including video conferencing, presentations, and sophisticated broadcasting environments.

One of the standout features of the VS-88DTP is its ability to support 4K resolution at 60Hz, ensuring crystal-clear video quality that meets the demands of modern visual media. This capability is powered by its compatibility with the latest HDMI 2.0 and HDCP 2.2 standards, making it suitable for high-definition and ultra-high-definition content.

The VS-88DTP supports a variety of signal formats including HDMI, DTP (Digital Twisted Pair), and analog audio. The DTP technology utilizes twisted pair cabling, allowing for the transmission of video signals up to 70 meters at 4K resolution or up to 100 meters at lower resolutions. This flexibility ensures that integrators and installers can maintain clean and efficient cable management, reducing clutter while providing sufficient distance coverage.

One of the key technological advancements incorporated in the VS-88DTP is its built-in scaling and switching capabilities. This allows users to seamlessly switch between different input sources without interrupting the signal flow. The device features a user-friendly interface that can be operated through various control methods, including a front panel, an IR remote, or through a network using its built-in web interface or third-party control systems.

For audio management, the VS-88DTP includes stereo audio inputs and outputs, allowing for integration with audio systems easily. Additionally, it supports audio routing, which is crucial for environments requiring separate audio and video signal handling.

Reliability is another defining characteristic of the Kramer Electronics VS-88DTP. With its robust hardware design and built-in redundancy features, users can be assured of continuous operation even in demanding scenarios. Furthermore, the device is compatible with Kramer's extensive line of products, making it a scalable solution ideal for growing systems.

In conclusion, the Kramer Electronics VS-88DTP equips users with high-performance switching and scaling capabilities for both video and audio. Its range of features, advanced technologies, and comprehensive compatibility make it an excellent choice for professionals seeking reliable and high-quality signal distribution solutions in various media-rich environments.