Kramer Electronics VS-88DTP user manual Instruction Codes for Protocol

Page 52

Instruction Codes for Protocol 2000

Instruction

Description

Definition for Specific Instruction

Notes

 

 

Input

Output

 

 

0

RESET VIDEO

0

 

0

 

1

1

SWITCH VIDEO

Set equal to video input that is

Set equal to video output which

2, 15

 

 

to be switched

is to be switched

 

 

 

(0 = disconnect)

(0 = to all the outputs)

 

3

STORE VIDEO STATUS

Set as SETUP #

0

- to store

2, 3, 15

 

 

 

 

1

- to delete

 

4

RECALL VIDEO STATUS

Set as SETUP #

0

 

2, 3, 15

5 REQUEST STATUS OF A

Set as SETUP #

Equal to output number whose

4, 3

 

VIDEO OUTPUT

 

 

status is required

 

15

REQUEST WHETHER SETUP

SETUP #

0

- for checking if setup is

8

 

IS DEFINED / VALID INPUT

or

defined

 

 

IS DETECTED

Input #

1

- for checking if input is valid

 

16

ERROR / BUSY

For invalid / valid input (i.e.

0

- error

9, 25

 

 

OUTPUT byte = 4 or OUTPUT

1

- invalid instruction

 

 

 

byte = 5), this byte is set as the

2

- out of range

 

 

 

input #

3

- machine busy

 

 

 

 

 

4

- invalid input

 

 

 

 

 

5

- valid input

 

 

 

 

 

6

- RX buffer overflow

 

30

LOCK FRONT PANEL

0

- Panel unlocked

0

 

2

 

 

1

- Panel locked

 

 

 

31

REQUEST WHETHER PANEL

0

 

0

 

16

 

IS LOCKED

 

 

 

 

 

56

CHANGE TO ASCII

0

 

Kramer protocol 3000

19

61

IDENTIFY MACHINE

1

- video machine name

0

- Request first 4 digits

13

 

 

2

- audio machine name

1

- Request first suffix

 

 

 

3

- video software version

2

- Request second suffix

 

 

 

4

- audio software version

3

- Request third suffix

 

 

 

5

- RS422 controller name

10 - Request first prefix

 

 

 

6

- RS422 controller version

11 - Request second prefix

 

 

 

7

- remote control name

12 - Request third prefix

 

 

 

8

- remote software version

 

 

 

 

 

9

- Protocol 2000 revision

 

 

 

62

DEFINE MACHINE

1

- number of inputs

1

- for video

14

 

 

2

- number of outputs

2

- for audio

 

 

 

3

- number of setups

 

 

 

NOTES on the above table:

NOTE 1 - When the master switcher is reset, (e.g. when it is turned on), the reset code is sent to the PC. If this code is sent to the switchers, it will reset according to the present power-down settings.

NOTE 2 - These are bi-directional definitions. That is, if the switcher receives the code, it will perform the instruction; and if the instruction is performed (due to a keystroke operation on the front panel), then these codes are sent. For example,

if the HEX code

 

 

01

85

88

83

was sent from the PC, then the switcher (machine 3) will switch input 5 to output 8. If the user switched input 1 to output

7 via the front panel keypad, then the switcher will send HEX codes:

41

81

87

83

to the PC.

 

 

 

When the PC sends one of the commands in this group to the switcher, then, if the instruction is valid, the switcher replies by sending to the PC the same four bytes that it was sent (except for the first byte, where the DESTINATION bit is set high).

NOTE 3 - SETUP # 0 is the present setting. SETUP # 1 and higher are the settings saved in the switcher's memory, (i.e. those used for Store and Recall).

NOTE 4 - The reply to a "REQUEST" instruction is as follows: the same instruction and INPUT codes as were sent are returned, and the OUTPUT is assigned the value of the requested parameter. The replies to instructions 10 and 11 are as per the definitions in instructions 7 and 8 respectively. For example, if the present status of machine number 5 is breakaway setting, then the reply to the HEX code

0B

80

80

85

would be HEX codes

 

 

4B

80

81

85

48

VS-88DTP - Kramer Protocol

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Page 51 Page 53
Contents VS-88DTP Page Contents Figures Introduction Getting Started Safety InstructionsAchieving the Best Performance Recycling Kramer Products Overview Defining the VS-88DTP 8x8 DVI Twisted Pair Matrix Switcher This section defines the VS-88DTPVS 88DTP Overview Feature Function Using the IR Transmitter Installing the VS-88DTP in a Rack Connecting the VS-88DTP Connecting to the VS-88DTP via RS-232 Connecting the VS-88DTP 8x8 DVI Twisted Pair Matrix SwitcherConnecting a PC or Controller to the RS-485 Port Setting the RS-485 Machine NumberTo set the RS-485 machine number using the DIP-switches To connect a device with a RS-485 port to the VS-88DTPSetting the RS-485 Bus Termination RS-485 DIP-switchesConnecting and Controlling Multiple VS-88DTP Devices To daisy-chain up to 16 VS-88DTP devicesConnecting to the Ethernet Port Directly to a PC Connecting the VS-88DTP via EthernetSelect Properties Local Area Connection Properties Window Connecting to the Ethernet Port via a Network Hub Operating the VS-88DTP Disconnecting OutputsRouting Inputs to Outputs Storing and Recalling Setups in Presets Switching Between Protocol 2000 and ProtocolTo store a setup To recall a setupAcquiring the Edid Acquiring an Edid from a Single OutputAcquiring an Edid from Several Outputs to Several Inputs To acquire or change the Edid from a single outputAcquiring the Default Edid To reset to the default EDID, do the followingLocking and Unlocking the Front Panel Buttons Control Configuration via the Ethernet PortTo lock and unlock the front panel buttons Connecting to the VS-88DTP via your Browser Controlling the VS-88DTP Remotely via EthernetLoading page appears First Time Security Warning Main Switching Matrix Switching an Input to an OutputOperating in the Offline Mode To operate in the Offline modeStoring and Recalling Setups To store a switching configurationSelecting Preset Recalling a Preset in Offline Mode Locking the Front Panel Buttons ConfigurationTo lock the front panel buttons To edit the IP-related settings Technical Specifications System RangeDefault Communication Parameters EdidDefault Edid KRMVS-88DTP Default Edid Updating the VS-88DTP Firmware Table of Ascii Codes for Serial Communication Protocol Hex Codes for Serial Communication Protocol OUTSwitching Protocols Switching Protocols via the Front Panel ButtonsKramer Protocol Kramer ProtocolCommand Terms Command14.2.2 Device Message Format ParametersCommand Forms Entering CommandsCommand Chaining Maximum String Length Backward SupportVID? LOCK-MODE Result Machinename Destination Instruction Instruction Codes for Protocol VS-88DTP Kramer Protocol Page Safety Warning

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.
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