Kramer WP-20CT User Manual

P/N: 2900-301523 Rev 2 www.kramerav.com

USER MANUAL

MODEL:

WP-20CT
Wall-Plate HDBaseT Auto
Switcher/Transmitter

Kramer Electronics Ltd.

WP-20CT – Contents

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Contents

Introduction 1

Getting Started 1
Overview 2
Typical Applications 3

Defining WP-20CT Wall-Plate HDBaseT Auto Switcher/Transmitter 4
Mounting WP-20CT 6
Connecting WP-20CT 8

Connecting to WP-20CT via RS-232 9
Wiring RJ-45 Connectors 9
Connecting USB-C Port Directly to PC 9

Principles of Operation 12

Input Auto-Switching 12
Maestro Built-in Automation Configuration 13
Setting HDBT RS-232 Control Communication 14

Operating and Controlling WP-20CT 17

Browsing WP-20CT Web Pages 18
Switching Input to Output 19
Muting and Adjusting Audio Output 20
Turning Off Video Output 20
Configuring Auto-Switching Mode 21
Defining Signal Timeout Settings 22
Configuring AV Settings 23
Copying EDID 24
Changing Device Name 25
Setting Auto Standby Delay 26
Exporting and Importing a Configuration File 26
Resetting Device 27
Configuring Network Settings 27
Configuring Time and Date 28
Changing Web Pages Access Password 28
Setting Web Pages Auto Logoff Timeout 29
Configuring Device Automation 29

Maintaining Device 34

Upgrading Firmware 34
Monitoring Device Status 34

Technical Specifications 36

Default Communication Parameters 37
Default Control and Automation Settings 37
Default EDID 39

Protocol 3000 42

Understanding Protocol 3000 42
Protocol 3000 Commands 43
Result and Error Codes 52

Kramer Electronics Ltd.

WP-20CT – Introduction

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Introduction

Welcome to Kramer Electronics! Since 1981, Kramer Electronics has been providing a world
of unique, creative, and affordable solutions to the vast range of problems that confront the
video, audio, presentation, and broadcasting professional on a daily basis. In recent years, we
have redesigned and upgraded most of our line, making the best even better!

Getting Started

We recommend that you:

• Unpack the equipment carefully and save the original box and packaging materials for
possible future shipment.

• Review the contents of this user manual.

Go to www.kramerav.com/downloads/WP-20CT to check for up-to-date user manuals,
application programs, and to check if firmware upgrades are available (where appropriate).

Achieving Best Performance

• Use only good quality connection cables (we recommend Kramer high-performance,
high-resolution cables) to avoid interference, deterioration in signal quality due to poor
matching, and elevated noise levels (often associated with low quality cables).

• Do not secure the cables in tight bundles or roll the slack into tight coils.

• Avoid interference from neighboring electrical appliances that may adversely influence

signal quality.

• Position your Kramer WP-20CT away from moisture, excessive sunlight and dust.

Safety Instructions

Caution:

• This equipment is to be used only inside a building. It may only be connected to other
equipment that is installed inside a building.

• For products with relay terminals and GPI\O ports, please refer to the permitted rating
for an external connection, located next to the terminal or in the User Manual.

• There are no operator serviceable parts inside the unit.

Warning:

• Use only the power cord that is supplied with the unit.

• To ensure continuous risk protection, replace fuses only according to the rating

specified on the product label which is located on the bottom of the unit.

Kramer Electronics Ltd.

WP-20CT – Introduction

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Recycling Kramer Products

The Waste Electrical and Electronic Equipment (WEEE) Directive 2002/96/EC aims to reduce
the amount of WEEE sent for disposal to landfill or incineration by requiring it to be collected
and recycled. To comply with the WEEE Directive, Kramer Electronics has made
arrangements with the European Advanced Recycling Network (EARN) and will cover any
costs of treatment, recycling and recovery of waste Kramer Electronics branded equipment on
arrival at the EARN facility. For details of Kramer’s recycling arrangements in your particular
country go to our recycling pages at www.kramerav.com/il/quality/environment.

Overview

Congratulations on purchasing your Kramer WP-20CT Wall-Plate HDBaseT Auto

Switcher/Transmitter. WP-20CT is an intelligent 2x1 automatic wall-plate switcher

transmitter over long-reach HDBaseT for 4K USB-C and HDMI™ video signals. WP-20CT
offers an intelligent switching experience with built-in Maestro room control and the standard
priority / last-connected switching function based on active video signal detection.

• High Performance Switcher Transmitter – Professional HDBaseT switcher transmitter for

providing long-reach signals over twisted pair copper infrastructures. This switcher
transmitter is a standard transmitter that can be connected to any market-available
HDBaseT-compliant extension product.

• Simple and Powerful Maestro Room Control – Out-of-the-box configured room control
for a typical meeting room setup, and intuitive user interface enables you to control your
meeting room elements. Room devices are controlled, locally or remotely via HDBaseT,
right out-of-the-box by an extensive range of triggers, including input/output connectivity
and routing. By minimizing user intervention, Maestro room control saves meeting prep
time and minimizes human error before presentations.

• Automatic Display Operation – Part of the out-of-the-box Maestro configured room
automation. Meeting presentation is simplified by automatically turning ON/OFF a CEC­enabled display when the presentation source is plugged in / unplugged with user­defined shut-down delay.

• BYOD Ease and Convenience – Connect any DP-Alt-Mode-capable USB-C device as
an AV presentation source, while providing the connected device (if PD-2.0-capable)
with up to 60 watts of power.

• Plug & Play Auto Switcher – Automatically plays the switched user device source signal
on the connected display according to user-configured preferences, such as priority or
last-connected input. When the user manually switches, the auto switching is overridden.

• HDMI™ Signal Switching – HDCP 2.3 compliant, supporting deep color, x.v.Color™, lip
sync, HDMI uncompressed audio channels, Dolby TrueHD, DTS-HD, 2K, 4K, and 3D as
specified in HDMI 2.0.

• I-EDIDPro™ Kramer Intelligent EDID Processing™ – Intelligent EDID handling,
processing, locking and pass-through algorithm ensures plug & play operation for HDMI
source and display systems.

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WP-20CT – Introduction

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• Multi-channel Audio Switching – Up to 8 channels of digital stereo uncompressed signals
for supporting studio-grade surround sound.

• Audio De-embedding – The digital audio signal passing-through to the output, is de-
embedded, converted to an analog signal and sent to the stereo analog audio output.
This enables playing the audio on locally connected speakers, in parallel to playing it on
the speakers connected to the AV acceptor device (such as TVs with speakers).

• Bidirectional RS-232 Extension – Serial interface data flows in both directions, allowing
data transmission and device control.

• Reliable PoE (Power over Ethernet) Powering – Auto-senses the HDBaseT extension
line PoE status, it accepts power from a remote PoE provider such as a PoE matrix, with
optional mains powering from connected power adapter.

• Cost-effective Maintenance and Management – Status LED indicators for Power, HDMI,
and HDBaseT ports facilitate easy local maintenance and troubleshooting. Local device
management using built-in web interface via the USB-C connection. Local firmware
upgrade via USB-C and RS-232 connection tool ensure lasting, field-proven deployment.

• Easy Installation – Compactly fits into standard US, EU, and UK 1 gang in-wall box size,
supporting decorative integration with room deployed user interfaces such as electrical
switches. Wall-plate installation is fast and cost-effective via a single twisted pair cable,
providing both video signal and power (PoC) connections.

Typical Applications

WP-20CT is ideal for the following typical applications:

• Podium-mounted switcher in lecture halls, training rooms, auditoriums, and hospitality
applications.

• Wall-mounted switcher within any AV distribution system.

• Multimedia and presentation source selection in various enterprise applications.

Kramer Electronics Ltd.

WP-20CT – Defining WP-20CT Wall-Plate HDBaseT Auto Switcher/Transmitter

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Defining WP-20CT Wall-Plate HDBaseT Auto Switcher/Transmitter

This section defines WP-20CT.

Figure 1: WP-20CT Wall-Plate HDBaseT Auto Switcher/Transmitter Front Panel

#

Feature

Function

HDMI™ IN Connector

Connects to an HDMI source.

USB-C LED

• Off – an input source is not connected.

• Blue – an active signal is detected on the input.

• Blue, flashing – the source is connected but an active

signal is not detected.

HDMI LED

STATUS LED

• Off – the device is not receiving power.

• Red – the powered device is inactive or booting.

• Green – the device is active and powered via power

supply.

• Orange – the device is active and powered via PoE.

• Green or orange (depending on power source), flashing

slowly – the device is in the power-save standby mode.

• Green or orange (depending on power source), fast­flashing – firmware is downloading in the background.

1 2 3

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WP-20CT – Defining WP-20CT Wall-Plate HDBaseT Auto Switcher/Transmitter

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#

Feature

Function

USB-C IN Port

Connect to a USB-C source (that supports DisplayPort
Alternate Mode video, USB data and power charging).

• When powered by a Kramer 20V power supply (optional),
charges sources (that support USB Power Delivery 2.0)
up to 60W.

• Use to access WP-20CT embedded web pages via
connected browser.

12V/20V Power Supply 2-pin
Terminal Block Connector

Connect to the power supply (required for USB charging).
Connect GND to GND, +12V/20V to +12/20V.

• If you need to charge a device via the USB-C port, use
Kramer 20V power supply (optional).

HDBT OUT PoE  RJ-45
Connector

Connect to the HDBaseT IN port on a PoE-provider receiver
(for example, TP-789R) or a receiver (for example, TP-580R).

• When WP-20CT is connected to a PoE providing receiver,
it is not necessary to connect a power supply, unless the
USB-C charging feature is used which requires the
Kramer 20V power supply.

CONTROL RS-232 3-pin
Terminal Block Connector (Tx,
Rx, and common G)

Connect to a controller to control the device.

EXTD RS-232 3-pin Terminal
Block Connector (Tx, Rx, and
common G)

Connect to a controller to extend an RS-232 bi-directional
communication signals (even if no A/V signal is extended) over
HDBT to the RS-232 port of the remote receiver.
Note: applicable only when this port is set to RS-232 extension
(see Setting HDBT RS-232 Control Communication
on page 14).

AUDIO OUT 3-pin Terminal Block
Connector

Connect to an unbalanced analog audio acceptor.

Ring Tongue Terminal Grounding
Screw

Connect to grounding wire (optional).

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WP-20CT – Mounting WP-20CT

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Mounting WP-20CT

This section provides instructions for mounting WP-20CT. Before installing, verify that the
environment is within the recommended range:

• Operation temperature – 0 to 40C (32 to 104F).

• Storage temperature – -40 to +70C (-40 to +158F).

• Humidity – 10% to 90%, RHL non-condensing.

Before mounting, connect the HDBaseT cable and power

Warning:

• Ensure that the environment (e.g., maximum ambient temperature & air flow) is
compatible for the device.

• Avoid uneven mechanical loading.

• Appropriate consideration of equipment nameplate ratings should be used for avoiding

overloading of the circuits.

• Reliable earthing of rack-mounted equipment should be maintained.

To mount WP-20CT:

Insert the device into the in-wall box (note that first you need to connect the HDBaseT cable
and power) and connect the parts as shown in the illustrations below:

EU/UK Version

US-D Version

DECORA® design frames are included in US-D models. DECORA® is a registered
trademark of Leviton Manufacturing Co., Inc.

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WP-20CT – Mounting WP-20CT

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We recommend that you use any of the following standard 1 Gang in-wall junction boxes (or
their equivalent):

• US-D: 1 Gang US electrical junction boxes.

• EU: 1 Gang in-wall junction box, with a cut-hole diameter of 68mm and depth that can

fit in both the device and the connected cables (DIN 49073).

• UK: 1 Gang in-wall junction box, 75x75mm (W, H) and depth that can fit in both the
device and the connected cables
(BS 4662 or BS EN 60670-1 used with supplied spacers and screws).

Kramer Electronics Ltd.

WP-20CT – Connecting WP-20CT

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Connecting WP-20CT

Always switch off the power to each device before connecting it to your WP-20CT.

Figure 2: Connecting to the WP-20CT Rear Panel

To connect WP-20CT as illustrated in the example in Figure 2:

1. Connect the HDMI source (for example, a Blu-ray player) to the HDMI IN connector .

2. Connect the USB-C source (for example, a tablet) to the USB-C IN connector .

3. Connect a controller (for example, RC-306 control keypad) to the Control RS-232
connector to control WP-20CT and to the EXTD RS-232 connector to control a
device on the receiver side via serial communication.

4. Connect the HDBaseT OUT connector to the HDBaseT input of a PoE-provider
receiver (for example, TP-789R) or a non-PoE receiver (for example, TP-580R).

5. Connect an RS-232-controlled device (for example, a projector) to the receiver HDMI
input and RS-232 connector.

6. Connect the included 12V power supply to the 12V/20V connector for powering the
unit when connected to a non-PoE receiver.

-OR­Connect an optional PS-2006-O 20V/6A Kramer power supply to the

12V/20V connector to enable the USB-C charging feature.

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WP-20CT – Connecting WP-20CT

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Connecting to WP-20CT via RS-232

You can connect to WP-20CT via an RS-232 connection using, for example, a PC.

WP-20CT features an RS-232 3-pin terminal block connector allowing the RS-232 to control
WP-20CT.

Connect the RS-232 terminal block on the rear panel of WP-20CT to a PC/controller, as
follows:

From the RS-232 9-pin D-sub serial port connect:

• Pin 2 to the TX pin on the WP-20CT RS-232 terminal block

• Pin 3 to the RX pin on the WP-20CT RS-232 terminal block

• Pin 5 to the G pin on the WP-20CT RS-232 terminal block

RS-232 Device WP-20CT

Wiring RJ-45 Connectors

This section defines the HDBT pinout, using a straight pin-to-pin cable with RJ-45 connectors.

For HDBaseT cables, it is recommended that the cable ground shielding be
connected/soldered to the connector shield.

EIA /TIA 568B

PIN

Wire Color

1

Orange / White

2

Orange

3

Green / White

4

Blue

5

Blue / White

6

Green

7

Brown / White

8

Brown

Connecting USB-C Port Directly to PC

You can connect the USB-C IN port of WP-20CT directly to the USB port on your PC using a
USB-C to USB-C cable. This enables you to configure and operate the device using the
embedded web pages (see Operating and Controlling WP-20CT on page 17).

After connecting WP-20CT to the USB-C port, configure your PC as follows:

1. Click Start > Control Panel > Network and Sharing Center.

2. Click Change Adapter Settings.

3. Highlight the ASIX network adapter to connect to the device and click Change settings
of this connection.

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The Ethernet Properties window for the selected network adapter appears as shown in

Figure 3.

Figure 3: Local Area Connection Properties Window

4. Highlight Internet Protocol Version 4 (TCP/IPv4) depending on the requirements of
your IT system.

5. Click Properties.
The Internet Protocol Properties window relevant to your IT system appears as shown in

Figure 4 or Figure 5.

Figure 4: Internet Protocol Version 4 Properties Window

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Figure 5: Internet Protocol Version 6 Properties Window

6. Select Use the following IP Address for static IP addressing and fill in the IP address
and Subnet mask as shown in Figure 6.

You can use any IP address in the range 192.168.1.1 to 192.168.1.255 (excluding

192.168.1.39) that is provided by your IT department.

Figure 6: Internet Protocol Properties Window

7. Click OK.

8. Click Close.

9. Browse to the fallback IP address or default hostname of the device.

Kramer Electronics Ltd.

WP-20CT – Principles of Operation

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Principles of Operation

Input Auto-Switching

Input selection is set via the web pages (see Configuring Auto-Switching Mode on page 21) to
one of the following modes:

• Manual

• Last connected

• Priority

By default, switching is set to Last connected.

When in Manual mode, note the following:

• Switching to an unconnected input, results in a blank screen on the output.

• Manual switching overrides auto-switch mode.

In manual mode, select an input by:

• Sending RS-232 serial commands control (see Protocol 3000 Commands on page 43).

• Using the embedded web pages (see Browsing WP-20CT Web Pages on page 18).

In auto-switching mode, switching selection is performed based on either last connected or
priority input:

• In last connected mode, if the signal on the current input is lost, WP-20CT automatically
selects the last connected input (the delay depends on a configurable timeout).

• In priority mode, when the input sync signal is lost for any reason, the input with a live
signal and next in priority is selected automatically, (the delay depending on the
configurable signal-lost timeout, (see Defining Signal Timeout Settings on page 22).

Kramer Electronics Ltd.

WP-20CT – Principles of Operation

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Maestro Built-in Automation Configuration

WP-20CT built-in Maestro automation enables configuring triggers to simply create a

sequence of actions that are carried out following trigger activation (see Configuring Device

Automation on page 29).

Thanks to out-of-the-box default configuration, WP-20CT is ready to control the following
typical room configuration that can be controlled via several Maestro triggers.

Figure 7: Typical Room Configuration

This room includes a meeting-room table, a presentation area, and so on, as follows:

On the meeting table:

• WP-20CT mounted onto a TBUS-10XL table mount.

• Various BYOD sources, of which one or two are connected to the

WP-20CT HDMI port (for example, a laptop) and/or the USB-C port

(for example, a tablet).

• A KT-107 touch panel supporting Kramer Control controller and
connected to the LAN.

On the Wall:

• Tavor 6-O wall-mounted speakers connected to WP-20CT.

In the presentation
area:

• TP-789R receiver, connected via HDBT to WP-20CT.

• A CEC-enabled display connected to the TP-789R HDMI output.

In the room:

• The window blinds, projector screen, lighting, and air conditioning are
connected to GPIO/relay ports on the FC-28 IP control gateway.

LAN connections

• KT-107 Kramer Control touch panel controller to FC-28 IP control
gateway and a Kramer Network management system.

WP-20CT, built-in Maestro configuration enables almost immediate control over these

elements for different scenarios, once all the elements in the room are connected (with
minimal settings via built-in Maestro automation embedded web pages, such as device­specific IP addresses, see Configuring Device Automation on page 29).

KT-107 and FC-28 (in the optional control and management system) are not included in

the built-in Maestro configuration and should be configured separately.

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For example, an active input that is detected, is a trigger (First On) for starting a presentation.
Once the input signal is detected, the Presentation Start, built-in script, runs a series of

actions such as unmuting the audio and video outputs, turning the display ON via CEC,
lowering the screen rolling the blinds down, etc.

In this example, the display is turned on via the HDBT CEC channel connection through the

TP-789R receiver, and audio and video are unmuted by the internal port.

Factory default triggers, Scripts, actions and ports are listed in Default Control and
Automation Settings on page 37.

Setting HDBT RS-232 Control Communication

WP-20CT supports RS-232 control communication (via HDBT RS-232 channel) with the

display that is connected to the receiver in any of the following ways:

• Setting HDBT RS-232 Communication via the RS-232 EXTD Port on page 14.

• Setting HDBT RS-232 Communication via Maestro on page 15.

Setting HDBT RS-232 Communication via the RS-232 EXTD Port

By default, WP-20CT extends RS-232 communication between a controller that is connected
to the RS-232 EXTD port and the remote display.

For example, in Figure 2, Kramer RC-306 is connected to the RS-232 EXTD port so that

RC-306 can serially communicate with the display on the receiver side via HDBT.

To extend RS-232 communication via local controller:

1. Connect A controller to the RS-232 EXTD port on the rear side of the device.

2. Make sure that the WP-20CT is set to RS-232 communication extension via local
controller).

▪ If it is not, and the device is set to Maestro control, use the following #Route

command to reset it to its default state (RS-232 communication extension via local
controller): #ROUTE 3,1,2\x0D (see ROUTE command in Protocol 3000

Commands on page 43).

3. Send/receive RS-232 commands between the controller, via the HDBT RS-232 channel,
and the display on the receiver side.

There is now serial communication between the RS-232 EXTD port and the remote display
via HDBT.

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WP-20CT – Principles of Operation

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Setting HDBT RS-232 Communication via Maestro

To send RS-232 commands to the display via a script in Maestro:

1. Make sure that the baud rate is set to 9600 on far-side terminal (for example, the display
that is connected to the receiver).

2. Set the RS-232 EXTD mode (local by default) to the Maestro mode, by adding the
#ROUTE 3,1,3\x0D command to the script under Data.

Figure 8: Setting RS-232 Communication to Maestro HDBT Control

Alternatively, you can set Maestro HDBT control mode via P3K IP command (see ROUTE
command in Protocol 3000 Commands on page 43).

3. Click SAVE ALL.

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4. Create a script. For example, Display wakeup, and add the Maestro HDBT Control
(which defines RS-232 communication via Maestro) as the first action. When the script is
ready, click SAVE ALL. See Maestro Built-in Automation Configuration on page 13 for
further details.

Figure 9: Adding Maestro HDBT Control to a Script

RS-232 command and responses can be sent and received between Maestro and the
display on the receiver side.

Kramer Electronics Ltd.

WP-20CT – Operating and Controlling WP-20CT

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Operating and Controlling WP-20CT

You can operate WP-20CT using the embedded web pages, by connecting to WP-20CT with
a computer via the USB-C connector (see Connecting USB-C Port Directly to PC on page 9).

WP-20CT enables you to do the following:

• Browsing WP-20CT Web Pages on page 18.

• Switching Input to Output on page 19.

• Muting and Adjusting Audio Output on page 20.

• Turning Off Video Output on page 20.

• Configuring Auto-Switching Mode on page 21.

• Defining Signal Timeout Settings on page 22.

• Configuring AV Settings on page 23.

• Copying EDID on page 24.

• Changing Device Name on page 25.

• Setting Auto Standby Delay on page 26.

• Exporting and Importing a Configuration File on page 26.

• Resetting Device on page 27.

• Configuring Network Settings on page 27.

• Configuring Time and Date on page 28.

• Changing Web Pages Access Password on page 28.

• Setting Web Pages Auto Logoff Timeout on page 29.

• Configuring Device Automation on page 29.

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WP-20CT – Operating and Controlling WP-20CT

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Browsing WP-20CT Web Pages

If a web page does not update correctly, clear your Web browser’s cache.

If security is enabled, the Login window appears.

Figure 10: Embedded Web Pages Login Window

5. Enter the Username (default = Admin) and Password (default = Admin) and click
Sign in.

The Main > AV Routing page appears.

Figure 11: Embedded Web Pages Main > AV Routing Page

6. Click the Navigation Pane on the left side of the screen to access the relevant web page.

Hover over the icons on the navigation pane to hide/show the names of the pages.

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Switching Input to Output

WP-20CT enables you to switch one of the two inputs to the output.

The AV Routing page shows the following information:

• Name of each input and output (to change the name, see Configuring AV Settings
on page 23).

• Connection status of each input and output – The indicator next to the name lights
green when an active input or output is connected.

• Switching status – The input that is currently connected to the output shows a green
checkmark in the column next to it.

To switch an input to the output:

1. Go to the Main > AV Routing page.

Figure 12: Main > AV Routing Page

2. Click the box next to the input to which you would like to switch the output.
A green check appears in the selected box and the input is switched.

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Muting and Adjusting Audio Output

WP-20CT enables you to mute the audio output and adjust it from -100dB to +15dB (default =

0bD).

To mute and adjust the audio output:

• On the Main > AV Routing page (Figure 12), click the audio icon under the output name
and mute or adjust the audio as needed.

Turning Off Video Output

WP-20CT enables you to turn off the video output so that the connected display goes blank.

The audio output is not affected by this setting.

To turn off the video output:

• On the Main > AV Routing page (Figure 12), click the video icon under the output name.
The video output is turned off and the connected display goes blank.

Click the disabled video icon to turn on the video output.

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Configuring Auto-Switching Mode

WP-20CT enables you to configure how the system automatically decides which input to

switch to the output.

To configure auto-switching:

1. Go to the AV Settings > Auto switching tab.

Figure 13: AV Settings > Auto switching Tab

2. Select one of the following auto-switching modes from the Video Selection Mode
dropdown:

▪ Manual – Switching is only done manually. Auto-switching is disabled.
▪ Last Connected (default) – When a new source is connected, automatically switch to

that input.

▪ Priority – The system first looks to switch to the priority input (default = USB-C input).

Drag the input name to change the priority.

3. Click SET VIDEO.
Auto-switching mode is configured.

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WP-20CT – Operating and Controlling WP-20CT

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Defining Signal Timeout Settings

WP-20CT enables you to define a time delay before an automatic switching operation is

initiated by the system.

To define timeout settings:

1. Go to the AV Settings > Auto switching tab (Figure 13).

2. Define timing for the following:

▪ New AV signal – When a new AV source is connected to the inactive input, delay

switching to this new signal (from 0 to 90 sec, default = 0).

▪ AV cable unplugged – When the active input is unplugged, delay switching to the

other input (from 0 to 90 sec, default = 0).

▪ AV signal lost – When the active input signal is lost without being unplugged (for

example when player is on stop), delay switching to the other input (from 5 to 90 sec,
default = 10).

▪ No active AV signal – In a case where the active input was switched manually, and

there is no active signal on that input, the switching back to the other input time is 10
seconds.
If there is an active signal on the manual selected input, and then this signal is lost,
this setting delays switching back to the other input (from 5 to 90 sec, default = 10).

3. Click SET TIMEOUT.

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WP-20CT – Operating and Controlling WP-20CT

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Configuring AV Settings

Figure 14: AV Settings > AV Tab

WP-20CT enables you to configure the following general settings on the AV Settings > AV

tab:

• Label – Change the name of an input or output as it appears on the Main (switching)
page and EDID Management page.

• HDCP – For the inputs, select the Yes (default) /No switch to enable/disable HDCP for
that input. For the output, select Always On keep HDCP enabled or Follow Input
(default) to define the output HDCP setting according to the active input.

• Device Color Depth – Follow Output (default) or Force 8 bit.

• Force RGB on Output – Enable or Disable (default).

• Device Auto-Unmute on volume change – When enabled (default), changing the volume

will unmute the device.

• Auto Sleep Delay – When no input signal is detected, the device automatically goes into
sleep mode, and output is set to off. When this setting is enabled (default), it delays
sleep mode for an amount of time specified in the next setting.

• No input signal (active when Auto Sleep Delay is enabled) – Set the number of seconds
(30 to 60,000 seconds; default = 900 seconds) after there is no signal detected, until the
device goes into sleep mode. Click SET TIMEOUT after defining this setting.

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Copying EDID

WP-20CT enables you to copy an EDID from one of several different sources to the inputs.

To copy the EDID to the inputs:

1. Go to the EDID Management page.

Figure 15: EDID Management Page

2. Under Step 1, select the EDID source.

3. Under Step 2, select one or both of the inputs as the destination for the EDID.

4. Click Copy.

The EDID is copied.

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WP-20CT – Operating and Controlling WP-20CT

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Changing Device Name

WP-20CT enables you to change the DNS name of the device.

To change the device name:

1. Go to the Device Settings > General page.

Figure 16: Device Settings > General Page

2. Under General Preferences, change the device name and click SAVE.

The device name is changed.

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Setting Auto Standby Delay

WP-20CT enables you to set the delay time (up to 900min, never 0; default = 30min) before

the device goes into standby mode after a period of no device activity.

To set auto standby delay time:

1. Go to the Device Settings > General page (Figure 16).

2. Under Auto Standby, click ENABLE.

3. Under No Device Activity Timeout, set the delay time.

4. Click Save.

Auto standby delay time is set.

To manually enter or exit standby mode, next to Standby Status, click ENTER/EXIT.

Exporting and Importing a Configuration File

WP-20CT enables you to export a configuration file that records all current device settings

except the switching configuration. This file can then be imported to the same or different

WP-20CT device to load the recorded settings.

To export a configuration file of the current device settings:

1. Go to the Device Settings > General page (Figure 16).

2. Under Global System Settings, click Export.

3. Select the location on your computer to save the configuration file and click Save.

The configuration file is exported and saved.

To import a configuration file of the current device settings:

1. Go to the Device Settings > General page (Figure 16).

2. Under Global System Settings, click Import.

3. Select the relevant configuration file and click Save.

The configuration file is imported and the device restarts with the settings from the
configuration file.

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WP-20CT – Operating and Controlling WP-20CT

27

Resetting Device

Two types of resets can be performed:

• Restart – Reboots your device and keeps all your device settings, including the IP
address and password.

• Reset – Reboots your device and restores all factory settings including input/output
definitions, switching configuration, IP address and password.

To restart the device:

▪ Click Restart on the Device Settings > General page (Figure 16).

To perform a factory reset on the device:

▪ Click Reset on the Device Settings > General page (Figure 16).

Configuring Network Settings

To configure network settings:

• Change settings as needed on the Device Settings > Network page.

Figure 17: Device Settings > Network Page

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WP-20CT – Operating and Controlling WP-20CT

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Configuring Time and Date

To configure time and date settings:

• Change settings as needed on the Device Settings > Time and Date page.

Figure 18: Device Settings > Time and Date Page

Changing Web Pages Access Password

To change the password for accessing the embedded web pages:

1. Go to the Device Settings > Security page.

Figure 19: Device Settings > Security Page

2. Under Current Password, enter a new password and click CHANGE.
The new password settings appear.

3. Enter the new password and confirmation password and click SAVE.
The password is changed.

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WP-20CT – Operating and Controlling WP-20CT

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Setting Web Pages Auto Logoff Timeout

WP-20CT enables you to set the time delay before being logged out of the web pages if no

activity is detected.

To set the web pages timeout:

1. Go to the Device Settings > Security page (Figure 19).

2. Under Auto Logoff, click ENABLE and set the timeout duration (up to 60min, never 0;
default = 10min).

The web pages inactivity timeout is set.

Configuring Device Automation

Use the Automation page to configure Kramer Maestro V1.5 room automation for WP-20CT.

Kramer Maestro is a powerful software tool that enables you to configure trigger-based room

control and automation scenarios without the need for complicated programming.
To use Maestro control and automation, you need to define triggers that, upon an event,

execute scripts which include a sequence of actions (commands, which can appear in
different scenarios) that can be carried out via any defined ports.

Download the Kramer Maestro User Manual from the Kramer web site at

www.kramerav.com/downloads/WP-20CT to learn how to use Kramer Maestro.

Note that all the ports, actions and triggers that are relevant to WP-20CT are included in the

Kramer Maestro interface, as well as ports, actions and triggers that are relevant to other

Kramer devices.

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WP-20CT – Operating and Controlling WP-20CT

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Configuring Ports

Maestro enables configuring the ports used to control specific room devices. For a full list of
default ports (see Ports List on page 37).

Figure 20: Maestro Page – Ports List

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WP-20CT – Operating and Controlling WP-20CT

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Configuring Actions

In the Actions tab you can create new commands, and also view and edit the default
commands (see Actions List on page 37) that are device specific.

Figure 21: Maestro Page – Actions List

You can add actions by duplicating an action from the list of built-in actions and changing it as
required, or by a creating new action altogether (see www.kramerav.com/downloads/WP-

20CT).

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WP-20CT – Operating and Controlling WP-20CT

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Configuring Scripts

A script includes several actions. You can add commands to an existing script, create new
scripts or use the available built-in scripts (see Scripts List on page 38). For example, click the
Presentation Start script to view its list of actions.

Figure 22: Maestro Page – Scripts List

You can add, delete, or change the order of the actions in the list.

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Configuring Triggers

The trigger is a predefined event that, when activated, causes the script associated to it to
run. For example, click the built-in First On trigger that triggers the Presentation Start script so
that when an active input signal is detected, the Presentation Start script runs automatically.
See list of default triggers in Triggers List on page 39.

Figure 23: Automation Page – Triggers List

You can add, delete, or modify a trigger (see www.kramerav.com/downloads/WP-20CT).

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WP-20CT – Maintaining Device

34

Maintaining Device

WP-20CT enables you to perform the following maintenance activities:

• Upgrading Firmware on page 34.

• Monitoring Device Status on page 34.

Upgrading Firmware

To upgrade the device firmware:

1. Go to the Device Settings > General page (Figure 16).

2. Under General Preferences, click UPGRADE and open the relevant firmware file and
follow the instructions.

Monitoring Device Status

Go to the Diagnostics page Status tab to monitor overall device status, internal device
temperature, and input/output activity status.

For Heat status, when the temperature is in the normal range (up to 85°C), the indication light
appears green; when above normal (85° to 90°C), appears orange, when it exceeds
temperature limits (over 90°C) the indication light appears red.

Viewing Status Diagnostics

To view status diagnostics:

1. Go to the Diagnostics > Status. The Diagnostics page appears.

Figure 24: Diagnostics – Status Tab

2. Set Heat temperature to Celsius or Fahrenheit.

3. View inputs signal status.

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WP-20CT – Maintaining Device

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4. View HDBT Link status:

▪ Inactive indication off – the receiver is connected (linked) to the output.
▪ Inactive indication on – a receiver is not connected to the output.

5. On the window right-hand side, view the reset log (auto or manual).

Status diagnostics are viewed.

Viewing Advanced Diagnostics

To view status diagnostics:

1. Go to the Diagnostics > Status. The Diagnostics page appears.

2. Click Advanced tab. The Advanced tab appears.

Figure 25: Diagnostics – Advanced Tab

3. Under Traffic Counters, view the Sent and Received CEC commands to and from the
display.

4. Perform the following actions if required:

▪ Click to clear the sent / received CEC command counters.
▪ Click CLEAR ALL to clear both sent and received counters.
▪ Click REFRESH ALL to refresh counting status view.

5. On the window right-hand side, view the event log and click:

▪ REFRESH, to refresh the list.
▪ EXPORT, to export the log to text file.

Advanced diagnostics are viewed.

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WP-20CT – Technical Specifications

36

Technical Specifications

Inputs
1 DP Alt Mode & PD 3.0 USB-C

On a USB type-C connector

1 HDMI

On HDMI connector

Outputs
1 HDBaseT

On an RJ-45 connector

1 Unbalanced Stereo Audio

On 3-pin terminal block connector

Ports

1 RS-232

On a 3-pin terminal block for serial link
extension

1 RS-232

On a 3-pin terminal block for device serial
control

1 DC Power Input

On a 2-pin terminal block connector

Video

Max. Data Rate

10.2Gbps (3.4Gbps per graphic channel)

Max. Resolution

4K@60Hz (4:2:0) 24bpp resolution

HDMI Support

Deep color, x.v.Color™, lip sync, HDMI

uncompressed audio channels, Dolby
TrueHD, DTS HD, 2K, 4K, and 3D as
specified in HDMI 2.0

Compliance

HDCP 2.3 & 1.4

Extension line

Up to 40m (130ft)

At 4K @60Hz (4:2:0)

Up to 70m (230ft)

At full HD (1080p @60Hz 36bpp)

Note

To achieve specified extension distances,
use the recommended Kramer HDBaseT
cables.

Compliance

HDBaseT 1.0

Extended RS-232

Baud rate

300 to 115200

Control RS-232

Baud Rate

115200

Power

Source

12V DC 2A (included)
20V DC 6A (optional)
PoE

Consumption

12V: 0.6A
20V: 3.7A

Standby Power Savings

12V: ~5W
20V: ~71W

Environmental Conditions

Operating Temperature

0° to +40°C (32° to 104°F)

Storage Temperature

–40° to +70°C (–40° to 158°F)

Humidity

10% to 90%, RHL non–condensing

Enclosure

Cooling

Convection

Type

Aluminum

Size

1 Gang

Regulatory Compliance
(Standards Compliance)

Environmental

RoHs, WEEE, and CE

Accessories

Included

12V Power adapter, multi signal USB-C 1m
cable

Specifications are subject to change without notice at www.kramerav.com

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WP-20CT – Technical Specifications

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Default Communication Parameters

RS-232

Baud Rate:

115,200

Data Bits:

8

Stop Bits:

1

Parity:

None

Command Format:

ASCII

Example (Set the auto switching timeout to 5 seconds in the event of
5V disable when no input signal is detected):

#AV-SW-TIMEOUT 4,5<CR>

IP

IP Address:

192.168.1.39

Subnet mask:

255.255.255.0

Default gateway:

192.168.1.39

TCP Port #:

5000

UDP Port #

50000

Default username:

Admin

Default password:

Admin

Full Factory Reset

Embedded Web Pages:

Click Reset on the Device Settings > General page.

Default Control and Automation Settings

Ports List

Port Name

Type

Port Properties

Port Description

Comment

CEC-TV

CEC

0

CEC-Broadcast

CEC

15

Local-serial Service

RS232

2, 9600, 1, None, 8

Local serial port

For custom use

Device-internal

Internal

Actions List

Action Name

Commands List

On Port

Comment

Switch-USB

#ROUTE 1,1,1\x0D

Device-internal

USB web-UI

Switch-HDMI

#ROUTE 1,1,2\x0D

USB web-UI

V-Out-Mute

#VMUTE 1,1\x0D

Display sleep
via USB
web-UI

V-Out-Unmute

#VMUTE 1,0\x0D

Display
wake-up via
USB web-UI

A-Out-Volume-Up

#AUD-LVL 1,1,++\x0D

USB web-UI
audio output
port action

A-Out-Volume-Down

#AUD-LVL 1,1,--\x0D

A-Out-Mute

#AUD-MUTE 1,1\x0D

A-Out-Unmute

#AUD-MUTE 1,0\x0D

CEC-Power-On

0x04

CEC-TV

CEC-Power-Off

0x36

CEC-Broadcast

Display-Sleep

#VMUTE 1,1\x0D

Device-internal
Display-Wakeup

#VMUTE 1,0\x0D

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WP-20CT – Technical Specifications

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Scripts List

Script Name

Actions List

Relevant Ports

Comment

Switch HDMI

Switch-HDMI

Device-internal

Web-UI button

Switch USB

Switch-USB

Device-internal

Web-UI button

Display On

V-Out-Unmute
Wait (0)
CEC-Power-On

Device-internal,

­CEC-TV

Trigger

Display Off

V-Out-Mute
Wait (900)
CEC-Power-Off

Device-internal,

­CEC-Broadcast

Trigger

Restart

Wait 2sec
V-Out-Mute
A-Out-Mute
Wait 1sec
CEC-Power-Off
Wait 0sec

­Device-internal,
Device-internal,

­CEC-Broadcast,

-

Trigger

Presentation Start

V-Out-Unmute
A-Out-Unmute
CEC-Power-On
Wait 0sec

Device-internal,
Device-internal,
CEC-TV,

-

Trigger
Presentation Pause

V-Out-Mute
A-Out-Mute
Wait 0sec

Device-internal,
Device-internal,

-

Trigger
Audio Volume Up

A-Out-Volume-Up

Device-internal

Web-UI button

Audio Volume Down

A-Out-Volume-Down

Device-internal

Web-UI button

Audio Mute

A-Out-Mute

Device-internal

Web-UI button

Audio Unmute

A-Out-Unmute

Device-internal

Web-UI button

Meeting End

V-Out-Mute
A-Out-Mute
CEC-Power-Off
Wait 0sec

Device-internal,
Device-internal,
CEC-Broadcast,

-

Schedule-trigger

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WP-20CT – Technical Specifications

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Triggers List

The following triggers are included in the default Maestro automation parameters:

Trigger Name

Description

Triggered Script

Comment

First IN Plugged

1st input connected

Presentation Start

First ON

Last IN Unplugged

Last input disconnected

Presentation
Pause

Last Off
5V On (Input detected)

When input activity is detected

Display On

5V Off (No input
detected)

When "delay power off" timeout
period expires with no input activity

Display Off

Power On

Device powered on

Restart

This recommended trigger is
NOT included in Maestro
default settings to prevent
undesired auto-triggering of
its associated script. You may
set the trigger accordingly
upon device installation or
later.

This script works well
when the room is inactive
(e.g. at night time, turning off
active TVs), but may cause
disruption when running
during actual meetings.

After Office Hours

Prescheduled event occurred

Meeting End

This recommended trigger is
NOT included in Maestro
default settings to prevent
undesired auto-triggering of
its associated script. You can
set the trigger accordingly
upon device installation or
later and customize the After
Office Hours duration
according to your needs.
For example, set After Office
Hours Day/Time scheduling
to:
Monday-to-Friday: 18:00
Saturday-Sunday: 00:00.

Default EDID

Model name............... WP-20CT

Manufacturer............. KMR

Plug and Play ID......... KMR1200

Serial number............ 295-883450100

Manufacture date......... 2018, ISO week 255

Filter driver............ None

-------------------------

EDID revision............ 1.3

Input signal type........ Digital

Color bit depth.......... Undefined

Display type............. Monochrome/grayscale

Screen size.............. 520 x 320 mm (24.0 in)

Power management......... Standby, Suspend, Active off/sleep

Extension blocs.......... 1 (CEA-EXT)

-------------------------

DDC/CI................... n/a

Color characteristics

Default color space...... Non-sRGB

Display gamma............ 2.20

Red chromaticity......... Rx 0.674 - Ry 0.319

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WP-20CT – Technical Specifications

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Green chromaticity....... Gx 0.188 - Gy 0.706

Blue chromaticity........ Bx 0.148 - By 0.064

White point (default).... Wx 0.313 - Wy 0.329

Additional descriptors... None

Timing characteristics

Horizontal scan range.... 30-83kHz

Vertical scan range...... 56-76Hz

Video bandwidth.......... 170MHz

CVT standard............. Not supported

GTF standard............. Not supported

Additional descriptors... None

Preferred timing......... Yes

Native/preferred timing.. 1920x1080p at 60Hz (16:9)

Modeline............... "1920x1080" 148.500 1920 2008 2052 2200 1080 1084 1089 1125 +hsync +vsync

Standard timings supported
720 x 400p at 70Hz - IBM VGA
720 x 400p at 88Hz - IBM XGA2
640 x 480p at 60Hz - IBM VGA
640 x 480p at 67Hz - Apple Mac II
640 x 480p at 72Hz - VESA
640 x 480p at 75Hz - VESA
800 x 600p at 56Hz - VESA
800 x 600p at 60Hz - VESA
800 x 600p at 72Hz - VESA
800 x 600p at 75Hz - VESA
832 x 624p at 75Hz - Apple Mac II
1024 x 768i at 87Hz - IBM
1024 x 768p at 60Hz - VESA
1024 x 768p at 70Hz - VESA
1024 x 768p at 75Hz - VESA
1280 x 1024p at 75Hz - VESA
1152 x 870p at 75Hz - Apple Mac II
1280 x 1024p at 75Hz - VESA STD
1280 x 1024p at 85Hz - VESA STD
1600 x 1200p at 60Hz - VESA STD
1024 x 768p at 85Hz - VESA STD
800 x 600p at 85Hz - VESA STD
640 x 480p at 85Hz - VESA STD
1152 x 864p at 70Hz - VESA STD
1280 x 960p at 60Hz - VESA STD

EIA/CEA-861 Information

Revision number.......... 3

IT underscan............. Supported

Basic audio.............. Supported

YCbCr 4:4:4.............. Not supported

YCbCr 4:2:2.............. Not supported

Native formats........... 1

Detailed timing #1....... 1920x1080p at 60Hz (16:10)

Modeline............... "1920x1080" 148.500 1920 2008 2052 2200 1080 1084 1089 1125 +hsync +vsync

Detailed timing #2....... 1920x1080i at 60Hz (16:10)

Modeline............... "1920x1080" 74.250 1920 2008 2052 2200 1080 1084 1094 1124 interlace +hsync +vsync

Detailed timing #3....... 1280x720p at 60Hz (16:10)

Modeline............... "1280x720" 74.250 1280 1390 1430 1650 720 725 730 750 +hsync +vsync

Detailed timing #4....... 720x480p at 60Hz (16:10)

Modeline............... "720x480" 27.000 720 736 798 858 480 489 495 525 -hsync -vsync

CE audio data (formats supported)
LPCM 2-channel, 16/20/24 bit depths at 32/44/48 kHz

CE video identifiers (VICs) - timing/formats supported
1920 x 1080p at 60Hz - HDTV (16:9, 1:1) [Native]
1920 x 1080i at 60Hz - HDTV (16:9, 1:1)
1280 x 720p at 60Hz - HDTV (16:9, 1:1)
720 x 480p at 60Hz - EDTV (16:9, 32:27)
720 x 480p at 60Hz - EDTV (4:3, 8:9)
720 x 480i at 60Hz - Doublescan (16:9, 32:27)
720 x 576i at 50Hz - Doublescan (16:9, 64:45)
640 x 480p at 60Hz - Default (4:3, 1:1)
NB: NTSC refresh rate = (Hz*1000)/1001

CE vendor specific data (VSDB)
IEEE registration number. 0x000C03

CEC physical address..... 1.0.0.0

Maximum TMDS clock....... 165MHz

CE speaker allocation data

Channel configuration.... 2.0

Front left/right......... Yes

Front LFE................ No

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WP-20CT – Technical Specifications

41

Front center............. No

Rear left/right.......... No

Rear center.............. No

Front left/right center.. No
Rear left/right center... No

Rear LFE................. No

Report information

Date generated........... 26/08/2019

Software revision........ 2.60.0.972

Data source.............. File - NB: improperly installed

Operating system......... 6.2.9200.2

Raw data
00,FF,FF,FF,FF,FF,FF,00,2D,B2,00,12,00,00,00,00,FF,1C,01,03,80,34,20,78,E2,B3,25,AC,51,30,B4,26,
10,50,54,FF,FF,80,81,8F,81,99,A9,40,61,59,45,59,31,59,71,4A,81,40,02,3A,80,18,71,38,2D,40,58,2C,
45,00,A0,5A,00,00,00,1E,00,00,00,FF,00,32,39,35,2D,38,38,33,34,35,30,31,30,30,00,00,00,FC,00,56,
53,2D,34,31,31,58,0A,20,20,20,20,20,00,00,00,FD,00,38,4C,1E,53,11,00,0A,20,20,20,20,20,20,01,AA,
02,03,1B,C1,23,09,07,07,48,90,05,04,03,02,07,16,01,65,03,0C,00,10,00,83,01,00,00,02,3A,80,18,71,
38,2D,40,58,2C,45,00,07,44,21,00,00,1E,01,1D,80,18,71,1C,16,20,58,2C,25,00,07,44,21,00,00,9E,01,
1D,00,72,51,D0,1E,20,6E,28,55,00,07,44,21,00,00,1E,8C,0A,D0,8A,20,E0,2D,10,10,3E,96,00,07,44,21,
00,00,18,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,77

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WP-20CT – Protocol 3000

42

Protocol 3000

Kramer devices can be operated using Kramer Protocol 3000 commands sent via serial or
Ethernet ports.

Understanding Protocol 3000

Protocol 3000 commands are a sequence of ASCII letters, structured according to the
following.

• Command format:

Prefix

Command Name

Constant (Space)

Parameter(s)

Suffix

#

Command



Parameter

<CR>

• Feedback format:

Prefix

Device ID

Constant

Command Name

Parameter(s)

Suffix

~

nn @ Command

Parameter

<CR><LF>

• Command parameters – Multiple parameters must be separated by a comma (,). In
addition, multiple parameters can be grouped as a single parameter using brackets ([
and ]).

• Command chain separator character – Multiple commands can be chained in the
same string. Each command is delimited by a pipe character (|).

• Parameters attributes – Parameters may contain multiple attributes. Attributes are
indicated with pointy brackets (<…>) and must be separated by a period (.).

The command framing varies according to how you interface with WP-20CT. The following
figure displays how the # command is framed using terminal communication software (such
as Hercules):

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WP-20CT – Protocol 3000

43

Protocol 3000 Commands

Function

Description

Syntax

Parameters/Attributes

Example

#

Protocol handshaking.

Validates the
Protocol 3000
connection and gets
the machine number.

Step-in master
products use this
command to identify
the availability of a
device.

COMMAND

#<CR>

FEEDBACK

~nn@ok<CR><LF>

#<CR>

AUD-LVL

Set volume level.

COMMAND

#AUD-LVLio_mode,io_index,vol_level<CR>

FEEDBACK

~nn@AUD-LVLio_mode,io_index,vol_level<CR><LF>

io_mode –

1 – Output

io_index – 1
vol_level – Volume level -100db to

15dB;

++ (increase current value by 1dB);

-- (decrease current value by 1dB)

Set AUDIO OUT level
to -50.0dB:

#AUD-LVL1,1,-

50.0<CR>

AUD-LVL?

Get volume level.

COMMAND

#AUD-LVL?io_mode,io_index<CR>

FEEDBACK

~nn@AUD-LVLio_mode,io_index,vol_level<CR><LF>

io_mode –

1 – Output

io_index – 1
vol_level – Volume level -100db to

15dB;

Get AUDIO OUT level:

#AUD-LVL?1,1<CR>

AUD-LVL­RANGE?

Get volume level min
and max range.

COMMAND

#AUD-LVL-RANGE?io_mode,io_index<CR>

FEEDBACK

~nn@AUD-LVL­RANGEio_mode,io_index,min_val,max_val<CR><LF>

io_mode –

1 – Output

io_index – 1
min_val – -100db
max_val – 15dB

Get AUDIO OUT level
range:

#AUD-LVL­RANGE?1,1<CR>

AUD-MUTE

Set audio mute.

COMMAND

#AUD-MUTEout_index,mute_mode<CR>

FEEDBACK

~nn@AUD-MUTEout_index,mute_mode<CR><LF>

out_index –1
mute_mode – On/Off

0 – Off
1 – On

Set Output 1 to mute:

#AUD-MUTE1,1<CR>

AUD-MUTE?

Set audio mute.

COMMAND

#AUD-MUTEout_index<CR>

FEEDBACK

~nn@AUD-MUTEout_index,mute_mode<CR><LF>

out_index –1
mute_mode – On/Off

0 – Off
1 – On

Get Output 1 to mute:

#AUD-MUTE1,1<CR>

AUD-MUTE­PERSIST

Set the auto audio
unmute status upon
volume change.

COMMAND

#AUD-MUTE-PERSISTunmute_status<CR>

FEEDBACK

~nn@AUD-MUTE-PERSISTunmute_status<CR><LF>

unmute_status –

0 – Mute state is not persistent and

changes upon volume change

1 – Mute state is persistent upon

volume change

Set mute mode to be
persistent and not change
upon volume change:

#AUD-MUTE­PERSIST1<CR>

AUD-MUTE­PERSIST?

Get the auto audio
unmute status.

COMMAND

#AUD-MUTE-PERSIST?<CR>

FEEDBACK

~nn@AUD-MUTE-PERSISTunmute_status<CR><LF>

unmute_status –

0 – Mute state is not persistent and

changes upon volume change

1 – Mute state is persistent upon

volume change

Get auto unmute status
upon volume change:

#AUD-MUTE­PERSIST?<CR>

AV-SW-MODE

Set input auto switch
mode (per output).

COMMAND

#AV-SW-MODElayer_type,out_index,connection_mode<CR>

FEEDBACK

~nn@AV-SW-MODElayer_type,out_index,connection_mode<C

R><LF>

layer_type – Number that indicates

the signal type:

1 – Video
2 – Audio

out_index – 1
connection_mode – Connection

mode

0 – manual
1 – priority switch
2 – last connected switch

Set the input audio switch
mode to Manual for HDMI
OUT:

#AV-SW-MODE1,1,0<CR>

AV-SW-MODE?

Get input auto switch
mode (per output).

COMMAND

#AV-SW-MODE?layer_type,out_index<CR>

FEEDBACK

~nn@AV-SW-MODElayer_type,out_index,connection_mode<C

R><LF>

layer_type – Number that indicates

the signal type:

1 – Video
2 – Audio

out_index – 1
connection_mode – Connection

mode

0 – manual
1 – priority switch
2 – last connected switch

Get the input audio switch
mode for HDMI OUT:

#AV-SW-MODE?1,1<CR>

AV-SW­TIMEOUT

Set auto switching
timeout.

COMMAND

#AV-SW-TIMEOUTswitching_mode,time_out<CR>

FEEDBACK

~nn@AV-SW-TIMEOUTswitching_mode,time_out<CR><LF>

switching_mode – Switching mode

0 – Video signal lost
1 – New video signal detected
4 – Disable 5V on video output if no

input signal detected
5 – Video cable unplugged
7 – Video signal lost for signal routed

as a result of a manual override

action

time_out – Timeout in seconds

0 - 60000

Set the auto switching
timeout to 5 seconds in the
event of 5V disable when no
input signal is detected:

#AV-SW-TIMEOUT4,5<CR

>

AV-SW­TIMEOUT?

Set auto switching
timeout.

COMMAND

#AV-SW-TIMEOUT?switching_mode<CR>

FEEDBACK

~nn@AV-SW-TIMEOUTswitching_mode,time_out<CR><LF>

switching_mode – Switching mode

0 – Video signal lost
1 – New video signal detected
4 – Disable 5V on video output if no

input signal detected
5 – Video cable unplugged
7 – Video signal lost for signal routed

as a result of a manual override

action

time_out – Timeout in seconds

0 - 60000

Get the auto switching
timeout in the event of 5V
disable when no input signal
is detected:

#AV-SW-TIMEOUT?4<CR>

Kramer Electronics Ltd.

WP-20CT – Protocol 3000

44

Function

Description

Syntax

Parameters/Attributes

Example

BEACON-INFO?

Get beacon
information, including
IP address, UDP
control port, TCP
control port, MAC
address, model, name.

COMMAND

#BEACON-INFO?<CR>

FEEDBACK

~nn@BEACON­INFOport_id, ip_string,udp_port,tcp_port,mac_address,

model,name<CR><LF>

port_id – ID of the Ethernet port

ip_string – Dot-separated

representation of the IP address

udp_port – UDP control port

tcp_port – TCP control port

mac_address – Dash-separated mac

address

model – Device model

name – Device name

Get beacon information:

#BEACON-INFO?<CR>

BUILD-DATE?

Get device build date.

COMMAND

#BUILD-DATE?<CR>

FEEDBACK

~nn@BUILD-DATEdate,time<CR><LF>

date – Format: YYYY/MM/DD where

YYYY = Year
MM = Month
DD = Day

time – Format: hh:mm:ss where

hh = hours
mm = minutes
ss = seconds

Get the device build date:

#BUILD-DATE?<CR>

CEC-GW-PORT­ACTIVE

Set the CEC activation
state.

COMMAND

#CEC-GW-PORT­ACTIVEdirection_type,port_format,port_index,state<CR

>

FEEDBACK

~nn@CEC-GW-PORT­ACTIVEdirection_type,port_format,port_index,state<CR

><LF>’

direction_type – Direction of the

port: out

port_format – Type of signal on the

port: hdbt

port_index – The port number: 1
state – Global gateway activation

state:

o 0 – as a passthrough
o 1 – as a gateway

Activate CEC for the
HDBaseT port as a
passthrough:

#CEC-GW-PORT-ACTIVEi

n,hdmi,1,0<CR>

CEC-GW-PORT­ACTIVE?

Get the CEC activation
state.

COMMAND

#CEC-GW-PORT­ACTIVE?direction_type,port_format,port_index<CR>

FEEDBACK

~nn@CEC-GW-PORT­ACTIVEdirection_type,port_format,port_index,state<CR

><LF>’

direction_type – Direction of the

port: out

port_format – Type of signal on the

port: hdbt

port_index – The port number: 1
state – Global gateway activation

state:

o 0 – as a passthrough
o 1 – as a gateway

Get the Activate CEC status
for the HDBaseT port as a
passthrough:

#CEC-GW-PORT-ACTIVEi

n,hdmi,1<CR>

CEC-NTFY­ACTIVE

Set CEC notification
activity (valid until the
next power up).

COMMAND

#CEC-NTFY-ACTIVEcec_ntf<CR>

FEEDBACK

~nn@CEC-NTFY-ACTIVEcec_ntf<CR><LF>

cec_ntf –

0 – Inactive
1 – Active

Enable CEC notification:

#CEC-NTFY­ACTIVE1<CR>

AUD-NTFY­ACTIVE?

Get CEC notification
activity status.

COMMAND

#CEC-NTFY-ACTIVE?<CR>

FEEDBACK

~nn@CEC-NTFY-ACTIVEcec_ntf<CR><LF>

cec_ntf –

0 – Inactive
1 – Active

Get CEC notification activity
status::

#CEC-NTFY­ACTIVE?<CR>

CEC-MEMBERS?

Get list of CEC logical
addresses.

COMMAND

#CEC-MEMBERS?port_index<CR>

FEEDBACK

~nn@CEC-MEMBERSport_index,<la1>,<la2>...<CR><LF>

Port_index – 1
la – 1 to 15

Set gateway members:

#CEC-MEMBERS?1<CR>

CEC-SND

Send CEC command
to port.

COMMAND

#CEC­SNDport_index,sn_id,cmd_name,cec_len,cec_command<CR>

FEEDBACK

~nn@CEC­SNDport_index,sn_id,cmd_name,cec_mode<CR><LF>

port_index – CEC port transmitting

the command: 1

sn_id – 1
cmd_name – command name
cec_len – 1–16
cec_command – CEC format

command (in HEX format, no leading

zeros, no ‘0x’ prefix)

cec_mode – CEC mode

0 – Sent
1 – Gateway disabled
2 – Inactive CEC-Master
3 – Busy
4 – Illegal Message Parameter
5 – Illegal CEC Address Parameter
6 – Illegal CEC Command
7 – Timeout
8 – Error

Send TV-OFF CEC
command to the HDBaseT
port:

#CEC-SND1,1,TV-

OFF,2,e004<CR>

COUNTER?

Get the sent or
received CEC
messages count.

COMMAND

#COUNTER?category_id,sub_category_id<CR>

FEEDBACK

~nn@COUNTERcategory_id,sub_category_id,count<CR><LF>

category_id – CEC messages: 0
Sub_category_id – Type of

message:

0 – Sent message
1 – Received message

count – Number range: 0-65535

Get the number of sent
messages:

#COUNTER?0,0<CR>

COUNTER-CLR

Clear CEC messages.

COMMAND

#COUNTER-CLR?category_id,sub_category_clr<CR>

FEEDBACK

~nn@COUNTER­CLRcategory_id,sub_category_id,count<CR><LF>

category_id – CEC messages: 0
Sub_category_clr – Type of

message to clear:

0 – Clear sent messages
1 – Clear received messages
* – Clear all CEC messages

Clear all CEC messages:

#COUNTER-CLR?0,*<CR>

Kramer Electronics Ltd.

WP-20CT – Protocol 3000

45

Function

Description

Syntax

Parameters/Attributes

Example

CPEDID

Copy EDID data from
the output to the input
EEPROM.

Destination bitmap
size depends on
device properties (for
64 inputs it is a 64-bit
word).

Example: bitmap
0x0013 means inputs
1,2 and 5 are loaded
with the new EDID.

In certain products
Safe_mode is an
optional parameter.
See the HELP
command for its
availability.

COMMAND

#CPEDIDedid_io,src_id,edid_io,dest_bitmap<CR>

or

#CPEDIDedid_io,src_id,edid_io,dest_bitmap,safe_mode<

CR>

FEEDBACK

~nn@CPEDIDedid_io,src_id,edid_io,dest_bitmap<CR><LF>

~nn@CPEDIDedid_io,src_id,edid_io,dest_bitmap,safe_mo

de<CR><LF>

edid_io – EDID source type (usually

output)

0 – Input
1 – Output
2 – Default EDID
3 – Custom EDID

src_id – Number of chosen source

stage

0 – Default EDID source
1 – HDBaseT OUT or USB-C IN
2 – HDMI IN

edid_io – EDID destination type

0 – Input

dest_bitmap – Bitmap representing

destination IDs. Format: XXXX…X,

where X is hex digit. The binary form of
every hex digit represents
corresponding destinations.

0 – indicates that EDID data is not

copied to this destination.

1 – indicates that EDID data is copied

to this destination.

safe_mode – Safe mode (optional

parameter)

0 – device accepts the EDID as is

without trying to adjust (default
value if no parameter is sent)

1 – device tries to adjust the EDID

Copy the EDID data from
the HDBaseT Output to the
HDMI Input:

#CPEDID1,1,0,0x1<CR>

CS-CONVERT

Set the “force RGB
color space” convert

mode.

COMMAND

#CS-CONVERTout_index,cs_mode<CR>

FEEDBACK

~nn@CS-CONVERTout_index,cs_mode<CR><LF>’

out_index – The port number: 1
cs_mode – color space mode:

o 0 – Color space pass (default)

o 1 – Enable “force RGB color

space” convert mode

Enable force RGB color
space:

#CS-CONVERT1,1<CR>

CS-CONVERT?

Get the “force RGB
color space” convert

mode.

COMMAND

#CS-CONVERT?out_index<CR>

FEEDBACK

~nn@CS-CONVERTout_index,cs_mode<CR><LF>’

out_index – The port number: 1
cs_mode – color space mode:

o 0 – Color space pass (default)

o 1 – Enable “force RGB color

space” convert mode

Get force RGB color space
mode:

#CS-CONVERT?1<CR>

DEV-STATE?

Get the device state.

COMMAND

#DEV-STATE?<CR>

FEEDBACK

~nn@DEV-STATEdev_state<CR><LF>’

dev_state – device state

0 – Active
1 – Power-on and no connected AV

I/O ports (detecting cable
connection faults)

2 – Power-on and standby (low

power; cables are either
connected or not)

Get device status:

#DEV-STATE?<CR>

DISPLAY?

Get output HPD
status.

COMMAND

#DISPLAY?out_index<CR>

FEEDBACK

~nn@DISPLAYout_index,status<CR><LF>

out_index – Number that indicates

the specific output:
1

status – HPD status according to

signal validation

0 – Signal or sink is not valid
1 – Signal or sink is valid
2 – Sink and EDID is valid

Get the output HPD status
of Output 1:

#DISPLAY?1<CR>

EDID-DC

Force removal of deep
color on EDID or
leaving it as in the
original EDID.

COMMAND

#EDID-DCin_index,deep_color_state<CR>

FEEDBACK

~nn@EDID-DCin_index,deep_color_state<CR><LF>

in_index – Number that indicates the

specific input:

1 – Input 1
2 – Input 2

deep_color_state –

0 – Don’t change
1 – Remove deep color

Remove deep color on
EDID for input 1.

#EDID-DC1,1<CR>

EDID-DC?

Get deep color status
on EDID.

COMMAND

#EDID-DC?in_index <CR>

FEEDBACK

~nn@EDID-DCin_index,deep_color_state<CR><LF>

in_index – Number that indicates the

specific input:

1 – Input 1
2 – Input 2

deep_color_state –

0 – Don’t change
1 – Remove deep color

Get deep color state on
EDID for input 2.

#EDID-DC?2<CR>

ETH-PORT

Set Ethernet port
protocol.

If the port number
you enter is already in
use, an error is
returned.
The port number must
be within the following
range: 0-(2^16-1).

COMMAND

#ETH-PORTport_type,port_id<CR>

FEEDBACK

~nn@ETH-PORTport_type,port_id<CR><LF>

port_type – TCP/UDP
port_id – TCP/UDP port number

(0 – 65535)

Set the Ethernet port
protocol for TCP to 12457:

#ETH-PORTTCP,12457<C

R>

ETH-PORT?

Get Ethernet port
protocol.

If the port number
you enter is already in
use, an error is
returned.
The port number must
be within the following
range: 0-(2^16-1).

COMMAND

#ETH-PORT?port_type<CR>

FEEDBACK

~nn@ETH-PORTport_type,port_id<CR><LF>

port_type – TCP/UDP
port_id – TCP/UDP port number

(0 – 65535)

Get the Ethernet port
protocol for UDP:

#ETH-PORT?UDP<CR>

Kramer Electronics Ltd.

WP-20CT – Protocol 3000

46

Function

Description

Syntax

Parameters/Attributes

Example

FACTORY

Reset device to factory
default configuration.

This command
deletes all user data
from the device. The
deletion can take
some time.

Your device may
require powering off
and powering on for
the changes to take
effect.

COMMAND

#FACTORY<CR>

FEEDBACK

~nn@FACTORYok<CR><LF>

Reset the device to factory
default configuration:

#FACTORY<CR>

HDBT-STAT?

Get HDBT link status.

COMMAND

#HDBT-STAT?io_mode,in_index,status_type<CR>

FEEDBACK

~nn@HDBT-STATio_mode,in_index,status_type,status<CR>

<LF>

io_mode – Input/Output

0 – Input
1 – Output

io_index – Number that indicates the

specific number of inputs or outputs
(based on io_mode):

1 – HDBaseT OUT

Status_type – HDBT status:

0 – Link

status – HDBT status:

0 – No link
1 – Link

Get the HDBT link status:

#HDBT-STAT?0,1,0<CR>

HDCP-MOD

Set HDCP mode.

Get HDCP working
mode on the device
input:

HDCP supported –
HDCP ON [default].

HDCP not supported ­HDCP OFF.

HDCP support
changes following
detected sink ­MIRROR OUTPUT.

COMMAND

#HDCP-MODin_index,mode<CR>

FEEDBACK

~nn@HDCP-MODin_index,mode<CR><LF>

in_index – Number that indicates the

specific input:

1 – USB-C IN
2 – HDMI IN

mode – HDCP mode:

0 – HDCP Off
1 – HDCP On
2 – Follow Input
3 – HDCP defined according to the

connected output

Set the input HDCP-MODE
of HDMI IN to off:

#HDCP-MOD2,0<CR>

HDCP-MOD?

Get HDCP mode.

Get HDCP working
mode on the device
input:

HDCP supported –
HDCP ON [default].

HDCP not supported ­HDCP OFF.

HDCP support
changes following
detected sink ­MIRROR OUTPUT.

COMMAND

#HDCP-MOD?in_index<CR>

FEEDBACK

~nn@HDCP-MODin_index,mode<CR><LF>

in_index – Number that indicates the

specific input:

1 – USB-C IN
2 – HDMI IN

mode – HDCP mode:

0 – HDCP Off
1 – HDCP On
2 – Follow Input
3 – HDCP defined according to the

connected output

Get the input HDCP-MODE
of HDMI IN :

#HDCP-MOD?2<CR>

HDCP-OUT

Set HDCP mode.

Get HDCP working
mode on the device
input:

HDCP supported –
HDCP ON [default].

HDCP not supported ­HDCP OFF.

HDCP support
changes following
detected sink ­MIRROR OUTPUT.

COMMAND

#HDCP-OUTout_index,mode<CR>

FEEDBACK

~nn@HDCP-OUTout_index,mode<CR><LF>

out_index – Number that indicates

the specific input:

1 – HDBaset OUT

mode – HDCP mode:

0 – Follow Input
1 – HDCP always ON (i.e. output

signal is always HDCP-encrypted,
regardless of input HDCP)

Set the output HDCP mode
of HDBaseT OUT to follow
input:

#HDCP-OUT1,0<CR>

HDCP-OUT?

Get HDCP mode.

Get HDCP working
mode on the device
input:

HDCP supported –
HDCP ON [default].

HDCP not supported ­HDCP OFF.

HDCP support
changes following
detected sink ­MIRROR OUTPUT.

COMMAND

#HDCP-OUT?out_index<CR>

FEEDBACK

~nn@HDCP-OUTout_index,mode<CR><LF>

out_index – Number that indicates

the specific input:

1 – HDBaset OUT

mode – HDCP mode:

0 – Follow Input
1 – HDCP always ON (i.e. output

signal is always HDCP-encrypted,
regardless of input HDCP)

Get the output
HDCP-MODE of HDBaseT
OUT :

#HDCP-OUT?1<CR>

Kramer Electronics Ltd.

WP-20CT – Protocol 3000

47

Function

Description

Syntax

Parameters/Attributes

Example

HDCP-STAT?

Get HDCP signal
status of a connected
device.

io_mode =1 – get
the HDCP signal
status of the sink
device connected to
the specified output.

io_mode =0 – get the
HDCP signal status of
the source device
connected to the
specified input.

COMMAND

#HDCP-STAT?io_mode,in_index<CR>

FEEDBACK

~nn@HDCP-STATio_mode,in_index,status<CR><LF>

io_mode – Input/Output

0 – Input
1 – Output

io_index – Number that indicates the

specific number of inputs or outputs
(based on io_mode):

1 – HDBaseT OUT or USB-C IN
2 – HDMI IN

status – Signal encryption status -

valid values On/Off:

0 – HDCP Off
1 – HDCP On

Get the HDCP status of the
source device connected to
USB-C IN:

#HDCP-STAT?0,1<CR>

HELP

Get command list or
help for specific
command.

COMMAND

#HELP<CR>

#HELPcmd_name<CR>

FEEDBACK

1. Multi-line:

~nn@Devicecmd_name,cmd_name…<CR><LF>

To get help for command use: HELP (COMMAND_NAME)<CR><LF>

~nn@HELPcmd_name:<CR><LF>

description<CR><LF>

USAGE:usage<CR><LF>

cmd_name – Name of a specific

command

Get the command list:

#HELP<CR>

To get help for
AV-SW-TIMEOUT:
HELPav-sw-timeout<C

R>

LABEL

Set input/output label

COMMAND

#LABELio_mode,io_index,switch,label_txt<CR>

FEEDBACK

~nn@LABELio_mode,io_index,switch,label_txt<CR><LF>

io_mode – Number that indicates the

specific input:

0 – Input
1 – Output

io_index – Number that indicates the

specific input:

For inputs –

1 – USB-C IN
2 – HDMI IN

For output

1 – HDBT output

switch – 0
label_txt – Custom label string

between 1 and 32 (at least one
character and not bigger than 32).

Set the HDMI input label on:

#LABEL0,2,0,hdmi<CR>

LABEL?

Get input/output label

COMMAND

#LABEL?io_mode,io_index,switch,label_txt<CR>

FEEDBACK

~nn@LABELio_mode,io_index,switch,label_txt<CR><LF>

io_mode – Number that indicates the

specific input:

0 – Input
1 – Output

io_index – Number that indicates the

specific input:

For inputs –

1 – USB-C IN
2 – HDMI IN

For output

1 – HDBT output

switch – 0
label_txt – Custom label string

between 1 and 32 (at least one
character and not bigger than 32).

label string

Get the HDMI input label:

#LABEL?0,2,0,hdmi<CR

>

LOCK-EDID

Lock last read EDID.

COMMAND

#LOCK-EDIDin_index,lock_mode<CR>

FEEDBACK

~nn@LOCK-EDIDin_index,lock_mode<CR><LF>

in_index – Number that indicates the

specific input:

1 – USB-C IN
2 – HDMI IN

lock_mode – On/Off

0 – Off unlocks EDID
1 – On locks EDID

Lock the last read EDID
from input 2:

#LOCK-EDID2,1<CR>

LOCK-EDID?

Get EDID Lock status.

COMMAND

#LOCK-EDID?in_index <CR>

FEEDBACK

~nn@LOCK-EDIDin_index,lock_mode<CR><LF>

in_index – Number that indicates the

specific input:

1 – USB-C IN
2 – HDMI IN

lock_mode – On/Off

0 – Off unlocks EDID
1 – On locks EDID

Get input 2 Lock EDID
status:

#LOCK-EDID?2<CR>
LOG-TAIL?

Get the list of the N
last events.

COMMAND

#LOG-TAIL?last_event<CR>

FEEDBACK

~nn@LOG-TAILlast_event,ok,<list><CR><LF>

last_event – the number of last

events to view <N = 1,2,3…>

Get the protocol permission
level to Admin:

#LOG-TAIL?8<CR>

Kramer Electronics Ltd.

WP-20CT – Protocol 3000

48

Function

Description

Syntax

Parameters/Attributes

Example

LOGIN

Set protocol
permission.

The permission
system works only if
security is enabled

with the “SECUR”

command.
LOGIN allows the user

to run commands with
an End User or
Administrator
permission level.
When the permission
system is enabled,
LOGIN enables
running commands
with the User or
Administrator

permission level

When set, login must
be performed upon

each connection

It is not mandatory to
enable the permission
system in order to use
the device

In each device, some
connections allow
logging in to different
levels. Some do not
work with security at
all.

Connection may
logout after timeout.

COMMAND

#LOGINlogin_level,password<CR>

FEEDBACK

~nn@LOGINlogin_level,passwordok<CR><LF>

or

~nn@LOGINerr004<CR><LF>

(if bad password entered)

login_level – Level of permissions

required (User or Admin)

password – Predefined password (by

PASS command). Default password is
an empty string

Set the protocol permission
level to Admin (when the
password defined in the
PASS command is 33333):

#LOGINadmin,33333<CR

>

LOGIN?

Get protocol
permission state.

The permission
system works only if
security is enabled

with the “SECUR”

command.
LOGIN allows the user

to run commands with
an End User or
Administrator
permission level.
When the permission
system is enabled,
LOGIN enables
running commands
with the User or
Administrator

permission level

When set, login must
be performed upon

each connection

It is not mandatory to
enable the permission
system in order to use
the device

In each device, some
connections allow
logging in to different
levels. Some do not
work with security at
all.

Connection may
logout after timeout.

COMMAND

#LOGINlogin_level <CR>

FEEDBACK

~nn@LOGINlogin_level,passwordok<CR><LF>

or

~nn@LOGINerr004<CR><LF>

(if bad password entered)

login_level – Level of permissions

required (User or Admin)

password – Predefined password (by

PASS command). Default password is
an empty string
or NO SECURE if authentication is
removed.

Get the protocol permission
level to Admin:

#LOGIN?admin<CR>

LOGOUT

Cancel current
permission level.

Logs out from End
User or Administrator
permission levels to
Not Secure.

COMMAND

#LOGOUT<CR>

FEEDBACK

~nn@LOGOUTok<CR><LF>

#LOGOUT<CR>

MODEL?

Get device model.

COMMAND

#MODEL?<CR>

FEEDBACK

~nn@MODELmodel_name<CR><LF>

model_name – String of up to 19

printable ASCII chars

Get the device model:

#MODEL?<CR>

NAME

Set machine (DNS)
name.

The machine name
is not the same as the
model name. The
machine name is used
to identify a specific
machine or a network
in use (with DNS
feature on).

COMMAND

#NAMEmachine_name<CR>

FEEDBACK

~nn@NAMEmachine_name<CR><LF>

machine_name – String of up to 15

alpha-numeric chars (can include
hyphen, not at the beginning or end)

Set the DNS name of the
device to room-442:

#NAMEroom-442<CR>

Kramer Electronics Ltd.

WP-20CT – Protocol 3000

49

Function

Description

Syntax

Parameters/Attributes

Example

NAME?

Get machine (DNS)
name.

The machine name
is not the same as the
model name. The
machine name is used
to identify a specific
machine or a network
in use (with DNS
feature on).

COMMAND

#NAME?<CR>

FEEDBACK

~nn@NAMEmachine_name<CR><LF>

machine_name – String of up to 15

alpha-numeric chars (can include
hyphen, not at the beginning or end)

Get the DNS name of the
device:

#NAME?<CR>

NAME-RST

Reset machine (DNS)
name to factory
default.

Factory default of
machine (DNS) name

is “KRAMER_” + 4 last

digits of device serial
number.

COMMAND

#NAME-RST<CR>

FEEDBACK

~nn@NAME-RSTok<CR><LF>

Reset the machine name
(S/N last digits are 0102):

#NAME­RSTkramer_0102<CR>

NET-CONFIG

Set a network
configuration.

Parameters

[DNS1] and
[DNS2]are optional.

For Backward
compatibility, the id
parameter can be
omitted. In this case,
the Network ID, by
default, is 0, which is
the Ethernet control
port.

If the gateway
address is not
compliant to the
subnet mask used for
the host IP, the
command will return
an error. Subnet and
gateway compliancy
specified by RFC950.

COMMAND

#NET-CONFIGnetw_id,net_ip,net_mask,gateway,[dns1],[d

ns2]<CR>

FEEDBACK

~nn@NET-CONFIGnetw_id,net_ip,net_mask,gateway<CR><LF

>

netw_id – 0
net_ip – Network IP
net_mask – Network mask
gateway – Network gateway

Set the device network
parameters to IP address

192.168.113.10, net mask

255.255.0.0, and gateway

192.168.0.1:

#NET-CONFIG0,192.168
.113.10,255.255.0.0,1

92.168.0.1<CR>

NET-CONFIG?

Get a network
configuration.

Parameters

[DNS1] and
[DNS2]are optional.

For Backward
compatibility, the id
parameter can be
omitted. In this case,
the Network ID, by
default, is 0, which is
the Ethernet control
port.

If the gateway
address is not
compliant to the
subnet mask used for
the host IP, the
command will return
an error. Subnet and
gateway compliancy
specified by RFC950.

COMMAND

#NET-CONFIGnetw_id,net_ip,net_mask,gateway,[dns1],[d

ns2]<CR>

FEEDBACK

~nn@NET-CONFIGnetw_id,net_ip,net_mask,gateway<CR><LF

>

netw_id – 0
net_ip – Network IP
net_mask – Network mask
gateway – Network gateway

Get the device network
parameters:

#NET-CONFIG?0<CR>

NET-DHCP?

Get DHCP mode.

For Backward
compatibility, the id
parameter can be
omitted. In this case,
the Network ID, by
default, is 0, which is
the Ethernet control
port.

COMMAND

#NET-DHCP?netw_id<CR>

FEEDBACK

~nn@NET-DHCPnetw_id,dhcp_state<CR><LF>

netw_id – Network ID–the device

network interface (if there are more
than one). Counting is 0 based,

meaning the control port is ‘0’,
additional ports are 1,2,3….

dhcp_state –

0 – Do not use DHCP. Use the IP set

by the factory or using the net-
ip or net-config command.

1 – Try to use DHCP. If unavailable,

use the IP set by the factory or
using the net-ip or net-
config command.

Get DHCP mode for port 1:

#NET-DHCP?1<CR>

NET-GATE

Set gateway IP.

A network gateway
connects the device
via another network
and maybe over the
Internet. Be careful of
security issues. For
proper settings consult
your network
administrator.

COMMAND

#NET-GATEip_address<CR>

FEEDBACK

~nn@NET-GATEip_address<CR><LF>

ip_address – Format: xxx.xxx.xxx.xxx

Set the gateway IP address
to 192.168.0.1:

#NET­GATE192.168.000.001<

CR>

NET-GATE?

Get gateway IP.

A network gateway
connects the device
via another network
and maybe over the
Internet. Be aware of
security problems.

COMMAND

#NET-GATE?<CR>

FEEDBACK

~nn@NET-GATEip_address<CR><LF>

ip_address – Format: xxx.xxx.xxx.xxx

Get the gateway IP address:
#NET-GATE?<CR>

Kramer Electronics Ltd.

WP-20CT – Protocol 3000

50

Function

Description

Syntax

Parameters/Attributes

Example

NET-IP

Set IP address.

For proper settings
consult your network
administrator.

COMMAND

#NET-IPip_address<CR>

FEEDBACK

~nn@NET-IPip_address<CR><LF>

ip_address – Format: xxx.xxx.xxx.xxx

Set the IP address to

192.168.1.39:

#NET­IP192.168.001.039<CR

>

NET-IP?

Get IP address.

COMMAND

#NET-IP?<CR>

FEEDBACK

~nn@NET-IPip_address<CR><LF>

ip_address – Format: xxx.xxx.xxx.xxx

Get the IP address:
#NET-IP?<CR>

NET-MAC?

Get MAC address.

For backward
compatibility, the id
parameter can be
omitted. In this case,
the Network ID, by
default, is 0, which is
the Ethernet control
port.

COMMAND

#NET-MAC?id<CR>

FEEDBACK

~nn@NET-MACid,mac_address<CR><LF>

id – Network ID–the device network

interface (if there are more than one).
Counting is 0 based, meaning the

control port is ‘0’, additional ports are
1,2,3….

mac_address – Unique MAC address.

Format: XX-XX-XX-XX-XX-XX where X
is hex digit

#NET-MAC?id<CR>

NET-MASK

Set subnet mask.

For proper settings
consult your network
administrator.

COMMAND

#NET-MASKnet_mask<CR>

FEEDBACK

~nn@NET-MASKnet_mask<CR><LF>

net_mask – Format: xxx.xxx.xxx.xxx

Set the subnet mask to

255.255.0.0:

#NET­MASK255.255.000.000<

CR>

NET-MASK?

Get subnet mask.

COMMAND

#NET-MASK?<CR>

FEEDBACK

~nn@NET-MASKnet_mask<CR><LF>

net_mask – Format: xxx.xxx.xxx.xxx

Get the subnet mask:
#NET-MASK?<CR>

PASS

Set password for login
level.

The default
password is an empty
string.

COMMAND

#PASSlogin_level,password<CR>

FEEDBACK

~nn@PASSlogin_level,password<CR><LF>

login_level – Level of login to set

(End User or Administrator).

password – Password for the

login_level. Up to 15 printable ASCII
chars

Set the password for the
Admin protocol permission
level to 33333:

#PASSadmin,33333<CR>

PASS?

Get password for login
level.

The default
password is an empty
string.

COMMAND

#PASSlogin_level <CR>

FEEDBACK

~nn@PASSlogin_level,password<CR><LF>

login_level – Level of login to set

(End User or Administrator).

password – Password for the

login_level. Up to 15 printable ASCII
chars

Get the password for the
Admin protocol permission:
#PASS?admin<CR>

PRIORITY

Set input priority.

WP-577VH – layer
parameter is not used.

COMMAND

#PRIORITYlayer_type,priority_1,priority_2…priority_4

<CR>

FEEDBACK

~nn@PRIORITYlayer_type,priority_1,priority_2…priorit

y_n<CR><LF>

layer_type – Layer Enumeration

1 – Video

priority – Priority of inputs (1-2)

1 – USB-C
2 – HDMI

Set the priority to USB-C
first and HDMI second, is
1,2:

#PRIORITY1,1,2<CR>

PRIORITY?

Set input priority.

COMMAND

#PRIORITY?layer_type<CR>

FEEDBACK

~nn@PRIORITYlayer_type,priority_1,priority_2…priorit

y_4<CR><LF>

layer_type – Layer Enumeration

1 – Video

priority – Priority of inputs (1-2)

1 – USB-C
2 – HDMI

Get the input priority:

#PRIORITY?1<CR>

PROT-VER?

Get device protocol
version.

COMMAND

#PROT-VER?<CR>

FEEDBACK

~nn@PROT-VER3000:version<CR><LF>

version – XX.XX where X is a

decimal digit

Get the device protocol
version:

#PROT-VER?<CR>

RESET

Reset device.

To avoid locking
the port due to a USB
bug in Windows,
disconnect USB
connections
immediately after
running this command.
If the port was locked,
disconnect, and
reconnect the cable to
reopen the port.

COMMAND

#RESET<CR>

FEEDBACK

~nn@RESETok<CR><LF>

Reset the device:

#RESET<CR>

ROUTE

Set layer routing.

This command
replaces all other
routing commands.

COMMAND

#ROUTElayer_type,out_index,in_index<CR>

FEEDBACK

~nn@ROUTElayer_type,out_index,in_index<CR><LF>

layer_type Layer Enumeration

1 – Video
3 – Data

out_index

1 – Output

in_index –

Source id for Video:

1 – USB-C IN
2 – HDMI IN

Source id for Data:

2 –RS232EXTD extension mode.
3 – Maestro HDBT control mode

Route video input 2 to the
output:

#ROUTE1,1,2<CR>

Connect HDBT to Maestro
“RS232EXTD” (the Far Side
Terminal needs to be
configured to 9600bps):

#ROUTE3,1,3<CR>

Kramer Electronics Ltd.

WP-20CT – Protocol 3000

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Function

Description

Syntax

Parameters/Attributes

Example

ROUTE?

Get layer routing state.

This command
replaces all other
routing commands.

COMMAND

#ROUTE?layer_type,out_index<CR>

FEEDBACK

~nn@ROUTElayer_type,out_index,in_index <CR><LF>

layer_type Layer Enumeration

1 – Video
3 – Data

out_index

1 – OUT 1 HDMI

in_index –

Source id for Video

1 – USB-C IN
2 – HDMI IN

Source id for Data:

2 –RS232EXTD extension mode.
3 – Maestro HDBT control mode

Get video routing output:

#ROUTE?1,1<CR>

SECUR

Start/stop security.

The permission
system works only if
security is enabled

with the “SECUR”

command.

COMMAND

#SECURsecurity_state<CR>

FEEDBACK

~nn@SECURsecurity_state<CR><LF>

security_state – Security state

0 – OFF (disables security)
1 – ON (enables security)

Enable the permission
system:

#SECUR1<CR>

SECUR?

Get security state.

The permission
system works only if
security is enabled

with the “SECUR”

command.

COMMAND

#SECUR?security_state<CR>

FEEDBACK

~nn@SECURsecurity_state<CR><LF>

security_state – Security state

0 – OFF (disables security)
1 – ON (enables security)

Enable the permission
system:

#SECUR?<CR>

SIGNAL?

Get input signal status.

COMMAND

#SIGNAL?in_index<CR>

FEEDBACK

~nn@SIGNALin_index,status<CR><LF>

in_index – Number that indicates the

specific input:

1 – USB-C IN
2 – HDMI IN

status – Signal status according to

signal validation:

0 – Off
1 – On

Get the input signal lock
status of IN 1:

#SIGNAL?1<CR>

SN?

Get device serial

number.

COMMAND

#SN?<CR>

FEEDBACK

~nn@SNserial_num<CR><LF>

serial_num – 14 decimal digits,

factory assigned

Get the device serial
number:

#SN?<CR>

STANDBY

Set standby mode.

COMMAND

#STANDBYvalue<CR>

FEEDBACK

~nn@STANDBYvalue<CR><LF>

value – Standby state:

0 – Exit
1 – Enter

Enter standby mode:

#STANDBY1<CR>

STANDBY?

Get standby mode.

COMMAND

#STANDBY?<CR>

FEEDBACK

~nn@STANDBYvalue<CR><LF>

value – Standby state

0 – Exit
1 – Enter

Get standby mode:

#STANDBY?<CR>

STANDBY­TIMEOUT

Set the delay time
before the device goes
into standby mode
after a period of no
device activity.

COMMAND

#STANDBY-TIMEOUTvalue<CR>

FEEDBACK

~nn@STANDBY-TIMEOUTvalue<CR><LF>

value – Standby timeout: (up to

900min, never 0; default = 30min)

Set standby timeout after 5
minutes of inactivaty:

#STANDBY­TIMEOUT5<CR>

STANDBY­TIMEOUT?

Get the delay time
before the device goes
into standby mode
after a period of no
device activity.

COMMAND

#STANDBY-TIMEOUT?<CR>

FEEDBACK

~nn@STANDBY-TIMEOUTvalue<CR><LF>

value – Standby timeout: (up to

900min, never 0; default = 30min)

Get standby timeout:

#STANDBY­TIMEOUT?<CR>

TIME

Set device time and
date.

The year must be 4
digits.

The device does not
validate the day of
week from the date.

Time format - 24
hours.

Date format - Day,
Month, Year.

COMMAND

#TIMEday_of_week,date,data<CR>

FEEDBACK

~nn@TIMEday_of_week,date,data<CR><LF>

day_of_week – One of

{SUN,MON,TUE,WED,THU,FRI,SAT}

date – Format: DD-MM-YYYY.
data – Format: hh:mm:ss where

hh = hours
mm = minutes
ss = seconds

Set device time and date to
December 5, 2020 at
2:30pm:

#TIMEmon05-12­2020,14:30:00<CR>

TIME?

Get device time and
date.

The year must be 4
digits.

The device does not
validate the day of
week from the date.

Time format - 24
hours.

Date format - Day,
Month, Year.

COMMAND

#TIME?<CR>

FEEDBACK

~nn@TIMEday_of_week,date,data<CR><LF>

day_of_week – One of

{SUN,MON,TUE,WED,THU,FRI,SAT}

date – Format: YYYY/MM/DD where

YYYY = Year
MM = Month
DD = Day

data – Format: hh:mm:ss where

hh = hours
mm = minutes
ss = seconds

Get device time and date:

#TIME?<CR>

VERSION?

Get firmware version
number.

COMMAND

#VERSION?<CR>

FEEDBACK

~nn@VERSIONfirmware_version<CR><LF>

firmware_version – XX.XX.XXXX

where the digit groups are:
major.minor.build version

Get the device firmware
version number:

#VERSION?<CR>

Kramer Electronics Ltd.

WP-20CT – Protocol 3000

52

Function

Description

Syntax

Parameters/Attributes

Example

VMUTE

Set enable/disable
video on output.

Video mute
parameter 2 (blank
picture) is not
supported.

COMMAND

#VMUTEout_index,flag<CR>

FEEDBACK

~nn@VMUTEout_index,flag<CR><LF>

out_index – Number that indicates

the specific output – 1

flag – Video Mute

0 – Video enabled
1 – Video disabled
2 – Blank picture

Disable the video output on
output:

#VMUTE1,0<CR>

VMUTE?

Get video on output
status.

Video mute
parameter 2 (blank
picture) is not
supported.

COMMAND

#VMUTE?out_index<CR>

FEEDBACK

~nn@VMUTEout_index,flag<CR><LF>

out_index – Number that indicates

the specific output – 1

flag – Video Mute

0 – Video enabled
1 – Video disabled
2 – Blank picture

Get video on output status:

#VMUTE?1<CR>

Result and Error Codes

Syntax

In case of an error, the device responds with an error message. The error message syntax:

• ~NN@ERR XXX<CR><LF> – when general error, no specific command

• ~NN@CMD ERR XXX<CR><LF> – for specific command

• NN – machine number of device, default = 01

• XXX – error code

Kramer Electronics Ltd.

WP-20CT – Protocol 3000

53

Error Codes

Error Name

Error
Code

Description

P3K_NO_ERROR

0

No error

ERR_PROTOCOL_SYNTAX

1

Protocol syntax

ERR_COMMAND_NOT_AVAILABLE

2

Command not available

ERR_PARAMETER_OUT_OF_RANGE

3

Parameter out of range

ERR_UNAUTHORIZED_ACCESS

4

Unauthorized access

ERR_INTERNAL_FW_ERROR

5

Internal FW error

ERR_BUSY

6

Protocol busy

ERR_WRONG_CRC

7

Wrong CRC

ERR_TIMEDOUT

8

Timeout

ERR_RESERVED

9

(Reserved)

ERR_FW_NOT_ENOUGH_SPACE

10

Not enough space for data (firmware, FPGA…)

ERR_FS_NOT_ENOUGH_SPACE

11

Not enough space – file system

ERR_FS_FILE_NOT_EXISTS

12

File does not exist

ERR_FS_FILE_CANT_CREATED

13

File can’t be created

ERR_FS_FILE_CANT_OPEN

14

File can’t open

ERR_FEATURE_NOT_SUPPORTED

15

Feature is not supported

ERR_RESERVED_2

16

(Reserved)

ERR_RESERVED_3

17

(Reserved)

ERR_RESERVED_4

18

(Reserved)

ERR_RESERVED_5

19

(Reserved)

ERR_RESERVED_6

20

(Reserved)

ERR_PACKET_CRC

21

Packet CRC error

ERR_PACKET_MISSED

22

Packet number isn't expected (missing packet)

ERR_PACKET_SIZE

23

Packet size is wrong

ERR_RESERVED_7

24

(Reserved)

ERR_RESERVED_8

25

(Reserved)

ERR_RESERVED_9

26

(Reserved)

ERR_RESERVED_10

27

(Reserved)

ERR_RESERVED_11

28

(Reserved)

ERR_RESERVED_12

29

(Reserved)

ERR_EDID_CORRUPTED

30

EDID corrupted

ERR_NON_LISTED

31

Device specific errors

ERR_SAME_CRC

32

File has the same CRC – not changed

ERR_WRONG_MODE

33

Wrong operation mode

ERR_NOT_CONFIGURED

34

Device/chip was not initialized

The warranty obligations of Kramer Electronics Inc. (“Kramer Electronics”) for this product are limited to the terms set forth below:

What is Covered

This limited warranty covers defects in materials and workmanship in this product.

What is Not Covered

This limited warranty does not cover any damage, deterioration or malfunction resulting from any alteration, modification, improper or unreasonable use or
maintenance, misuse, abuse, accident, neglect, exposure to excess moisture, fire, improper packing and shipping (such claims must be presented to the carrier),
lightning, power surges, or other acts of nature. This limited warranty does not cover any damage, deterioration or malfunction resulting from the installation or
removal of this product from any installation, any unauthorized tampering with this product, any repairs attempted by anyone unauthorized by Kramer Electronics
to make such repairs, or any other cause which does not relate directly to a defect in materials and/or workmanship of this product. This limited warranty does not
cover cartons, equipment enclosures, cables or accessories used in conjunction with this product.
Without limiting any other exclusion herein, Kramer Electronics does not warrant that the product covered hereby, including, without limitation, the technology
and/or integrated circuit(s) included in the product, will not become obsolete or that such items are or will remain compatible with any other product or technology
with which the product may be used.

How Long this Coverage Lasts

The standard limited warranty for Kramer products is seven (7) years from the date of original purchase, with the following exceptions:

1. All Kramer VIA hardware products are covered by a standard three (3) year warranty for the VIA hardware and a standard three (3) year
warranty for firmware and software updates; all Kramer VIA accessories, adapters, tags, and dongles are covered by a standard one (1) year
warranty.

2. Kramer fiber optic cables, adapter-size fiber optic extenders, pluggable optical modules, active cables, cable retractors, ring mounted
adapters, portable power chargers, Kramer speakers, and Kramer touch panels are covered by a standard one (1) year warranty. Kramer
7-inch touch panels purchased on or after April 1st, 2020 are covered by a standard two (2) year warranty.

3. All Kramer Calibre products, all Kramer Minicom digital signage products, all HighSecLabs products, all streaming, and all wireless products
are covered by a standard three (3) year warranty.

4. All Sierra Video MultiViewers are covered by a standard five (5) year warranty.

5. Sierra switchers & control panels are covered by a standard seven (7) year warranty (excluding power supplies and fans that are covered for
three (3) years).

6. K-Touch software is covered by a standard one (1) year warranty for software updates.

7. All Kramer passive cables are covered by a lifetime warranty.

Who is Covered

Only the original purchaser of this product is covered under this limited warranty. This limited warranty is not transferable to subsequent purchasers or owners of
this product.

What Kramer Electronics Will Do

Kramer Electronics will, at its sole option, provide one of the following three remedies to whatever extent it shall deem necessary to satisfy a proper claim under
this limited warranty:

1. Elect to repair or facilitate the repair of any defective parts within a reasonable period of time, free of any charge for the necessary parts and
labor to complete the repair and restore this product to its proper operating condition. Kramer Electronics will also pay the shipping costs
necessary to return this product once the repair is complete.

2. Replace this product with a direct replacement or with a similar product deemed by Kramer Electronics to perform substantially the same
function as the original product. If a direct or similar replacement product is supplied, the original product’s end warranty date remains
unchanged and is transferred to the replacement product.

3. Issue a refund of the original purchase price less depreciation to be determined based on the age of the product at the time remedy is sought
under this limited warranty.

What Kramer Electronics Will Not Do Under This Limited Warranty

If this product is returned to Kramer Electronics or the authorized dealer from which it was purchased or any other party authorized to repair Kramer Electronics
products, this product must be insured during shipment, with the insurance and shipping charges prepaid by you. If this product is returned uninsured, you assume
all risks of loss or damage during shipment. Kramer Electronics will not be responsible for any costs related to the removal or re-installation of this product from or
into any installation. Kramer Electronics will not be responsible for any costs related to any setting up this product, any adjustment of user controls or any
programming required for a specific installation of this product.

How to Obtain a Remedy Under This Limited Warranty

To obtain a remedy under this limited warranty, you must contact either the authorized Kramer Electronics reseller from whom you purchased this product or the
Kramer Electronics office nearest you. For a list of authorized Kramer Electronics resellers and/or Kramer Electronics authorized service providers, visit our web
site at www.kramerav.com or contact the Kramer Electronics office nearest you.
In order to pursue any remedy under this limited warranty, you must possess an original, dated receipt as proof of purchase from an authorized Kramer Electronics
reseller. If this product is returned under this limited warranty, a return authorization number, obtained from Kramer Electronics, will be required (RMA number).
You may also be directed to an authorized reseller or a person authorized by Kramer Electronics to repair the product.
If it is decided that this product should be returned directly to Kramer Electronics, this product should be properly packed, preferably in the original carton, for
shipping. Cartons not bearing a return authorization number will be refused.

Limitation of Liability

THE MAXIMUM LIABILITY OF KRAMER ELECTRONICS UNDER THIS LIMITED WARRANTY SHALL NOT EXCEED THE ACTUAL PURCHASE PRICE PAID
FOR THE PRODUCT. TO THE MAXIMUM EXTENT PERMITTED BY LAW, KRAMER ELECTRONICS IS NOT RESPONSIBLE FOR DIRECT, SPECIAL,
INCIDENTAL OR CONSEQUENTIAL DAMAGES RESULTING FROM ANY BREACH OF WARRANTY OR CONDITION, OR UNDER ANY OTHER LEGAL
THEORY. Some countries, districts or states do not allow the exclusion or limitation of relief, special, incidental, consequential or indirect damages, or the limitation
of liability to specified amounts, so the above limitations or exclusions may not apply to you.

Exclusive Remedy

TO THE MAXIMUM EXTENT PERMITTED BY LAW, THIS LIMITED WARRANTY AND THE REMEDIES SET FORTH ABOVE ARE EXCLUSIVE AND IN LIEU OF
ALL OTHER WARRANTIES, REMEDIES AND CONDITIONS, WHETHER ORAL OR WRITTEN, EXPRESS OR IMPLIED. TO THE MAXIMUM EXTENT
PERMITTED BY LAW, KRAMER ELECTRONICS SPECIFICALLY DISCLAIMS ANY AND ALL IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION,
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IF KRAMER ELECTRONICS CANNOT LAWFULLY DISCLAIM OR
EXCLUDE IMPLIED WARRANTIES UNDER APPLICABLE LAW, THEN ALL IMPLIED WARRANTIES COVERING THIS PRODUCT, INCLUDING WARRANTIES
OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, SHALL APPLY TO THIS PRODUCT AS PROVIDED UNDER APPLICABLE LAW.
IF ANY PRODUCT TO WHICH THIS LIMITED WARRANTY APPLIES IS A “CONSUMER PRODUCT” UNDER THE MAGNUSON -MOSS WARRANTY ACT (15
U.S.C.A. §2301, ET SEQ.) OR OTHER APPLICABLE LAW, THE FOREGOING DISCLAIMER OF IMPLIED WARRANTIES SHALL NOT APPLY TO YOU, AND
ALL IMPLIED WARRANTIES ON THIS PRODUCT, INCLUDING WARRANTIES OF MERCHANTABILITY AND FITNESS FOR THE PARTICULAR PURPOSE,
SHALL APPLY AS PROVIDED UNDER APPLICABLE LAW.

Other Conditions

This limited warranty gives you specific legal rights, and you may have other rights which vary from country to country or state to state.
This limited warranty is void if (i) the label bearing the serial number of this product has been removed or defaced, (ii) the product is not distributed by Kramer
Electronics or (iii) this product is not purchased from an authorized Kramer Electronics reseller. If you are unsure whether a reseller is an authorized Kramer
Electronics reseller, visit our web site at www.kramerav.com or contact a Kramer Electronics office from the list at the end of this document.
Your rights under this limited warranty are not diminished if you do not complete and return the product registration form or complete and submit the online product
registration form. Kramer Electronics thanks you for purchasing a Kramer Electronics product. We hope it will give you years of satisfaction.

www.kramerav.com
support@kramerav.com

P/N:

2900-301523

Rev:

2

SAFETY WARNING

Disconnect the unit from the power supply before opening and servicing

For the latest information on our products and a list of Kramer distributors, visit our website where
updates to this user manual may be found.

We welcome your questions, comments, and feedback.

The terms HDMI, HDMI High-Definition Multimedia Interface, and the HDMI Logo are trademarks or registered trademarks of HDMI Licensing Administrator, Inc.
All brand names, product names, and trademarks are the property of their respective owners.