CYP CR-CS4 Hardware System Control I O Centre User Manual

June 13, 2024
CYP

CYP CR-CS4 Hardware System Control I O Centre

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-PRODUCT

Product Information:

  • Product Name: CR-CS4
  • Hardware System Control I/O Centre
  • Manufacturer: CYP (UK) Ltd
  • Version: 1.1

Trademark Acknowledgments:
All products or service names mentioned in this document may be trademarks of the companies with which they are associated.

Safety Precautions:

  • Please read all instructions before unpacking, installing, or operating the equipment.
  • Connect the power supply only after carefully following the installation instructions.

Contents:

  • Introduction
  • Applications
  • Package Contents
  • System Requirements
  • Features
  • Operation

Controls and Functions

  • Introduction: The CR-CS4 Hardware System Control I/O Centre is a versatile device that supports PoE (Power over Ethernet) for easy installation. It can be powered via a standard PoE+ network switch, eliminating the need for an external power adapter. The unit can be controlled through various methods such as WebGUI, Telnet, and external triggers. It is designed to be installed within a 6U Rack Chassis or mounted directly onto any flat surface.
  • Applications: The CR-CS4 Hardware System Control I/O Centre is suitable for the following applications:
    • Smart Home Control
    • Control Center
    • Function Room
    • Product Showroom
    • Ballroom
  • Package Contents:
    • CR-CS4 Hardware System Control I/O Centre (quantity: 1)
  • System Requirements: To control equipment via Telnet, serial, IR remote, or relay, the following system requirements are necessary:
    • Equipment compatible with Telnet, serial, IR remote, or relay control
    • An active internet connection from a switch or router for control of Ethernet devices
  • Features: The CR-CS4 Hardware System Control I/O Centre offers the following features:
    • 16 trigger inputs linked directly to 16 user macros for instant control activation
    • 16 additional macros (32 total) that can be activated via Ethernet or on a defined schedule

Product Usage Instructions

  1. Unpacking and Installation:
    • Carefully unpack the CR-CS4 Hardware System Control I/O Centre.
    • Follow the installation instructions provided in the user manual.
  2. Power Connection:
    • If using PoE, connect the CR-CS4 unit to a standard PoE+ (802.3at Type 2) network switch using an Ethernet cable.
    • If not using PoE, connect the external power adapter to the CR-CS4 unit and plug it into a power outlet.
  3. Control Methods:
    • WebGUI: Access the WebGUI interface to control the CR-CS4 unit. Refer to the user manual for detailed instructions on how to access and use the WebGUI.
    • Telnet: Use Telnet to control the CR-CS4 unit. Refer to the user manual for Telnet commands and instructions.
    • External Triggers: Connect external triggers to the trigger inputs on the CR-CS4 unit to activate control macros. Refer to the user manual for information on configuring and using external triggers. Note: For detailed information on operation controls and functions, including fron panel, rear panel, IR cable pinouts, serial pinout and defaults, and RJ-45 pinouts, refer to Section 6 of the user manual. Please ensure to read the complete user manual for comprehensive instructions on operating the CR-CS4 Hardware System Control I/O Centre.

DISCLAIMERS
The information in this manual has been carefully checked and isbelieved to be accurate. CYP (UK) Ltd assumes no responsibility for any infringements of patents or other rights of third parties which may result from its use.
CYP (UK) Ltd assumes no responsibility for any inaccuracies that may be contained in this document. CYP (UK) Ltd also makes no commitment to update or to keep current the information contained in this document. CYP (UK) Ltd reserves the right to make improvements to this document and/or product at any time and without notice.

COPYRIGHT NOTICE
No part of this document may be reproduced, transmitted, transcribed, stored in a retrieval system, or any of its part translated into any language or computer file, in any form or by any means—electronic, mechanical, magnetic, optical, chemical, manual, or otherwise—without express written permission and consent from CYP (UK) Ltd.
© Copyright 2020 by CYP (UK) Ltd.
All Rights Reserved.
Version 1.1

TRADEMARK ACKNOWLEDGMENTS
All products or service names mentioned in this document may be trademarks of the companies with which they are associated.

SAFETY PRECAUTIONS

Please read all instructions before attempting to unpack, install or operate this equipment and before connecting the power supply. Please keep the following in mind as you unpack and install this equipment:

  • Always follow basic safety precautions to reduce the risk of fire, electrical shock and injury to persons.
  • To prevent fire or shock hazard, do not expose the unit to rain, moisture or install this product near water.
  • Never spill liquid of any kind on or into this product.
  • Never push an object of any kind into this product through any openings or empty slots in the unit, as you may damage parts inside the unit.
  • Do not attach the power supply cabling to building surfaces.
  • Use only the supplied power supply unit (PSU). Do not use the PSU if it is damaged.
  • Do not allow anything to rest on the power cabling or allow any weight to be placed upon it or any person walk on it.
  • To protect the unit from overheating, do not block any vents or openings in the unit housing that provide ventilation and allow for sufficient space for air to circulate around the unit.
  • Please completely disconnect the power when the unit is not in use to avoid wasting electricity.

VERSION HISTORY

REV. DATE SUMMARY OF CHANGE
V1.00 26/08/2021 Preliminary release

INTRODUCTION

This System Control Center is ideal for any user who has a wide variety of devices that need to be controlled. It comes with 16 external trigger connections which can be activated using the traditional twin-wire short method, or using our specially designed Trigger Buttons (sold separately).
Each trigger directly activates 1 of 16 associated user defined macro events (out of 32 total) stored within the unit. All 32 macros are able to be activated via the WebGUI, or Telnet. Those user defined macros can control remote devices via Ethernet, IR, serial port (RS-232/422/485), relay, or direct voltage allowing for the control of a large array of devices at the push of a button. A battery backed-up clock allows for detailed event scheduling based on a repeating daily/weekly schedule, or single events.
An integrated IR code learning function is also available, allowing the user to store and re-transmit the IR codes sent by nearly any standard IR remote.
Last but not least, this unit supports being powered via PoE from a standard PoE+ (802.3at Type 2) network switch, without the need for an external power adapter, allowing for incredible installation flexibility.
The case is designed to be installed within our 6U Rack Chassis or it can be mounted directly onto any flat surface. The unit can be controlled via WebGUI, Telnet, and external triggers.

APPLICATIONS

  • Smart Home Control
  • Control Center
  • Function Room
  • Product Showroom
  • Ballroom

PACKAGE CONTENTS

  • 1× System Control Center
  • 1× 24V/1A DC Power Adapter
  • 4× IR Blaster Cable (4×2-pin Terminal Block)
  • 1× IR Extender Cable
  • 2× 6-pin Terminal Block
  • 4× 2-pin Terminal Block
  • 1× Shockproof Feet (Set of 4)
  • 1× Operation Manual

SYSTEM REQUIREMENTS

Equipment which can be controlled via Telnet, serial, IR remote or relay.
An active internet connection from a switch or router for control of
Ethernet devices.

FEATURES

  • 16 trigger inputs linked directly to

  • 16 user macros allowing for instant control activation 16 additional macros (32 total) that can be activated via Ethernet, or on a defined schedule

  • 4 power relays to control devices such as projector screens, lighting, etc.

  • 4 IR outputs to control devices such as TVs, media players, etc.

  • Integrated IR input for IR code learning functionality

  • 2 serial ports for controlling RS-232/422/485 devices

  • 16 variable voltage outputs for controlling low power devices (20mA total) or activating external triggers
    Note: Trigger Buttons and Voltage Out ports cannot be used at the same time.
    Battery backed up clock for scheduling events

  • Can optionally be powered via PoE (802.3at Type 2)

  • Case is designed to be installed within our 6U Rack Chassis or it can be mounted directly onto any flat surface

  • Controllable via WebGUI, Telnet, and external triggers

OPERATION CONTROLS AND FUNCTIONS

Front Panel

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(1\)

  1. TRIGGER IN 1~16 Ports: Connect to any device with trigger or switch functionality such as window security alarms, motion detectors, doorswitches, etc. Each of the 16 trigger inputs will activate the associated macro when triggered. A minimum of 5V DC is required to activate the trigger.

  2. VOLTAGE OUT 1~16 Ports: Connect to devices with trigger controls, or modest power requirements (up to 20mA is available across all Voltage Out ports). The voltage of each port can be set between 0~10V.
    Note: Trigger Buttons and Voltage Out ports cannot be used at the same time.

  3. RELAY CONTROL OUT 1~4 2-pin Terminal Blocks: Connect to devices that are compatible with being controlled via power relay to control them via macro commands.
    Note: Each relay circuit supports 0~30VDC/10A or 0~250VAC/10A

  4. Reset Pinhole: Use a paperclip to press and hold this recessed button for 10 seconds to reset the IP configuration to the factory defaults.
    Note: The unit’s default IP address is set via DHCP.

  5. IR IN Port: Connect to the provided IR Extender to support learning IR commands. Ensure that the remote being used is within direct line-ofsight of the IR Extender.
    Note: For IR learning details please refer to section 6.6.3.

  6. POWER LED: This LED will illuminate to indicate the unit is on and receiving power.

Rear Panel

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(2\)

  1. DC 24V 3-pin Terminal Block: Plug the 24V DC power adapter into the unit and connect it to an AC wall outlet for power.
    Note: Not required if the unit is being powered via PoE.

  2. CONTROL (PoE): Connect directly, or through a network switch, to your PC/laptop to control the unit via Telnet/WebGUI and to control external devices via Telnet.
    Note: If the unit is connected to a network switch that provides PoE+ (802.3at Type 2) then no power adapter is required to power the unit.

  3. SERVICE Port: This slot is reserved for firmware update use only.

  4. COM PORT 1~2 6-pin Terminal Blocks: Connect to the devices you wish to control via 3 (or 5)-pin adapter cables to send RS-232/422/485 commands from the unit.

  5. IR OUT 4×2-pin Terminal Block: Connect to the provided IR Blasters to transmit IR signals to devices within direct line-of-sight of the IR Blaster.

  6. TRIGGER BUTTON 1~16 Ports: Connect to dedicated Trigger Buttons (CBL-MPBCAT-10, sold separately) to use the buttons to activate the associated macro. The 8 ports provide for the connection of up to 16 buttons (2 per port when using the CDPS-TG102 1×2 splitter, sold separately).

Note: Trigger Buttons and Voltage Out ports cannot be used at the same time.

IR Cable Pinouts

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(3\)

Serial Pinout and Defaults

Serial Port Default Settings

Baud Rate| 19200
Data Bits| 8
Parity Bits| None
Stop Bits| 1
Flow Control| None

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(5\)

RJ-45 Pinouts

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(5\)

WebGUI Control

Device Discovery
Please obtain the “Device Discovery” software from your authorised dealer and save it in a directory where you can easily find it.
Connect the unit and your PC/Laptop to the same active network and execute the “Device Discovery” software. Click on “Find Devices on
Internet” and a list of devices connected to the local network will show up indicating their current IP address.

Note: This unit defaults to DHCP mode. The current IP address can only be verified using the Device Discovery software.

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(7\)

By clicking on one of the listed devices you will be presented with the network details of that particular device.

  1. IP Mode : If you choose, you can alter the static IP network settings for the device, or switch the unit into DHCP mode to automatically obtain proper network settings from a local DHCP server. To switch to DHCP mode, please select DHCP from the IP mode drop-down, then click “Save” followed by “Reboot”.
  2. WebGUI Hotkey: Once you are satisfied with the network settings, you may use them to connect via Telnet or WebGUI. The network information window provides a convenient link to launch the WebGUI directly.

WebGUI Overview
After connecting to the WebGUI’s address in a web browser, the login screen will appear. Please enter the appropriate user name and password then click “Submit” to log in.

Note: The default user name and password is “admin”.

On the left side of the browser you will see the following menu tabs where all primary functions of the unit are controllable via the built in WebGUI. The individual functions will be introduced in the following sections.

Macro Settings Tab
This tab provides a way to execute/edit the settings for the unit’s first 8 macro buttons. These macros can be executed by activating triggers 1~8 (via the Trigger or Trigger Button ports) as well as via the WebGUI or Telnet.

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(11\)

  1. Macro Buttons: Press any of these buttons to activate the macro currently stored within it. Hovering the mouse over a button will list its current macro contents. Click on the edit icon ( ) to edit each button’s macro.
    There are 8 macros defined by default for testing the System Control
    Center’s functionality. Click on macros 1~8 to demonstrate various functions. The presets functions are:

    • Macro 1: Sequentially close relays 1 through 4 with a 100ms delay.
    • Macro 2: Sequentially open relays 1 through 4 with a 100ms delay.
    • Macro 3: Sequentially toggle the state of Relays 1 through 4 with a 100ms delay.
    • Macro 4: Sequentially send IR signals from emitters 1 through 4 with a 100ms delay.
    • Macros 5~8: Send a sample text string over the COM port with a 100ms delay afterwards.
  2. Macro Edit: Click on any button’s edit icon ( ) to edit that button’s macro. The Macro Edit window displays the full contents of the macro including it’s name as well as each command’s communication interface to use with its associated parameters, delay time before executing the next command, and conditional execution requirements. The order of command execution is from top to bottom.
    When you have finished editing the macro click on “Save Change”.CYP-CR-CS4
-Hardware-System-Control-I-O-Centre-FIG- \(13\)

    • Edit Name: At the top of the Macro Edit window is a text field where you can edit the name of the macro. Type your new macro name into the box and then click the disc icon ( ) to save it.

    • Add Command: Click on the command icon ( ) to insert a new command before the current one or click on the “Add” button to add a command to the end of the list. Select one of the pre-defined commands from the provided “Command Select” list.CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG- \(16\)
      After selecting a command the “Set Destination” window will open to allow the selection of the delay and target interface details for the command.
      Note: Details on how to create these pre-defined commands are provided in section 6.6.3.

    • Reorder Commands: Within the edit window the up/down arrows will move the associated command’s position and change the command execution order.

    • Set Destination: Clicking on the edit icon ( ) allows you to edit the post-execution delay value as well as set the interface and all associated settings for that commandCYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG- \(18\)

    • Delay(ms): This setting is the length of time to wait before sending the next command and is set in milliseconds.

    • Interface: The interface for sending commands can be set to the unit itself (SysCMD), to a specified IP address (TELNET), to a specified serial port (COM), to a specified IR port (IR) or to trigger a relay port (Relay). Sending commands to devices on the local network, or across the internet requires entering the IP address and network port of the destination device. Once the destination information is complete please click on the “Save Change” button.
      Note: It is strongly suggested to not set a delay time less than 100ms for system, serial, IR, and relay commands or less than 500ms for
      Telnet commands to ensure that the command is properly received and executed before the next command is sent.

    • Delete Command: Clicking on the delete command icon ( ) will remove the associated command from the execution list.

    • Execution Condition: Use the dropdowns to set a specific condition for each step in the macro to execute or not. If an execution condition tests as “false” when it is time to execute that command, then that step of the macro will be skipped. Selecting “None” means the macro command will always be executed.
      To configure a condition test, select the Condition Port to read a value from, select a logical comparison expression, and then select a static value to use for the comparison.
      For example, if the following choices are made:
      Cond Port [1], If [=], Value [42]
      Then the unit will check the value of Condition Port #1 and if the value stored there equals “42” then the test will return “true” and the macro step will execute. If the stored value is any other number, it will return “false” and the macro step will be skipped.

Extension Macro 1~3 Tabs
Click on any of the three “Extension Macro” tabs to execute/edit the 24 additional software-only macro buttons. These macros can only be activated via the WebGUI or Telnet. Extension Macro editing is identical to editing macros 1 through 8, please refer to section 6.5.1 for more details.

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(20\)

Command Settings Tab
This tab provides a way to create, edit or delete the commands used by macros. Each command is composed of standard ASCII or hex data and represents either a system command, relay command, IR code, or telnet/ serial command.

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(21\)

Note: The number of commands that can be stored in the unit is limited by memory and it is generally recommended that commands be under 128 characters long (including spaces). However, if longer commands are needed there is limited support for commands up to 512 characters long. In this case the number of (up to) 512 character commands is limited to 32 and the remaining 96 commands must be under 128 characters.

  1. Edit Command: Clicking on the “Edit” button will open up the “Command Edit” window which provides a way to define the contents of each individual command. Once all changes are satisfactory, click on the “Save Change” button to save them into the unit.CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG- \(22\)

    • Command Label: Assign a name for the command by entering the text into this field. All commands must have a label.

    • IR Learn: To learn an IR command, first make sure the included IR Extender is connected to the unit’s IR IN port, then press the “IR Learn” button. After doing this a notice will appear in the WebGUI to send the IR signal within 5 seconds. Point the remote control at the IR receiver and press the button that contains the command you wish to learn. A command string will appear in the text entry window containing the information captured from the IR remote.

    • Command Data: The command data to send is entered in this text box. The types of commands available and the interface to use with them are detailed below.
      Note: Except where explicitly mentioned, the “STD” format checkbox should always be checked.

    • System Commands (SysCMD Interface): Commands to control functions of the unit directly using the Telnet functions detailed in section 6.8.
      Note: Care must be taken when sending system commands, as they can impact the functionality of the unit itself.

    • Telnet or Serial Commands (Telnet & COM Interfaces): Simply enter the plain ASCII text of the command in the space provided.
      Special control characters that can’t normally be typed should be entered using their ASCII hex octet pair value preceded by the “\ x” escape sequence. For example, a carriage return and linefeed would be entered as: “\x0d\x0a”.

    • IR Commands (IR Interface): Typically this data is automatically filled in by using the IR Learning function, however an IR code may also be manually entered if necessary.
      Note: If the IR code is in “Pronto” format the “RAW HEX” checkbox must be checked.

    • Relay Commands (Relay Interface): Commands to control the state of each relay port. The port to control is assigned during the creation of each individual macro.
      CLOSE: Closes the circuit of the assigned relay port.
      OPEN: Opens the circuit of the assigned relay port.
      TOGGLE: Toggles the state of the assigned relay port.

  2. Delete Command: To clear the contents of a command, click on the “Remove” button. The contents will be removed immediately.
    Note: There is no “Undo” function! Please use caution when using the “Remove” button!

Condition Tab
This tab displays the current contents of all 64 Condition Ports and is for information display only.

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(23\)

Schedule Settings Tab
This tab provides multiple ways to automate and schedule the execution of any of the macros defined in this unit. Scheduled events can be individually disabled without deleting the event from the master list. The system can store up to 32 repeating events and up to 8 one-time events.

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(24\)

  1. Event Scheduling: Events can be scheduled to automatically activate at a single set time, or on a repeating schedule.
    Note: Each scheduled item must be set as “Active” for it to activate at the scheduled time.

    • Repeat: Items in this section will execute at their set times on the selected days (Sunday through Saturday) every week as long as they are marked as “Active”.
    • Once: Items in this section are scheduled to occur a single time at the specified time and date. Each item will automatically change to “None Active” after they have been executed once.
  2. Schedule Edit: To edit an existing scheduled event, or configure a new one, click on the “Edit” button. To delete a scheduled event, click on the “Remove” button.CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG- \(25\)
    Note: The available options are slightly different between Repeat and
    Once events.

    • Active: Click this to toggle if the scheduled event is enabled or disabled.
    • Weekly (Repeat Schedule Only): When editing a repeating event schedule, click the checkboxes next to the days of the week for the event to occur on.
    • Time/Date & Time: Click within the time/date box to open up the time/date selection window. Use the available controls to set the activation time (and date, if applicable) for the current event schedule.
    • Macro/Extension Macro: Click on this button to open a window displaying all currently defined macros. Select the macro to be executed by the currently selected event schedule.CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG- \(27\)

Network Settings Tab
This tab provides controls to change the network settings for the unit. You can manually set the IP address, netmask and gateway address in “Static IP” mode, or you can obtain an IP address automatically by enabling DHCP.

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(28\)

  1. Network Settings: IP mode may be switched between Static IP or DHCP. In Static IP mode the IP, netmask and gateway addresses may be manually set. When in DHCP mode, the unit will attempt to connect to a local DHCP server and obtain IP, netmask and gateway addresses automatically. Please press “Save” after making any changes to the IP configuration or mode. To return all network settings to their defaults, press the “Network Reset” button.
    Note: If the IP address is changed then the IP address required for WebGUI/Telnet access will also change accordingly.

System Settings Tab
This tab provides a way to change various system settings, including changing the WebGUI login password and timeout settings. You may also save the full system configuration, including all macros, to your connected PC/Laptop or restore them from a previously saved configuration. Finally, this tab provides buttons to reset the unit to factory defaults, reboot the unit, or perform a firmware update.

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(29\)

  1. Web User Setting: This section allows for the login password to be changed. The default username is “admin” and cannot be changed.
    The default password is “admin”.

  2. Web Login Timeout: Set the length of time, in minutes, to wait before logging the user out of the WebGUI due to inactivity. This can be set from 5 to 60 minutes.

  3. Download Current Configuration: The current system configuration may be saved as an XML file to a PC. Click the “Download” button to save the current system configuration to your local PC. This file will also include all macros, commands, and scheduled events.

  4. Restore Configuration: Previously saved system configurations may be restored from a saved XML file. Click the “Choose File” button to locate the saved XML file, then click the “Restore” button.

  5. Reset to Default: Press the “ALL Reset” button to reset the unit to its factory default state. After the reset is complete, the unit will reboot automatically.
    Note: All customised macros, commands, and scheduled events will also be reset to their factory defaults.

  6. Reboot the Unit: Click this button to force the unit to reboot.

  7. Firmware Upgrade: To update the unit’s firmware, click the “Choose File” button to open the file selection window and then select the firmware update file (*.bin format) located on your local PC. After selecting the file, click the “Upgrade” button to begin the firmware update process. After the upgrade is complete, the unit will reboot automatically.

Time Settings Tab

This tab provides a way to set the system’s time, date, and time zone.
After setting the system time, the unit will maintain the correct time, even when powered off, due to a battery backed up clock. If your country uses DST (Daylight Saving Time) you can enable or disable it here and configure the start and end times/dates so that your scheduled events will always occur at the correct times throughout the year.

Note: This unit has 48 hours of backup power for the internal clock to protect against power loss and blackouts. After the backup power is exhausted the system time will reset back to 2015/01/01 00:00:00.

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(30\)

  1. System Time: The unit’s time and date can be manually configured here. Click un the empty box to open the time and date configuration screen and select the preferred values. After entering a new time and date, click the “Save” button to store it in the unit and start the clock running.

  2. Daylight Saving Time: Enable or disable the use of DST adjustments for the unit’s time.
    Note: Enabling Daylight Saving Time while outside the configured DST range will result in no change to the current time.

    • Start: Set the month, week, day and time for the start of DST in the current time zone.
    • End: Set the month, week, day and time for the end of DST in the current time zone.

Telnet Control
Before attempting to use Telnet control, please ensure that both the unit and the PC are connected to the same active networks.
Start your preferred Telnet/Console client, or use the built in client provided by most modern computer operating systems. After starting the client, connect by using the current IP address of the unit and port 23 (if the communication port number used by the unit has not been changed previously). This will connect us to the unit we wish to control and commands may now be entered directly.

Note

  1. If the IP address of the unit is changed then the IP address required for
    Telnet access will also change accordingly.

  2. This unit defaults to DHCP mode. The current IP address can only be verified using the Device Discovery software. The default communication port is 23.

Telnet Commands

COMMAND

Description and Parameters
help

Show the full command list

help N1

Show details about the specified command.

N1 = {Command Name}

?

Show the full command list

? N1 ****

Show details about the specified command.

N1 = {Command Name}


get fw ver

Show the unit’s current firmware version.

get mac addr

Show the unit’s MAC address.

get user config

List the unit’s current configuration information.

set system reboot

Reboot the unit.

set ip mode N1

Set the IP address assignment mode. Available values for N1 :

0 [Static IP]

1 [DHCP]

get ip mode

Show the current IP address assignment mode.

get ipconfig

Show the unit’s current IP configuration information

get ipaddr

Show the unit’s current IP address.

set static ipaddr N1

Set the unit’s static IP address.

N1 = X.X.X.X                           [X = 0~255, Static IP address]


get static ipaddr

Show the unit’s current static IP address.

set static netmask N1

Set the unit’s static netmask.

N1 = X.X.X.X                           [X = 0~255, Static netmask]

get static netmask

Show the unit’s current static netmask.

set static gateway N1

Set the unit’s static gateway address.

N1 = X.X.X.X                           [X = 0~255, Static gateway address]

get static gateway

Show the unit’s current static gateway address.

set uart N1 command N2

Transmit the specified command data over the specified serial port. Available values for N1 :

1 [Serial port 1]

2 [Serial port 2]

N2 = {Command}                   [Comma delimited hex pairs]

set uart N1 baudrate N2

Set the baud rate of the specified serial port. Available values for N1 :

1 [Serial port 1]

2 [Serial port 2]

Available values for N2 :

4800                                     [4800 baud]

9600                                     [9600 baud]

19200                                   [19200 baud]

38400                                   [38400 baud]

57600                                   [57600 baud]

115200                                 [115200 baud]


get uart N1 baudrate

Show the current baud rate of the specified serial port. Available values for N1 :

1 [Serial port 1]

2 [Serial port 2]

set uart N1 data bit N2

Set the data bits for the specified serial port. Available values for N1 :

1 [Serial port 1]

2 [Serial port 2]

Available values for N2 :

5 [5 data bits]

6 [6 data bits]

7 [7 data bits]

8 [8 data bits]

get uart N1 data bit

Show the current number of data bits of the specified serial port. Available values for N1 :

1 [Serial port 1]

2 [Serial port 2]


set uart N1 parity N2

Set the parity of the specified serial port. Available values for N1 :

1 [Serial port 1]

2 [Serial port 2]

Available values for N2 :

0 [None]

1 [Odd]

2 [Even]

get uart N1 parity

Show the current parity setting of the specified serial port. Available values for N1 :

1 [Serial port 1]

2 [Serial port 2]

set uart N1 stop bit N2

Set the number of stop bits for the specified serial port. Available values for N1 :

1 [Serial port 1]

2 [Serial port 2]

Available values for N2 :

1 [1 stop bit]

2 [2 stop bits]

get uart N1 stop bit

Show the current number of stop bits of the specified serial port. Available values for N1 :

1 [Serial port 1]

2 [Serial port 2]


set relay N1 N2 ****

Open or close the specified relay port’s circuit.

N1 = 1~4                                [Relay port]

Available values for N2 :

CLOSE                                   [Close the relay]

OPEN                                    [Open the relay]

TOGGLE                                [Toggle the relay’s state]

get relay N1

Show the current state of the specified relay port.

N1 = 1~4                                [Relay port]

set trigger in N1 state N2


Enable or disable the specified trigger input. When disabled, the associated macro will not be executed.

N1 = 1~16                             [Trigger input] Available values for N2 :

ACTIVE                                 [Enable the specified trigger]

INACTIVE                              [Disable the specified trigger]

Note: This setting affects the behavior of both the Trigger In and Trigger Button ports.

get trigger in N1 state

Show the current state of the specified trigger input.

N1 = 1~16                              [Trigger input]

set dac N1 N2

Set the voltage level of the specified voltage output.

N1 = 1~16                              [Voltage output line]

N2 = 0~100                             [Voltage in 0.1V steps]


get dac N1

Show the current voltage level of the specified voltage output line.

N1 = 1~16                              [Voltage output line]

set macro N1 N2 ****

Run or stop the specified macro immediately. N1 = 1~32 [Macro number] Available values for N2 :

RUN                                      [Run the macro]

ABORT                                  [Stop the macro]

set_cond N1 N2

Assign a value to the specified Condition port(s).

N1 = 1~64                              [Condition port number]

N2 = 0~255                             [Condition value]

Note: Multiple values may be entered for N1 or N2 by separating the values with commas. Both sets must have the same number of values.

Note: Commands will not be executed unless followed by a carriage return. Commands are not case-sensitive.

CONNECTION DIAGRAM

CYP-CR-CS4-Hardware-System-Control-I-O-Centre-FIG-
\(32\)

SPECIFICATIONS

Technical Specifications

  • Input Ports 1×IR Learner/Extender (3.5mm)
  • Output Ports 16×Voltage Ports (4×RJ-45) 4×IR Blaster (4×2-pin Terminal Block) 2×Serial (6-pin Terminal Block)
  • Pass-through Ports 4×Power Relay (2-pin Terminal Block)
  • Control Ports 1×IP Control (RJ-45) 16×Triggers (4×RJ-45) 16×Trigger Buttons (8×RJ-45)
  • Service Port 1×USB 2.0 (Type-A)
  • IR Frequency 30 ~ 50kHz (30 ~ 60kHz under ideal conditions)
  • Baud Rate Up to 115200
  • Power Supply 24V/1A DC (US/EU standards, CE/FCC/UL certified) or
  • PoE+ (802.3at Type 2)
  • ESD Protection (HBM) ±8kV (Air Discharge) ±4kV (Contact Discharge)
  • Dimensions (W×H×D) 231.5mm×25mm×108mm [Case Only] 231.5mm×25mm×117mm [All Inclusive]
  • Weight 250g
  • Chassis Material Metal (Steel)
  • Chassis Colour Black
  • Operating Temperature 0˚C – 50˚C/32˚F – 122˚F
  • Storage Temperature -20˚C – 60˚C/-4˚F – 140˚F
  • Relative Humidity 20 – 90% RH (Non-condensing)
  • Power Consumption 3.63W

ACRONYMS

ACRONYM COMPLETE TERM
ASCII American Standard Code for Information Interchange
Cat.5e Enhanced Category 5 cable
Cat.6 Category 6 cable
Cat.6A Augmented Category 6 cable
Cat.7 Category 7 cable
CLI Command-Line Interface
COM Communication
IEEE Institute of Electrical and Electronics Engineers
IP Internet Protocol
IR Infrared
LAN Local Area Network
LED Light-Emitting Diode
MAC Media Access Control
MHz Megahertz
PD Powered Device
PoE Power over Ethernet
TCP Transmission Control Protocol
USB Universal Serial Bus

CYP (UK) Ltd., Unit 7, Shepperton Business Park, Govett Avenue,
Shepperton, Middlesex, TW17 8BA
Tel: +44 (0) 20 3137 9180 | Fax: +44 (0) 20 3137 6279
Email: sales@cypeurope.com
www.cypeurope.com
v1.00

Read User Manual Online (PDF format)

Read User Manual Online (PDF format)  >>

Download This Manual (PDF format)

Download this manual  >>

Related Manuals