UC-CAN with 4 thermocouple inputs type K

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Availability: In Stock SKU: UC-CAN-THERMO4_K Category:

Our UC-CAN modules are stand-alone modules with open CAN protocol. With the help of our automatic RX/TX mode, CAN packets can be received or sent independently within a network. The UC-CAN-THERMO4_K module has a thermocouple 14 bit A/D converter with a resolution of 0.25°C for the connection of 4 thermocouples type-K.

  • CAN interface with galvanic isolation
  • Open CAN protocol
  • Thermocouple 14 bit A/D converter for connection of 4 thermocouples
  • 0.25°C Resolution
  • suitable for thermocouples K-type
  • Galvanic isolation: max. 500V
  • Temperature measurement from -200 to +1350°C possible
  • Cold junction compensation (Cold junction compensation)

Thermocouples

Our thermo modules have a thermocouple 14 bit A/D converter with a resolution of 0.25°C for connecting type-K thermocouples.

Missing thermoelectric voltages at the end of the thermocouple are compensated by cold junction compensation.

LEDs

On the front side of our NET modules there are a number of status LEDs. These give you a quick overview of the most important functions of the modules, such as the switching states of the individual I/Os, module status or whether clean communication via the DIN rail bus is possible. This can be very helpful for fast error analysis, especially for field applications.

Connectors

A screwless system from the manufacturer WAGO Kontakttechnik is used as the connector. The 1-wire female connectors are 100% protected against mismating and have an eject and locking mechanism. All conductor types up to 1.5mm² can be connected.

General
Current consumption 85 mA / 24V
LEDs • Interface communication
• Module status
• A/D channel active / not active
• Read/write access to A/D channel
• U mode active / not active
• I mode active / not active
Connector • Five-pole plug-in screw terminal for power supply
• Pluggable 16 pole female connector with locking mechanism
• 100 % mismating protected
• 1-conductor connection for all types of conductors up to 1.5mm²
Top-hat rail mounting TS 35
Operating temperature +10°C to +50°C
Dimensions 120 mm x 22,5 mm x 111 mm (H x W x D)

CAN-Interface
Interface • CAN 2.0A or CAN 2.0B (galvanically isolated up to 500V)
• 1 Mbit/s, 500 Kbit/s, 250 Kbit/s, 125 Kbit/s, 100 Kbit/s, 50 Kbit/s, 20 Kbit/s or 10 Kbit/s
• Open CAN protocol
• Automatic processing of CAN packets (Auto RX/TX Mode)
• Connection via 5 pin screw terminal

 

Thermocouple inputs
Temperature inputs • 4 thermocouple inputs with 14 bit A/D converter
• Resolution from 0.25°C
  • Galvanic isolation up to max. 500V
• The following signals are galvanically isolated from the power supply and from each other:
Channel 1&2
Channel 3&4
Temperature detection • Min. Temperature: -200°C
• Max. Temperature: +1350°C
  • Accuracy from – 200°C to 700°C: ± 2°C
• Accuracy from 700°C to 1350°C: ± 4°C
  • Safety: cold junction compensation

Additional information

Weight 0,148 kg
A/D Resolution

,

General | Config | I/O | Flasher | Debug

General information about the ICT tool

Module selection

Here you can integrate your modules into the ICT tool by clicking on the “+” symbol, so that you can then configure or test them.

Start screen

Here you can find some important information about your selected module.
In addition, you can display the manual of the module as PDF or HTML version here.
Under “Show module IDs” you can call up all available module IDs. This ID is needed to integrate our products into your software projects.

ICT Treeview

In the treeview on the left side of the program window, you can see the respective forms that are supported by your module.
With a click you can then display this form in the right part of the program and perform possible configurations or tests.

Information on the configuration area in the ICT tool

Info

Here you can view all important module information at just one glance.

 

  • Modul-Name
  • Modul-ID
  • Firmware-Revision
  • Interface-Type
  • Current DIP switch setting (Ethernet modules only)

Identification

Identify your Ethernet module currently addressed by means of LEDs located on the board.
This is especially helpful if several modules are in operation at the same time.

USB-Configuration

Here you can change the module no. of your USB modules. This is necessary if you use several USB modules of the same series.
The module no. can be used to identify exactly which module is to be addressed.

LAN-Info

All important LAN network information at a glance. On this information page, you will find the current LAN settings of your module.

LAN-Configuration

Integrate your module into the home or company network with just a few clicks or control it directly via a 1-to-1 connection.
The following network settings can be changed with the ICT tool.

 

  • Boardname
  • DHCP on/off
  • IP address
  • Subnet mask
  • Standard gateway
  • TCP Port

WiFi-Info

This page shows you all the important WiFi settings.

WiFi-Configuration

Here you can change the network settings of the selected WiFi product.
The following settings can be made:

 

  • Boardname
  • WLAN on/off
  • Routername
  • Routerpassword

WPS

With the WPS function, your module can be quickly and easily, automatically connected to the router (WPS on the router is required)

TCP encryption

Here you can make settings for the encryption of your module.
The following configurations can be made.

 

  • Allow unencrypted protokol on/off
  • Allow user-encrypted protocol on/off
  • User-encryption password
  • Allow admin-encrypted protocol on/off
  • Admin-encryption password</li
  • Allow I/O access via webinerface on/off</li

NTP-Configuration

Here you can make changes to the NTP service.
The following configurations can be made.

 

  • NTP service on/off
  • Server
  • Port
  • Timezone

WEB-Login

Here you can change the login settings of the web interface.
The following configurations can be made.

 

  • Session Time
  • Account name
  • Account password
  • Confirm password

D/A Default Values

Here you can set the D/A values and modes with which the module is to be started.
Value and mode can be set individually for each channel..

Save or Load config

Using the “Save or Load config” function, you can save your entire module configuration in an external XML file.
This way you can always load your module in the original state you want. The following configurations can be saved depending on the module type.

 

  • USB configuation
  • LAN configuation
  • WiFi configuration
  • TCP encryption
  • NTP-Configuration
  • Serial configuration
  • CAN configuration

Information on the I/O test area in the ICT tool

Access times tests

Here you can test the access times to the module. Depending on the module, different tests can be performed.

 

  • Register – Read/Write/Write + Readback
  • Digital IO – Read/write/Write + Readback
  • Analog IO – Read/Write/Write + Readback

Digital Out

Here you can switch the digital outputs of your module on and off.
The following functions can be tested in this form.

 

  • Switching the digital outputs on and off channel by channel
  • Readback of the channels
  • Setting a digital output for a certain time (module-dependent)
  • Specifies which status the channels are to assume after the time has elapsed (module-dependent).
  • Testing the outputs

Digital In

Here you can read out the status of your digital inputs.
You can take the following information from this form.

 

  • Channels status
  • Number digital in counter (module dependent)
  • Flip Flop status (module dependent)

TTL I/O

Here you can switch the digital outputs of the module on or off.
In addition, you can set the TTL direction for up to 8 channels block by block. This setting remains until the module is restarted.
The following functions can be tested in this form.

 

  • Switching the TTL outputs on and off channel by channel (TTL output)
  • Output Readback
  • Testing the outputs (TTL output)
  • Input Readback
  • Set TTL direction

Analog Out

Here you can set the analog outputs of the module.
You can set the D/A value and mode for each channel individually or all together..

Analog In

Here you can read the A/D – value of the channels.

In addition, A/D mode and filters for all channels can be set here.

CAN Runtime Parameter

Here you can change CAN settings of the interface, RX and TX packets in runtime

 

  • Baudrate
  • Extended ID
  • Active on/off
  • CAN-ID
  • Mode

CNT48

Here you can read out the count status of your counter module.

Puls Generator

Here you can test the channels of our pulse generator modules.

PWM Out

Here you can make settings to the frequency of the PWM channels.

Temp

Here you can read out the created temperatures channel by channel.

IO – Timeout

With the help of the timeout function in the IO area you may simulate a timeout event of your module.

 

  1. Indicates by flashing, the connection to the module
  2. Removing the checkmark triggers a timeout event
  3. The user interface can be updated here after a timeout case Manuel
  4. Shows the current timeout status
  5. Here you can set the timeout mode
  6. Here you can set the time in which the timeout should be triggered
  7. Enables / disables the timeout

Information about the flasher area in the ICT tool

Flasher

Here you can update the firmware of your interface and your submodules. The following steps must be performed for flashing.

 

  • Download the required flash files from our homepage: Downloads -> Software -> Firmware
  • Extract the files to the following installation path ..\DEDITEC\DELIB\programs\flash_files
  • Start the ICT tool, select your module and navigate to the flasher
  • First click in the left area on the module/submodule you want to flash and then on the “Flash module” button.
  • The firmware is now updated and the module is then automatically restarted

Information on the debug area in the ICT tool

Debug output options

For a faster error handling you can switch important debug output functions on or off here.
Thus the communication to the module can be read out by software.
Write permissions are required for changes to these options.

Configuration

Configuration of CAN modules

Depending on the product series, our CAN modules can be configured either by software or DIP switches. Depending on the mode used, the modules are controlled via the open CAN protocol (2.0A or 2.0B) or via the automatic receive mode (Auto-RX) or automatic transmit mode (Auto-TX). The Auto-TX mode allows cyclic transmission of data packets, optionally with analog or digital input states to other CAN addresses. Alternatively, a trigger event can be defined. Here a data packet is only transmitted if a data packet on a certain CAN ID has been received before (e.g. CAN sync to ID 0x80). With the Auto-RX mode, however, received data packets are forwarded directly to analog or digital outputs. For example, relay outputs can be set via another CAN bus participant.

 

The 3 CAN operating modes

Depending on the product series, you can make CAN settings in different ways.

 

1. Software mode (for NET series, UC series, RO series and BS series)

In software mode, the parameters of the CAN interface are completely configured via the DT-ICT-Tool included in the scope of delivery. In addition to the baud rate, CAN address and other settings, automatic send and receive packets can also be set up.

 

2. Preferred mode (RO series and BS series only)

If the product is operated in preferred mode, the following default values are used for communication:

 

  • Baud rate: 100 kHz
  • CAN-ID: 0x100
  • Master-ID: 1

3. Dip switch mode (RO series only)

The following CAN parameters can be set by means of DIP switches:

 

  • Baud rate
  • CAN address

 

DT-ICT-Tool

With the help of the DT-ICT-Tool settings of the CAN interface can be read out or changed quickly and easily.

 

Status Interface

Here you can find information about the status of the CAN interface

 

  • Baud rate
  • Module address
  • Receiving address
  • CAN-Status
  • Extended ID
  • CAN-Modus

Status TX/RX

Here you can find information about the TX / RX packages

 

  • Number of packets sent / received
  • TX / RX – packets per second
  • Average sent / received packets

Config Interface

Here settings can be made on the CAN interface.

 

  • Baud rate
  • Adress Bit-mode
  • Module address
  • Receiving address

Config I/O Init

Here you can configure the CAN settings of the connected submodules.

 

  • A/D mode
  • A/D filter
  • D/A mode
  • Counter mode
  • Timeout
  • CNT48 mode
  • CNT48 submode
  • CNT48 filter

Config TX-Mode

Here you can make settings to the TX packet configuration.

 

  • activate / deactivate
  • Trigger mode
  • Interval
  • Use extended ID
  • Send to CAN ID
  • TX-Mode

Config RX-Mode

Here you can make settings to the RX package configuration.

 

  • activate / deactivate
  • Use extended ID
  • Receive from CAN ID
  • RX-Mode

More details about the control and some programming examples can be found in the programming section.

Control of CAN modules

The CAN modules are configured via the ETH or USB interface of the module. Via the DT-ICT-Tool included in the scope of delivery, an automatic send and receive mode can be configured in addition to the module address and the baud rate.

 

TX mode

In TX mode, the modules are able to automatically send CAN packets in a freely definable time interval (milliseconds to seconds). The adjacent figure shows the configuration of a TX packet which is sent to CAN address 200 every 1000ms and contains the logical status of the first 64 optocoupler inputs.

RX mode

In RX mode, CAN packets can be received automatically and output to the digital or analog outputs of the module. Up to 4 CAN addresses can be configured individually. The figure on the right shows the configuration of an RX packet. The received logical data at CAN address 0x10, is transferred to the relay outputs 1-64.

DEDITEC CAN Addressing Mode

Register accesses to all functions of the modules can be executed via a CAN protocol designed by us. Thus BYTE, WORD and LONG accesses are possible. A register assignment and protocol description can be found in the download area.

 

DELIB Command Mode

In the DELIB command mode the register of the product can be accessed selectively. Read and write commands with different amounts of data are available. An overview can be found in the manual “Protocols & Register Assignment” in the download area.

 

CAN protocol documentation

General Handling

DapiOpenModule
This function opens a particular module.

DapiOpenModule

 

Description

This function opens a specific module

 

Definition

ULONG DapiOpenModule(ULONG moduleID, ULONG nr);

 

Parameters

moduleID=Specifies the module to be opened (see delib.h)
nr=Specifies which one (in case of several modules) should be opened.
nr=0 -> 1st module
nr=1 -> 2nd module

 

Return-Value

handle=Corresponding handle for the module
handle=0 -> module was not found

 

Comment

The handle returned by this function is needed to identify the module for all other functions.

 

Programming example

// Open USB module
handle = DapiOpenModule(RO_USB1, 0);
printf(“handle = %x\n”, handle);
if (handle==0)
{
// USB module was not found
printf(“Modul konnte nicht geöffnet werden\n”);
return;
}

DapiCloseModule
This command closes an opened module.

DapiCloseModule

 

Description

This command closes an open module.

 

Definition

ULONG DapiCloseModule(ULONG handle);

 

Parameters

handle=This is the handle of an open module

 

Return-Value

None

 

Programming example

// Close module
DapiCloseModule(handle);

DapiGetLastError
This function returns the last registered error. If an error has occurred, it must be deleted with DapiClearLastError(), otherwise any call of DapiGetLastError() will return the "old" error. If multiple modules are used, the use of DapiGetLastErrorByHandle() is recommended.

DapiGetLastError

 

Description

This function returns the last detected error. If an error occurred, it must be cleared with DapiClearLastError(), otherwise any call to DapiGetLastError() will return the “old” error.
If more than one module should be used, it is recommended to use DapiGetLastLastErrorByHandle().

 

Definition

ULONG DapiGetLastError(void);

 

Parameters

None

 

Return-Value

Error Code
0=no error. (see delib_error_codes.h)

 

Programming example

BOOL IsError()
{
unsigned char msg[500];
unsigned long error_code = DapiGetLastError();

if (error_code != DAPI_ERR_NONE)
{
DapiGetLastErrorText((unsigned char*) msg, sizeof(msg));
printf(“Error Code = 0x%x * Message = %s\n”, error_code, msg);

DapiClearLastError();

return TRUE;
}

return FALSE;
}

DapiGetLastErrorByHandle
This function returns the last registered error of a particular module (handle). If an error has occurred, it must be deleted with DapiClearLastErrorByHandle(), otherwise any call of DapiGetLastErrorByHandle() will return the "old" error.

DapiGetLastErrorByHandle

 

Description

This function returns the last detected error of a specific module (handle). If an error occurred, it must be cleared with DapiClearLastErrorByHandle(), otherwise any call to DapiGetLastErrorByHandle() will return the “old” error.

 

Definition

ULONG DapiGetLastErrorByHandle(ULONG handle);

 

Parameters

handle=This is the handle of an open module

 

Return-Value

Error Code
0=no error. (see delib_error_codes.h)

 

Programming example

BOOL IsError(ULONG handle)
{
unsigned long error_code = DapiGetLastErrorByHandle(handle);

if (error_code != DAPI_ERR_NONE)
{
printf(“Error detected on handle 0x%x – Error Code = 0x%x\n”, handle, error_code);

DapiClearLastErrorByHandle(handle);

return TRUE;
}

return FALSE;
}

DapiGetLastErrorText
This function reads the text of the last registered error. If an error has occurred, it must be cleared with DapiClearLastError(), otherwise every call of DapiGetLastErrorText() returns the "old" error. Definition

DapiGetLastErrorText

 

Description

This function reads the text of the last detected error. If an error occurred, it must be cleared with DapiClearLastError(), otherwise any call to DapiGetLastErrorText() will return the “old” error.

 

Definition

ULONG DapiGetLastErrorText(unsigned char * msg, unsigned long msg_length);

 

Parameters

msg = Buffer for the text to be received
msg_length = Length of the text buffer

 

Programming example

BOOL IsError()
{
unsigned char msg[500];
unsigned long error_code = DapiGetLastError();

if (error_code != DAPI_ERR_NONE)
{
DapiGetLastErrorText((unsigned char*) msg, sizeof(msg));
printf(“Error Code = 0x%x * Message = %s\n”, error_code, msg);

DapiClearLastError();

return TRUE;
}

return FALSE;
}

DapiClearLastError
This function deletes the last error registered with DapiGetLastError().

DapiClearLastError

Description

This function deletes the last error registered with DapiGetLastError().

 

Definition

void DapiGetLastError(void);

 

Parameters

None

 

Return value

None

 

Example program

BOOL IsError()
{
unsigned char msg[500];
unsigned long error_code = DapiGetLastError();

if (error_code != DAPI_ERR_NONE)
{
DapiGetLastErrorText((unsigned char*) msg, sizeof(msg));
printf(“Error Code = 0x%x * Message = %s\n”, error_code, msg);

DapiClearLastError();

return TRUE;
}

return FALSE;
}

DapiClearLastErrorByHandle
This function deletes the last error of a particular module (handle), which was registered with DapiGetLastErrorByHandle().

DapiClearLastErrorByHandle

 

Description

This function deletes the last error of a particular module (handle), which was registered with DapiGetLastErrorByHandle().

 

Definition

void DapiClearLastErrorByHandle(ULONG handle);

 

Parameters

handle=This is the handle of an opened module.

 

Return value

None

 

Example program

BOOL IsError(ULONG handle)
{
unsigned long error_code = DapiGetLastErrorByHandle(handle);

if (error_code != DAPI_ERR_NONE)
{
printf(“Error detected on handle 0x%x – Error Code = 0x%x\n”, handle, error_code);

DapiClearLastErrorByHandle(handle);

return TRUE;
}

return FALSE;
}

DapiGetDELIBVersion
This function returns the installed DELIB version.

DapiGetDELIBVersion

 

Description

This function returns the installed DELIB version.

 

Definition

ULONG DapiGetDELIBVersion(ULONG mode, ULONG par);

 

Parameters

mode=Mode with which the version is read (must always be 0).
par=This parameter is not defined (must always be 0).

 

Return-Value

version=Version number of the installed DELIB version [hex]

 

Programming example

version = DapiGetDELIBVersion(0, 0);
//With installed version 1.32 version = 132(hex)

DapiOpenModuleEx
This function opens a specific module with ethernet interface.The particularity of this command is,that parameters like IP-address, portnumber and the duration of the timeout can be specified. The opening of the module is independent of the DELIB Configuration Utility settings.

DapiOpenModuleEx

 

Description

This function specifically opens a module with an Ethernet interface. The parameters IP address, port number and the duration of the timeout can be determined.
The module is opened independently of the settings made in the DELIB Configuration Utility.

 

Definition

ULONG DapiOpenModuleEx(ULONG moduleID, ULONG nr, unsigned char* exbuffer, 0);

 

Parameters

moduleID = Specifies the module to be opened (see delib.h)
nr = Specifies which one (in case of several modules) is to be opened
nr = 0 -> 1st module
nr = 1 -> 2nd module
exbuffer = buffer for IP address, port number and duration of the timeout

 

Return-Value

handle = Corresponding handle for the module
handle = 0 -> module was not found

 

Comment

The handle returned by this function is required to identify the module for all other functions.
This command is supported by all modules with Ethernet interface.

 

Programming example

// Open ETH-Module with parameter

DAPI_OPENMODULEEX_STRUCT open_buffer;

strcpy((char*) open_buffer.address, “192.168.1.10”);
open_buffer.portno = 0;
open_buffer.timeout = 5000;

handle = DapiOpenModuleEx(RO_ETH, 0, (unsigned char*) &open_buffer, 0);
printf(“Module handle = %x\n”, handle);

Analog temperature functions

DapiTempGet
This command reads a temperature channel.

DapiTempGet

 

Description

This command reads a temperature channel.

 

Definition

float DapiTempGet(ULONG handle, ULONG ch);

 

Parameters

handle=This is the handle of an open module
ch= Specifies the number of the input to be read (0, 1, 2, 3, .. )

 

Return-Value

Temperatur [°C]

 

Programming example

ret=DapiTempGet(handle, 0)
// returns the temperature of channel 0

DAPI_TEMP_GET_CHAN_GET_STATUS
This command reads out the status of the sensor.

DAPI_TEMP_GET_CHAN_GET_STATUS

 

Description

This command reads out the status of the sensor.

 

Definition

float DapiTempGet(ULONG handle, (ULONG par | ULONG ch));

 

Parameter

handle=This is the handle of an open module

par=DAPI_TEMP_GET_CHAN_GET_STATUS
ch=Specifies the number of the input to be read(0, 1, 2, 3, .. )

 

Return value

Sensor status

 

Programming example

temp_status = DapiTempGet(handle, (DAPI_TEMP_GET_CHAN_GET_STATUS | ch));

if(temp_status == 0)
{
temp_status_text = “Status OK”;
}
else
{
if((temp_status & 1) != 0)
{
temp_status_text = “Sensor open”;
}
if ((temp_status & 2) != 0) // Short GND
{
temp_status_text = “Short GND”;
}
if ((temp_status & 4) != 0) // Short VCC
{
temp_status_text = “Short VCC”;
}
}

Screwless connector system

The customer’s connection wiring of the inputs and outputs is carried out via screwless, pluggable terminal strips. The conductor connection is made by a so-called actuating tool.
A locking and ejection mechanism facilitates the insertion and removal of the complete terminal strip.

 

Handling

Step 1

Remove the operating tool from the scope of delivery.

Step 2

Insert the operating tool firmly into the side opening in the direction of conductor connection.

Step 3

Now insert the stripped conductor into the open terminal contact.

Schritt 4

Pull the operating tool out again.

Step 5

Check the correct connection of the conductor. It should now no longer be possible to pull it out easily.

DELIB driver library

Manual of the DELIB driver library
Documentation of all functions for the driver library
Download
  • Windows 10, 8, Vista, 7, XP, 2000 andLinux
  • Moduel open/close functions
  • Digital inputs: reading 1 / 8 / 16 / 32 / 64 bit
  • Digital outputs: Write 1 / 8 / 16 / 32 / 64 bit
  • A/D Lesen: read, read_volt, read_mA, A/D Modus einstellen
  • D/A schreiben: write, write_volt, write_mA, D/A-Modus einstellen
DELIB (64-bit) driver library for Windows
For Windows 11/10, Windows 7, Windows 8, Vista, XP and 2000
Download

Installation file for the 64 bit DELIB driver library.

The following operating systems are supported:

64 bit

  • Windows 11/10 x64
  • Windows 7 x64
  • Windows 8 x64
  • Windows Server 2012 x64
  • Windows Server 2008 x64
  • Windows Vista x64
  • Windows XP x64
  • Windows Server 2003 x64

Included software

  • DT-Flasher x64
    Software to update DEDITEC module to the latest version
  • DELIB Configuration Utility x64
    Set configuration of module addresses
  • DELIB Module Config x64
    Configuration of module-specific settings
  • CAN Configuration Utility x64
    Set configuration of CAN modules
  • DELIB Module Demo x64
    Enables manual switching of a module
  • DELIB Command Line Interface x64
    Enables the execution of DELIB commands in the command line
  • Watchdog Configuration Utility x64
    Set configuration of a watchdog stick
DELIB (32-bit) driver library for Windows
For Windows 11/10, Windows 7, Windows 8, Vista, XP and 2000
Download

Installation file for the 32-bit version of the DELIB driver library.

The following operating systems are compatible:
32-Bit

    • Windows 11/10
    • Windows 7
    • Windows 8
    • Windows Server 2012
    • Windows Server 2008
    • Windows Vista
    • Windows XP
    • Windows Server 2003

64-Bit

  • Windows 10 x64
  • Windows 7 x64
  • Windows 8 x64
  • Windows Server 2012 x64
  • Windows Server 2008 x64
  • Windows Vista x64
  • Windows XP x64
  • Windows Server 2003 x64

Included software

  • DT-Flasher
    Software to update DEDITEC module to the latest version
  • DELIB Configuration Utility
    Set configuration of module addresses
  • DELIB Module Config
    Configuration of module-specific settings
  • CAN Configuration Utility
    Set configuration of CAN modules
  • DELIB Module Demo
    Enables manual switching of a module
  • DELIB Command Line Interface
    Enables the execution of DELIB commands in the command line
  • Watchdog Configuration Utility
    Set configuration of a watchdog stick

Attention:

With this version of the driver library, only 32-bit applications can be created, which can then be run on 32- and 64-bit systems.

DELIB driver library for Linux (32/64-bit)
For 32/64-bit Linux distributions starting with kernel 2.6.x
Download

DELIB driver library for Linux distributions (32/64-bit) starting with kernel 2.6.x

This driver package includes the following components:

  • DELIB USB driver
  • DELIB Ethernet driver
  • DELIB CLI

DELIB USB driver

Supports the following products:

  • NET-Series (via USB interface)
  • RO-USB-Series
  • BS-USB-Series
  • USB-Mini-Sticks
  • USB-Watchdog
  • USB-OPTION-8 / USB-RELAIS-8
  • USB-TTL-32 / USB-TTL-64

Note:

With the standard USB driver, you can access several USB products with different module IDs (for example one RO-USB and one USB-OPTOIN-8). Therefore, no additional driver installation is required.

If you want to access several USB products with the same module ID (for example one USB-OPTOIN-8 and one USB-RELAIS-8), you have to install additionally the Linux FTDI driver. The FTDI driver can be found at http://www.ftdichip.com.

 

DELIB Ethernet driver

Supports the following products:

  • NET-Series (via Ethernet Interface)
  • RO-ETH-Series
  • RO-ETH/LC-Series
  • BS-ETH-Serie
  • ETH-OPTION-8 / ETH-RELAIS-8
  • ETH-TTL-64

DELIB CLI

With the DELIB CLI (Command Line Interface) for Linux it is possible so controll all I/O’s over the command-line.

 

DELIB - Sample-Sources - Installer (approx. 10 MB)
Sample programs for different programming languages (Also in DELIB Setup included)
Download

Sample programs for different programming languages (Also in DELIB Setup included)

  • C (Microsoft Visual C++ 6.0, Borland C)
  • C++ (Microsoft Visual C++ 6.0)
  • C# (Microsoft Visual C# 2008 to 2015)
  • Delphi (Borland Delphi 7)
  • VB (Microsoft Visual Basic 6.0)
  • VB.NET (Microsoft Visual Basic 2008 to 2015)
  • Java (Java native interface)
  • Java.dll (Ethernet protocol for ethernet products)

 

Download

Hardware-Updates (Firmware)
Flash files for the DT-Flasher
Download

The flash files can also be downloaded directly in the DT-Flasher.

This package contains firmware files for the following products:

STARTER-series:

  • USB-MINI-Sticks
  • USB-8-er Opto/Relay
  • Ethernet 8-er Opto/Relay
  • USB-TTL I/O
  • Ethernet-TTL I/O

BS-series:

  • BS-CAN Module
  • BS-ETH Module
  • BS-USB Module
  • BS-SER Module

RO-series Interfaces:

  • RO-USB
  • RO-SER
  • RO-ETH
  • RO-ETH/LC
  • RO-CAN

RO-series I/Os:

  • AD / DA Module
  • CNT8 / CNT-IGR
  • O8-R8 Time module
  • PT100
  • Stepper2

Development accessories

  • USB Controller 8
  • USB Watchdog Stick

16 pol connector

Required to connect your application to the DEDITEC module

  • Type: Wago Kontakttechnik 713-1108/037-000
  • Pluggable female connector with locking mechanism
  • 100 % malfunction protected
  • 1-wire connection for all types of conductors up to 1.5mm²

Power supply 24V/2A for DIN rail mounting

The DR-4524 from Mean Well is a 48W rail mount power supply for industrial applications. It offers protection against short circuit, overload, overvoltage and overheating.

  • Input voltage range: 85V… 264V AC / 120V DC … 370V DC
  • Output voltage: 24V DC
  • Output current: 2A
  • Nominal power: 48W

DIN rail connector

The DIN-Rail connector is a single BUS segment which allows the connection to other modules. It is clipped into the DIN-rail and plugged into the side of an existing DIN-Rail connector.

  • DIN-Rail Bus Connectors
  • Connection of a NET or COS module
  • For extension of the NET or COS bus system
  • 1 piece

16 pol connector

Required to connect your application to the DEDITEC module

  • Type: Wago Kontakttechnik 713-1108/037-000
  • Pluggable female connector with locking mechanism
  • 100 % malfunction protected
  • 1-wire connection for all types of conductors up to 1.5mm²

Strain relief plate for 16 or 18 pole Wago connectors

A strain relief plate that can be mounted centrally between the conductor entries facilitates the plugging and unplugging process and allows easy access to the actuation openings even when wired.

  • Type: Wago / 713-127
  • Suitable for 16/18 pole female connectors with conductor connection
  • Mating and unmating aid for Wago connectors
  • Strain relief of the individual wired conductors
  • Easy mounting

Tool for wiring connectors

Serves to open and close the clamp contacts on the Wago connectors.
  • Type: Wago Kontakttechnik 734-231

DIN Rail

Top-hat rail for mounting our control technology modules.

  • Top-hat rail according to DIN EN 50022
  • Type: Phoenix Contact / 1208131
  • Dimensions in mm: 450 x 35 x 7.5 (L x W x D)

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5 years
Delivery availability

We offer at least 5 years delivery availability for our products.
Our experience shows that it is even about 10 years.

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Since its foundation in 2008, Dipl. Ing. Jürgen Siebert has been the managing director of DEDITEC GmbH. He will also be happy to advise you personally.
Product- & Service-Hotline: +49 (0) 22 32 / 50 40 8 – 40 Questions about the product or order: support@deditec.de