16-Channel CAN A/D Converter * CAN 16/18-bit A/D converter – 16 channels

The UC-CAN 16/18-bit A/D converter is an industrial 16-channel CAN bus module for the decentralized acquisition of analog voltage and current signals. The UC-CAN-AD16-16/18 module provides 16 single-ended A/D channels and is available with 16-bit or 18-bit resolution, depending on the variant. The measured values are transmitted via CAN 2.0A/2.0B using an open CAN protocol and automatic TX/RX mode. Galvanic isolation up to 500 V, software-based A/D filtering, and event control support its use in industrial measurement data acquisition, test benches, machine monitoring, and CAN-based automation systems.

Price range: € 596,40 through € 664,37 Incl. 19% VAT plus shipping

SKU: UC-CAN-AD16-16/18 Categories: UC series, UC-CAN

A/D resolution

16-Bit
18-Bit

Current / voltage range

Voltage (0..10V)
Voltage (0..20V)
Voltage (0..40V)
Current (0..24mA)

Clear

Our promise to you

Product Description

UC-CAN A/D Converter for CAN-based data acquisition

The UC-CAN 16/18-bit A/D Converter – 16-Channel CAN Bus Module is an industrial stand-alone module for acquiring analog measurement signals via CAN. The module is designed for applications in which voltages or currents need to be measured, digitized, and transmitted to a control, test bench, or evaluation environment in a decentralized manner.

With 16 analog A/D channels, selectable 16-bit or 18-bit resolution, and single-ended inputs, the UC-CAN-AD16-16/18 is suitable for measurement tasks involving multiple sensor, transducer, or process signals at a single CAN node. Depending on the variant, different voltage or current ranges are available. This allows the module to be used for typical analog industrial signals in test benches, machines, systems, and laboratory setups.

System role in distributed CAN architectures

In a CAN-based automation or measurement architecture, the module serves as a decentralized analog acquisition module. Analog signals are captured directly at the measurement point, digitized within the module, and transmitted via the CAN interface to higher-level systems, other modules, or customer-specific applications.

The open CAN protocol facilitates integration into custom software, gateways, test bench controllers, or existing CAN networks. The automatic transmit and receive mode supports applications in which CAN packets are to be processed autonomously or transmitted cyclically. This allows the UC-CAN-AD16-16/18 to be used not only as a pure measurement module but also as an active component of a modular automation structure.

USB-C as an added benefit during commissioning and service

In addition to the CAN interface, the module features a USB-C interface. This is particularly useful for commissioning, parameterization, diagnostics, and service, as the module is not accessible exclusively via the CAN environment. USB-C can simplify access and speed up setup, especially in test setups, laboratory environments, or during initial configuration.

The UC-CAN-AD16-16/18 thus combines CAN-based field and system integration with additional local access for configuration and maintenance.

Signal Processing and Electrical Robustness

In industrial measurement environments, it is not only the number of channels that matters, but also the reliable processing of the input signals. Galvanic isolation up to 500 V supports use in plant environments with electrical interference and varying potential conditions.

The software-based A/D filter can smooth out electrical or electromagnetic disturbances in the measurement signal. The filtering is based on averaging and can be used, depending on the application, to stabilize measured values for monitoring, analysis, or further processing. This makes the module suitable for measurement tasks where repeatable and evaluable analog values are more important than pure raw signal acquisition.

Typical applications

The UC-CAN-AD16-16/18 is suitable for industrial applications in which multiple analog signals need to be acquired and processed via CAN. Typical applications include:

Test benches and test systems for acquiring sensor, voltage, or current signals
Machine and plant monitoring with decentralized data acquisition
Laboratory and development systems for test setups, calibration, and measurement data acquisition
Industrial automation with integration of analog process values into control or SCADA environments
Energy and consumption monitoring for monitoring analog measured variables
M2M applications in which measured values are transmitted between modules or CAN participants

Integration, commissioning, and software integration

The CAN interface supports CAN 2.0A and CAN 2.0B, as well as multiple baud rates up to 1 Mbit/s. This allows the module to be adapted to various CAN networks and existing system architectures. The additional USB-C interface supports local access for configuration, service, and diagnostics.

Configuration and diagnostics are performed using the DEDITEC ICT tool. The DELIB driver library can be used for custom applications, including those written in C, C++, C#, Java, VB, and LabVIEW. This makes the module suitable for both traditional PC-based measurement systems and customer-specific software and test bench solutions.

Made in Germany, long-term availability, and direct support

The UC-CAN-AD16-16/18 is a module manufactured in Germany by DEDITEC. For industrial projects, long-term reliability is just as important as technical functionality. The guaranteed 10-year availability, direct developer support, and lifetime updates for the DEDITEC system environment assist users with commissioning, maintenance, and long-term operation.

Technical Specifications

The UC-CAN 16/18-bit A/D converter is a compact 16-channel CAN bus module designed to acquire analog voltage and current signals. With 16-bit or 18-bit resolution, a galvanically isolated CAN interface, open CAN protocol, and additional USB-C access, the module is suitable for measurement data acquisition, test benches, machine monitoring, and industrial automation.

At a glance

16-channel A/D converter for analog voltage and current signals
Resolution depending on the model: 16-bit or 18-bit per channel
CAN bus module with CAN 2.0A / CAN 2.0B
Open CAN protocol for integration into custom systems
Electrically isolated CAN interface up to 500 V
Additional USB-C interface for commissioning, service, and direct module access
A/D filter for smoothing out noise in the measurement signal
Event control for simple if-then logic in the module memory
Supply voltage: +12 V to +24 V DC
Top-hat rail mounting for use in control cabinets

Interfaces and Communication

CAN interface via 9-pin D-Sub connector
Support for CAN 2.0A and CAN 2.0B
CAN bit rates from 10 kbit/s to 1 Mbit/s
Open CAN protocol for control, test bench, and measurement systems
Auto TX/RX mode for automatic processing of CAN packets
USB-C as an additional interface for parameterization, testing, and service

Analog Inputs

16 analog A/D channels in single-ended configuration
16-bit version for voltage and current measurement ranges
18-bit version for precise voltage measurements with ±5 V and ±10 V
Suitable for acquiring analog sensor signals in measurement and automation environments
Input resistance: > 500 kΩ
A/D converter conversion rate: 4 µs

Signal Processing and A/D Filters

Software-based A/D filter for smoothing electrical and electromagnetic interference
Filtering via averaging of multiple measurements
78 conversions per second when converting all 16 A/D channels without an A/D filter
48 conversions per second when converting all 16 A/D channels with A/D filter level 10
Filter level adjustable via DELIB commands

Automation and Event Control

Event Control for linking measured values to actions
If-then logic can be stored in the module memory using the ICT tool
Suitable for simple monitoring, control, and regulation tasks without the need for an additional control PC
Practical applications include test benches, limit value monitoring, and decentralized data acquisition

Mechanics and Operating Environment

Power supply: +12 V to +24 V DC
Electrical isolation from power supply: max. 500 V
DIN rail mounting: 35 x 7.5 mm
Operating temperature: +10 °C to +50 °C
Dimensions: 120 mm x 22.5 mm x 111 mm (H x W x D)

Technical Specifications

Ethernet interface:

Ethernet 10/100 Mbps
Supported protocols: HTTP, UDP, TCP, DHCP, Modbus-TCP
Control: API for Windows and Linux (DELIB driver library), command line interface, open TCP protocol, Modbus-TCP
Encrypted Ethernet communication possible
Open standard or Modbus TCP protocol
Web interface and app (smartphone and tablet)

Wi-Fi interface:

Wi-Fi connection available
WPS feature

USB interface:

USB 2.0 interface up to 480 Mbit/s
Quick setup thanks to plug-and-play integration
Control: API for Windows and Linux (DELIB driver library), command-line interface

CAN interface:

CAN interface according to ISO 11898
Open CAN protocol (RAW CAN)
Automatic transmit/receive mode
Electrically isolated up to 500 V

Additional features:

Configurable event control
M2M functionality

16-bit analog inputs:

Design: single-ended

18-bit analog inputs:

Design: single-ended

General
Technical data
ICT-Tool
Configuration CAN
M2M
Event-Control
Controlling CAN
Connection examples
Connectors
Downloads & manuals
Scope of delivery
Accessories

Analog inputs

Analog/digital converter modules are suitable for measuring and monitoring voltages and currents. Transducers, for example, convert physical variables such as pressure, temperature, humidity etc. into corresponding currents or voltages and can therefore be recorded and digitally processed with our A/D modules.

A/D filter

Electrical or electromagnetic interference in measurement signals is smoothed and optimized by the software A/D filter by averaging the measurements.

Automatic transmit and receive mode

Use our Auto TX/RX mode and automate the workflow of your DEDITEC product by automatically processing or sending CAN packets from other participants in the network. With our free ICT-Tool, you can define how the TX and RX packets should be processed via a graphical user interface.

Plug connector

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 ejection and locking mechanism.

Easy installation thanks to DIN rail bus

Thanks to the practical bus connector, which is clipped into the DIN rail, individual modules of a system can be added or replaced very easily. This Plug'n Play principle makes commissioning easier for you and eliminates the need for tedious wiring.

LEDs

Each digital input and output has a separate LED that lights up when the signal status is active. The status of the operating voltage, communication with the interface, error events or the occurrence of a timeout can also be displayed.

M2M

Machine-to-machine, or M2M for short, involves direct communication between two or more modules. Analog or digital input signals from one transmitter module can be automatically transmitted to another module on a channel-by-channel basis.
M2M transmission is supported by all our products in the WEU series or by products with a CAN interface.

Event-Control

This function can be used to implement small control tasks that are saved in the module. These control tasks are configured as events and actions and then executed automatically according to the “if-then” principle.

Power supply	+12 V ... +24 V DC
LEDs general	Interface communication Module status One LED per input and output channel (only for digital modules)
LEDs product-specific	A/D-version: A/D channel active / not active Read/write access to A/D channel U mode active / not active I mode active / not active D/A-version: D/A channel active / not active Read/write access to D/A channel U mode active / not active Thermo version: A/D channel active / not active Read/write access to A/D channel U mode active / not active I mode active / not active
DIN rail mounting	35 x 7,5 mm
Operating temperature	+10 °C ... +50 °C
Dimensions	120 mm x 22.5 mm x 111 mm (H x W x D)

Special features

Event-Control	With our event control, you have the option of linking occurring events to a specific action. With the help of our ICT tool, the control tasks can be stored directly in the module memory thanks to an intuitive “if-then” logic. Monitor, control and regulate without an additional control PC.

A/D-filter	Our A/D software filter can be used to smooth and optimize electrical disturbance variables that affect the measurement signal. The filter principle is based on averaging a sum of measurements. The higher the filter level is selected, the more measurements are used to calculate the average value.

Interfaces

CAN Interface

CAN-Interface	Connection: 9-pin D-Sub socket CAN 2.0A or 2.0B 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 Galvanically isolated up to 500 V Open CAN protocol Automatic processing of CAN packets (Auto TX/RX mode)

USB Interface

USB-interface	Connection: Type C USB 2.0 / USB 1.1 interface with up to 480 Mbit/s
Access speed	USB: 2,06 ms Calculated with 1000 accesses to the module via the DELIB driver library with the command DapiDoSet32

Inputs/Outputs

Analog inputs

Inputs	16 A/D channels (single ended) Resolution: 16-bit or 18-bit per channel Measuring ranges 16-bit version: 0-5 V, 0-10 V, 0-20 V, 0-40 V, +-5 V, +-10 V, +-20 V, +-40 V 0-20 mA, 4-20 mA, 0-24 mA, 0-50 mA** Measuring ranges 18-bit version: +-5 V, +- 10 V Input resistance: >500 kOhm Accuracy: +3 ppm / °C Zero error temperature drift: +1 ppm / °C Full-scale error temperature drift: + 1 ppm / °C Bipolar Full-Scale Error: Min: - 50 LSB / Max: +50 LSB Unipolar Full-Scale Error: Min: - 70 LSB / Max: +70 LSB * is not supported by modules of the BS-WEU series ** is only supported by modules of the BS-WEU series
Conversion rates	A/D converter conversion rate: 4 µs Conversion rate of the module (all 16 A/D channels are converted): 78 conversions / second with A/D filter level switched off (filter level = 0) 48 conversions / second with an A/D filter level of 10
Galvanic isolation	For power supply: max. 500 V
A/D-Filter	Electrical or electromagnetic interference in measurement signals is smoothed and optimised by the software-side A/D filter by averaging the measurements Filter level 0 at module start (= filter deactivated) Can be set via DELIB commands:Set: DapiSpecialCommand(handle, DAPI_SPECIAL_CMD_AD, DAPI_SPECIAL_AD_FILTER_SET, ((filterlevel & 0xff) << 8) \| (submodule_nr & 0xff) , 0)Read back: DapiSpecialCommand(handle, DAPI_SPECIAL_CMD_AD, DAPI_SPECIAL_AD_FILTER_GET, (submodule_nr & 0xff) , 0)

Connectors

Plug connector 18-pin	Type: Wago contact technology 713-1109/037-000 Pluggable female connector with locking mechanism 100 % protected against mismating 1-wire connection for all conductor types up to 1.5 mm²

Plug connector 5-pin	Type: Phoenix Contact 1876343 Pluggable screw terminal 100 % mismating protected For all conductor types from 0.14 mm² to 1.5 mm²

The ICT-Tool

Integration, configuration and testing - Our all-in-one Windows tool contains all the functions you need to put our products into operation quickly, easily and efficiently. Start with the setup and configuration, install firmware updates and use the extensive test and diagnostic options. The integrated help menu provides additional support if required.

General

Info

Configuration

Machine-to-Machine

Event-Control

I/O-Tests

Diagnosis

Firmware-Update

Settings

Below you will find a brief overview of the program’s basic menus.

Module selection
Here you can integrate a new product into the ICT tool by clicking on the “+” symbol and then configure it.

ICT TreeView
In the TreeView, on the left-hand side of the program window, you can see the respective control elements or functions that are supported by your selected module. The scope of the functions depends on the respective product.

Overview
All relevant module information can be accessed here at a glance.

Module name
Module ID
Firmware revision
MAC address
LAN and WiFi Network address (module dependent)

Inputs / Outputs
This overview shows the number of I/Os supported by your module.

Module infos
Here you will find all the important feature information for your module.

General features
Here you will find all the important feature information for your module.

Digital I/O features
Here you will find information about the digital I/Os supported by the module.

Analog I/O features

Here you will find information about the type of analog I/Os supported by your module.

Special I/O features

Here you will find information about the type of special I/Os supported by your module.

In den folgenden Kapitel, würden wir Ihnen unsere neue All-In-One-Software gerne genauer vorstellen.

Info
All relevant module information can be called up here at a glance.

Module name
Module ID
Firmware revision
Interface type
Current DIP switch setting (only for Ethernet modules)

Identification
If several DEDITEC Ethernet modules are active in the network, a signal LED on the selected module can be activated via an identification function. This facilitates visual assignment.

Restart
You can restart your module here. The module status shows whether the restart was successful.

USB configuration
If you want to use several USB modules from the same product series on one PC, each of these modules must first be assigned its own module number.

LAN info
On this information page, you will find the current LAN network information and all the settings for your module at a glance.

LAN configuration
Integrate the product into your network or control it directly via a 1-to-1 connection.
The following parameters can be changed.

Board name
DHCP on/off
IP address
Subnet mask
Default gateway
TCP Port

WiFi info
All important WiFi settings are displayed on this page

WiFi configuration
Here you can change the network settings of the selected WiFi product.

The following settings can be made:

Board name
WLAN on/off
Router name
Router password

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

CAN configuration
With our CAN products in the BS, NET and UC series, settings for the interface and the TX/RX packets can be made using the ICT tool.

More information can be found here:

Serial configuration
For our serial products in the BS, NET, UC and RO series, changes to the interface can be made using the
ICT tool.

More information can be found here:

Modbus TCP
Here you can set the Modbus TCP configuration of the module.

The following configurations can be made.

Enable/disable access via Modbus TCP
TCP port

TCP encryption
Here you can make settings for the encryption of your module.

The following configurations can be made.

Allow unencrypted protocol
Allow “User” encryption mode
User password
Allow “Admin” encryption mode
Admin password

NTP configuration
You can make changes to the NTP service here.

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 duration
Login name
Login password
Allow I/O access via web interface

D/A Default Values
Here you can set the D/A values and modes with which the module should be started.
The value and mode can be set individually for each channel.

Watchdog configuration
Here you can make and save settings on your watchdog stick.

Save or Load config
Using the “Save or Load config” function, you can save your entire module configuration in an external XML file.
This means you can always load your module in the desired original state.

The following configurations can be saved depending on the module type.

USB configuration
LAN configuration
WiFi configuration
TCP encryption
NTP configuration
Serial configuration
CAN configuration

Status
This gives you an overview of the activity of the transmitter and receiver module

The following information from the transmitter module is displayed:

Status of the activity: If the check mark is set, this action is currently being performed.
Total number of actions performed. Is reset to 0 after a restart of the module.
Number of actions per second.
Number of DELIB errors that occur when executing commands from the DEDITEC driver library.

The following information from the receiver module is displayed:

Connected: If the check mark is set, the transmitter and receiver modules are connected.
IP address of the receiver module.
Number of connection attempts.

Receiver modules
You can set the network settings of the receiver module here.

The following settings can be made

Name for the receiver module
Network settings of the receiver module
Timeout
Encryption type/ password

Action
With an action, you define which input signal is to be sent from the transmitter module to which output of a receiver module.

The following settings can be made:

Type of task (digital, analog)
Which receiver module should be used
The interval at which the operations are to be carried out
Start channel of the transmitter module
Number of channels to be transmitted
Start channel of the receive module

In the image on the right, DI data is sent every 100ms from channel 3(CH Start) to channel 8 ((CH Start) + (CH Count)) to channels 0-5 of the target module.

In den folgenden Kapitel, würden wir Ihnen unsere neue All-In-One-Software gerne genauer vorstellen.

Status
The Status area provides an overview of all active events and executed actions.

The following information is listed:

Event number
Event type
Time interval of the event
Number of events that have occurred
Action number
Number of triggered actions
Number of other actions

Events configuration
Up to 16 different events can be created in the configuration menu. An event can be used, for example, to define switching thresholds at the analog inputs or logical states at the digital inputs of the module and link them to an executable action. The configuration itself is saved permanently in the module configuration memory of the module.

The following event modes are available, depending on the module type:

DI: High-Low state of a digital input.
DI flip-flop: Status change of a digital input (is stored in the module with the so-called flip-flop flag and deleted again after readout).
DO readback: ON-OFF status of a digital output (is read out using a DO readback command).
A/D: Current or voltage level at the analog inputs

Configuration actions
Up to 16 different actions can be created in the configuration menu. An action defines what should happen within an event after a condition is met.

The following action modes are available, depending on the module type:

Set DO output: Switches a digital output on or off
Set D/A output: Outputs a current or voltage value at an analog output
Send CAN packet: A special CAN TX event is triggered (up to eight CAN TX events can be configured separately).

Digital Out
Hier können Sie die digitalen Ausgänge Ihres Modules ein- und ausschalten.

Folgende Funktionen können in dieser Form getestet werden.

Kanalweise Ein- und Ausschalten der digitalen Ausgänge
Readback der Kanäle
Setzen eines Digitalausgangs für eine bestimmte Zeit (Modulabhängig)
Gibt an welchen Status die Kanäle nach Ablauf der Zeit einnehmen sollen (Modulabhängig)
Testen der Ausgänge

Digital Out
All digital outputs of your product can be checked by clicking on the buttons.

The following switching options are possible:

Switching on and off channel by channel
Channel-by-channel switching on or off for a specific time (product-dependent)
Reading back the switching status (readback)

Digital In
In this view, the logical states of all optocoupler inputs can be read out.

The following information is displayed:

Logical status of the inputs (ON/OFF)
Number of detected pulses (counter function)
Change of state detected (flip-flop)

TTL I/O
In this menu, the TTL channels of the module can be configured as inputs or outputs. The individual TTL outputs can be switched on or off by pressing the buttons. In addition, the status of all TTL inputs can be read out.

The tool offers the following functions:

Configuration of the channels as input or output (in blocks of 8)
Switching on and off channel by channel
Reading back the switching status (output readback)
Displaying the logical status of the inputs (input readback)

Analog Out
Here you can test the analog outputs of the module and manually enter any voltage or current value.

Analog In
In this menu, voltage or current values of all A/D channels can be displayed.
It is also possible to activate our A/D software filter with different filter levels.

CAN Runtime Parameter

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

The following settings can be made:

Baud rate
Extended ID
Active on/off
CAN ID
Mode

CNT48

Here you can read out the counter readings of a counter module, select filter options and set various counting modes.

The following counting modes are supported:

Read on rising edge
Read on rising edge x2
Read on rising edge x4
Period duration
Frequency measurement
PWM measurement

Pulse generator
The pulse generator can be used to generate square-wave signals. High and low time as well as the number of pulses can be set here.

PWM Out
In this menu you have the option of testing various PWM frequencies. In addition, the duty cycle can be entered manually for each individual channel.

Temp
The temperature of all connected temperature sensors is displayed here directly in °C.

Graphical display
This menu allows a graphical representation of all analog input signals, such as A/D, temperature or FIFO-IN.

Watchdog
This tool can be used to check the configured watchdog parameters for correct function.

I/O – Timeout

You can use the timeout function in the I/O area to simulate a timeout case for your module.

The following is a description of the timeout window

Read / Write symbol: Flashes to indicate an active connection to the module
Automatic access: Removing the tick triggers a timeout after the timeout time has expired
Manual access: Manual retrieval of data from the module
Timeout status: Shows whether the timeout is active and whether a timeout event has occurred
Timeout mode: Selection between 3 timeout modes, Normal, Reactivate and Secure
Timeout duration: The time after which the timeout should be triggered is set here
Activate / deactivate: Activates or deactivates the timeout function

Access times tests
You can test the access times for the module here. The following access time tests can be performed:

Register – Read/Write/Write + Readback
Digital I/O – Read/Write/Write + Readback
Analog I/O – Read/Write/Write + Readback

Access times tests

This test can be used to determine the access times to the module. The test values are read and written in 8, 16, 32, or 64-bit commands.

Access times Register
The following example checks the register accesses to an Ethernet module. The average access time here is 0.5 ms.

Access times Analog I/O
In the following example, the access times to an Ethernet module with analog I/Os are checked. The average access time here is 0.6 ms.

Access times Digital I/O
In the following example, the access times to an Ethernet module with digital I/Os are checked. The average access time here is 0.6 ms.

Cable feedback tests
For this test, the digital or analog outputs of the module are connected to the corresponding digital or analog inputs of the module via cable. The feedback test now checks whether the output and input values match.

Cable return test

The cable return test can be used to check the function of all digital and analog inputs and outputs (I/Os) of a module. To do this, inputs and outputs are wired together externally on a 1:1 basis. The test software analyzes whether the output signals arrive correctly at the inputs, thereby identifying wiring errors or hardware defects.

Analog test
In analog test mode, the D/A converter outputs defined test voltages, which are then read in by the A/D converter and compared with the target values. The software counts the number of test runs and automatically documents any deviations.

Digital test
In the digital test, the switching states of the relay or MOSFET outputs are fed back externally to the optocoupler inputs. Here, too, the software counts and compares the number of cycles and automatically detects transmission errors or deviations.

Cable return test

A/D ripple
The ripple test displays the residual ripple of the individual A/D inputs.

A/D quality measurements

The quality of an A/D measurement is influenced by various factors and can be affected by external interference. A reliable method for checking measurement quality is to measure a stable battery voltage. Our diagnostic tools can be used to determine the residual ripple and noise behavior.

A/D ripple
The A/D ripple test can be used to measure the residual ripple of the individual A/D inputs and check for interference signals such as mains hum or voltage instabilities.

A/D noise
The noise behavior of each A/D channel can be displayed graphically using A/D noise measurement. Additional filter stages with averaging can be used to smooth and improve the measurement signal.

FIFO In/Out

The software FIFO test can be used to specifically test the integrated FIFO buffering of our digital and analog NET I/O modules. Depending on whether it is an input or output module, data is read from the submodule FIFO or written to the submodule FIFO.

FIFO settings

The submodule number can be used to specify which module is to be tested. The start and end channels can also be used to transmit several channels simultaneously. In addition, the transmission frequency can be set and the desired FIFO mode selected – for example, for the use of test values or the actual measured values of the module.

All important information at a glance

During program execution, key information such as the size of the data packets, free and occupied bytes in the FIFO buffer, the number of data packets sent or received, and the current FIFO status are clearly displayed.

D/A output test

The D/A output test enables targeted testing of each individual D/A channel of a module. A freely selectable test voltage can be output directly. Currently, simple square wave signals with configurable high and low times are available. The signals can be monitored simultaneously with an oscilloscope. This function is also ideal for long-term tests. The test software detects DELIB errors and logs them automatically.

Mustertext

DO 4* value + wait

In this test, adjustable 16-bit values are written to the digital outputs of the module.
The values are sent to the module using the DapiDOSet16 command. The start channel is always channel 0.
You can set different wait times between the individual calls.
The test is intended for testing the functionality of the module.

Mustertext

Modbus I/O test

In the diagnostics section of the ICT-Tool, you can test the module’s digital and analog inputs and outputs directly via Modbus TCP. Register addresses as well as transfer and return values are displayed in a debug panel, allowing you to quickly diagnose problems with the D/A converter, for example. A complete overview of all register addresses and examples can be found in the Modbus manual at the following link:

To benefit from the latest functions and prevent errors, we recommend that you always keep your DEDITEC product up to date.

Flash Files
Downloading the firmware flash file package via the ICT tool

Go to Flash Files in the “Firmware update” menu
Click on the download button to start the download.
Administration rights are required for the automatic unpacking of the flash files. If these rights are not available, the files are downloaded to the download area of your PC and must be extracted manually to the installation directory.
\DEDITEC\DELIB\programs\flash_files

Downloading the firmware flash file package via the DEDITEC homepage

Download the required firmware flash file package from our homepage: Downloads -> Software -> Firmware
Extract the files to the following installation path: ..\DEDITEC\DELIB\programs\flash_files

Flash modules
In the “Firmware update” menu, select the module you want to update and then click on the “Flash modules” or “Flash submodules” button.
The firmware is now updated and the module is then restarted automatically.

Information on the firmware flasher
The following information is displayed in the firmware flasher:

Last FW: Displays the last firmware version
Current FW: Displays the currently installed firmware version
Newest FW: Displays the latest firmware version
Log: Displays status or error messages during the flash process

In den folgenden Kapitel, würden wir Ihnen unsere neue All-In-One-Software gerne genauer vorstellen.

General
Here you can make general configurations to the ICT tool.

The following changes can be made:

Language – setting between German and English possible

Updates
Here you can search for available DELIB or firmware updates.

Automatic update search at program start
Search for DELIB updates
Search for firmware updates

Error log
Here you can make settings for the deditec_debug.log. This is saved under the path C:\Users\?USER?\AppData\Local\DEDITEC.

The following settings can be made:

Enable writing to the debug.log
Activate log notifications
Activate automatic deletion of the debug.log
Setting after how many days the debug.log should be deleted
Set the maximum size of the debug.log

DELIB – DebugView – Global

Settings can be made here for the information that is to be displayed with the DebugView.

Activate debug output
Activate display of errors

DELIB – DebugView – Details
More detailed settings can be made here for the information to be displayed with the DebugView.

Configuration of CAN modules

The parameters of the CAN interface can be fully configured via the ICT-Tool. In addition to the baud rate, CAN address and other settings, automatic send and receive packets can also be set up.

Automatic transmission (TX mode)

The Auto-TX mode allows cyclical transmission of data packets, optionally with analog or digital input states to other CAN addresses. Alternatively, a trigger event can also be defined. In this case, a data packet is only sent once a data packet has been received on a certain CAN ID (e.g. CAN sync on ID 0x80).

Automatic receiving (RX mode)

With Auto-RX mode, on the other hand, received data packets are forwarded directly to analog or digital outputs. For example, relay outputs can be set via another CAN bus subscriber.

ICT-Tool

The ICT-Tool can be used to quickly and easily read out or change CAN interface settings.

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
Hier finden Sie Informationen über die TX / RX -Pakete

Anzahl gesendeter / empfangener Pakete
TX / RX – Pakete pro Sekunde
Durchschnitt gesendeter / empfangener Pakete

Config interface
Settings can be made on the CAN interface here.

Baud rate
Adress Bit-mode
Module address
Receiver 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 package configuration.

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

Config RX mode
You can make settings to the RX package configuration here.

activate / deactivate
Use extended ID
Receive from CAN-ID
RX mode

Click here to download the latest driver library.

DELIB driver library

You can find more details on control and some programming examples in the programming section.

To the programming

M2M

Machine to Machine
M2M is the abbreviation for “machine-to-machine” and enables automatic data transmission between two or more devices. This means that analog or digital input signals from a transmitter module can be automatically transmitted to a receiver module, where they are immediately output again.

Data exchange without a control PC
The modules communicate directly at device level and therefore do not require any additional user software. The one-off configuration of the transmitter module can be carried out very easily using our ICT-Tool. All settings remain permanently stored in the module memory, even in the event of a power failure. After a restart, the module automatically switches back to M2M operation.

M2M Ethernet or M2M CAN
With our DEDITEC products, we differentiate between M2M Ethernet and M2M CAN. We also refer to the latter as CAN-TX/RX mode. Both M2M methods are supported by most of our modules with Ethernet or CAN interface.

M2M-CAN

All DEDITEC products with a CAN interface are equipped with the M2M-CAN feature. The “Auto TX/RX mode” can be set in the ICT-Tool via the configuration menu. Depending on the product type, 8(4) TX and 8(4) RX modes can be defined.

"TX modes" submenu
The pictures on the right show an example configuration for a transmitter module (TX mode) and a corresponding receiver module (RX mode).

The TX mode on the transmitter module sends the logical states of inputs 1-64 to CAN ID 0x700 every 500ms.

The RX mode on the receiver module receives data packets on CAN ID 0x700 and outputs these values to outputs 1-64.

General information on Event-Control

General

Description

Statistics

Events

Actions

In den folgenden Kapitel, würden wir Ihnen unsere neue All-In-One-Software gerne genauer vorstellen.

To make our modules even more customer-friendly and flexible and to make it easier for you to enter the world of automated control technology, we have implemented Event-Control as a new feature in our products. This function can be used to implement small control tasks that are stored in the module. These control tasks are configured as events and actions and then executed automatically according to the “if-then” principle.

Configuration in the ICT-Tool
The ICT-Tool can be used to configure and monitor 16 events and 16 actions.

Processing in the module
The events stored in the module are automatically monitored and processed by the CPU in the module after the module is started. As soon as the set condition (“event”) is fulfilled, the corresponding action is executed. This automatism in the module makes an additional control PC with associated user software superfluous.

Functions
The following actions, among others, can be combined with the Event-Control:

Monitoring the analog and digital inputs (A/D, DI)
Setting switching thresholds for analog inputs
Switching the module outputs (relay, MOSFET, D/A)
Sending CAN packages

We are constantly expanding the range of promotional options. We are also happy to implement your special customer requirements on request.

Modulauswahl
Hier können Sie Ihre Module mit einem Klick auf das „+“ Symbol ins ICT-Tool einbinden, um diese anschließend konfigurieren oder testen zu können.

Module series that support this function:

BS-USB2 series
BS-WEU series
NET series
UC series
CAN-Box series

Module series that do not support this function:

Starter series
RO series
COS series

ICT Treeview
Im Treeview auf der linken Seite des Programmfensters, sehen Sie die jeweiligen Formen, die von Ihrem Modul unterstützt werden.
Mit einem Klick können Sie sich diese Form dann im rechten Teil des Programmes anzeigen lassen und mögliche Konfigurationen oder Tests durchführen.

In den folgenden Kapitel, würden wir Ihnen unsere neue All-In-One-Software gerne genauer vorstellen.

With the Event-Control module, you can react flexibly and automatically to external signals – directly on the I/O module, without a PC or additional controller.

How does it work?
The system registers external events, such as the switching of an input or the triggering of a sensor, and then executes predefined actions. These actions can be simple tasks such as switching on a relay or sending a CAN message.

The advantages:

Independent processing – Control takes place directly on the module, independently of the host system.
Flexibly customizable – you can link any inputs and outputs together.
Complex logic possible – Thanks to logical operators such as AND, OR or NOT, even more sophisticated controls can be implemented.
Simple configuration – events and actions are conveniently defined via our ICT-Tool and transferred to the module without any programming knowledge.

Example:
A digital input detects the opening of a door. The system then automatically switches on a light without a PC being involved.

Modulauswahl
Hier können Sie Ihre Module mit einem Klick auf das „+“ Symbol ins ICT-Tool einbinden, um diese anschließend konfigurieren oder testen zu können.

Modulserien, die von dieser Funktion unterstützt werden:

BS-USB2-Serie
BS-WEU-Serie
NET-Serie
UC-Serie
CAN-Box

Modulserien, die von dieser Funktion nicht unterstützt werden:

Starter-Serie
RO-Serie
COS-Serie

Our ICT-Tool in the “Statistics” section provides a quick overview of all current campaigns and events.

Eine mini SPS
Um unsere Module noch kundenfreundlicher und flexibler zu gestalten und Ihnen den Einstieg in die Welt der automatisierten Steuer- und Regelungstechnik zu erleichtern, haben wir als neues Feature das sog. Event-Control in unsere Produkte implementiert. Mit dieser Funktion lassen sich kleine Steueraufgaben in das Modul speichern, die anschließend nach dem „Wenn-Dann“ Prinzip automatisch Aktionen ausführen.

The following information can be taken from the statistics:

Executed event no.
Event mode
Interval
Number of events executed
Number of the executed action
Number of actions performed

Modulserien, die von dieser Funktion unterstützt werden:

BS-USB2-Serie
BS-WEU-Serie
NET-Serie
UC-Serie
CAN-Box

Modulserien, die von dieser Funktion nicht unterstützt werden:

Starter-Serie
RO-Serie
COS-Serie

An event is used to execute a specific action as soon as a condition is met.
A time period can also be specified for how long the condition must be fulfilled in order to execute an action.
These settings are saved directly in the Module-Configuration-Memory of the module.
Example: Voltages can be automatically output via the D/A converter or relays can be switched when a previously defined switching threshold is reached at the A/D inputs or a signal is detected at a digital input.

Depending on the features of your product, you can choose from different modes:

“DI” / “DI flip-flop” / “DO readback”
DI: High or low signal of a digital input.
Flip-Flop: If the status of the digital input changes, the flip-flop of the channel is set and then reset again.
DO-Readback: The status of the output channel is read out.

The following settings can be made:

Number of the channel to be monitored
Condition of the channel status (on = 1 / off = 0)
Minimum time to wait until the action is triggered
Number of the action to be executed (this is configured in the Action area)

“A/D”
The voltage currently present at the analog input is read out.

The following settings can be made:

Number of the channel to be monitored
A/D mode (selection depends on module)
Condition that must be fulfilled (value greater than … , value less than … , value in a range)
Values that must be achieved for the condition
Minimum time to wait until the action is triggered
Number of the action to be executed (this is configured in the Action area)

In the “Actions” section of our ICT-Tool, you define which tasks are to be performed automatically as soon as a condition (“event”) is fulfilled.
For example, you can specify that a certain CAN packet should be sent when a certain voltage is measured on an A/D channel or a signal is detected at a digital input.

Depending on the features of your product, you can choose from different modes:

Folgende Informationen können der Statistik entnommen werden:

Ausgeführte Event-Nr.
Event-Modus
Intervall
Anzahl ausgeführter Events
Nummer der ausgeführten Aktion
Anzahl ausgeführter Aktionen

“Set D/A output”
Outputs a voltage or a current at an analog output.

The following settings can be made:

Number of the channel on which the action is to be executed
D/A mode (selection depends on module)
Voltage or current to be output
Time to wait before executing the action again

“Set DO output”
Switches a digital output on or off.

The following settings can be made:

Number of the channel to be controlled
State (0 = off / 1 = on) that is to be set
Time to wait before executing the action again

“Send CAN package”
The set CAN TX event is triggered. For this function, the trigger mode in the CAN TX package must be set to “TX-EVENT” (see configuration).

The following settings can be made:

Number of the CAN TX event to be triggered
Time to wait before executing the action again (prevents a CAN packet from being sent too frequently)

You can find more information on configuring TX mode here:

Control of our CAN modules

Our RAW CAN modules can be controlled in two ways:

1. Auto TX/RX mode

2. DELIB command mode

1. Auto TX / RX mode

This operating mode allows the module to process CAN packets automatically without the need for an additional control PC. Configuration is very simple using the ICT tool and requires no programming knowledge.

Automatic transmission (TX mode)

Auto-TX mode allows automatic, cyclical transmission of CAN packets to other bus participants. The module's digital and analog input signals can thus be forwarded directly to other devices.

As an alternative to cyclic transmission, trigger events can also be defined. This means that a CAN packet is only sent, for example, when a CAN message has been received on a specific CAN ID.

TX mode configuration

The following settings can be configured:

Enable/disable TX mode
Trigger mode
Interval
Use extended ID
Send to CAN ID
TX mode

Automatic receive (RX mode)

In Auto-RX mode, received data packets are forwarded directly to the analog or digital outputs of the module. For example, relay outputs can be set on the module via another CAN bus participant.

RX mode configuration
The following settings can be configured:

Enable/disable RX mode
Use extended ID
Receive from CAN ID
RX mode

2. DELIB command mode

In DELIB command mode, the module's registers are accessed via a CAN protocol developed by DEDITEC. The module expects the CAN messages on a CAN address specified in command mode. Read and write accesses with different data lengths (BYTE, WORD, LONG) are possible. Details on the protocol structure and register assignment can be found in the “Protocols & Register Assignment” manual in the download area.

CAN Protocol Documentation

Connection example AD16:

Screwless connector system

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

Handling:

Steps 1-5

Step 1

See the scope of delivery for the operating tool.

Step 2

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

Step 3

Now insert the stripped conductor into the open clamp contact.

Step 4

Pull out the operating tool again.

Step 5

Check that the conductor is properly connected. It should now no longer be possible to pull it out easily.

Manual

Manual UC series

Download

Quickstart - Hardware description - Software description - ICT-Tool

Commissioning/Quickstart

Safety instructions
Installing the drivers
Connecting the power supply
Connecting to the PC or network
Connecting the I/O connectors
Function test

Hardware description

List of technical data
Definition of the LEDs
Functions of switches and buttons
Pin assignment of the connectors
Connection examples

Software description

Control options via the DELIB, protocol level, DELIB CLI, graphical applications
DELIB Driver Library, DELIB Sample Sources, DELIB for Linux
Web interface (only for Ethernet modules)
DELIB API and its functions

ICT-Tool

Add module on the PC
Configure module/interface (Ethernet, USB, CAN, serial)
Setting options for M2M and event control (only for supported modules)
Test and diagnose module
Install firmware updates
Save/load module configurations using a separate file

Software packages ICT-Tool / DELIB driver library

ICT-Tool + DELIB for Windows (64-bit)

Download

For Windows 11/10, Windows 7, Windows 8, Vista, XP and 2000

Software package for the 64-bit version of the ICT-Tool and the DELIB driver library.

The following operating systems are compatible:
64-bit:

Windows 10/11 x64
Windows 8 x64
Windows 7 x64
Windows Server 2012 x64
Windows Server 2008 x64
Windows Vista x64
Windows XP x64
Windows Server 2003 x64
Windows 2000 x64

Supplied software

ICT-Tool x64

Updating the DEDITEC module-firmware
Assigning module addresses
Module-specific settings
Configuration of CAN modules
Test and diagnosis of module functions
Configuration of the watchdog stick

Replaces the following software

DT-Flasher x64
DELIB Module Demo x64
CAN Configuration Utility x64
DELIB Module Config x64
DELIB Configuration Utility x64
Watchdog Configuration Utility x64

DELIB Command Line Interface x64

Enables the execution of DELIB commands in the command line.

ICT-Tool + DELIB for Windows (32-bit)

Download

For Windows 11/10, Windows 7, Windows 8, Vista, XP and 2000

Software package for the 32-bit version of the ICT-Tool and the DELIB driver library.

The following operating systems are compatible:
32-bit:

- - Windows 10/11
  - Windows 8
  - Windows 7
  - Windows Server 2012
  - Windows Server 2008
  - Windows Vista
  - Windows XP
  - Windows Server 2003
  - Windows 2000

Supplied software

ICT-Tool x32

- - Updating the DEDITEC module-firmware
  - Assigning module addresses
  - Module-specific settings
  - Configuration of CAN modules
  - Test and diagnosis of module functions
  - Configuration of the watchdog stick

Replaces the following software

- - DT-Flasher
  - DELIB Module Demo
  - CAN Configuration Utility
  - DELIB Module Config
  - DELIB Configuration Utility
  - Watchdog Configuration Utility

Attention:

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

DELIB driver library for Linux (32/64-bit)

Download

For 32/64-bit Linux distributions from kernel 2.6.x. Version 2.73 from 28.10.2024

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

This driver package contains the following components

DELIB USB driver
DELIB Ethernet driver
DELIB CLI

DELIB USB driver

Support for the following products:

NET series (via USB interface)
RO-USB series
BS-USB series
USB mini-sticks
USB watchdog
USB-OPTION-8 / USB-RELAY-8
USB-TTL-32 / USB-TTL-64

Note:

With the standard version of the USB driver, several USB products with different module IDs (e.g. one RO-USB and one USB-OPTOIN-8) can be addressed. No further driver installation is required.

If several USB products with the same module ID (e.g. a USB-OPTOIN-8 and a USB-RELAIS-8) are to be addressed, the Linux FTDI driver must also be installed. You can find the FTDI driver at http://www.ftdichip.com.

DELIB Ethernet driver

Support for the following products:

NET series (via Ethernet interface)
RO-ETH series
RO-ETH/LC series
BS-ETH series
ETH-OPTION-8 / ETH-RELAY-8
ETH-TTL-64

DELIB CLI

With the DELIB CLI (Command Line Interface) for Linux, all commands for digital and analog I/Os can be set directly via the command line

Manual

Manual for ICT-Tool and DELIB

Download

Software Description - ICT-Tool - DELIB API Reference

Software Description

Control options via DELIB, protocol level, DELIB CLI, graphical applications
DELIB driver library, DELIB sample sources, DELIB for Linux
Web interface (only for Ethernet modules)
DELIB API and its functions

ICT-Tool

Add module to PC
Configure module/interface (Ethernet, USB, CAN, Serial)
Settings for M2M and Event Control (only for supported modules)
Test and diagnose module
Install firmware updates
Save/load module configurations using a separate file

DELIB API Reference

Directory structure of DELIB
Management functions
Error handling
Manage digital inputs and outputs
Manage analog inputs and outputs
Manage software FIFO
Manage output timeout
Register read and write commands

Download

Hardware updates (firmware flash file package)

Download

Firmware flash file package for the ICT tool

This package contains the latest firmware files for the following product series:

STARTER series
BS series
RO series
NET series
UC series
CAN-IO-Box
Development accessories

The firmware flash file package can alternatively be downloaded via the ICT tool.

USB cable A plug to C plug

USB cable for connecting our modules to the control PC.

Type: USB 2.0, A plug to C plug
Length: 1 m

To the product

5-pin plug connector

Enables the power supply to be connected to the DEDITEC module.

Type: Phoenix Contact® - 1876343
100 % mismatch protected
For all conductor types from 0.2 mm² to 2.5 mm²

To the product

16-pin plug connector

Required for connecting inputs and outputs of the DEDITEC module.

Type: WAGO® 713-1108/037-000
Plug-in female multipoint connector with locking mechanism
100 % mismatch protected
1-wire connection for all conductor types up to 1.5 mm²

To the product

Actuating tool for Wago connectors

Used to open and close the terminal contacts on the WAGO® connectors.

Type: WAGO® - 734-231

To the product

DIN-Rail connector

The DIN rail connector is a single BUS segment that enables connection to other modules. It is clipped into the top-hat rail and plugged onto the side of an existing DIN rail connector.

Type: Phoenix Contact® - 2203852
Connection of a NET or UC module
For expanding the NET or UC bus system
1 Piece

To the product

USB cable A plug to C plug

USB cable for connecting our modules to the control PC.

Type: USB 2.0, A plug to C plug
Length: 1 m

To the product

5-pin plug connector

Enables the power supply to be connected to the DEDITEC module.

Type: Phoenix Contact® - 1876343
100 % mismatch protected
For all conductor types from 0.2 mm² to 2.5 mm²

To the product

18-pin plug connector

Required for connecting inputs and outputs of the DEDITEC module.

Type: WAGO® - 713-1109/037-000
Plug-in female multipoint connector with locking mechanism
100 % mismatch protected
1-wire connection for all conductor types up to 1.5 mm²

To the product

Actuating tool for Wago connectors

Used to open and close the terminal contacts on the WAGO® connectors.

Type: WAGO® - 734-231

To the product

DIN-Rail connector

The DIN rail connector is a single BUS segment that enables connection to other modules. It is clipped into the top-hat rail and plugged onto the side of an existing DIN rail connector.

Type: Phoenix Contact® - 2203852
Connection of a NET or UC module
For expanding the NET or UC bus system
1 Piece

To the product

Strain relief plate for 16 or 18-pin Wago connectors

The strain relief plate is pushed onto the center of the female connector and enables the connected cables or strands to be fixed in place.

Type: WAGO® - 713-127
Strain relief for the connection wiring
Suitable for 16 or 18-pole female connectors
Slide onto the female connector from the side

To the product

Top hat rail

Top-hat rail for mounting our control technology modules.

DIN rail according to DIN EN 50022
Type: Phoenix Contact® - 1208131
Dimensions in mm: 450 x 35 x 7.5 (L x W x H)

To the product

24V/2A power supply unit for top-hat rail mounting

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

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

To the product

Typical applications for the UC-CAN 16/18-bit A/D converter

The UC-CAN 16/18-bit A/D Converter – 16-Channel CAN Bus Module is suitable for industrial applications in which analog measurement signals need to be acquired and transmitted via the CAN bus to controllers, IPCs, gateways, data loggers, or SCADA systems. With 16 analog A/D channels, selectable 16- or 18-bit resolution, and galvanically isolated CAN connectivity, the module is particularly well-suited for decentralized measurement tasks in machines, plants, test benches, mobile measurement systems, and distributed automation environments. The voltage and current ranges listed on the page, as well as the open CAN protocol, support integration into customer-specific measurement and control architectures.

Suitable for

Machine and Plant Engineering
Control Panel Construction and Industrial Control Technology
Test Benches, Test Systems, and Measurement Data Acquisition
Laboratory, Development, and Research Systems
Machine and Plant Monitoring
Mobile Measurement Systems
Decentralized CAN Measurement Networks and Retrofit Applications
CAN-Based Automation and SCADA Systems

Typical applications

Acquiring analog sensor, transmitter, and transducer signals
Transmitting analog measurement values via CAN to controllers, IPCs, gateways, data loggers, or SCADA systems
Bundling multiple analog measurement points into a single CAN node
Integration of existing sensor technology into CAN-based automation and measurement systems
Monitoring of process values in machines, plants, and test environments
Decentralized measurement data acquisition in stationary and mobile industrial or test systems
Retrofitting analog measurement points in existing CAN architectures

Typical measurement and signal processing tasks

A/D conversion of analog input signals with 16- or 18-bit resolution
Acquisition of up to 16 single-ended analog signals
Measurement of voltage signals in the ranges listed on the page: 0–5 V, 0–10 V, 0–20 V, 0–40 V, +5 V, +10 V, +20 V, and +40 V
Measurement of current signals in the ranges 0–20 mA, 4–20 mA, and 0–24 mACAN-based transmission of analog measured values via an open CAN protocol
Use of automatic transmit/receive mode for CAN communication
Electrically isolated CAN connection for more robust integration into industrial environments

Typical Application Areas:

Test benches and test systems
Optimal integration into test environments is enabled by the CAN interface of the UC-CAN-AD16-16/18, supporting analysis, simulation, and validation processes.:
Machine-to-machine communication (M2M)
Thanks to the integrated CAN M2M function of the UC-CAN-AD16-16/18, devices can communicate directly with each other. CAN telegrams are automatically transmitted between sender and receiver modules, allowing complete process chains to be controlled without a higher-level PLC or PC. Ideal for autonomous machine networks.:
Building and environmental automation
Continuous monitoring of climate and environmental sensors in large building complexes is easily possible with the UC-CAN-AD16-16/18.:
Laboratory and testing technology
The Modul is ideally suited for experimental setups, data acquisition, and calibrations where high accuracy and reliability are essential.:
Machine and plant networking
Integration of analog measurement values into control and SCADA systems.:
Energy and consumption monitoring
The inputs of the UC-CAN-AD16-16/18 can be used to record current, voltage, or power values in order to monitor energy flows in systems.:

Comparison: UC-CAN 16/18-bit A/D converter as a 16-channel CAN bus module

The following comparison provides a technical overview of the UC-CAN 16/18-bit A/D converter: a CAN bus module with 16 analog inputs, selectable 16- or 18-bit resolution, open CAN protocol, galvanic isolation, and measurement ranges for voltage and current signals. The table is designed to facilitate a quick assessment for purchasing, development, test bench construction, and industrial automation.

Feature	Market Comparison	UC-CAN-AD16-16/18	Practical benefits
Produkttyp, CAN-Kommunikation und Systemintegration
Product Type	Many CAN I/O modules are universal mixed-signal modules that support multiple signal types.	CAN A/D converter with a focus on 16 analog inputs.	Ideal when a large number of analog measurement signals need to be specifically acquired and processed via CAN.
CAN bus interface	For CAN modules, the supported CAN versions, bit rates, and protocol interfaces vary significantly depending on the manufacturer.	CAN 2.0A or CAN 2.0B with selectable bit rates up to 1 Mbit/s.	Facilitates integration into existing CAN networks, test benches, control systems, and data loggers.
CAN protocol	In some cases, closed or proprietary protocols are used.	Open CAN protocol.	Useful for custom CAN implementations, customer-specific telegrams, gateways, and PC-based measurement systems.
Automatic CAN operation	With simple CAN I/O modules, communication often has to be controlled entirely externally.	Automatic transmission and reception mode for CAN packets.	Reduces the programming effort required for recurring transmission and reception tasks in the CAN network.
Analog Inputs, Resolution, and Measurement Ranges
Feature	Market Comparison	UC-CAN-AD16-16/18	Practical benefits
Number of analog inputs	Compact CAN A/D modules often offer fewer analog channels or distribute measurement points across multiple devices.	16 A/D channels, single-ended.	Multiple sensor, transmitter, or process signals can be consolidated into a single CAN node.
A/D resolution	Many standard modules operate with a fixed or lower A/D resolution.	16-bit or 18-bit resolution per channel.	The resolution can be selected to suit the measurement task, such as for standard measurements or finer signal resolution.
Voltage measurement ranges	Some CAN A/D modules support only specific voltage ranges or require separate versions for this purpose.	16-bit version: 0–5 V, 0–10 V, 0–20 V, 0–40 V, ±5 V, ±10 V, ±20 V, ±40 V. 18-bit version: ±5 V, ±10 V.	Voltage signals from various sensors and transducers can be acquired as needed for the application.
Current measurement ranges	Current measurement ranges such as 4–20 mA are not directly available on all CAN A/D modules.	16-Bit-version: 0–20 mA, 4–20 mA, 0–24 mA.	Industrial current signals from transmitters and transducers can be integrated directly into the CAN-based data acquisition system.
A/D filter	Signal smoothing is often performed externally or in the higher-level software.	Software-based A/D filter with averaging; adjustable filter level.	Noisy measurement signals can be smoothed before they are processed further in the CAN system.
Conversion rate	For many modules, the usable measurement rate depends on the number of channels, filtering, and bus communication.	A/D converter: 4 µs. Module: 78 conversions/s at filter level 0, 48 conversions/s at filter level 10.	Allows for a technical trade-off between faster updates and greater signal smoothing.
Industrial Applications, Protection, and Installation
Feature	Market Comparison	UC-CAN-AD16-16/18	Practical benefits
Electrical isolation	Galvanic isolation is not always available in CAN A/D modules, or is implemented only for certain areas.	Electrical isolation for the power supply: max. 500 V.	Helps address potential differences and enhances operational safety in industrial measurement environments.
Power supply	Many industrial I/O modules are designed for a fixed 24-V DC power supply.	+12 V to +24 V DC.	Suitable for use in typical 12-V and 24-V DC environments, such as test benches, machines, and mobile measurement setups.
Control Panel Assembly	Depending on the module design, additional adapters, desktop enclosures, or special mounting brackets may be required.	Top-hat rail mount 35 × 7.5 mm; dimensions 120 × 22.5 × 111 mm.	Facilitates integration into control cabinets, test benches, laboratory setups, and modular automation systems.
Connectors	Wiring and maintenance depend heavily on the type of terminal, the locking mechanism, and the protection against incorrect insertion.	WAGO terminal blocks, 100% protected against incorrect insertion, with eject and locking mechanisms.	Supports safe wiring and simplifies maintenance, replacement, and commissioning.
Operating temperature	Temperature ranges must be tested separately for measurement modules located in the control cabinet or test bench.	+10 °C to +50 °C.	Suitable for typical industrial indoor, control cabinet, and laboratory environments.
Software, Diagnostics, and Commissioning
Feature	Market Comparison	UC-CAN-AD16-16/18	Practical benefits
Configuration	CAN modules are often configured using manufacturer-specific tools or directly via protocol commands.	Configuration via the ICT tool.	CAN communication, automatic processing, and module parameters can be tested prior to integration.
Software integration	Depending on the manufacturer, integration is often limited to specific platforms or libraries.	Control via DELIB commands and documented CAN functions.	Facilitates integration into your own measurement, test bench, and automation software.
Diagnosis and Testing	With simple modules, diagnostic and testing capabilities are often limited.	ICT tool for configuration, testing, diagnostics, and firmware updates.	Supports commissioning, troubleshooting, and maintenance without the need for proprietary diagnostic software.
Documentation and Downloads	Manuals, software packages, and firmware files are not available directly from all manufacturers.	Manual, ICT/DELIB software packages, and firmware flash file package in the Downloads section.	Speeds up the technical testing, implementation, and subsequent maintenance of the CAN measurement system.

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Our product series

Outputs

Div.

long-term availability

Interface features

Tabular overview

By interface

Inputs

Software features

Analog features

Start-up

By interface

By interface

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Diagnosis

Test / ICT-Tool

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Drittanbieter

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Overview

Individual

Software

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Driver

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General

Firmware

CANopen EDS files

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Miscellaneous

Brochures

16-Channel CAN A/D Converter * CAN 16/18-bit A/D converter – 16 channels

Product Description

UC-CAN A/D Converter for CAN-based data acquisition

System role in distributed CAN architectures

USB-C as an added benefit during commissioning and service

Signal Processing and Electrical Robustness

Typical applications

Integration, commissioning, and software integration