User Manual PCIE-1756H
User Manual
PCIE-1756H
64-ch Isolated Digital I/O with
Digital filter PCI Express Card
Copyright
The documentation and the software included with this product are copyrighted 2017
by Advantech Co., Ltd. All rights are reserved. Advantech Co., Ltd. reserves the right
to make improvements in the products described in this manual at any time without
notice. No part of this manual may be reproduced, copied, translated or transmitted
in any form or by any means without the prior written permission of Advantech Co.,
Ltd. Information provided in this manual is intended to be accurate and reliable. However, Advantech Co., Ltd. assumes no responsibility for its use, nor for any infringements of the rights of third parties, which may result from its use.
Acknowledgements
Intel and Pentium are trademarks of Intel Corporation.
Microsoft Windows and MS-DOS are registered trademarks of Microsoft Corp.
All other product names or trademarks are properties of their respective owners.
Product Warranty (2 years)
Advantech warrants to you, the original purchaser, that each of its products will be
free from defects in materials and workmanship for two years from the date of purchase.
This warranty does not apply to any products which have been repaired or altered by
persons other than repair personnel authorized by Advantech, or which have been
subject to misuse, abuse, accident or improper installation. Advantech assumes no
liability under the terms of this warranty as a consequence of such events.
Because of Advantech’s high quality-control standards and rigorous testing, most of
our customers never need to use our repair service. If an Advantech product is defective, it will be repaired or replaced at no charge during the warranty period. For outof-warranty repairs, you will be billed according to the cost of replacement materials,
service time and freight. Please consult your dealer for more details.
If you think you have a defective product, follow these steps:
1. Collect all the information about the problem encountered. (For example, CPU
speed, Advantech products used, other hardware and software used, etc.) Note
anything abnormal and list any onscreen messages you get when the problem
occurs.
2. Call your dealer and describe the problem. Please have your manual, product,
and any helpful information readily available.
3. If your product is diagnosed as defective, obtain an RMA (return merchandize
authorization) number from your dealer. This allows us to process your return
more quickly.
4. Carefully pack the defective product, a fully-completed Repair and Replacement
Order Card and a photocopy proof of purchase date (such as your sales receipt)
in a shippable container. A product returned without proof of the purchase date
is not eligible for warranty service.
5. Write the RMA number visibly on the outside of the package and ship it prepaid
to your dealer.
PCIE-1756H User Manual
Part No. 2001175610
Edition 1
Printed in Taiwan
March 2017
ii
Declaration of Conformity
CE
This product has passed the CE test for environmental specifications when shielded
cables are used for external wiring. We recommend the use of shielded cables. This
kind of cable is available from Advantech. Please contact your local supplier for
ordering information.
FCC Class A
Note: This equipment has been tested and found to comply with the limits for a Class
A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to
provide reasonable protection against harmful interference when the equipment is
operated in a commercial environment. This equipment generates, uses, and can
radiate radio frequency energy and, if not installed and used in accordance with the
instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in
which case the user will be required to correct the interference at his own expense.
Technical Support and Assistance
1.
2.
Visit the Advantech web site at www.advantech.com/support where you can find
the latest information about the product.
Contact your distributor, sales representative, or Advantech's customer service
center for technical support if you need additional assistance. Please have the
following information ready before you call:
– Product name and serial number
– Description of your peripheral attachments
– Description of your software (operating system, version, application software,
etc.)
– A complete description of the problem
– The exact wording of any error messages
Packing List
Before setting up the system, check that the items listed below are included and in
good condition. If any item does not accord with the table, please contact your dealer
immediately.
 PCIE-1756H DAQ Card
 StartUp or User Manual
 Companion DVD-ROM with DAQNavi drivers included
iii
PCIE-1756H User Manual
Safety Precaution - Static Electricity
Follow these simple precautions to protect yourself from harm and the products from
damage.
 To avoid electrical shock, always disconnect the power from your PC chassis
before you work on it. Don't touch any components on the CPU card or other
cards while the PC is on.
 Disconnect power before making any configuration changes. The sudden rush
of power as you connect a jumper or install a card may damage sensitive electronic components.
PCIE-1756H User Manual
iv
Contents
Chapter
1
Introduction..........................................1
1.1
1.2
1.3
1.4
1.7
Introduction ............................................................................................... 2
Features .................................................................................................... 2
Applications............................................................................................... 3
Installation Guide ...................................................................................... 4
Figure 1.1 Installation Flow Chart ................................................ 4
Software Overview .................................................................................... 5
DAQNavi Device Driver Programming Roadmap ..................................... 6
1.6.1 Programming Tools....................................................................... 6
1.6.2 Programming with DAQNavi Device Drivers Function Library...... 6
1.6.3 Troubleshooting DAQNavi Device Drivers Error........................... 6
Accessories............................................................................................... 7
2
Installation............................................9
2.1
2.2
2.3
Unpacking ............................................................................................... 10
Driver Installation .................................................................................... 10
Hardware Installation .............................................................................. 11
3
Signal Connections ...........................13
3.1
3.2
3.4
Overview ................................................................................................. 14
Switch and Jumper Settings.................................................................... 14
Figure 3.1 Connector and Switch Locations .............................. 14
3.2.1 Board ID (SW1)........................................................................... 15
Table 3.1: Board ID Setting (SW1) ............................................ 15
3.2.2 Power On Configuration(JP1) ..................................................... 16
Table 3.2: Power on configuration after hot reset (JP1) ............ 16
3.2.3 Channel-Freeze Function (JP2).................................................. 16
Table 3.3: Dry/Wet Contact of Channel-Freeze Function (JP2) 16
Signal Connections ................................................................................. 17
Figure 3.2 I/O Connector Pin Assignments ............................... 17
3.3.1 I/O Connector Pin Definition ....................................................... 18
Table 3.4: I/O Connector Signal Descriptions ........................... 18
3.3.2 Isolated Digital Input ................................................................... 18
Figure 3.3 Isolated Digital Input Connection.............................. 18
3.3.3 Isolated Digital Output................................................................. 19
Figure 3.4 Isolated Digital Output Connection ........................... 19
3.3.4 Channel-Freeze Function ........................................................... 19
Figure 3.5 Wiring in wet contact input mode.............................. 19
Figure 3.6 Wiring in dry contact input mode .............................. 20
Field Wiring Considerations .................................................................... 20
Appendix A
Specifications ....................................21
A.1
A.2
A.3
A.4
Isolated Digital Input................................................................................ 22
Digital Filter Time .................................................................................... 22
Isolated Digital Output............................................................................. 22
General ................................................................................................... 23
Appendix B
Block Diagrams .................................25
1.5
1.6
Chapter
Chapter
3.3
v
PCIE-1756H User Manual
B.1
Block Diagrams....................................................................................... 26
Appendix C
ADAM-3951 Pin Assignment............ 27
C.1
ADAM-3951 Pin Assignment .................................................................. 28
Figure C.1 Connect to PCL-10250 CON1.................................. 28
Figure C.2 Connect to PCL-10250 CON2.................................. 29
PCIE-1756H User Manual
vi
Chapter
1
1
Introduction
This chapter introduces the PCIE1756H cards and their typical
applications.
Sections include:
 Features
 Applications
 Installation Guide
 Software Overview
 Device Driver Roadmap
 Accessories
1.1 Introduction
Thank you for buying the Advantech PCIE-1756H which is a 32/32-ch isolated digital
input/output card. It is an advanced-performance data acquisition card based on PCI
Express bus architecture. It features a unique circuit design and complete functions
for data acquisition and control. The following sections of this chapter will provide further information about features of PCIE-1756H, a Quick Start for installation, together
with some brief information on software and accessories.
1.2 Features


32-ch isolated DI/O (16-ch digital input w/ Digital filter, 16-ch digital output)
Wide input range (10 ~ 30 VDC)


Either +/- voltage input for IDI by group
Wide output range (5 ~ 40 VDC)


High sink current on isolated output channels (500 mA max./ch)
High over-voltage protection (70 VDC)

High-voltage isolation (2,500 VDC)






2,000 VDC ESD protection
Output status read-back
Keeps the output settings and values after system hot reset
Interrupt handling capability for IDI channels
Channel-freeze function
Board ID
PCIE-1756H offers the following main features:
Robust Protection
The PCIE-1756H features a robust isolation protection for applications in industrial,
lab and machinery automation. The PCIE-1756H can durably withstand a voltage up
to 2,500 VDC, preventing your host system from any incidental harms.
Wide Input Range
The PCIE-1756H has a wide range of input voltage from 10 to 30 VDC, and it is suitable for most industrial applications with 12 VDC and 24 VDC input voltage. In the
mean time, we are also ready to serve your special needs for specific input voltage
range. Do not hesitate to ask us about tailoring our standard products to meet your
specifications. All these merits make PCIE-1756H the best choice for industrial applications.
Wide Output Range
The PCIE-1756H also features a wide output voltage range from 5 to 40 VDC, suitable for most industrial applications with 12 VDC/24 VDC output voltage. In the mean
time, we are also ready to serve your special needs for specific output voltage range.
Do not hesitate to ask us about tailoring our standard products to meet your specifications. All these merits make PCIE-1756H the best choice for industrial applications.
PCIE-1756H User Manual
2
Reset Protection
When the system has undergone a hot reset (i.e. without turning off the system
power), the PCIE-1756H can either retain outputs values of each channel, or return
to its default configuration as open status, depending on its on-board jumper setting.
This function protects the system from wrong operations during unexpected system
resets.
Note!
For detailed specifications of the PCIE-1756H, please refer to Appendix
A.
1.3 Applications





Industrial ON/OFF control
Switch status sensing
BCD interfacing
Digital I/O control
Industrial and lab automation
3
PCIE-1756H User Manual
Introduction
Channel-Freeze Function
The PCIE-1756H provides Channel-Freeze function, which can be enabled either in
dry contact or wet contact mode (selectable by the on-board jumper). When the
Channel-Freeze function is enabled, the last status of each digital output channel will
be safely kept for emergency use. Moreover, you can enable this function through
software as it is useful in software simulation and testing program.
Chapter 1
Board ID Setting
The PCIE-1756H has a built-in DIP switch that helps define each card’s ID when multiple cards have been installed on the same PC chassis. The board ID setting function is very useful when users build their system with multiple PCIE-1756H cards.
With correct Board ID settings, you can easily identify and access each card during
hardware configuration and software programming.
1.4 Installation Guide
Before you install your PCIE-1756H card, please make sure you have the following
necessary components:
 PCIE-1756H DAQ Card
 PCIE-1756H Startup or User Manual
 Driver Software Advantech DAQNavi software (included in DVDROM)
 Wiring Cable PCL-10250 or PCL-101100M (optional)
 Wiring Board ADAM-3951 or ADAM-39100 (optional)
 Computer Personal computer or workstation with a PCI Express-bus slot
Other optional components are also available for enhanced operation:
 Advantech DAQ tools, LabView or other 3rd-party software
After you get the necessary components and maybe some accessories for enhanced
operation for your DA&C card, you can then begin the Installation procedures. Figure
1.1 on the next page provides a concise flow chart to give users a broad picture of
the software and hardware installation procedures:
Figure 1.1 Installation Flow Chart
PCIE-1756H User Manual
4
Advantech offers a rich set of DLL drivers, third-party driver support and application
software to help fully exploit the functions of your PCIE-1756H card:
 DAQNavi software (on the companion DVD-ROM)
 LabView driver
 Advantech DAQ tools
DAQNavi Software
Advantech DAQNavi software includes device drivers and SDK which features a
complete I/O function library to help boost your application performance. This software is included in the companion DVD-ROM at no extra charge and comes with all
Advantech DA&C cards. The Advantech DAQNavi software for Windows XP/Vista/7
works seamlessly with development tools such as Visual Studio .Net, Visual C++,
Visual Basic and Borland Delphi.
Register-level Programming
Register-level programming is available for experienced programmers who find it
necessary to write code directly at the level of the device register. Since register-level
programming requires much effort and time, we recommend that you use the Advantech DAQNavi software instead. However, if register-level programming is indispensable, please contact the technical support team to request the relative information.
5
PCIE-1756H User Manual
Introduction
Programming choices for DA&C cards
You may use Advantech application software such as Advantech DAQNavi software.
On the other hand, advanced users can use register level programming, although
this is not recommended due to its laborious and time-consuming nature.
Chapter 1
1.5 Software Overview
1.6 DAQNavi Device Driver Programming Roadmap
This section will provide you a roadmap to demonstrate how to build an application
from scratch using Advantech DAQNavi device drivers with your favorite development tools such as Visual Studio.Net, Visual C++, Visual Basic and Borland Delphi.
The step-by-step instructions on how to build your own applications using each
development tool will be given in the DAQNavi SDK Manual. Moreover, a rich set of
example source code is also given for your reference.
1.6.1 Programming Tools
Programmers can develop application programs with their favorite development
tools:
 Visual Studio.Net
 Visual C++ and Visual Basic
 Borland Delphi
For instructions on how to begin programming works in each development tool,
Advantech offers Tutorial Chapter in the DAQNavi SDK Manual for your reference.
Please refer to the corresponding sections in this chapter on the DAQNavi SDK Manual to begin your programming efforts. You can also look at the example source code
provided for each programming tool, since they can get you very well oriented.
The DAQNavi SDK Manual can be found on the companion DVD-ROM. Alternatively,
if you have already installed the DAQNavi SDK on your system, the DAQNavi SDK
Manual can be readily accessed through the Start button:
Start\Programs\Advantech Automation\DAQNavi\DAQNavi Manuals\DAQNavi
SDK Manual
The example source code could be found under the corresponding installation folder
such as the default installation path:
\Advantech\DAQNavi\Examples
For information about using other function groups or other development tools, please
refer to the Using DAQNavi SDK chapter in the DAQNavi SDK Manual, or the video
tutorials in the Advantech Navigator.
1.6.2 Programming with DAQNavi Device Drivers Function Library
Advantech DAQNavi device drivers offer a rich function library that can be utilized in
various application programs. This function library consists of numerous APIs that
support many development tools, such as Visual Studio .Net, Visual C++, Visual
Basic and Borland Delphi.
According to their specific functions or services, APIs can be categorized into several
function groups:
 Analog Input Function Group
 Analog Output Function Group
 Digital Input/Output Function Group
 Counter Function Group
For the usage and parameters of each function, please refer to the Using DAQNavi
SDK chapter in the DAQNavi SDK Manual.
1.6.3 Troubleshooting DAQNavi Device Drivers Error
Driver functions will return a status code when they are called to perform a certain
task for the application. When a function returns a code that is not success, it means
the function has failed to perform its designated function. To troubleshoot the device
drivers error, you can check the error code and error description within the Error Control of each function in the DAQNavi SDK Manual.
PCIE-1756H User Manual
6
Wiring Boards
 ADAM-3951 The ADAM-3951 is a 50-pin SCSI wiring terminal module with LED
indicators for DIN-rail mounting.
 ADAM-39100 The ADAM-39100 is a 100-pin SCSI wiring terminal module with
DIN-rail mounting.
7
PCIE-1756H User Manual
Introduction
Advantech offers a complete set of accessory products to support the PCIE-1756H
card. These accessories include:
Wiring Cables
 PCL-10250 The PCL-10250 is a 100-pin SCSI to two 50-pin SCSI shielded
cable that specially designed for PCIE-1756H card. It should be used with
ADAM-3951 wiring board.
 PCL-101100M The PCL-101100M cable is a 100pin SCSI shielded cable. It can
be used with ADAM-39100 wiring board.
Chapter 1
1.7 Accessories
PCIE-1756H User Manual
8
Chapter
2
2
Installation
This chapter provides a packaged
item checklist, proper instructions
for unpacking and step-by-step
procedures for both driver and
card installation.
Sections include:
 Unpacking
 Driver Installation
 Hardware Installation
 Device Setup & Configuration
2.1 Unpacking
After receiving your PCIE-1756H package, please inspect its contents first. The package should contain the following items:
 PCIE-1756H DAQ Card
 StartUp or User Manual
 Companion DVD-ROM with DAQNavi drivers included.
The PCIE-1756H card harbor certain electronic components vulnerable to electrostatic discharge (ESD). ESD can easily damage the integrated circuits and certain
components if preventive measures are ignored.
Before removing the card from the antistatic plastic bag, you should take the following precautions to ward off possible ESD damage:
 Touch the metal part of your computer chassis with your hand to discharge the
static electricity accumulated on your body. Alternatively, one can also use a
grounding strap.
 Touch the anti-static bag to a metal part of your computer chassis before opening the bag.
 Take hold of the card only by the metal bracket when removing it out of the bag.
After taking out the card, you should first:
 Inspect the card for any possible signs of external damage (loose or damaged
components, etc.). If the card is visibly damaged, please notify our service
department or our local sales representative immediately.
 Do not install a damaged card into your system.
Also, pay extra caution to the following aspects during installation:
 Avoid physical contact with materials that could hold static electricity such as
plastic, vinyl and Styrofoam.
 Whenever you handle the card, grasp it only by its edges. DO NOT TOUCH the
exposed metal pins of the connector or the electronic components.
Note!
Keep the anti-static bag for future use. You might need the original bag
to store the card if you have to remove the card from a PC or transport it
elsewhere.
2.2 Driver Installation
We recommend you install the driver before you install the PCIE-1756H card into
your system, since this will guarantee a smooth installation process.
The Advantech DAQNavi Device Drivers Setup program for the PCIE-1756H card is
included in the companion DVD-ROM that is shipped with your DA&C card package.
PCIE-1756H User Manual
10
Note!
Make sure you have installed the driver before you install the card
(please refer to Chapter 2.2 Driver Installation)
After your card is properly installed on your system, you can now configure your
device using the Advantech Navigator Program that has itself already been installed
on your system during driver setup. A complete device installation procedure should
include device setup, configuration and testing. The following sections will guide you
through the Setup, Configuration and Testing of your device.
11
PCIE-1756H User Manual
Installation
After the Device Drivers installation is completed you can install the PCIE-1756H
card into any PCI slot on your computer. However, it is suggested that you refer to the
computer’s user manual or related documentation if you have any doubts. Please follow the steps below to install the card onto your system.
1. Turn off your computer and unplug the power cord and cables. TURN OFF your
computer before installing or removing any components on the computer.
2. Remove the cover of your computer.
3. Remove the slot cover on the back panel of your computer.
4. Touch the metal part on the surface of your computer to neutralize the static
electricity that might be on your body.
5. Insert the PCIE-1756H card into a PCI slot. Hold the card only by its edges and
carefully align it with the slot. Insert the card firmly into place. Use of excessive
force must be avoided; otherwise, the card might be damaged.
6. Fasten the bracket of the PCI card on the back panel rail of the computer with
screws.
7. Connect appropriate accessories (100-pin cable, wiring terminals, etc. if necessary) to the PCIE-1756H card.
8. Replace the cover of your computer chassis. Re-connect the cables you
removed in step 2.
9. Plug in the power cord and turn on the computer.
Chapter 2
2.3 Hardware Installation
PCIE-1756H User Manual
12
Chapter
3
3
Signal Connections
This chapter provides useful
information about how to connect
input and output signals to the
PCIE-1756H cards via the I/O connector.
Sections include:
 Overview
 Switch and Jumper Settings
 Signal Connections
 Field Wiring Considerations
3.1 Overview
Maintaining signal connections is one of the most important factors in ensuring that
your application system is sending and receiving data correctly. A good signal connection can avoid unnecessary and costly damage to your PC and other hardware
devices. This chapter provides useful information about how to connect input and
output signals to the PCIE-1756H cards via the I/O connector.
3.2 Switch and Jumper Settings
Please refer to Figure 3.1 for jumper and switch locations on PCIE-1756H.
Figure 3.1 Connector and Switch Locations
PCIE-1756H User Manual
14
The PCIE-1756H have a built-in DIP switch (SW1), which is used to define each
card’s board ID. When there are multiple cards on the same chassis, this board ID
switch is useful for identifying each card’s device number. After setting for each
PCIE-1756H, you can identify each card in system with different device numbers.
The default value of board ID is 0 and if you need to adjust it to other value, please
set the SW1 by referring to Table 3.1.
BoardID (dec)
Switch Position
* = default
1 (ID3)
2 (ID2)
3 (ID1)
4 (ID0)
0
ON
ON
ON
ON
1
ON
ON
ON
OFF
2
ON
ON
OFF
ON
3
ON
ON
OFF
OFF
4
ON
OFF
ON
ON
5
ON
OFF
ON
OFF
6
ON
OFF
OFF
ON
7
ON
OFF
OFF
OFF
8
OFF
ON
ON
ON
9
OFF
ON
ON
OFF
10
OFF
ON
OFF
ON
11
OFF
ON
OFF
OFF
12
OFF
OFF
ON
ON
13
OFF
OFF
ON
OFF
14
OFF
OFF
OFF
ON
15
OFF
OFF
OFF
OFF
Default Setting is 0.
15
PCIE-1756H User Manual
Signal Connections
Table 3.1: Board ID Setting (SW1)
Chapter 3
3.2.1 Board ID (SW1)
3.2.2 Power On Configuration(JP1)
Default configuration after power on, and hardware reset is to set all the isolated output channels to open status (the current of the load can’t be sink) so that the external
devices will not be damaged when the system starts or resets. When the system is
hot reset, then the status of isolated digital output channels are selected by jumper
JP1. Table 3.2 shows the configuration of jumper JP1.
Table 3.2: Power on configuration after hot reset (JP1)
JP1
Power on configuration after hot reset
1
Default configuration
1
Keep last status after hot reset
3.2.3 Channel-Freeze Function (JP2)
The PCIE-1756H provides the channel-freeze function for isolated digital output
channels. When Channel-Freeze function is enabled, all ports on the card will be
locked so that the data transmitted (from the host PC) to the card won’t be transferred to the DO ports. Once the Channel-Freeze function is enabled, each port status is immediately frozen into its last valid value before the Channel-Freeze. Since
the value transmitted (from the host PC) to the card is also stored in the buffers on
PC, users can call the relative function to read back the DO channel value, this function will determine that:
 If Channel-Freeze function is disabled, it will return the DO value on the port
 If Channel-Freeze function is enabled, it will return the value from the buffers on
host PC
Refer to Table 3.3 for setting dry/wet contact of Channel-Freeze function.
Table 3.3: Dry/Wet Contact of Channel-Freeze Function (JP2)
JP2
Input Mode
Dry contact input mode
Wet contact input mode (Default setting)
PCIE-1756H User Manual
16
Pin Assignment
The I/O connector on the PCIE-1756H is a 100-pin connector that enable you to connect to accessories with the PCL-10250 or PCL-101100M shielded cable.
Figure 3.2 shows the pin assignments for the 100-pin I/O connector on the PCIE1756H, and Table 3.4 shows its I/O connector signal description.
Chapter 3
3.3 Signal Connections
Signal Connections
Figure 3.2 I/O Connector Pin Assignments
Note!
The PCL-10250 shielded cable is especially designed for the PCIE1756H to reduce noise in the signal lines. Please refer to Appendix C for
the pin assignment of connecting PCL-10250 and ADAM-3951.
17
PCIE-1756H User Manual
3.3.1 I/O Connector Pin Definition
Table 3.4: I/O Connector Signal Descriptions
Pin Name
Reference
Direction
Description
IDI<00 ~ 15>
ECOM0
Input
Isolated digital input of group 0
IDI<16 ~ 31>
ECOM1
Input
Isolated digital input of group 1
IDO<00 ~ 15>
PCOM0
Output
Isolated digital output of group 0
IDO<16 ~ 31>
PCOM1
Output
Isolated digital output of group 1
ECOM0
-
Input
Common pin for IDI00~IDI15
ECOM1
-
Input
Common pin for IDI16~IDI31
PCOM0
-
Output
Common pin of IDO00~IDO15 for
inductive loads
PCOM1
-
Output
Common pin of IDO16~IDO31 for
inductive loads
IGND
-
-
Isolated ground
CH_FRZ_IN
CH_FRZ_COM
Input
Channel-Freeze function input pin
CH_FRZ_COM
-
Input
Common pin for Channel-Freeze
function input
3.3.2 Isolated Digital Input
Each of isolated digital input channels accepts bi-directional 10 ~ 30 VDC voltage
inputs. Meaning that you can apply positive or negative voltage to an isolated input
pin (VIN). Every 16 input channels share one common pin. Figure 3.3 shows how to
connect an external input source to one of the card’s isolated input channels.
Figure 3.3 Isolated Digital Input Connection
PCIE-1756H User Manual
18
Each of isolated output channels comes equipped with a MOSFET, polyswitch (for
current protection) and flywheel diode for using with inductive loads which can be
activated by connecting PCOM to VDC. If an external voltage (5 ~ 40 VDC) is applied
to an isolated output channel, the current will flow from the external voltage source to
the card. Please note that the current through each IDO channel should not exceed
500 mA.
Chapter 3
Figure 3.4 Isolated Digital Output Connection
Signal Connections
3.3.3 Isolated Digital Output
3.3.4 Channel-Freeze Function
The PCIE-1756H provides a digital input channel (CH_FRZ_IN) to enable the channel-freeze function. The channel-freeze function acts when the pin CH_FRZ_IN is
activated. Moreover, you can setup the input mode of channel-freeze function input
channel CH_FRZ_IN as dry contact input mode or wet contact input mode selected
by on-board jumper JP2. The wiring in wet contact and dry contact input mode are
shown in Figures 3.5 and 3.6.
Figure 3.5 Wiring in wet contact input mode
19
PCIE-1756H User Manual
Figure 3.6 Wiring in dry contact input mode
3.4 Field Wiring Considerations
When you use PCIE-1756H cards to acquire data from outside, noises in the environment might significantly affect the accuracy of your measurements if due cautions are
not taken. The following measures will be helpful to reduce possible interference running signal wires between signal sources and the PCIE-1756H card.
 The signal cables must be kept away from strong electromagnetic sources such
as power lines, large electric motors, circuit breakers or welding machines,
since they may cause strong electromagnetic interference. Keep the analog signal cables away from any video monitor, since it can significantly affect a data
acquisition system.
 If the cable travels through an area with significant electromagnetic interference,
you should adopt individually shielded, twisted-pair wires as the analog input
cable. This type of cable has its signal wires twisted together and shielded with
a metal mesh. The metal mesh should only be connected to one point at the signal source ground.
 Avoid running the signal cables through any conduit that might have power lines
in it.
 If you have to place your signal cable parallel to a power line that has a high
voltage or high current running through it, try to keep a safe distance between
them. Alternatively, you can place the signal cable at a right angle to the power
line to minimize the undesirable effect.
 The signals transmitted on the cable will be directly affected by the quality of the
cable. In order to ensure better signal quality, we recommend that you use the
PCL-10250 or PCL-101100M shielded cable.
PCIE-1756H User Manual
20
Appendix
A
Specifications
A
A.1 Isolated Digital Input
Number of Input Channel
32
Interrupt Inputs
32
Digital Filter inputs
32
Optical Isolation
2500 VDC
Opto-isolator Response Time
50 µs
Over-voltage Protect
70 VDC
Input Voltage
Input Current
VIH (max.)
30 VDC
VIH (min.)
10 VDC
VIL (max.)
3 VDC
10 VDC
2.97 mA (typical)
12 VDC
3.18 mA (typical)
24 VDC
6.71 mA (typical)
30 VDC
9.73 mA (typical)
A.2 Digital Filter Time
Digital Filter Time[sec.] = 2n / (8 x 10^6) n: = setting data(0 - 20)
Setting Data Digital Filter Setting Data Digital Filter
(n)
Time
(n)
Time
0 (00h)
The filter
function is not 7 (07h)
used.
16μsec
Setting Data Digital Filter
(n)
Time
14 (0Eh)
2.048msec
1 (01h)
0.25μsec
8 (08h)
32μsec
15 (0Fh)
4.096msec
2 (02h)
0.5μsec
9 (09h)
64μsec
16 (10h)
8.192msec
3 (03h)
1μsec
10 (0Ah)
128μsec
17 (11h)
16.384msec
4 (04h)
2μsec
11 (0Bh)
256μsec
18 (12h)
32.768msec
5 (05h)
4μsec
12 (0Ch)
512μsec
19 (13h)
65.536msec
6 (06h)
8μsec
13 (0Dh)
1.024msec
20 (14h)
131.072msec
A.3 Isolated Digital Output
Number of Output Channel
32
Optical Isolation
2500 VDC
Opto-isolator Response Time
50 µs
Supply Voltage
5 ~ 40 VDC
Sink Current
500 mA max/channel
PCIE-1756H User Manual
22
I/O Connector Type
100-pin SCSI-II female
Dimensions
175 mm x 100 mm (6.8” x 3.9”)
Power Consumption
PCIE-1756H
Temperature
+5 V @ 285 mA (typical)
+5 V @ 475 mA (typical)
Operation
0 ~ +60° C (32 ~ 140° F)
(refer to IEC 68-2-1,2)
Storage
-20 ~ +70° C (-4 ~ 158° F)
Relative Humidity
5 ~ 95% RH non-condensing (refer to IEC 60068-2-3)
Certification
CE Class A certified
23
PCIE-1756H User Manual
Appendix A Specifications
A.4 General
PCIE-1756H User Manual
24
Appendix
B
Block Diagrams
B
B.1 Block Diagrams
PCIE-1756H User Manual
26
Appendix
C
ADAM-3951 Pin
Assignment
C
C.1 ADAM-3951 Pin Assignment
Please refer to Figure C.1 and Figure C.2 for the pin assignments if you select
Advantech ADAM-3951 as your wiring board for connecting to PCL-10250 and PCIE1756H.
Figure C.1 Connect to PCL-10250 CON1
PCIE-1756H User Manual
28
29
PCIE-1756H User Manual
Appendix C ADAM-3951 Pin Assignment
Figure C.2 Connect to PCL-10250 CON2
www.advantech.com
Please verify specifications before quoting. This guide is intended for reference
purposes only.
All product specifications are subject to change without notice.
No part of this publication may be reproduced in any form or by any means,
electronic, photocopying, recording or otherwise, without prior written permission of the publisher.
All brand and product names are trademarks or registered trademarks of their
respective companies.
© Advantech Co., Ltd. 2017
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