16-bit multi-function card with pci bus (60 pages)
Summary of Contents for Advantech PCIE-1803
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User Manual PCIE-1803 8-ch, 24-Bit, 128 kS/s Dynamic Signal Acquisition PCI Express Card...
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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. How- ever, Advantech Co., Ltd.
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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.
Device Auto Installation (Recommended)........8 Device Setup & Configuration ..............9 Figure 2.1 The Device Setting of PCIE-1803......9 Figure 2.2 The Device Setting page .......... 10 Figure 2.3 The Device Testing of PCIE-1803 ......11 Chapter Card Settings & Connections ...13 Overview ....................
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Figure 3.12Synchronization of up to four PCIE-1803 cards by using specially designed HDMI cable ........ 22 Figure 3.13Synchronization of more than four PCIE-1803 cards by using specially designed HDMI cable....... 22 Table 3.4: Software configuration for synchronization by using specially designed HDMI cable ........ 23 Figure 3.14Synchronization of multiple PCIE-1803 cards by using...
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Chapter Introduction This chapter will provide informa- tion on the features of the PCIE- 1803 cards, a quick installation guide, together with some brief information on software and accessories. Sections include: Features Applications Installation Guide Software Overview ...
1.2.2 BoardID Switch The PCIE-1803 has a built-in DIP switch that helps define each card’s ID when multi- ple PCIE-1803 cards have been installed on the same PC chassis. The BoardID set- ting function is very useful when building a system with multiple PCIE-1803 cards.
Installation Guide Before you install your PCIE-1803 card, please make sure you have the following components: PCIE-1803 DA&C card PCIE-1803 Startup Manual Driver software Advantech DAQNavi SDK and drivers (Downloaded from Advantech website) Wiring cables PCL-108BC-50E (optional)
Labview For instructions on how to begin programming works in each development tool, Advantech offers a Tutorial Chapter in the DAQNavi SDK Manual for your reference. Refer to the corresponding sections in this chapter on the DAQNavi SDK Manual to begin your programming efforts.
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, Delphi and C++ Builder.
2.2.1 Device Auto Installation (Recommended) You can install the PCIE-1803 in any PCI Express slot on your computer. Follow the steps below to install the module on your system. Turn off your computer and unplug the power cord and cables. TURN OFF your computer before installing or removing any components on the computer.
APIs of Advantech Device Drivers. Setting Up the Device To set up the I/O device for your card, you must first run the Advantech Naviga- tor program (by accessing Start/Programs/Advantech Automation/DAQNavi/ Advantech Navigator).
Configuring the Device Go to the Device Setting to configure your device. Here you can configure not only the Analog Input of PCIE-1803 but also Digital Input/Output. Figure 2.2 The Device Setting page PCIE-1803 User Manual...
After your card is properly installed and configured, you can go to the Device Test page to test your hardware by using the testing utility supplied. Figure 2.3 The Device Testing of PCIE-1803 For more detailed information, refer to the DAQNavi SDK Manual or the User Inter- face Manual in the Advantech Navigator.
Chapter Card Settings & Connections This chapter provides useful information about how to connect input and output signals to the PCIE-1803 cards via the I/O con- nectors and configure appropriate settings according the require- ments. Sections include: Overview Switch & Jumper Settings ...
Switch & Jumper Settings Setting the BoardID Switch (SW1) The PCIE-1803 has a built-in DIP switch (SW1), which is used to define each card's board ID. You can determine the board ID as shown in Table 3.1. When there are multiple cards in the same system, this board ID setting function is useful for identify- ing each card.
3.3.2 IEPE Excitation The PCIE-1803 is equipped with a 2 mA constant current source of IEPE excitation for each analog input channel. When an IEPE sensor such as accelerometer or microphone is connected to the analog input terminals, the IEPE excitation for that channel must be enabled.
Signal Connections Pin Assignment The I/O connector on the PCIE-1803 are a 36-pin and 19-pin connectors that allows you to connect to sensors/signals through the PCL-108BNC mini SCSI and PCL- 10119 HDMI cable. Figure 3.2 and Figure 3.3 show the pin assignments for the 36- pin and 19-pin I/O connector separately, and Section 3.4.1 shows its I/O connector...
The pseudo-differential configuration provides a ground reference between the floating source and the PCIE-1803 by connecting a 50 Ω resistor from the nega- tive input to ground. This is shown in Figure 3.4. Without this, the floating source can drift outside of the input common-mode range of the PCIE-1803.
3.4.3 Digital Input/Output Connections PCIE-1803 provides 2 Channels DO and 1 channel DI. 3.4.3.1 Digital Input Channel Connections Figure 3.6 Digital Input Channel Connections 3.4.3.2 Digital Output Channel Connections Figure 3.7 Digital Output Channel Connections PCIE-1803 User Manual...
3.4.4.1 Digital Trigger Connections You can configure the PCIE-1803 to trigger in response to digital signals on DTRG0 or DTRG1 pin of the HDMI connector, located on the device front panel. The trigger circuit can respond either to a rising or a falling edge. The trigger signal must comply to 3.3 V or 5 V TTL voltage levels.
3.4.4.2 Analog Trigger You can configure the PCIE-1803 analog trigger circuitry to monitor any input chan- nel from which you acquire data. Choosing an input channel as the trigger channel does not influence the input channel acquisition capabilities. The trigger circuit generates an internal digital trigger based on the input signal and the defined trigger levels.
3.4.5.1 Synchronize Over HDMI Up to four PCIE-1803 cards can be synchronized by using one specially designed HDMI cable. If more than four cards need to be synchronized, multiple cables must be used.
To use MDSI cable for synchronization, connect cables as shown in Figure 3.14. The MDSI IN is CN3 and MDSI OUT is CN4 on board respectively. Figure 3.14 Synchronization of multiple PCIE-1803 cards by using MDSI cable "Convert Clock Source" and "Trigger Source" configurations for the master can be selected as required.
Field Wiring Considerations When you use PCIE-1803 cards to acquire data from outside, noises in the environ- ment might significantly affect the accuracy of your measurements if due cautions are not taken. The following measures will be helpful to reduce possible interference run- ning signal wires between signal sources and the PCIE-1803 card.
Pseudo-differential ±19 V ±9 V Disabled DC Differential ±12 V ±12 V Disabled DC Pseudo-differential ±12 V ±9 V Enabled AC Pseudo-differential 0 ~ +24 V 0 ~ +1 V * Voltages with respect to chassis ground. PCIE-1803 User Manual...
Over full operating temperature range < ±0.5 mV A.1.7 Input Impedance Input Between Positive Terminal (+) Between Negative Terminal (-) Configuration and Chassis Ground and Chassis Ground Differential 200 kΩ 200 kΩ Pseudo-differential 200 kΩ 50 Ω PCIE-1803 User Manual...
Input Range fs = 32 kS/s fs = 64 kS/s fs = 128 kS/s ±10.0 V ±5.0 V ±2.0 V ±1.0 V * 1 kHz input tone, input amplitude is -1 dBFS. ** Measurement includes all harmonics. PCIE-1803 User Manual...
* 1 kHz input tone, input amplitude is -1 dBFS. A.1.17Crosstalk Crosstalk (dBc)* Input Range 32 kS/s 128 kS/s fin = 1 kHz fin = 46.4 kHz ±10.0 V ±5.0 V ±2.0 V ±1.0 V * Input amplitude is -1 dBFS. PCIE-1803 User Manual...
Start trigger/delay to start trigger/stop trigger/delay to stop Trigger function trigger A.2.1 Analog Trigger Source Any analog input channel Threshold level Full scale of analog input range, software programmable Resolution 24 bits Hysteresis Software programmable Polarity Rising edge/falling edge, software selectable PCIE-1803 User Manual...
0.8 V max. Maximum input voltage 6.5 V Minimum input voltage -0.5 V Propagation delay 10 ns Edge detection Rising edge, falling edge, or both edges Digital filter 0.5 μs ~ 262 ms Data transfers Programmed I/O PCIE-1803 User Manual...
Operating 0 to 70 °C (32 to 158 °F) temperature Storage temperature -40 to 80 °C (-40 to 176 °F) Operating humidity 10 to 90% RH, non-condensing Storage humidity 5 to 95% RH, non-condensing Indoor use only. PCIE-1803 User Manual...