User Manual PCIE-1802
Contents
1. PCIE 1802 User Manual 14 3 2 2 Keep Last Status After Hot Reset CN3901 If Keep last status after hot reset is selected the status of DOs will be kept after hot reset On the other hand if Default configuration is selected the status of DOs will be reset to the default values low Table 3 2 Jumper Settings Name of Jumpers Function Description Keep last status after hot reset CN3901 Default configuration default 3 3 Signal Connections Pin Assignment The I O connector on the PCIE 1802 are a 36 pin and 19 pin connectors that enable you to connect to accessories with the PCL 108BNC mini SCSI and PCL 10119 HDMI cable Figure 3 1 and Figure 3 2 show the pin assignments for the 36 pin and 19 pin I O connector separately and Table 3 1 shows its I O connector signal description AGND 36 18 AGND AIO 135 17 AlO AGND 34 16 AGND AI1 133 15 All AGND 132 14 AGND Al2 31 13 Al2 AGND 30 12 AGND AI3 29111 Al3 AGND 28 10 AGND AGND 1271 9 AGND Al4 26 8 Al4 AGND 25 7 AGND AIS 24 6 AIS AGND 23 5 AGND Al6 122 4 AI6 AGND 121 3 AGND AI7 120 2 Al7 AGND 119 1 AGND Figure 3 1 36 pin I O Connector Pin Assignments 15 PCIE 1802 User Manual DGND REF_CLK_OUT DGND DGND TRIGOUTO TRIGOUT1 DO1 SYNC OUT RESERVED REF CLK IN DGND DGND DTRGO DTRG1 DGND Doo SYNC_IN DGND DIO Figure 3 2 19 pin I O Connector2. 95 95 95 1 KHz input tone input amplitude is 1 dBFS A 7 9 Total Harmonic Distortion Plus Noise THD N Total Harmonic Distortion Plus Noise dB Input Range fs 54 kS s fs 108 kS s fs 216 kS s 10 0 V 98 98 ni 5 0 V 99 99 SB 2 0V 98 98 1 0V 96 96 294 0 5 V 93 91 SI 0 2 V 86 84 De A 7 10Crosstalk 1 kHz input tone input amplitude is 1 dBFS Crosstalk for Adjacent Non adjacent Channels dBc Input Range 54 kS s fin 1 kHz 216 kS s fin 92 2 kHz 10 0V 139 158 128 137 5 0 V 149 157 109 132 2 0 V 149 155 110 133 1 0 V 144 154 113 136 0 5 V 144 152 118 135 0 2 V 143 144 124 135 Input amplitude is 1 dBFS Using the Mini SCSI 36 pin to 8 BNC cable assembly PCIE 1802 User Manual 32 A 7 11 Inter channel Gain Mismatch AC DC Coupled Mismatch dB Input Range fin 10 Hz fin 100 Hz fin 20 kHz fin 92 2 kHz 10 0 V lt 0 005 lt 0 005 lt 0 005 lt 0 005 5 0 V lt 0 005 lt 0 005 lt 0 005 lt 0 005 2 0 V lt 0 005 lt 0 005 lt 0 005 lt 0 005 1 0 V lt 0 005 lt 0 005 lt 0 005 lt 0 005 0 5 V lt 0 005 lt 0 005 lt 0 005 lt 0 005 0 2 V lt 0 02 lt 0 01 lt 0 01 lt 0 02 Identical channel configurations Operating temperature within 5 C of last auto calibration temperature
3. A 7 12Inter channel Phase Mismatch A 8 A 9 AC DC Coupled Mismatch Input Range fin 10 Hz fin 100 Hz fin 20 kHz fin 92 2 kHz 10 0 V lt 0 01 lt 0 005 lt 0 01 lt 0 04 15 0 V lt 0 01 lt 0 005 lt 0 02 lt 0 06 2 0 V lt 0 01 lt 0 005 lt 0 02 lt 0 06 1 0 V lt 0 01 lt 0 005 lt 0 02 lt 0 08 0 5 V lt 0 01 lt 0 005 lt 0 02 lt 0 08 0 2 V lt 0 01 lt 0 005 lt 0 03 lt 0 11 Identical channel configurations Operating temperature within 5 C of last auto calibration temperature Integrated Electronic Piezoelectric Excitation IEPE Current 0 4 or 10 mA 5 each channel independently software selectable Compliance 24 V min M Channel input impedance with IEPE enabled 200 kO 1 kHz pseudo dif ferential Reference Clock Characteristics m Using external reference clock 25 MHz Accuracy Equal to accuracy of external reference clock M Using internal reference clock Accuracy 20 ppm over operating temperature range in first year Aging 3 ppm year 33 PCIE 1802 User Manual A 10 Triggers m Analog trigger input Type Start delay to start stop or delay to stop trigger Source Any analog input channel Level Full scale programmable Slope Positive rising or negative falling software selectable Resolution 24 bits Hysteresis Programmable D
4. gt 54 kS s fs 2 108 kS s fs 2 216 kS s q y 20 Hz lt fin lt 20 kHz 20 kHz lt fin lt 45 kHz 45 kHz lt fin lt 92 2 kHz Flatness dB 0 004 0 006 0 008 Relative to 1 kHz DC Coupled Measurement Accuracy m Gain error Operating temperature within 5 C of last auto calibration temperature lt 0 2 Over full operating temperature range lt 0 4 Offset error Operating temperature within 5 C of last auto calibration temperature lt 0 5 mV Over full operating temperature range lt 1 mV Note For the best measurement accuracy it is recommended warming up the E PCIE 1802 for 15 minutes before starting data acquisition Amplifier Characteristics Input Impedance Input Configuration Between Positive Terminal Between Negative Terminal and Chassis Ground and Chassis Ground Differential 1 MQ 1 MQ Pseudo differential 1 MQ 50 Q PCIE 1802 User Manual 26 A 6 2 Common Mode Rejection Ratio CMRR A 7 A 7 1 E Input frequency lt 20 kHz 80 dB Dynamic Characteristics Bandwidth Sample Rate fs lt 25 6 kS s fs 2 25 6 kS s Alias rejection gt 90 dB gt 90 dB 3 dB bandwidth 0 4805 x fs 0 4852 x fs fs Sample frequency For example the 3 dB bandwidth of 10 kS s sample frequency is 0 4805 x 10 kHz 4 805 kHz 27 PCIE 1802 User Manual A 7 2 AC Coupling m 3 dB cutoff frequency 0 727 Hz 0 1 dB cutoff frequency 4 727 Hz 0
5. BID 12 DI Interrupt Location PCI EH 2 amp E 0 KRD IE PCI 1733 BID 15 DO Port Initial Status Base Addresses 0xFE519000 0xFE518000 0xFE510000 0xFES00000 JE PCI 1734 BID 15 Update Firmware Interrupt 0x12 Conversion JE PCI 1750 BID 0 Initialize device at driver loading Yes ONo IE PCI 1737U BID 0 JE PCIE 1816H BID 10 IE PCI 1742U BID 12 X PCIE 1802 BID 5 X PCIE 1802 BID 10 IE PCI 1737U BID 3 X PCIE 1802 BID 1 X PCIE 1802 BID 15 IE PCI 1751 BID 0 X PCIE 1840 BID 15 JE PCI 1784 BID 15 X Supported Devices i SDKs CA DAQNavi User Interface Welcome to Advante I video Tutorial 2 X Tools Update Device Update System Database K Multimeter K Updater Customer Feedback Figure 2 1 The Device Setting of PCIE 1802 9 PCIE 1802 User Manual Configuring the Device Go to the Device Setting to configure your device Here you can configure not only the Analog Input of PCIE 1802 but also Digital Input Output Advantech Navigator Version 3 2 DAQNavi Contents Welcome DAQNavi Devices X Installed Devices X DemoDevice BID 0 M PCI 1733 BID 5 amp W PCI 1734 BID 0 X PCIE 1802 BID 3 Device Setting X Device Test HX Scenarios 3 Reference JE PCI 1750 BID 0 IE PCI 1756 BID 12 IE PCI 1733 BID 15 amp IE PCI 1734 BID 15 IE PCI 1750 BID 0 amp IE PCI 1737U BID 0 IE PCIE 1816H BID 10 amp IE PCI 1742U BID 12 X
6. Bus Interface m Form factor x1 PCI Express specification v1 1 compliant m Slot compatibility x1 x4 x8 and x16 PCI Express slots H DMA channel 1 analog input Power Requirements m Typical 3 3 V 400 mA 12 V 850 mA Physical Printed circuits board dimensions 9 9 x 16 8 cm 3 9 x 6 6 in E I O connector 1 x 36 pin VHDCI mini SCSI and 1 x HDMI Environmental M Operating temperature 0 to 60 C M Storage temperature 40 to 70 C M Operating humidity 10 to 90 RH non condensing BH Storage humidity 5 to 95 RH non condensing Indoor use only Input Characteristics E Number of simultaneously sampled input channels 8 can be enabled dis abled each channel independently by software Input configuration Differential Pseudo differential 50 Q between negative input and chassis ground software selectable per channel Input coupling AC DC software selectable per channel A D converter ADC resolution 24 bits A D converter ADC type Delta sigma Sample rates fs Range 100 S s to 216 kS s Resolution 90 95 uS s 100 S s to 54 kS s 181 90 uS s 54 kS s to 108 kS s 363 80 uS s 108 kS s to 216 kS s m FIFO buffer size 4 096 samples Data transfers Direct memory access DMA PCIE 1802 User Manual 24 A 2 1 A 2 2 A 2 3 Maximum Operating Voltage IEPE Input Input Positive Terminal Negative Terminal Coupling Configuration Disabled AC Differenti
7. Pin Assignments 3 3 1 I O Connector Signal Description Signal Name Reference Direction Description AI lt 0 7 gt AGND Input Analog positive input channels 0 through 7 Al lt 0 7 gt AGND Input Analog negative input channels 0 through 7 AGND Analog ground REF_CLK_IN DGND Input 25 MHZ reference clock input REF_CLK_OUT DGND Output 25 MHz reference clock output DTRG lt 0 1 gt DGND Input Digital trigger inputs TRIGOUT lt 0 1 gt DGND Output Trigger outputs SYNC_IN DGND Input Synchronization input SYNC_OUT DGND Output Synchronization output DIO DGND Input Digital input channel DO lt 0 1 gt DGND Output Digital output channels DGND Digital ground PCIE 1802 User Manual 16 3 3 2 Analog Input Connections 3 3 2 1 Differential Inputs The PCIE 1802 supports two terminal configurations for analog input differential and pseudo differential The term pseudo differential refers to the 50 resistance between the outer connector shell and chassis ground If the signal source is floating use the pseudo differential configuration The pseudo differential configuration provides a ground reference between the floating source and the PCIE 1802 by connecting a 50 Q resistor from the negative input to ground Without this the floating source can drift outside of the input common mode range of the PCIE 1802 If the signal source is grounded or ground referenced both the pseudo
8. differential and differential input configurations are acceptable However the differential input configuration is preferred since using the pseudo differential input configuration on a grounded signal source creates more than one ground reference point This condi tion may allow ground loop current which can introduce errors or noise into the mea surement The 50 Q resistor between the negative input and ground is usually sufficient to reduce these errors to negligible levels but results can vary depending on your system setup Configure the channels based on the signal source reference or DUT configuration Refer to Table 1 1 to determine how to configure the channel The default configuration of the PCIE 1802 is differential Table 3 3 Recommended Analog input Channel Configuration Source Reference Channel Configuration Floating Pseudo differential Grounded Differential External Internal Signal Source Figure 3 3 Al Differential Input Signal Connection 17 PCIE 1802 User Manual 3 3 2 2 3 3 2 3 Pseudo Differential Inputs A pseudo differential input is much like a differential input in that it provides common mode voltage rejection unlike single ended inputs However pseudo differential inputs are all referred but not directly tied to a common ground This connection is typically made by a relatively low value resistor to give some isolation between the sensor signal ground and the measurement device
9. ground DSA measurement devices have a 50 Q resistance between the negative signal connector the outer shell of a BNC and the device ground A diagram showing the pseudo differential input configuration of the PCIE 1802 is shown below with a floating source Internal External Signal Source Figure 3 4 Al Pseudo Differential Input Signal Connection IEPE for Input For applications that require sensors such as microphones or accelerometers the PCIE 1802 provides an excitation current source to excite IEPE sensors A DC volt age offset is generated due to the excitation current and sensor impedance When IEPE current sources are enabled the PCIE 1802 automatically sets input configura tion to AC coupling and pseudo differential Internal External LE Sensor Figure 3 5 AI IEPE Sensor Input Signal Connection PCIE 1802 User Manual 18 3 3 3 Digital Input Output Connections PCIE 1802 provides 2 Channels DO and 1 channel DI 3 3 3 1 Digital Input Channel Connections Internal External Signal Source Figure 3 6 Digital Input Channel Connections 3 3 3 2 Digital Output Channel Connections Internal External Load Figure 3 7 Digital Output Channel Connections 19 PCIE 1802 User Manual 3 3 4 3 3 4 1 Trigger Type The PCIE 1802 supports two types of triggers start triggers and stop triggers The returned data consists of samples acquired between a start trigger and a stop trigger That
10. is only data acquired after the start trigger occurred and before the stop trigger occurred are returned Both start triggers and stop triggers can be delayed When the delay number is applied to a trigger the trigger is effective only when the number of samples has reached after the trigger occurs For example if delay number of 5 is applied to the start trigger the returned data will consist of samples acquired after the start trigger occurred except the first 5 samples If delay number of 3 is applied to the stop trigger the returned data will consist of samples acquired before the stop trigger occurred plus 3 samples acquired after the stop trigger Both triggers can be configured independently and can be set to use a variety of sources both analog and digital Triggers can be configured to occur on either the rising or falling edge of a signal Moreover analog triggers support other modes of operation including triggering on edges with hysteresis and triggering when a signal enters or leaves a predefined window Since all three types of triggers are configured independently alternate edges of a signal can be used for different types of triggers During repetitive triggering on a waveform you might observe jitter because of the uncertainty of where a trigger level falls compared to the actual digitized data Although this trigger jitter is never greater than one sample period it might be signifi cant when the sample rate is only twic
11. test device Read examples amp manual Start to write your own application Figure 1 1 Installation Flow Chart Software Overview Advantech offers a rich set of APIs third party driver supports and application soft ware to help fully utilize the functions of your PCIE 1802 cards MH Device Drivers on the companion DVD ROM E DAQNavi SDK 3 PCIE 1802 User Manual 1 5 1 1 6 1 6 1 Device Drivers Advantech Device Driver software is included on the companion CD ROM It also comes with all Advantech DA amp C cards Advantech s device drivers feature a com plete I O function library to help boost your application performance The Advantech Device Drivers for Windows 2000 XP Vista or Windows 7 works seamlessly with development tools such as Visual C Visual C Visual Basic NET Borland C Builder and Borland Delphi DAQNavi Device Driver Programming Roadmap This section will provide you with a roadmap to demonstrate how to build an applica tion from scratch using Advantech DAQNavi Device Driver with your favorite devel opment tools such as Visual Studio Net Visual C Visual Basic Delphi and C Builder The step by step instructions on how to build your own applications using each development tool will be given in the Device Drivers Manual Moreover a rich set of example source code is also given for your reference Programming Tools Programmers can develop application programs with their favorite dev
12. 00 10 00 T 2 E 7 o 20 00 30 00 T EE T TT T T PT Tr TATT 0 010 0 100 1 000 10 000 100 000 Frequency Hz Figure A 1 Magnitude response of AC coupling circuit 75 00 q 60 00 i Oo 4 2 45 004 i a 4 30 001 1 15 00 q 0 00 T de Shan T TTT T EE L T TTT 0 010 0 100 1 000 10 000 100 000 Frequency Hz Figure A 2 Phase response of AC coupling circuit PCIE 1802 User Manual 28 A 7 3 Idle Channel Noise 54 kS s 108 kS s 216 kS s Input Range LSBrms pVrms LSBrms pVrms LSBrms pVrms 10 0 V 6 59 7 86 9 50 11 32 60 80 72 48 5 0 V 6 87 4 09 9 85 5 87 60 75 36 21 2 0 V 7 84 1 87 11 31 2 70 60 83 14 50 1 0 V 9 92 1 18 14 36 1 71 63 22 7 54 0 5 V 14 49 0 86 21 13 1 26 66 13 3 94 0 2V 30 47 0 73 42 85 1 02 85 09 2 03 A 7 4 Representative Measurement FFTs Test conditions for all FFTs 10 RMS averages of 65 536 samples using a 7 term Blackman Harris window at 10 V input range Source Krohn Hite 4402B ER SE EEE EE EP ER RER EEE EI Re A E ON RER E RS EEE ERE I IT I IO it C FRASER EE P S enr ennnnnenene eee n nee n een neneeeennennnnnne eee eee A E A Amplitude dBFS ET ES SR 470 N N I N N N 0 Frequency kHz Figure A 3 FFT of 1 dBFS 1 kHz Tone Acquired at 54 kS s 29 PCIE 1802 User Manual Amplitude dBFS Frequency kHz Figure A 4 FFT of 1 dBFS 1
13. 7 3 Idle Channel NoiSe iii iaia 29 A 7 4 Representative Measurement FFTS nennen 29 Figure A 3 FFT of 1 dBFS 1 kHz Tone Acquired at 54 kS s 29 Figure A 4 FFT of 1 dBFS 1 kHz Tone Acquired at 108 kS s 30 Figure A 5 FFT of 1 dBFS 1 kHz Tone Acquired at 216 kS s 30 A 7 5 Dynamic Range DR 31 A 7 6 Spurious Free Dynamic Range SFDR nn 31 A 7 7 Signal to Noise Ratio SNR nenn nnnnnnen nn 31 A 7 8 Total Harmonic Distortion THD 2244u22 nennen 32 A 7 9 Total Harmonic Distortion Plus Noise THD N 32 AL VO Crosstalk zz destine mie anale 32 A 7 11 Inter channel Gain Mismatch 33 A 7 12 Inter channel Phase Mismatch 444 snnnnnnne nen 33 Integrated Electronic Piezoelectric Excitation IEPE 33 Reference Clock Characteristics 33 Lil el cipria roi ii rodi ai SUPER 34 Digital VO cummins Meet ann ain 34 Synchronization Input amp Output 34 Block Diagram OO Function Block Diagrams sus s det u a 36 Figure B 1 Function block diagram overview 36 Figure B 2 Function block diagram analog input 36 vi Introduction This chapter will provide informa tion on the features of the PCIE 1802 cards a quick installation guide
14. BID 5 WS PCI 1734 BID 0 X PCIE 1802 BID 3 Fa Device Setting K Device Test K Scenarios X Reference IE PCI 1750 BID 0 IE PCI 1756 BID 12 IE PCI 1733 BID 15 IE PCI 1734 BID 15 IE PCI 1750 BID 0 IE PCI 1737U BID 0 IE PCIE 1816H BID 10 JE PCI 1742U BID 12 X PCIE 1802 BID 5 X PCIE 1802 BID 10 IE PCI 1737U BID 3 X PCIE 1802 BID 1 X PCIE 1802 BID 15 IE PCI 1751 BID 0 X PCIE 1840 BID 15 HE PCI 1784 BID 15 3 X Supported Devices fa SDKs E E Device Test DeviceTest of PCIE 1802 BID 3 Analog Input Digital Input Digital Output Analog Output Counter v Channel g 10 5V 2V 1V v Channel 1 10V 5V 2V 1V Channel 2 DAQNavi User Interface Welcome to Advante I video Tutorial X Tools K Multimeter K Updater Customer Feedback Sampling rate per channel Extension Use Instant Al lt gt Ext DigOlk Use Buffered Al 100Hz 100 Hz 216000H2 Ext AnaClk Status Stopped Overnun Count Dats Ready Count 0 Overflow Count Figure 2 3 The Device Testing of PCIE 1802 For more detailed information refer to the DAQNavi SDK Manual or the User Inter face Manual in the Advantech Navigator 11 PCIE 1802 User Manual PCIE 1802 User Manual 12 Signal Connections This chapter provides useful information about how to connect input and output signals to the PCIE 1802 cards via the I O con
15. PCIE 1802 BID 5 X PCIE 1802 BID 10 IE PCI 1737U BID 3 X PCIE 1802 BID 1 X PCIE 1802 BID 15 IE PCI 1751 BID 0 X PCIE 1840 BID 15 amp HE PCI 1784 BID 15 amp a Supported Devices x SDKs E DAQNavi User Interface E Welcome to Advante E video Tutorial 3 Tools Ca Multimeter K Updater EJ Customer Feedback PCIE 1802 User Manual Device Setting Setting of PCIE 1802 BID 3 Device a AI Channel Conversion TriggerO Trigger1 Special Configuration Analog Input Calibration amp Digital Input Output DI Filter DI Interrupt DO Port Initial Status Update Firmware Update Device Channel Configuration Logical Channel Count 8 cH Connection Type Differential Differential Differential Differential Differential Differential Differential Differential Value Range 10 10 Connection Type Differential Value Range Type 10V Coupling DC IEPE None To All Channels To All Channels To All Channels To All Channels Update System Database Figure 2 2 The Device Setting page 10 DER AD ANTECH 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 Advantech Navigator Version 3 2 DAQNavi Contents X Welcome SM DAQNavi x Devices 3 Installed Devices X DemoDevice BID 0 WS PCI 1733
16. User Manual PCIE 1802 8 ch 24 Bit 216 kS s Dynamic Signal Acquisition PCI Express Card AD ANTECH Enabling an Intelligent Planet Copyright The documentation and the software included with this product are copyrighted 2015 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 How ever Advantech Co Ltd assumes no responsibility for its use nor for any infringe ments 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 pur chase 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 installa
17. al 24 V 24 V Disabled AC Pseudo differential 24 V 10 V Disabled DC Differential 10 V 10 V Disabled DC Pseudo differential 10 V 10 V Enabled AC Pseudo differential 0 24 V 0 1V Enabled DC Pseudo differential 0 10 V 0 1V Voltages with respect to chassis ground Note Input configuration must be pseudo differential when IEPE is enabled Input Overvoltage Protection Input Configuration Positive Terminal Negative Terminal Differential 124 V 24 V Pseudo differential 124 V 12 V Voltages with respect to chassis ground Input Signal Range Gain Full Scale Range 0 28 10 0 V 0 56 5 0 V 1 4 2 0 V 2 8 1 0 V 5 6 0 5 V 14 0 2 V Each input channel gain is independently software selectable Voltages on the positive terminal with respect to the negative terminal 25 PCIE 1802 User Manual A3 A4 A 5 A 6 A 6 1 AC Coupled Measurement Accuracy Gain error fin 1 kHz Operating temperature within 5 C of last auto calibration temperature lt 0 6 Over full operating temperature range lt 1 0 Offset error Operating temperature within 5 C of last auto calibration temperature lt 1 0 mV Over full operating temperature range lt 1 5 mV Note For the best measurement accuracy it is recommended warming up the E PCIE 1802 for 15 minutes before starting data acquisition Flatness Freeney Band fs
18. cket of the PCI card on the back panel rail of the computer with screws 7 Plugin the power cord and turn on the computer E Device Setup 8 Configuration The Advantech Navigator program is a utility that allows you to set up configure and test your device and later stores your settings on the system registry These settings will be used when you call the APIs of Advantech Device Drivers Setting Up the Device 1 To install 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 2 You can then view the device s already installed on your system if any on the Installed Devices list box If the software and hardware installation are com pleted you will see PCIE 1802 card in the Installed Devices list gt lt Advantech Navigator Version 3 2 DAQNavi Contents Device Setting AD ANTECH Welcome Setting of PCIE 1802 BID 3 DAQNavi F Devices I X Installed Devices Device Number 23 HX DemoDevice BID 0 ae Name PCIE 1802 anne PCI 1733 BID 5 Description PCIE 1802 BID43 ME PCI 1734 BID 0 r 1002 pines Trigger Product Id 0x818 X Device Setting Trigger1 Board Id 0x3 IX Device Test Special Configuration Driver Version 3 1 0 12 z x Sc i Analog Input Calibration enarios ara Dil Version 3 1 0 18 X Reference Digital Input Output i IE PCI 1750 BID 0 DI Filter Hoard Neo 1 0 0 1 IE PCI 1756
19. e the bandwidth of interest This jitter usually has no effect on data processing and you can decrease this jitter by sampling at a higher rate Digital Trigger Connections You can configure the PCIE 1802 to trigger in response to digital signals on DTRGO 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 A diagram showing the DRTG input configuration of the PCIE 1802 is shown below with a signal source Internal External Signal Source Figure 3 8 Digital Trigger Signal Connection PCIE 1802 User Manual 20 3 3 4 2 Analog Trigger You can configure the PCIE 1802 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 For example you can configure the device to start acquir ing samples after the input signal crosses a specific threshold PCIE 1802 offers sev eral analog triggering modes including analog edge analog edge with hysteresis and window triggering Analog trigger connections are the same as Analog Input Connections please refer to differential input Figure 3 3 or pseudo differential input Figure 3 4 Analo
20. elopment tools m Visual Studio Net m Visual C and Visual Basic m Delphi m C Builder 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 You can also look at the example source code pro vided 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 Device Drivers 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 codes can be found under the corresponding installation folder such as the default installation path C Advantech DAQNavi Examples For information about using other function groups or other evelopment tools please refer to the Using DAQNavi SDK chapter in the DAQNavi SDK Manual or the video tutorials in the Advantech Navigator PCIE 1802 User Manual 4 1 6 2 1 6 3 1 7 1 7 1 1 7 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 to
21. ference run ning signal wires between signal sources and the PCIE 1802 card M 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 sig nal cables away from any video monitor since it can significantly affect a data acquisition system M Ifthe 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 sig nal source ground Avoid running the signal cables through any conduit that might have power lines in it M Ifyou 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 M 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 108BC 50E shielded cable PCIE 1802 User Manual 22 Appendix A Specifications A 1 A 1 1 A 1 2 A 1 3 A 1 4 A2 General Specifications
22. fore you install the PCIE 1802 card into your system since this will guarantee a smooth installation process The Advantech DAQNavi Device Drivers Setup program for the PCIE 1802 card is included in the companion DVD ROM that is shipped with your DA amp C card package Please follow the steps below to install the driver software 1 Insert the companion DVD ROM into your DVD ROM drive 2 The Setup program will be launched automatically if you have the auto play function enabled on your system When the Setup Program is launched you can follow the installation guide to correctly install the driver step by step PCIE 1802 User Manual 8 2 2 1 Device Auto Installation Recommended 2 3 You can install the PCIE 1802 module in any PCI Express slot on your computer Fol low the steps below to install the module on 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 the computer 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 1802 card into a PCI Express 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 bra
23. g Input Channel 4 Analog Input Channel 5 Analog Input Channel 6 Analog Input Channel 7 Power Reference Clock Input Controllers Reference Clock Output Figure B 1 Function block diagram overview FPGA Analog Input Channel 7 Analog Input Channel 6 Analog Input Channel 5 Analog Input Channel 4 Analog Input Channel 3 Analog Input Channel 2 Analog Input Channel 1 To PCI Express Bus Mini SCSI Analog Input Channel 0 Connector eni D Analog Input Range Select Low Pass Filter O Figure B 2 Function block diagram analog input PCIE 1802 User Manual 36 37 PCIE 1802 User Manual AD ANTECH Enabling an Intelligent Planet 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 permis sion of the publisher All brand and product names are trademarks or registered trademarks of their respective companies O Advantech Co Ltd 2015
24. g Trigger Rising Edge For rising edge trigger 10 V input range 2 V trigger level 0 1 trigger hysteresis equivalent to 20 V x 0 1 0 02 V Trigger Trigger y y Hysteresis Zone SAFE oo I i 1 98 V 7 4 4 7 I Trigger Logic Level Figure 3 9 Analog Trigger Rising Edge Analog Trigger Falling Edge For falling edge trigger 10 V input range 2 V trigger level 0 1 trigger hysteresis equivalent to 20 V x 0 1 0 02 V Trigger Trigger Trigger Logic Level Figure 3 10 Analog Trigger Falling Edge 21 PCIE 1802 User Manual 3 3 5 Multiple Cards Synchronization Signal Connection The below figure shows how to synchronize multiple PCIE 1802 cards The synchro nization is done through the reference clock and synchronization signal lines The boards in both master and slave share the same clock sync pulse and a start trig ger I External Internal I REF CLKJIN REF CLK OUT O SYNC_IN SYNC_OUT PCIE 1802 Master PCIE 1802 Slave REF_CLK_IN O REF_CLK_OUT SYNC_IN SYNC OUT I DTRG O TRGOUT Figure 3 11 Multiple Cards Synchronization Signal Connection 3 4 Field Wiring Considerations When you use PCIE 1802 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 inter
25. igital trigger input Type Start delay to start stop or delay to stop trigger Source 2 external digital trigger inputs Compatibility 3 3 V CMOS 5 V compatible Low 0 8 V max High 2 0 V min Pull down resistor 50 kQ Polarity Rising or falling edge software selectable Minimum pulse width 20 ns Digital trigger output Number of digital trigger output 2 Source Analog trigger input digital trigger input or software trigger Compatibility 3 3 V CMOS Low 0 6 V max High 2 3 V min A 11 Digital I O Digital Input Number of digital input 1 Number of Interrupt 1 Compatibility 3 3 V CMOS Low 0 6 V max High 2 3 V min Pull down resistor 50 kQ Digital Output Number of digital output 2 Compatibility 3 3 V CMOS Low 0 6 V max High 2 3 V min A 12 Synchronization Input amp Output M Synchronization Input Compatibility 3 3 V CMOS 5 V compatible Pull down resistor 50 kQ M Synchronization Output Compatibility 3 3 V CMOS Low 0 6 V max High 2 3 V min PCIE 1802 User Manual 34 Appendix B Block Diagram B 1 Function Block Diagrams Mini SCSI Connector Synchronization Input Synchronization Output Digital Trigger Input O 1 NT PCI Express Bus Trigger Output 0 1 I Digital Input 0 Digital Output 0 1 Analog Input Channel 0 Analog Input Channel 1 Analog Input Channel 2 Analog Input Channel 3 Analo
26. iguration cnica non nc cn nannnnnnnnns 9 Figure 2 1 The Device Setting of PCIE 1802 9 Figure 2 2 The Device Setting page 10 Figure 2 3 The Device Testing of PCIE 1802 11 Signal Connections 19 OVervieW cicala iaia 14 Jumper settings vu 2 322 res cr 14 3 2 1 Setting the BoardID Switch SW3900 14 Table 3 1 Board ID Settings no 14 3 2 2 Keep Last Status After Hot Reset CN3901 15 Table 3 2 Jumper Settings 15 Signal COMECIONS ccoo tir kn 15 Figure 3 1 36 pin I O Connector Pin Assignments 15 Figure 3 2 19 pin I O Connector Pin Assignments 16 3 3 1 I O Connector Signal Description 16 3 3 2 Analog Input Connections 17 Table 3 3 Recommended Analog input Channel Configuration 17 Figure 3 3 Al Differential Input Signal Connection 17 Figure 3 4 Al Pseudo Differential Input Signal Connection 18 Figure 3 5 Al IEPE Sensor Input Signal Connection 18 3 3 3 Digital Input Output Connections 19 Figure 3 6 Digital Input Channel Connections 19 Figure 3 7 Digital Output Channel Connections 19 3 34 Trigger Type Annine Gunma rentre le hi ati 20 Figure 3 8 Digital Trigger Signal Connection 20 Figure 3 9 A
27. it prepaid to your dealer Part No 2003180200 Edition 1 Printed in Taiwan October 2015 PCIE 1802 User Manual 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 Technical Support and Assistance 1 Visit the Advantech web site at http support advantech com where you can find the latest information about the product 2 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 m PCIE 1802 DA amp C card M Startup or User Manual E Companion DVD ROM with DAQNavi drivers included Safety Precaution Static Electricity Follow these simple precautions to protect yourself from harm and
28. kHz Tone Acquired at 108 kS s Amplitude dBFS Frequency kHz Figure A 5 FFT of 1 dBFS 1 kHz Tone Acquired at 216 kS s PCIE 1802 User Manual 30 A 7 5 A 7 6 A 7 7 Dynamic Range DR Dynamic Range dB Input Range fs 54 kS s fs 108 kS s fs 216 kS s 10 0 V 117 114 100 5 0 V 114 112 98 2 0 V 108 107 98 1 0 V 105 102 96 0 5 V 96 96 92 0 2 V 88 88 86 1 kHz input tone unweighted Input amplitude is 60 dBFS Spurious Free Dynamic Range SFDR Spurious Free Dynamic Range dBc Input Range fs 54 kS s fs 108 kS s fs 216 kS s 10 0 V 104 105 104 5 0 V 106 106 106 2 0 V 106 106 106 1 0 V 104 102 102 0 5 V 97 97 96 0 2 V 89 89 89 1 KHz input tone input amplitude is 1 dBFS Measurement includes all harmonics Signal to Noise Ratio SNR Signal to Noise Ratio dB Input Range fs 54 kS s fs 108 kS s fs 216 kS s 10 0 V 99 99 97 5 0 V 100 100 97 2 0 V 99 99 96 1 0 V 97 97 94 0 5 V 93 92 89 0 2 V 86 85 82 1 kHz input tone input amplitude is 1 dBFS 31 PCIE 1802 User Manual A 7 8 Total Harmonic Distortion THD Total Harmonic Distortion dB Input Range fs 54 kS s fs 108 kS s fs 216 kS s 10 0 V 103 104 103 5 0 V 106 106 106 2 0 V 107 107 107 1 0 V 105 105 105 0 5 V 102 101 101 0 2 V
29. lding a system with multiple PCIE 1802 cards With the correct BoardID settings you can easily identify and access each card dur ing hardware configuration and software programming Note For detailed specifications of the PCIE 1802 card refer to Appendix A E Specifications 1 3 Applications The following are some of the possible applications of PCIE 1802 cards M Noise vibration and harshness NVH detection Machine status monitoring m Structural health monitoring PCIE 1802 User Manual 2 1 4 1 5 Installation Guide Before you install your PCIE 1802 card please make sure you have the following components m PCIE 1802 DA amp C card M PCIE 1802 Startup Manual Driver software Advantech DAQNavi SDK and drivers included in the companion CD ROM Wiring cables PCL 108BC 50E optional PCL 10119 1E optional Wiring board PCLD 8840 optional M Personal computer or workstation with a PCI Express interface running Windows3 desktop mode 7 and XP Some optional components are also available for enhanced operation After you get the necessary components and maybe some of the accessories for enhanced opera tion of your Multifunction card you can then begin the installation procedures Figure 1 1 on the next page provides a concise flow chart for a broad picture of the software and hardware installation procedure Install Driver from CD ROM Use Navigator to configure device Use Device Test to
30. nalog Trigger Rising Edge 21 Figure 3 10Analog Trigger Falling Edge 21 3 3 5 Multiple Cards Synchronization Signal Connection 22 V PCIE 1802 User Manual 3 4 Appendix A A 1 A 2 A 3 A4 A 5 A 6 A 7 A 8 A 9 A 10 A 11 A 12 Appendix B B 1 PCIE 1802 User Manual Figure 3 11Multiple Cards Synchronization Signal Connection 22 Field Wiring Considerations nn 22 SPEecIMICatIONS iia 20 General Specifications nene teeeeeeeenettrnnttnernentttrtnnn tann nnnnneenn ent 24 ALT A O 24 A 1 2 Power Requirements 24 AMES Physlcalsuugersrenudedkule oi akku 24 ATA Environmental srira snnnd acallar idad dis 24 Input Charactenstics nee mean 24 A 2 1 Maximum Operating Voltage 25 A 2 2 Input Overvoltage Protection 25 A23 Input Signal Range pera iii 25 AC Coupled Measurement AcCUracy nme 26 Fl tness rs a rari 26 DC Coupled Measurement Accuracy 26 Amplifier Characteristies ucnuu asien 26 A 6 1 Input Impedance nennen 26 A 6 2 Common Mode Rejection Ratio CMRR 27 Dynamic Characteristics nn 27 ATT Bandwidth messir iisti lidia ii llo diste 27 Are AG Coupling fesses is parts 28 Figure A 1 Magnitude response of AC coupling circuit 28 Figure A 2 Phase response of AC coupling circuit 28 A
31. nector Sections include E Overview m Switch Settings E Signal Connections E 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 con nection 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 1802 cards via the I O connector 3 2 Jumper Settings 3 2 1 Setting the BoardiD Switch SW3900 The PCIE 1802 has a built in DIP switch SW3900 which is used to define each card s board ID You can determine the board ID on the register as shown in Table 2 1 When there are multiple cards on the same chassis this board ID setting func tion is useful for identifying each card s device number through board ID We set the PCIE 1802 board ID as 0 at the factory If you need to adjust it to other board ID set the SW3900 by referring to DIP switch setting Table 3 1 Board ID Settings SW3900 3 2 1 0 BoardID ID3 ID2 ID1 IDO 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
32. ols such as Visual Studio Net Visual C Visual Basic Delphi and C Builder According to their specific functions or services APIs can be categorized into several function groups m Analog Input Function Group m Digital Input Output Function Group m Event Function Group For the usage and parameters of each function please refer to the Using DAQNavi SDK chapter in the DAQNavi SDK Manual Troubleshooting 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 zero it means the function has failed to perform its designated function See Device Driver Manual for detailed information about Error Code Accessories Advantech offers a complete set of accessory products to support PCIE 1802 cards These accessories include Wiring Cables PCL 108BC 50E 36 pin MINI SCSI to Eight BNC Cable 0 5 m PCL 10119 1E HDMI Cable 1 m Wiring Boards PCLD 8840 AE 20 pin DIN rail HDMI Cable Wiring Board for PCIE 1802 and PCIE 1840 5 PCIE 1802 User Manual PCIE 1802 User Manual Chapter 2 Installation 2 1 2 2 Unpacking After receiving your PCIE 1802 package inspect its contents first The package should contain the following items m PCIE 1802 card Companion CD ROM DLL driver included Startup Manual The PCIE 1802 cards harbors certain electronic components vulnerable to electro sta
33. 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 m Disconnect power before making any configuration changes The sudden rush of power as you connect a jumper or install a card may damage sensitive elec tronic components iii PCIE 1802 User Manual PCIE 1802 User Manual Contents Chapter Chapter Chapter 1 ao Ni 1 5 1 6 1 7 2 2 1 2 2 2 3 3 3 1 3 2 3 3 Introduction s a aravnvavnvnnnnnnnnvnvnvnvavnener 1 NTFOdUCION coi alada 2 Features ii lien A AA 2 1 2 1 Auto Calibration 3 ea aiar iaia 2 1 22 BoardiD OWC hi ssenari ia AE 2 Applicationss n a nan indien dunn an 2 Installation Guide a a a oa het 3 Figure 1 1 Installation Flow Chart 3 Software Overview ii nein 3 1 9 1 Device Drivers munie grekere eee 4 DAQNavi Device Driver Programming Roadmap 4 1 6 1 Programming Tools 4 1 6 2 Programming with DAQNavi Device Drivers Function Library 5 1 6 3 Troubleshooting Device Drivers Error 5 ACCESSOFIES iria S a 5 1 7 1 Wiring Cables een Melon edi dt tease en 5 1 7 2 Winnog BOM S cca eek 5 Installation ae avaravnvnvnvnnavnnnnnnvavnvavnvnre UNPaCcking Lus atte ee nn a ees he 8 Driver Install viii rl t 8 2 2 1 Device Auto Installation Recommended 9 Device Setup amp Conf
34. tic discharge ESD ESD could easily damage the integrated circuits and certain components if preventive measures are not carefully paid attention to Before removing the card from the antistatic plastic bag you should take following precautions to prevent ESD damage Touch a metal part of your computer chassis with your hand to discharge static electricity accumulated on your body Or use a grounding strap M Touch the anti static bag to a metal part of your computer chassis before open ing the bag Hold the card only by the metal bracket when removing it from 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 dam aged please notify our service department or the local sales representative immedi ately Avoid installing a damaged card into your system Also pay extra caution to the following aspects to ensure proper installation m Avoid physical contact with materials that could hold static electricity such as plastic vinyl and Styrofoam m 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 may need the original bag to N store the card if you have to remove the card from the PC or transport it El elsewhere Driver Installation We recommend you install the driver be
35. tion 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 defec tive it will be repaired or replaced at no charge during the warranty period For out of 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
36. together with some brief information on software and accessories Sections include E Features E Applications EB Installation Guide E Software Overview m Device Drivers Programming Roadmap E Accessories 1 1 Introduction The Advantech PCIE 1802 is a high performance data acquisition module specifi cally designed for sound and vibration applications With eight 24 bit analog inputs per module and IEPE constant current signal conditioning Advantech s PCIE 1802 is ideal for making precision measurements with microphones accelerometers and other transducers that have very large dynamic ranges The modules deliver 115 dB of dynamic range and simultaneous sampling on all 8 channels at rates up to 216 kS S 1 2 Features The PCIE 1802 offers the following main features 8 simultaneous analog input channels 24 bit resolution A D converter 216 kS s maximum sampling rate 115 dB dynamic range up to 6 gain settings for ranges from 200 mV to 10 V IEPE for accelerometers and microphones Some of the features are described in detail on the following pages 1 2 1 Auto Calibration The PCIE 1802 card features software auto calibration It provides a convenient method for user calibration processing 1 2 2 BoardiD Switch The PCIE 1802 has a built in DIP switch that helps define each card s ID when multi ple PCIE 1802 cards have been installed on the same PC chassis The BoardiD set ting function is very useful when bui
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