PCI-2602 User Manual
Contents
1. FN Note that Administrator privileges are required for this operation If you are prompted for an administrator password or confirmation enter the password or provide confirmation by clicking the Yes button in the User Account Control message B Windows 8 Step 1 To display the Start screen icon from Disk Management the desktop view hover the mouse cursor Computer Management over the bottom left corner of screen Command Prompt Step 2 Right click the Start screen icon and Command Prompt Admin then click Device Manager Task Manager Control Panel Alternatively Windows Explorer press Windows Key X to open the Start Search Run Menu and than select Device Manager from the options list Desktop Right click EN 3 User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards 5 3 2 Check the Installation Check the PCI 2602U card which listed correctly or not as illustrated below Device Manager Fil Action View Help c gt mfg Pm A e A RD CBO BZAG84429 E 8 Computer DAQCard En LInibACQ P CI 2602L1 Multi Function Board Installation successful ae Disk drives es Display adapters mh DYDICD ROM drives H A Floppy disk controllers Eee Human InterFace Devices IDE ATAJATAPI controllers Hee Keyboards fT Mice and other pointing devices Monitors Other dev2. R Shunt Resistor AGND O Example A 20 mA source current through a 125 Q resistor e g 125 O 0 1 DIP Resistors between and terminals and the board will read a 2 5 Vpc voltage You can use the V R Ohm s law to calculate what value the source current should have Current I Voltage V Resistance R 2 5V 1250 0 02A 20m EN IN User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE gv p Signal Shielding e The signal shielding connections methods in Figures 2 4 1to 2 4 6 are all the same e Use a single point connection to the frame ground rather than the Al GND AO GND or D GND pins PCI 2602U Al GND AO GND D GND User Manual Ver 1 2 Mar 2015 PMH 0028 2 5 Analog Output Signal Connections The PCI 2602U board provides two DA output channels AOO and AO1 and the onboard 5 V 10 V reference signal on the PCI 2602U may be used to generate a DA output range of 0 V to 5 V 10 V A DA output range may also be created through the external reference signal AOx REF where the external reference input range is 10 V For example connecting to an external reference signal of 8 V will generate a DA output of O to 8 V Figure 2 5 1 Connecting to an Analog Output channel for use as an internal reference signal Recommended Itera Referenc Internal Reference User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U
3. PCI 2602U Series Board User Manual Multi function Boards Version 1 2 Mar 2015 SUPPORT This manual relates to the following board PCI 2602U WARRANTY All products manufactured by ICP DAS are warranted against defective materials for a period of one year from the date of delivery to the original purchaser WARNING ICP DAS assumes no liability for damages consequent to the use of this product ICP DAS reserves the right to change this manual at any time without notice The information furnished by ICP DAS is believed to be accurate and reliable However no responsibility is assumed by ICP DAS for its use nor for any infringements of patents or other rights of third parties resulting from its use COPYRIGHT Copyright 2014 by ICP DAS All rights are reserved TRADEMARKS Names are used for identification purposes only and may be registered trademarks of their respective companies CONTACT US If you have any questions feel to contact us by email at service icpdas com or service icpdas gmail com PCI 2602U Multi Function Boards TABLE OF CONTENTS BOEKING LISE M 4 Related Informatio We RET aces te sacoacessasaeesesaceanees aveuedesaceanessasaeesesaceuneesaveuedesaceanesssasecesacseaess 4 1 IM EFOOUENOI itr 5 1 1 General Descriptio oie eiii doo a Poco Ha PEE vE UI Sa aed Cio E PI EUVES TEE eS RUE IRE UIT E UE ROLE RON R IE eS Ee duse 5 1 2
4. FO ACUI CS NETS TT T m TT m 6 1 3 SDBCITICSETOTIS oren rere E ePe su ee Cio Io E aeo ov IIIa Coa se vto annen HERPES EI VEU EE ERE EPFL dee EEUEUE 7 1 4 ADDIICaLIOLIS aarin Eon dit erbe tede on EEE dass eias disi ue ei eer esL csv ode eir EE Pda aeo VEO usua V ied vanessa 8 2 Hardware CONTIQUI AE ON s e iiis Cete Es Eee v toan lee iip qoe Esca Cet o varE Sleep Ou UIS e poe ERAS IE REDE DeR IE Ded 9 2 1 Board AV OU RR TNNT em 9 2 2 Jumper Programmable Setting cccccccccsssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssess 10 2 2 1 APLEEPROM Write PrOtGCH OD disset eren Fame ba os QOd au SR e EE EE 10 PAL MEE S ED SV RT 10 2 2 3 Analog Input Type Settings cce rees sea eh den nisi a e ook eu consc veia eO Ea ES eo sua S EERE 11 2 2 4 Digital Input Output Mode Settings ccccccccccccccccccsseccseeeesessssseseccccecssssseseueeeeessseseeeceesessseeeeeuas 12 2 3 System Block DIA ga RR TDI CI 13 2 4 Analog Input Signal Connections ccce eee eee eee eee eene eee e essen eee e eese se sette eese sao e ee 14 2 5 Analog Output Signal Connections eee e eee eee eee eee eene tette seen eee ee esos ee eeeeesssao eee 19 2 6 Pin PSST TINCT oaran sun i esi eiie drive ois dasce otav ciel sive si Peer d io va de cds a 20 3 ODOORN NETT 22 3 1 AD OPEO T E n 22 3 2 DIO Operat ON eire PH HERE EHE REECHEEEER CHEER CHERCHER C
5. Red 5 V for AD Calibration Yellow I O Signals Sync lI Sync O used Board Synchronization EEPROM Write Protection TP3 5V Yellow TP2 iov 9 EEPROM Red TP1 Write 0123 AGND JP1 Protest 1 ghi sue green oj 3 1 User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards El m De 2 2 Jumper Programmable Setting 2 2 1 JP1 EEPROM Write Protection Jumper JP1 is used to select the EEPROM Write Protection settings When the jumper is set to the WRTIE PROTECT LOCK position default no data can be written to the EEPROM To allow data to be written to the EEPROM set JP1 to the UNLOCK position as illustrated in the diagram below EEPROM Write Protection Selection JP1 JPI EEPROM P gt EEPROM P gt 9 WRITE PROTECT WRITE PROTECT LOCK EEPROM Default UNLOCK EEPROM 2 2 2 Card ID Switch The PCI 2602U includes an onboard Card ID switch SW1 that enables the board to be recognized via software if two or more PCI 2602U boards are installed in the same computer The default Card ID is OxO For more details regarding the SW1 Card ID settings refer to the table below Table 2 1 Default Settings OFF gt 1 ON gt 0 Card ID 1 2 Hex IDO ID1 ID2 Ox lt O Default Settings User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards 2 2 3 Analog Input Type Settings The Analog Input type can be selected as eith
6. a PB is DI mode 2 PC DIO Mode Write a 1 indicates a PC is DO mode Write a O indicates a PCis DI mode Pr Ye PD DIO Mode Write a 1 indicates a PD is DO mode Write a O indicates a PD is DI mode Enable PB Digital Input Filter Write a 1 enables digital input filter Enable PC Digital Input Filter Write a 1 enables digital input filter di ves id i Enable PA Digital Input Filter Write a 1 enables digital input filter Yes mE Iter ae em ve Enable PD Digital Input Filter Write a 1 enables digital input filter DI Clk Select Write a 100 enables digital output clock 11 13 DO Clk Select Write a 101 enables digital output clock Yes m PA Output Mode Writing a 1 indicates the PA output mode is pattern y es mode Writing a 0 indicates the PA output mode is static mode 1531 j Resmed Yes No Register 7 4 2 2 wBase 0x214 Write DIO Port PA Write Write the digital output data to specified digital I O Port PA l When PA is digital output mode PB Write Write the digital output data to specified digital I O Port PB When PB is digital output mode 8 15 PC Write Write the digital output data to specified digital I O Port PC When PC is digital output mode PD Write Write the digital output data to specified digital I O Port PD When PD is digital output mode User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards Register 7 4 2 3 wBase 0x214 Read
7. 0x2BO AO Configuration Control Status it Description Channel 0 Enable Writing a 1 enables channel to output data Writing a y es es O disables the channel Channel 0 Polar Writing a 1 indicates the channel 0 polar is uni polar Writing a O indicates the channel O polar is Bi polar Channel 0 Internal Ref Writing a 1 indicates the channel 0 internal reference is 5V Writing a O indicates the channel 0 internal reference is 10V Channel 0 Reference Mode Writing a 1 indicates the channel 0 is internal reference Writing a O indicates the channel 0 is external reference Writing a O indicates the channel 1 polar is Bi polar Channel 1 Internal Ref Writing a 1 indicates the channel 1 internal reference is 5V Writing a O indicates the channel 1 internal reference is 10V Channel 1 Reference Mode Writing a 1 indicates the channel 1 is internal reference Writing a O indicates the channel 1 is external reference Channel 0 Output Mode Writing a 1 indicates the channel O output mode is pattern mode Writing a O indicates the channel O output mode is static mode Channel 1 Output Mode Writing a 1 indicates the channel 1 output mode is pattern mode Writing a O indicates the channel 1 output mode Channel 1 Polar Writing a 1 indicates the channel 1 polar is uni polar is static mode 10 12 Channel 0 Clk Select Write a 110 enables analog output channel 0 clock 13 15 Channel 1 Clk Select Write a 111 enables analog output channel 1
8. AOV Hex l Z f 7 me 4 RECOVER EXIT Calibration Data File Import Export Broswerl8 import EKDOM RELOAD 10V Ref EEE Ov Hex D NZA 10 Ref 7DE6 v Hex n 5H BEEN DFD v Hex n Bv S4V EFC _ Z OVH 1 281 MN ers ate Connect a voltage meter to the TP2 TP1 pins to acquire the 10V Ref value Connect a voltage meter to the TP3 TP1 pins to acquire the 5V Ref value Move the jumper for JP1 from pins 1 2 to pins 28 to enable EEPROM write operations Enter the 10V reference value in the 10V Ref TP2 field in the voltage reference section Enter the 5V reference value in the 5V Ref TP3 filed in the voltage reference section Click the START button to begin the calibration process Once the calibration process is complete click the SAVE button to save calibration to the board User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE ga x 02U Windows API Function For more details regarding the Windows API Functions for the PCI 2602U board refer to UniDAQ SDK User manual which can be downloaded from MA CD NAPDOS PCI UniDAQ Manua e http ftp icpdas com pub cd iocard pci napdos pci unidag manual User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards Appendix Daughter Boards A1 DN 68A The DN 68A is a general purpose DIN Rail mountable daughter board containing
9. DIO Port Description PA Read Read the digital input data to specified digital O Port PA When PA is digital input mode PB Read Read the digital input data to specified digital I O Port PB When PB is digital input mode PC Read Read the digital input data to specified digital I O Port PC When PC is digital input mode PD Read Read the digital input data to specified digital O Port PD When PD is digital input mode Register 7 4 2 4 wBase 0x218 Read DI FIFO Data FIFO Read Read the digital input data to specified FIFO Register 7 4 2 5 wBase 0x21C DI FIFO Status 1 1 1 1 2 2 FIFO Full Reading a 1 indicates a FIFO status is full FIFO Empty Reading a 1 indicates a FIFO status is empty Ye Yes Yes Yes Yes es FIFO Almost Empty Reading a 1 indicates a FIFO status is almost empty Yes 19 FIFO Almost Full Reading a 1 indicates a FIFO status is almost full FIFO Overflow Reading a 1 indicates a FIFO status is overflow Yes 22 31 Reserved Yes it 6 7 8 FIFO Half Full Reading a 1 indicates a FIFO status is half full 9 0 1 Register 7 4 2 6 wBase 0x220 DO Pattern Control Status Description DO PA Data Num Write value indicates the waveform points for PA DO PA Cycle Num Write 0 30 indicates the PA is burst mode the 11 15 write n indicates to generate n 1 pulse Write 31 indicates the PA output mode is continuous mode 16 31 Reserved User Manual Ver 1 2 Mar 2015 PMH 0
10. E EEE ee 44 7 3 Bar LAPE ane E tan vendidannnerstendeenndebanes 46 7 3 1 PLX Control Status Registers oco tpodtact vata ooa Ee nexa toV bIQRD eet lea epa ose MeunEE IUE ten DuO Enea Del va OPI Hee TIERE 46 7 4 Bars ue 47 7 4 1 Interrupt and Initialize Control Status Registers eeeeeessseee eene eene nn nnns 47 74 2 Digital l O uS 50 7 4 3 Analog Input Registers cccecccceescccceseccceesececeescceseeeceseusecseeeeccsseececsueeceseeecessusecessecsseegeees 52 7 4 4 Analog output registers uus oeenneeeennenennneerenenersnsnserrsneeersnnserennnerevsnervnnerersnsneevvsnenns 55 8 COO O eE EA ANE E EATE OT 57 8 1 NUP O GUICUIONN ERR E E E E A E E E 57 8 2 Step by Step Calibration Process esssecccsececcscccccscccccccccccccccccccccseccccsccecseccccsccecscecccsccccsceeeoo 58 9 PCI 2602U Windows API Function cccsscccossscccnssccccescccccssccccesccccesccccessccccesscesesccceesees 59 Appendix Daughter Boards 000000000000000000000s000sosossosossessssssssosossosossessssesssosossossssesssssssseso 60 ALDONO SAE A E EA E EA E HH 60 User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE ga x Packing List The shipping package contains the following items One multi function board PCI 2602U Series Note If any of these items are missing or damaged contact the dealer from One printed Quick Start Guide whom you
11. Multi Function Boards Pin Terminal No ue Assign pain ment ment 5 V Output 12 V Output Ext_TRG Cnt0_GATE Trg_GATE Cnt0 OUT Pacer OUT Cnt0_CLK D_GND D_GND PD7 PD6 PD5 PD4 PD3 PD2 PD1 PDO PC6 PC4 PC2 PCO PB6 PB4 PB2 PBO PA6 PA4 PA2 PAO AO GND AO0 OUT AO0 REF AI GND AI14 AI12 AI10 AI8 AI6 Al4 Al2 AIO mE User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards Description of the I O Connector Signals AIO Al15 AlO Al7 AIQ Al7 AO0 OUT AO1 OUT AOO REF AO1 REF PAO PA7 PBO PB7 PCO PC7 PDO PD7 CntO CLK CntO OUT CntO GATE Pacer_OUT Trg GATE Ext_TRG Al_GND AO GND AO GND D GND Input Input Output Input Output Input Output Input Output Input Input Output Output Analog Input channels O 15 Each channel pair Alx Alx x 0 2 14 can be configured as either two single ended inputs or one differential input Analog Input Ground Analog Output channels O and 1 External Reference for Analog Output channel 0 and 1 Analog Output Ground Digital Input Output channels Digital Ground Clock Input for CounterO which can be either an external or an internal source as set using software CounterO Output CounterO Gate Control Pacer Clock Output This pin generates one pulse for each pacer clock when turned on If the AD conversion is in pacer t
12. Multiple AD trigger methods Programmable gain and offset control On board 8192 sample AD FIFO B Analog Output Vv YY VvV VY One DA converter 2 channel 16 bit voltage output Voltage output range 10 V 5 V0 10 V 0 5 V On board 512 sample DA FIFO No bus loading in repetitive waveform generation applications B Digital Input Output v YY vV Y On board 512 sample DO FIFO 32 channel programmable DI O 4 x 8 channel Digital Output readback function Programmable input digital filter for all Digital Input signals No bus loading in repetitive 8 bit digital pattern generation applications mE User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards ga x 1 3 Specifications Model PCI 2602U Analog Input Channels 16 single ended 8 differential A D Converter 16 bit 1 us conversion time 1 MS s Sampling Rate FIFO Size 8192 samples Over voltage Protection Input Impedance Trigger Modes Data Transfer Accuracy 0 05 96 of FSR 1 LSB 25 C 10 24 V Gain 0 4 0 8 1 6 Input Range Bipolar Range 10 24 V 5 12 V 2 56 V Analog Output Channels 16 bit 6 LSB Resolution Accuracy Output Range 5V 10V 0 710V 0 5V EXT_REF O EXT REF 5 mA Output Driving 8 33 V us 0 1 Q Max Slew Rate Output Impedance Static update Waveform generation only for Channel 0 20 MS s Max Operating Mode Output Rate FIFO Si
13. Settings The Digital Input Output mode can be selected as either Digital Input or Digital Output depending on the specific configuration requirements An example of the configuration is illustrated in the figure below Note that before the Digital Input Output mode settings you must complete the hardware and driver installation Refer to Chapter 4 Hardware Installation and Chapter 5 Software Installation for more detailed information Step 1 Open the Windows Device Manager Step 2 Expand the DAQ Card item and right click the name of the PCI 2602U Step 3 Select the Properties item from the popup menu Step 4 In the Properties dialog click the Advanced tap Step 5 In the PA PB PC PD Digital I O Mode sections select the Digital Output or Digital Input depending on your requirements Device Manager File Action View Help Update Driver Disable U sss 5 X we DISK drives Display adapters UniDAQ PCI 2602U Multi function Board Properties PX WES ollers Scan Shoes 8 hardware changes Devices Properties ontrollers PA Digital 1 0 Made PC Digital 1 0 Made E Digital Qutpe Digital Input Digital Outpt Digital Input FB Digital 1 0 Mode FD Digital 1 0 Mode Digital Outpt Digital Input Digital Outpt Digital Input Save Setting 5 User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Functi
14. clock 16 31 Reserved User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE ga x Register 7 4 4 2 wBase 0x2B4 Write AO Channel 0 Data Description AO Channel 0 Write Writing the analog output data to channel O 16 31 Register 7 4 4 3 wBase 0x2B8 Write AO Channel 1 Data Description Write AO Channel 1 Write Read the analog output data to channel 1 16 31 Register 7 4 4 4 wBase 0x2BC AO Pattern Output Control Status Read Write 0 10 AO Channel 0 Data Num Write value indicates the waveform points for Y es es channel 0 Yes AO Channel 0 Cycle Num Write 0730 indicates the channel 0 is burst 11 15 mode the write n indicates to generate n 1 pulse Write 31 indicates the Yes channel O output mode is continuous mode 3631 Reserved ves No User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards 8 1 Introduction When shipped from the factory the PCI 2602U board is already fully calibrated including the calibration coefficients that are stored in the onboard EEPROM For a more precise application of voltages in the field the procedure described below provides a method that allows the board installed in a specific system to be calibrated so that the correct voltages can be achieved for the field connection This calibration allows the effects of voltage drops caused by IR loss in the cable and or the connector to be eliminated At first
15. female 68 pin D sub I O Connectors and is designed to allow easy field wiring connections QOOOOOO0OO0O000000000 QOqOqoooooo0oo00000000 Di PCI 2602U K Ak 109 249 ae A A X enn M4 cQ OQ O EOS 0 5 1 Pins 01 to 68 on the DN 68A daughter board are connected to the CON1 connector on the PCI 2602U using a 68 pin male male cable The FG on the DN 68A is connected to the shielding wire of the 68 pin cable m User Manual Ver 1 2 Mar 2015 PMH 0028
16. large Analog Input signals The connection method shown in Figure 2 4 4 is suitable for thermocouple input signals and the connection method illustrated in Figure 2 4 5 is suitable for floating source Analog Input signals Warning As shown in Figure 2 4 4 the maximum common mode voltage between the Analog Input source and the AGND pin is 70 Vp p so care must be taken to ensure that the input signal is below this level before continuing If the common mode voltage is set to above 70 V the input multiplexer will be permanently damaged The easiest way of determining the most suitable configuration method for the input signal connection is as follows No Type Connection Method 1 Grounding the source input signal See Figure 2 4 1 2 Thermocouple input signal See Figure 2 4 4 3 Floating source input signal See Figure 2 4 5 4 Ifthe Vinis gt 1V and the gain is lt 10 V and more channels are needed See Figure 2 4 3 5 Current source input signal See Figure 2 4 6 If thecharacteristics of the input signal are unknown or unclear test the signal using the following procedure 1 Testthe signal using the connection method illustrated in Figure 2 4 1 and record the result Test the signal using the connected method illustrated in Figure 2 4 4 and record the result Test the signal using the connected method illustrated in Figure 2 4 5 and record the result Do S Compare the three results and select the most suitable connection mE User M
17. purchased the product Save the shipping materials and carton in case you need to ship or One software utility CD store the product in the future Related Information Product Page http www icpdas com root product solutions pc based io board pci pci 2602 html Documentation and Software for the UniDAQ SDK CD NAPDOS PCI UniDAQ http ftp icodas com pub cd iocard pci napdos pci unida User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards The PCI 2602U board provides 1MHz 16 8 channel 16 bit Analog Input 2 channel 16 bit Analog Output with 32 channel programmable Digital Input Output 1 1 General Description The PCI 2602U is a powerful multifunction board that features a 1MS s sampling rate and a 16 bit resolution converter that is suitable for the majority of industrial applications The PCI 2602U board includes a universal PCI interface that supports both the 3 3 V and the 5V PCI bus and features a continuous 1MS s 16 bit high resolution AD converter 8 k Sample hardware AD FIFO 2 channel 16 bit DA converter 32 channel programmable Digital Input Output and Digital Output Readback The PCI 2602U also provides either 16 single ended or 8 differential jumperless Analog Input channels and is equipped with a high speed PGA featuring programmable gain controls The PCI 2602U provides five programmable trigger methods including software trigger Post trigger Middle trigger Pre trigger and Delay tri
18. the user has to prepare the equipment for calibration the precise multi meter Note that the calibrated values for analog output input channels are stored within 3 words in the address of the EEPROM as shown in the table below The calibration procedure will be described in detail in the Section 8 2 The calibration values stored in the EEPROM are as follows EEPROM Reference Address Calibration DA Calibration AD Calibration EO DACalibration OMA Mil in AD CHO et c5 Ww 9 a7 ow Qv 25 soer 8 sav W 29 2 56V E 1 28V er M osy OV A spoar avret 0 07 Ow 4 20 48 User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards 8 2 Step by Step Calibration Process The following is a step by step description of the calibration process using the Windows Calibration Program for the PCI 2602U which can be downloaded form DE PCI 2602U Calibration Program 2014 04 11 Ver 1 0 Board Infomation Total Board 1 Active Board Analog Output Calibration Woar ay Irma err iwy 5V Hex FEor EN OV Hex n E Bipolar ay Bipolar Toy 5 Hex FF20 m 10 Hex FF3D x OV Hex BF s 10V Hex Jag CH1 Unipolar Sy Witold 5V Hex FE25 E EN X OV Hex fo m n EO st m Bipolar ay Bola 5V Hex FF18 HOV Hex FF3A SY Hex c3 E
19. to AIO Pin68 and connect the AI GND Pin60 to AO GND Pin57 DOOO OOO OOOOOOOOOOON DO OOOWOODOOOWOOV OOOO FG1 NC 68 67 66 65 64 63 62 61 60 59 58 57 NC 38 37 36 35 6 2 Execute the Test Program After installation the UniDAQ Utility will be located in the default folder C ICPDAS UniDAQ Driver Use the procedure described below to perform the Self Test Step 1 In Windows XP click the Start button point to All Programs and then click the ICPDAS folder Se Point to UniDAQ Development Kits and then click 0 PCI 2602 UniDAQ Utility Step 2 Confirm that the PCI 2602U board has been successfully installed in the Host system Note that device numbers start from O Step 3 Click the TEST button to start the test mE User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards m ga x Step 4 Check the results of the Analog Input Output functions test result Click the Analog Output tab Select the 0 from the Channel drop down menu Select the 1 Bipolar 5V from the Range drop down menu e 0 N e Enter the voltage value depending on your requirements e g 4 in the Voltage V field 5 Click the OUTPUT button to output voltage Ye 0 PCI 2602 CARD ID F EE Digital Input Digital Output imer counter Range OUTPUT 1 Bipolar Hoo a Current Output Channel Range Currentim 25 LDP RUT Use
20. wBase 0x200 Hardware Status Card ID Reading a data indicates a Card ID of SW1 4 7 Reserved Yes Ye Ye Ye Ye Ye Ye Ye Ye No Ye PA DIO Mode Reading a 1 indicates a PA is DO mode Reading a 0 indicates a es PA is DI mode PB DIO Mode Reading a 1 indicates a PB is DO mode Reading a 0 indicates a Y es PB is DI mode 26 PC DIO Mode Reading a 1 indicates a PC is DO mode Reading a O indicates a es PC is DI mode i PD DIO Mode Reading a 1 indicates a PD is DO mode Reading a 0 indicates Y es a PD is DI mode 12 31 Reserved User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards ga x Register 7 4 1 3 wBase 0x204 Interrupt Clear Status Description Al Pacer Done Int Reading a 1 indicates an analog input pacer is complete Reading a 0 indicates a pacer is not complete Write a 1 and Yes Yes write a O to clear Al Pacer Down interrupt Al FIFO Half Full Int Reading a 1 indicates an analog input FIFO status mm is half full Reading a O indicates an analog input FIFO status is not Yes Yes half full Write a 1 and write a O to clear AI FIFO Half Full interrupt Al FIFO Full Int Reading a 1 indicates an analog input FIFO status is full Reading a O indicates an analog input FIFO status is not full Write a 1 and write a O to clear Al FIFO FULL interrupt DI Pacer Done Int Reading a 1 indicates a digital input pacer is complete Reading a O indicates a digital pacer is not complete Write a 1 and w
21. 028 PCI 2602U Multi Function Boards EE ga x 7 4 3 Analog Input Registers Register 7 4 3 1 wBase 0x22C Al Scan Mode Control Status Description Enable AI Scan Writing a 1 enables MagicScan Mode to scan analog y y es es input channel Total Scan Channel Number Indicates the number of channels to MagicScan Writing a N indicates an N 1 channels Ex Writing a 14 indicates 15 channels Writing an 8 indicates 9 channels 17 4731 Reserved Register 7 4 3 2 wBase 0x244 AI Internal Clock Control Status LB e Bie dod odere DOR US Ra eee Me ee AM ERE internal pacer velack during an analog input operation Select Base Clock Writing 00 indicates 40MHz Writing 01 indicates 10M Writing 10 indicates 1MHz Writing 11 indicates 100KHz ves Yes 2631 Reserved CSTs No Register 7 4 3 3 wBase 0x290 Al Trigger Mode Control Status Clock Source Writing 000 indicates a non clock source Writing 001 indicates a Single Clk Writing 010 indicates a T3 Clk Writing 101 indicates an external clock source Trigger Source Writing 00 indicates an external trigger Writing O1 indicates an Sync Trigger Mode Writing 000 indicates an internal trigger mode Writing 001 indicates a post trigger mode Writing 010 indicates a middle trigger mode Writing 011 indicates a pre trigger mode Writing Analog Trigger Type Writing 000 disable analog trigger mode Writing 001 enable a above high Writing 010 enable a below low Writin
22. 02U Multi Function Boards EE ga x Register 7 4 3 8 wBase 0x2F0 Save Al Configuration Data Description Reserved Save Al Configuration Data Writing a O indicates to save configuration Yes Ves data 131 Reserved 0000000000000 Register 7 4 3 9 wBase 0x2A0 Read Al FIFO Data Description FIFO Read Read the analog input data to specified FIFO 16 31 Reserved Register 7 4 3 10 wBase 0x2A4 AI FIFO and Trigger Status FIFO Almost Full Reading a 1 indicates a FIFO status is almost full 20 FIFO Almost Empty Reading a 1 indicates a FIFO status is almost empty 2 FIFO Overflow Reading a 1 indicates a FIFO status is overflow 22 23 Post Trigger 9 0 1 Yes PostTrigger o d 4 Analog Trigger Ready 5 AmaogTigerVIAS es 6 7 Trigger In Analog Trigger V1A5 Analog Trigger V2A5 Analog Trigger Fit 28 31 Reserved Register 7 4 3 11 wBase 0x2A8 Al Data Acquisition Size Description Read Data Acquisition Size Indicates the number to acquire data during an analog input operation Writing an 8000000 acquires analog input data Yes Yes continuous Register 7 4 3 12 wBase 0x2AC Al Data Acquisition Start Description Acquisition Start Writing a O to causes channel to start acquisition data if Al Data Acquisition Size register is set Yes Yes User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards gv x 7 4 4 Analog output registers Register 7 4 4 1 wBase
23. 38H CNTO Clock Control Status CNTO Clock Control Status 23CH Delay Trigger Clock Control Status Delay Trigger Clock Control Status 240H DI Filter Clock Control Status DI Filter Clock Control Status 244H Al Internal Clock Control Status Al Internal Clock Control Status 248H DI Internal Clock Control Status DI Internal Clock Control Status 24CH DO Internal Clock Control Status DO Internal Clock Control Status 250H AOO Internal Clock Control Status AOO Internal Clock Control Status 254H AO1 Interrupt Clock Control Status AO1 Interrupt Clock Control Status 258H Internal Clock Control N A User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE ga mx 280H Al External Analog Trigger Control Status Al External Analog Trigger Control Status 290H Al Trigger Mode Control Status Al Trigger Mode Control Status 294H Al Software Trigger Status Al Software Trigger Control 298H Al Scan Address Al Scan Address 2ECH Al Configuration Control Status Al Configuration Control Status 2FOH Save Al Configuration N A 2A0H Read AI FIFO Data N A 2A4H Al FIFO Status N A 2A8H Al Data Acquisition Size Al Data Acquisition Size 2ACH Al Data Acquisition Start Al Data Acquisition Start 2BOH AO Configuration Control Status AO Configuration Control Status 2B4H Write AO Channel 0 Data Write AO Channel 0 Data 2B8H Write AO Channel 1 Data Write AO Channel 1 Data 2BCH AO Pattern Output Control Status AO Pattern Output Control Status 2C4H Connector I O C
24. Control the PCI 2602U directly write the DIO states of cardO mem4g write dword dwBaseAddr 0 0x214 dwDoValue read the DIO states of cardO dwDiValue mem4g read dword dwBaseAddr 0 0x214 write the DIO states of card1 mem4g write dword dwBaseAddr 1 0x214 wDoValue read the DIO states of card1 wDiValue mem4g read dword wBaseDIO 0x0 User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards 7 2 The I O Address Map An overview of the registers for the PCI 2602U board is given below The address of each register can be determined by simply adding the offset value to the base address of the corresponding Bar number More detailed descriptions of each register can be found in the following Register Function Description Bar No Offset Read Write 68H PLX Interrupt Control Status PLX Interrupt Control Status 1 80H PLX DMA Control Status DMA Control Status B8H 200H Initialize Control Status Hardware Status 204H Interrupt Control Status Interrupt Control Status 208H EEPROM Control Status EEPROM Control Status 20CH EEPROM Control Status EEPROM Control Status 210H DIO Mode Control Status DIO Mode Control Status 214H Read DIO Port Write DIO Port 218H Read DI FIFO Data N A 21CH DI FIFO Status N A 220H DO Pattern Output Control Status DO Pattern Output Control Status 22CH Al Scan Mode Control Status Al Scan Mode Control Status Ter 230H Time Tick Status ms N A 234H Time Tick Status us N A 2
25. HHEHEREF CHEER CHEER CHEER CR 25 33 CONT O Ceti ener E ELE EEE EEE ETE 26 4 Hardware INStallatiON os oosooiscoao 20 2v0 2098992027 3352 502 50519220152 SEn ENE EERS EEE 2400085 0800508205 27 5 Software Installation iiie Sis Poetas cin Sore EE re iesus ires Eso MIN NEP P IE haden 31 5 1 Obtaining Installing the Driver Installer Package eese eene eene nennen nnn 31 5 2 PnP Driver Installation oi bee Dear Fees ODD EN ERR FEE DUE EX ORE ATTE XH ESKO NANON REO dA 33 EN 1 User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards 5 3 Verifying The InStallaHOMs cacccssuscessceucsscecseccesesecscsvessecessteeussesacseessveuseneescssuseseastceasesssesaceeeauens 35 5 3 1 Accessing Windows Device Manager cccccccesccccesscccceseccceusececeeeccecesececuenecsceeeceseusecesseeseeenecees 35 5 3 2 Checkthe IIS tall ALON accrersacesecacusespinsiecnbsdpaseetwdususdacuossed niais n N edP SIS Se Pa sit aaa anani a Ekaa aia 37 6 Testing the PCI 2602U BOadd cccccsccocssccccesscccsesccccesscccesscccesscccesscccessccccssscecesscesecs 38 6 1 SO TESEN ININE TEE E E E E 38 6 2 Execute the Test PrograM ssssesccecssecceccsseccccosccecccsssecccooeececoseeccccsoececcosseecccsssecccossececssseceeose 39 Z WORedIster Ades RITE 42 7 1 Determining the I O Address using DOS cccccccsssssssscsssscsscssssssescssssscesesscscsscssescccees 42 L2 hel OAddress Map ccein enn E
26. al Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards ga mx Register 7 4 1 4 wBase 0x224 Interrupt Mode Control Status EENDEN ne ee analog input pacer is done Mal EEN analog input FIFO is half full Hs s Enable AI FIFO Full Interrupt Write a 1 enables interrupt when analog input FIFO is full Yes Yes Enable DI PC Pacer Done Interrupt Write a 1 enables digital input y 7 es es interrupt when pacer done Enable DI PC FIFO Half Full Interrupt Write a 1 enables digital input FIFO half full interrupt Enable DI PC FIFO Full Interrupt Write a 1 enables digital input FIFO 7 es es full interrupt Yes Yes Enable AOO Pattern Done Interrupt Write a 1 enables AOO pattern down interrupt Enable DO PA Pattern Done Interrupt Write a 1 enables PA pattern 7 es es down interrupt Yes Yes Enable External Trigger Interrupt Write a 1 enables external trigger Y es es BEC 9 Enable SYNC I Trigger Interrupt Yes Enable Analog Trigger Interrupt Write a 1 enables analog trigger 7 es es interrupt Enable Timer Interrupt Yes Yes 12 31 Yes User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards o ga x 7 4 2 Digital I O Registers Register 7 4 2 1 wBase 0x210 DIO Mode Control Status Bit Description PA DIO Mode Write a 1 indicates a PA is DO mode Write a O indicates a PA is DI mode A PB DIO Mode Write a 1 indicates a PB is DO mode Write a O indicates
27. anual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE ga x Figure 2 4 1 Connecting to the grounding source input correct method AIO PCI 2602U AIO Al_GND e e Aln Esn Aln Al GND L User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE gv x Figure 2 4 3 Connecting to single ended input configuration AIO All AIn Figure 2 4 4 Connecting to a thermocouple input configuration ED AIO m e e e e I ED Ain AI GND s Do not join LO to AI_GND at the computer Note If the input is not a thermocouple signal an oscilloscope rather than a voltage meter or multimeter should be used to measure the common mode voltage of the Vin before connecting to the PCI 2602U A CAUTION For the connection method shown in Figure 2 4 4 the maximum common mode voltage between the Analog Input source and the AGND pin is 70 Vp p so ensure that the input signal is below this value before continuing If the common mode voltage is above 70 V the input multiplexer will be permanently damaged EN EE User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards o gv p Figure 2 4 5 Connecting to a floating source configuration AI CH 0 HI PCI 2602U AI CH 0 LO A GND 100 kQ 10 MO AI CH n HI AICH n LO A GND P Figure 2 4 6 Connecting to a 4 20 mA Source AI CHn
28. connector cover from the PCI 2602U Step 8 Carefully insert the PCI 2602U card into the P slot by gently pushing down on both sides of the card until it slides into the PCI connector User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards Step 9 Confirm that the card is correctly inserted in the motherboard and then secure the PCI 2602U card in place using the retaining screw that was removed in Step 6 Step 10 Replace the covers on the computer Step 11 Re attach any cables insert the power cord and the switch one the power to the computer Once the computer reboots follow any message prompts that may be displayed to complete the Plug and Play installation procedure refer to Chapter 5 Software Installation User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards 5 Software Installation This chapter provides a detailed description of the process for installing the PCI 2602U driver and how to verify whether the PCI 2602U was properly installed PCI 2602U card can be used on Windows 2000 and 32 64 bit XP 2003 2008 Vista 7 8 based systems and the drivers are fully Plug and Play compliant for easy installation 5 1 Obtaining Installing the Driver Installer Package The driver installer package for the PCI 2602U card can be found on the supplied CD ROM or can be obtained from the ICP DAS FTP web site Install the appropriate driver for yo
29. each group consists of 8 channels When the system is first switched on all groups are configured as Digital Input A custom program can be used to independently re configure each of the four groups as either Digital Input or Digital Output meaning that read operations from Digital Output group will acquire Digital Output values but write operations to the Digital Input group will not do anything A digital filter is also provided for all Digital Input ports When the PA group is set to output mode a digital pattern can be continuously generated on a Digital Output port using a user defined data pattern and data rate that is based on 100 ns high resolution timing Pin Terminal No Pin Assign Assign ment ment 5 V Output 01 35 12 V Output Ext_TRG 02 36 Cnt0_GATE Trg_GATE 03 37 Cnt0_OUT PD Group Pacer OUT 04 38 Cnt0_CLK D GND PC Group PB Group 57 AO_GND PA Grou e 58 AOO0 OUT AO1 REF 25 59 AO0 REF AI GND 26 60 AI GND AI15 AI14 27 61 AI14 AI14 AI13 AI12 28 62 AI12 AI12 AI11 AI10 29 63 AI10 Al10 AI9 AI8 30 64 AI8 AI8 AI7 AI6 31 65 AI6 AI64 AI5 Al4 32 66 Al4 Al4 Al3 AI2 33 67 AI2 Al2 All AIO 34 68 AIO AI0 SE Diff SE Diff e Female SCSI 68 pin CON1 User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE ga x 3 3 CON1 I O Operation The CounterO pin on the CON1 connector can be used as either an event counter or a pulse output The design
30. ect Additional Tasks screen is displayed click the Next button Installation Step 7 When the Download Information screen is displayed click the Next button Procedure Step 8 Select the item Yes restart the computer now press the Finish button System will reboot For more detailed information about how to install the UniDAQ driver refer to Section 2 2 Install UniDAQ Driver DLL of the UniDAQ Software Manual which can be found in the NAPDOS PCI UniDAO Manual folder on the companion CD or can be downloaded from http ftp icodas com pub cd iocard pci napdos pci unidag manual User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE gv x 5 2 PnP Driver Installation Step 1 Correctly shut down and power off your computer and disconnect the power supply and then install the PCI 2602U into the computer NETTE Soa 4 Hardware Installation 3 It is recommended that the driver is installed before installing the hardware as the computer may need to be restarted once the driver is installed in certain operating systems sach as window ore nag tet t Cate V c PCI 2602U refer to Chapter 4 Hardware Installation installation and restarting the computer For detailed information about the hardware installation of the Step 1 install the driver for Me PCI 2602U card Step 2 Power on the computer and complete the Plug and Play installation FN Note More recent operating sys
31. ed as a Board Synchronization Interface The block diagram for the CKO Event Counter is illustrated below CntO CIk CntO Event Counter The block diagram for the CounterO Pulse Output is illustrated below CntO Pulse Output User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards 4 Hardware Installation a Note It is recommended that the driver is installed before installing the hardware as the computer may need to be restarted once the driver is installed in certain operating systems such as Windows 2000 or Windows XP etc Installing the driver first helps reduce the time required for installation and restarting the computer To install PCI 2602U board follow the procedure described below Step 1 Install the driver for the PCI 2602U card on your computer For detailed information about the driver installation refer to Chapter 5 Software Installation For detailed information about the card ID refer to Section 2 2 2 Card ID Switch User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards Step 3 Shut down and switch off the power to the computer and then disconnect the power supply Step 4 Remove the cover from the computer Step 5 Select an empty PCI slot User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards Step 6 Unscrew and remove the PCI slot cover from the computer case Step 7 Remove the
32. er single ended or differential An example of the configuration is illustrated in the figure below Note that before the Analog Input type settings you must complete the hardware and software installation Refer to Chapter 4 Hardware Installation and Chapter 5 Software Installation for more detailed information Step 1 Open the Windows Device Manager Step 2 Expand the DAQ Card item and right click the name of the PCI 2602U Step 3 Select the Properties item from the popup menu Step 4 In the Properties dialog click the Advanced tap Step 5 In the Analog Input Type section select the Differential or Single Ended depending on your requirements ATEN IE File Action view ge 4 Computer EB DAQCard GEA ini A A IDT T EDI DEIN alki mehin P me Disk drives H Display adapters DVDICD ROM drives DE Floppy disk controllers H a Human Interface Devices 1n xranL ontrallers UniDAQ PCI 2602U Multi function Board Properties PX Analog Input Type Disable Uninstall letails Resources PA Digital 1 0 Made PC Digital 1 0 Made Digital Outpt Digital Input Digital Outpt Digital Input FB Digital 1 0 Made PD Digital 1 0 Mode Digital Outpt Digital Input Digital Outpt Digital Input Save Setting S User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE ga x 2 2 4 Digital Input Output Mode
33. erating system to verify the installation 5 3 1 Accessing Windows Device Manager B Windows 2000 XP Step 1 Click the Start button and then point to Settings and click Control Panel Double click the System icon to open the System Properties dialog box Step 2 Click the Hardware tab and then click the Device System Properties System Restore Manager button General Advanced Add Hardware Wizard E The Add Hardware Wizard helps you install hardware Add Hardware Wizard The Device Manager lists all the hardware devices installed on Your computer Use the Device Manager to change the properties of any device B Windows Server 2003 2008 Step 1 Click the Start button and point to Administrative Tools and then click Computer Management option Step 2 Expand the System Tools item in the console tree and then click Device Manager Administrator g Manage Tour Server k ga Command Prompt 2 Sontrourene Bie Administrative Tools Certification Authority ev Windows Explorer Printers and Faxes p Notepad 7 Help and Support User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards B Windows Vista 7 Step 1 Click Start button Step 2 In the Search field type Device Manager and the press Enter p Control Panel 3 Device Manager ark View devices and printers E Update device drivers p See more results device manager
34. f the AD operations Either the Ext_Trg or the Sync_ trigger signal is used to start the delay timer that is used to initiate the AD operations The only difference between a Post trigger and the Delay trigger is the inclusion of the delay timer Delay trigger User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards gv mx After the clock signal is generated AD data will be recorded and saved to the buffer or the FIFO Two clock sources are provided a software clock and a pacer clock The saved data can be transferred to the memory on the PC using either software polling Interrupt transfer or DMA transfer Different combinations of trigger mode clock signal and data transfer can be used to create four different types of AD applications which are summarized below Trigger Mode Clock Mode Transfer Mode K Samples Trigger Source Software Trigger Post Trigger Middle Trigger Pacer Clock Polling ext_Ire Pre Trigger Delay Trigger Software Trigger Post Trigger Pacer Clock Interrupt Delay Trigger Software Trigger Post Trigger Pacer Clock Delay Trigger Notes a Ext Trg source is Pin2 on CONT Refer to Section 2 6 for details The Sync I source is Pin1 of TB1 Refer to Section 2 1 for details User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards ga x 3 2 DI O Operation Four groups are provided on the PCI 2602U board PA PB PC and PD and
35. g 011 enable inside region V2 AD V1 Writing 100 enable an outside region AD V1 AD V2 12 31 Reserved 9 11 User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards ga x 7 4 3 4 wBase 0x294 Al Software Trigger Control Description m Trigger Start Writing a O causes the analog input channel to measure UU input data 131 Reserved 000 00 0 0000000000000 Register 7 4 3 5 wBase 0x294 Al Software Trigger Status Bit Description Software Trigger Data Read Read the analog input data Ye No Trigger Status Reading a 1 indicates a Trigger Status is ready Reading a 16 qe I l 0 indicates a Trigger Status is busy 1731 Reserved es No Register 7 4 3 6 wBase 0x298 Al Scan Address Al Scan Address Register Indicates the scan sequence number during Yes a ae S operation 1631 31 Reserved 00000000000 Register 7 4 3 7 wBase Ox2EC Al mulu ficu Bt Description Read Write oe Yes tes Ye Yes Yes fo e Yes i Input Type Writing a 1 indicates a signal ended type Writing a O indicates a differential type Channel Select 0 Writing a 1 indicates an odd channel Writing a O 12 Yes Yes indicates an even channel Reserved Ye No Reserved Ye No Ye Ves 16 18 Channel Select 1 Indicates value to use analog input channel number EIL div 2 19 31 Reserved User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 26
36. gger The AD channel scan function of the PCI 2602U is called MagicScan and removes most of the work required in acquiring AD values such as selecting the channel setting the gain and setting time triggering the ADC and acquiring the data With the built in MagicScan function and the interrupt features of the PCI 2602U the CPU in the Host system is effectively released from resource heavy the data acquisition tasks Even in channel scan mode different gain code can be implemented for each channel and the sampling rate can still reach a total of 1MS s The PCI 2602U also includes an onboard Card ID switch that can be used to set a unique ID for each board so that they can be instantly recognized if two or more PCI 2602U boards are installed in the same computer If the Digital Input channels are disconnected the status of the Digital Input will remain in Low instead of floating EN 3 User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards o ga x 1 2 Features The following is an overview of the general features provided by the PCI 2602U series board Refer to Section 1 3 for more details B Interface Universal PCI 3 3 V 5 V 2 channel bus mastering scatter gather DMA Card ID switch Auto calibration function B Analog Input Vv V Vv V WV One 16 bit AD converter with maximum of 1M Samples second 16 single ended or 8 differential programmable Analog Inputs channels
37. ibrary Usage examples e wTotalBoards 1 gt There is only one PCI 2602U board installed in this system e wTotalBoards 2 gt There are two PCI 2602U boards installed in this system 2 P2602 GetConfigAddressSpace wBoardNo wBaseAddr wirqNo wBasePLX dwBaseAddr This function is used to read the I O resource information for a PCI 2602U board installed in the system The application will then be able to directly control all of the functions related to the PCI 2602U board e wBoardNo 0toN There are a total N 1 PCI 2602U boards of wBaseAddr e wBaseAddr wBasePLX dwBaseAddr The base address of the PCI 2602U board ewirg the IRQ channel number allocated to this PCI 2602U board EN m User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards 9 EU 59 The following is a sample of the source code for use with DOS Step1 Detect all PCI 2602U cards first wRetValzP2602 Driverlnit amp wTotalBoards printf There are d PCI 2602U Cards in this PC n wBoards Step2 Save resource of all PCI 2602U cards installed in this PC for wBoardNo 0 i wBoards i P2602_GetConfigAddressSpace i amp wBaseAddr wBoardNo amp wlrqNo wBoardNo amp wBasePLX wBoardNo amp dwBaseAddr wBoardNo printf nCard d wBase x wirq x wBasePLX 96x dwBaseAddr Ix WBoardNo wBoardNo wBaseAddr wBoardNo wlrqNo wBoardNo wBasePLX wBoardNo dwBaseAddr wBoardNo Step3
38. ices Ports COM amp LPT Processors 3 Sound video and game controllers GG System devices Universal Serial Bus controllers Opens property sheet For the User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE ga x ig the PCI 2602U Board This chapter provides detailed information about the Self Test process which is used to confirm that PCI 2602U board operating correctly Before beginning the Self Test process ensure that both the hardware and driver installation procedures are fully completed For detailed information about the hardware and driver installation refer to Chapter 4 Hardware Installation and Chapter 5 Software Installation 6 1 Self Test Wiring B Preparing the device Before beginning the Self Test procedure ensure that the following items are available V A CA SCSI15 H optional cable V A DN 68A optional terminal board Step 1 Connect the DN 68A to the CON1 connector on the board using the CA SCSI15 H cable ndn sin din sn sd di im a kt AP AP Kr PA P E User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards o ga mx Analog Input Output Test Wiring Step 2 Open the advanced configuration tool in the Windows Device Manager to configuration the Analog Input type for Single Ended input refer to section 2 2 3 Analog Input Type Setting for more detail information Step 3 Connect the AOO Out Pin58
39. on Boards 2 3 System Block Diagram The following is the block diagram for the PCI 2602 m PCI Bus ie PCI Interface c E 5 N Trigger Local System Controller Control C A P N FIFO 32 ch DI O DI 512 K DO 512K is PN FIFO 8 K be d FIFO 512 K y 16 bit ADC Gain dU EEPROM Calibration EE ER Sync O alice e Sync sore en Ext_Trg AHA HR A fs DAC OUT 0 2 ch 16 bit DAC poni SAAL gt MagicScan Controller M e EIS User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards gv x 2 4 Analog Input Signal Connections The PCI 2602U can be used to measure either single ended or differential type Analog Input signals Although certain signals can be measured using either mode others however can only be measured in one mode or the other and the most suitable mode for the measurement must be determined beforehand In general there are four different methods that can be used for connecting Analog Input signals which are shown below in Figures 2 4 1 to 2 4 5 The connection method depicted in Figure 2 4 1 is suitable for grounding source Analog Input signals The connection method depicted in Figure 2 4 3 is used to measure more channels than that shown in Figure 2 4 1 but is only suitable for
40. ontrol Status Connector I O Control Status Note The length of the register is 32 bits User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards o ga x 7 3 Bar 1 PLX 7 3 1 PLX Control Status Registers B Read Write wBase 0x68 Read Write interrupt Control Status For more detailed information refer to the documentation for the PLX9054 which can be found at http www plxtech com products io pci9054tttechnicaldocumentation B Write wBase 0x80 OxB8 Read Write DMA Control Status For more detailed information refer to the documentation for the PLX9054 which can be found at http www plxtech com products io pci9054 technicaldocumentation User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards gv x ED AEN 7 4 1 Interrupt and Initialize Control Status Registers Register 7 4 1 1wBase 0x200 Initialize Control Status Reset Al Mode Write a 1 and Write a O to resets Al Mode 1 Clear Al FIFO Write a 1 and Write a O to clear Al FIFO Reset Al FIFO Overflow Status Write a 1 and Write a O to resets Al FIFO over flow status EN a m PCI Clear Interrupt Write a 1 and Write a O to clear PCI interrupts mm DI PC FIFO Reset Write a 1 and Write a O to resets digital input FIFO Ly En 7 DO PA FIFO Reset Write a 1 and Write a O to resets digital output FIFO AOO FIFO Reset Write a 1 and Write a O to resets analog output channel O FIFO T Register 7 4 1 2
41. r Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards o ga x 6 Click the Analog Input tab 7 Confirm the configuration setting 8 Click the Start button 9 Check Analog Input on Channel 0 textbox The other channels value for floating number 1 n PCI 2602 CARD ID F Sele Fe m m A n oe n e Analog Input Analog Output Digital Input Digital Output Timer Counter 9 Ch Voltages BE Canter Debug KERERENN TE Card Type 0 Low JPx 20 Gain F HES Range o0 Bipolar 10v sample Rate 100 zB eting Card Type Ir Lowi JPx 20 Gain D HES Range 00 Bipolar 10v sample Rate 100 zh User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards o ga x Register Addresses 7 1 Determining the I O Address using DOS The Plug amp Play BIOS will assign an appropriate I O address for each installed PCI 2602U board during the power on stage Each card includes four fixed ID numbers which are indicated below Model Name PCI 2602U Vendor ID 0x10B5 Device ID 0x9054 Sub Vendor ID 0x3577 Sub Device ID 0x2602 The following functions are provided 1 P2602 Driverlnit amp wTotalBoards This function can be used to detect how many PCI 2602U cards are installed in the system and is implemented based on the PCI Plug amp Play mechanism The function also records the I O resources information for each card and stores the details in the l
42. rigger mode this signal can be used as a synchronous signal for other applications AD External Trigger Gate When the Trg GATE pin is connected to the DGND pin it will disable the external trigger signal to the input AD External Trigger 12 Vy Source 5 Vy Source User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards 3 1 AD Operation The following is the block diagram for the AD system Pollinc Single Ended nterrup Differential FIFO DMA Memory Pacer Clock Software Post Trigger Middle Trigger MagicScan Controller Either the Ext Trg or the Sync I trigger signal is used to initiate a sequence of AD operations If the Software Trigger is used the AD operations will be initiated without using the Ext Trg or the Sync I signals EN 3 User Manual Ver 1 2 Mar 2015 PMH 0028 E J L c EN PCI 2602U Multi Function Boards a u The following is an overview of the five trigger modes WiwerMode scription aa No trigger signal is used and all AD operations are initiated using software Software trigger Either the Ext Trg or the Sync I trigger signal is used to initiate Post trigger the AD operations Either the Ext Trg or the Sync I trigger signal is used to indicate Middle trigger the middle of the AD operations Either the Ext_Trg or the Sync_ trigger signal is used to indicate Pre trigger the end o
43. rite a O to clear DI Pacer Down interrupt DI PC FIFO Half Full Int Reading a 1 indicates a digital input FIFO mm status is half full Reading a O indicates a digital input FIFO status is not Yes Yes half full Write a 1 and write a O to clear DI FIFO Half Full interrupt DI PC FIFO Full Int Reading a 1 indicates a digital input FIFO status is full Reading a O indicates a digital input FIFO status is not full Write a Yes Yes 1 and write a O to clear DI FIFO FULL interrupt AOO Pattern Done Int Reading a 1 indicates a AOO Pattern output is complete Reading a 0 indicates a AOO Pattern output is not complete Write a 1 and write a O to clear AOO Pattern Done interrupt DO PA Pattern Done Int Reading a 1 indicates a DO PA Pattern output is complete Reading a O indicates a PA Pattern output is not complete Write a 1 and write a O to clear PA Pattern Done interrupt External Trigger Int Reading a 1 indicates an external trigger status is ready Reading a O indicates an external trigger status is not ready Analog Trigger Int Reading a 1 indicates an analog trigger status is ready Reading a O indicates an analog trigger status is not ready Write a 1 and write a O to clear analog trigger interrupt Counter Int Reading a 1 indicates an Counter Interrupt status is ready Reading a O indicates an analog trigger status is not ready Write a 1 and write a O to clear analog trigger interrupt Reserved Ye no User Manu
44. tems such as Windows Vista 7 8 will automatically detect the new hardware and install the necessary drivers etc so Steps 3 to 5 can be skipped Step 3 Select Install the software automatically Recommended and click the Next gt button Found New Hardware Wizard Welcome to the Found New Hardware Wizard This wizard helps you install software for DoD AC IPCI 26020 Multi function Board If your hardware came with an installation CD QEA or floppy disk insert it now What do vou want the wizard to da Click Next ta continue User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards Step 4 Click the Finish button Found New Hardware Wizard Completing the Found New Hardware Wizard The wizard has finished installing the software for UmD AC PCI 26020 Multi function Board Click Finish to clase the wizard Cancel J Found New Hardware x Your new hardware is installed and ready to use User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards EE ga x 5 3 Verifying the Installation To verify that the driver was correctly installed use the Windows Device Manager to view and update the device drivers installed on the computer and to ensure that the hardware is operating correctly The following is a description of how access the Device Manager in each of the major versions of Windows Refer to the appropriate description for your the op
45. ur operating system The location and addresses are indicated in the Table5 1 1 below Table 5 1 1 UniDAQ Driver SDK Windows 2000 32 64 bit Windows XP 32 64 bit Windows 2003 Operating f 32 64 bit Windows 2008 32 64 bit Windows Vista 32 64 bit Windows 7 ystem 32 64 bit Windows 2008 32 64 bit Windows 8 Driver Name UniDAQ Driver SDK unidaq win setup xxxx exe CD ROM CD NAPDOS PCI UniDAQ DLL Driver Web site http ftp icodas com pub cd iocard pci napdos pci unidag dll driver Please follow the following steps to setup software Step 1 Double click the UniDAQ Win Steupxxx exe to setup it Installation Procedure Step 2 When the Setup Wizard screen is displayed click the Next gt button Step 3 When the Information screen is displayed click the Next gt button User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards Step 4 Select the folder where the drivers are to install The default path is C ICPDAS UniDAQ But if you wish to install the drivers to a different location click the Browse button and select the relevant folder and then click the Next button Step 5 When the Select Components screen is displayed check PCI 2602U board on the list then click the Next button Step 6 When the Sel
46. ze 512 samples Programmable I O Channels 32 4 port programmable Digital Input 5 V TTL Logic 0 0 8 V Max Logic 1 2 0 V Min 1 0 MHz Typical Compatibility Input Voltage Response Speed Trigger Mode Software Data Transfer Polling User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards Digital Output Compatibility Output Voltage Output Capability DO Readback Operation Mode Response Speed DO Sample Clock frequency Bus Type Data Bus Card ID I O Connector Dimensions Lx W x D Power Consumption Operating Temperature Storage Temperature Humidity 5 V CMOS Logic 0 0 4 V max Logic 1 2 4 V min Sink 6 mA 9 0 33 V Source 6 mA 9 4 77 V Yes Static update Waveform generation 4 0 MHz Typical 10 MHz 3 3 V 5 V Universal PCI 32 bit 16 bit Yes 4 bit SCSI 68 pin 149 mm x 102 mm x 22 mm 1A 9 5 V Max 0 60 C 20 70 C 5 8596 RH Non condensing 1 4 Applications e Signal Analysis e FFT and Frequency Analysis e Transient Analysis e Temperature Monitor e Vibration Analysis e Energy Management e Other Industrial and Laboratory Measurement and Control User Manual Ver 1 2 Mar 2015 PMH 0028 PCI 2602U Multi Function Boards gv x are Configuration 2 1 Board Layout SW1 TP1 TP2 TP3 CON1 TB1 JP1 DIP Switch used to configure the Board ID AGND for AD Calibration Green 10 V for AD Calibration
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