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ADLINK Technology PCI-8136 User Manual

General purpose multi-function i/o card
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Manual Rev.
Revision Date:
Part No:
Advance Technologies; Automate the World.
PCI-8136
General Purpose
Multi-Function
I/O Card
User's Manual
2.00
July 5, 2007
50-11120-1010

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Summary of Contents for ADLINK Technology PCI-8136

  • Page 1 PCI-8136 General Purpose Multi-Function I/O Card User’s Manual Manual Rev. 2.00 Revision Date: July 5, 2007 Part No: 50-11120-1010 Advance Technologies; Automate the World.
  • Page 2 Copyright 2007 ADLINK TECHNOLOGY INC. All Rights Reserved. The information in this document is subject to change without prior notice in order to improve reliability, design, and function and does not represent a commitment on the part of the manufacturer.
  • Page 3 Getting Service from ADLINK Customer Satisfaction is top priority for ADLINK Technology Inc. Please contact us should you require any service or assistance. ADLINK TECHNOLOGY INC. Web Site: http://www.adlinktech.com Sales & Service: Service@adlinktech.com TEL: +886-2-82265877 FAX: +886-2-82265717 Address: 9F, No. 166, Jian Yi Road, Chungho City,...

  • Page 5: Table Of Contents

    Table of Contents Table of Contents..............i List of Tables................iii List of Figures ................ iv 1 Introduction ................ 1 Features................2 Specifications............... 2 Software Support ..............4 2 Installation ................5 What You Have..............5 Outline Drawing ..............6 Hardware Installation ............
  • Page 6 DA Conversion..............29 DA Output by Trigger Source ........29 DIO ..................30 Digital Input ..............30 Digital Output ..............31 Pulse Input and Position Compare ........32 Pulse Input ..............32 Encoder Counter Value Capture (latch) ......33 Encoder Counter Value Compare ......... 34 Pulse Output ..............

  • Page 7: List Of Tables

    List of Tables Table 2-1: CN1: Main Connector ..........8 Table 2-2: CN2: External Power Input ........10 Table 4-1: _8136_S_Get_Int_Status ........38 List of Tables...
  • Page 8 List of Figures Figure 2-1: PCB Layout of the PCI-8136 ........6 Figure 3-1: Analog input circuit ..........15 Figure 3-2: Analog output circuit ..........16 Figure 3-3: Digital input circuit............ 17 Figure 3-4: Digital output circuit ..........19 Figure 3-5: Pulse input (encoder counter) circuit ....... 22 Figure 3-6: Connection to line driver output .......

  • Page 9: Introduction

    Introduction The PCI-8136 is a multi function DAQ card with 6-CH AD for sig- nal measurement, and 6-CH 16-bit DA for precise voltage output. It also has six-channels 32-bit differential encoder counters and six pulse train generators, both supporting three kinds of differen- tial pulse types: Out/Dir, A/B phase, CW/CCW.

  • Page 10: Features

    1.1 Features The PCI-8136 provides ADPIO functions for users. The ADPIO stands for Analog/Digital/Pulse Input/Output. The following list summarizes the main features of the PCI-8136. 32-bit PCI-bus, plug and play 6 channels 16-bit analog output 6 channels analog input 19 channels isolated digital input...
  • Page 11 Analog Output 6 output channels Output range: bipolar, ±10V 16-bit DAC resolution, 14-bit accuracy guaranteed Settling time: 2 µ second Voltage output drive: 5 mA max. Digital Input 19 input channels for NPN type sensor Input impedance: 4.7 K Ohms Max.

  • Page 12: Software Support

    Pulse Output (Pulse Generator) 6 output channels with differential line drivers Pulse command type: CW/CCW, Pulse/Direction, A/B Phase Maximum pulse rate: 500 kHz with 1µ second pulse width. Timer One 24-bit programmable timer Base clock: 33 MHz from PCI bus General Specifications Connectors: 100-pin SCSI-type connector...

  • Page 13: Installation

    Installation This chapter describes how to install the PCI-8136 hardware and software correctly. Please follow the following steps. Check what you have (section 2.1) Check the PCB (section 2.2) Install the hardware (section 2.3) Install the software driver (section 2.4)

  • Page 14: Outline Drawing

    2.2 Outline Drawing Figure 2-1: PCB Layout of the PCI-8136 CN1: Main Connector CN2: External Power Input CN3: DB25 Connector for analog input/output and remote I/O CN4: DB9 Connector for remote I/O Note: Remote I/O function is reserved for special requests...

  • Page 15: Hardware Installation

    PCI cards in the system. 2.3.2 PCI slot selection Your computer will probably have both PCI and ISA slots. Do not force the PCI card into a PC/AT slot. The PCI-8136 can be used in any PCI slot. 2.3.3 Installation Procedures 1.

  • Page 16: Software Installation

    sight, is to consult the BIOS documentation that comes with your system. 2.4 Software Installation Please refer to the Software Installation Guide. 2.5 CN1: Main Connector The CN1 is the major connector for the Digital I/O, Pulse IO and Analog output signals. No.
  • Page 17 No. Name I/O Function No Name I/O Function EA2+ Encoder A-phase (+), (2) EA3+ Encoder A-phase (+), (3) EA2- Encoder A-phase (-),(2) EA3- Encoder A-phase (-), (3) EB2+ Encoder B-phase (+),(2) EB3+ Encoder B-phase (+), (3) EB2- Encoder B-phase (-),(2) EB3- Encoder B-phase (-), (3) EZ2+...

  • Page 18: Cn2: External Power Input

    Twisted wire: 0.08 mm to 0.32 mm (AWG28 to AWG22) Naked wire length: 10 mm standard 4. The EX+24V is shorted inside PCI-8136 with COM+ in CN1 (No. 6,7,8). 5. The EXGND is shorted inside PCI-8136 with COM- in CN1 (No. 55,56). Installation...

  • Page 19: Cn3 Pin Assignments: Db25 Connector

    2.7 CN3 Pin Assignments: DB25 Connector The signals on CN3 are for Analog input and remote serial IO. Note1: The DAC1-3 pins are the same with those on CN1 Note2: The Remote Serial IO #2 is reserved. 2.8 CN4 Pin Assignments: DB9 Connector The signals on CN4 are for remote serial IO#1.
  • Page 20 Installation...

  • Page 21: Signal Connections

    The signal connections of all the I/O signals are described in this chapter. Please refer to the contents of this chapter before wiring the cable between the PCI-8136 and IO Device. This chapter contains the following sections: Section 3.1 Analog Inputs Section 3.2 Analog Outputs...

  • Page 22: Analog Input

    3.1 Analog Input The PCI-8136 provides 6 A/D converter channels. The analog source is selectable for each channel to be ±10V DC (Default) or ±20 mA automatically. To avoid ground loops and get more accuracy measurement of A/ D conversion, it is quite important to understand the signal source type.

  • Page 23: Figure 3-1: Analog Input Circuit

    ground path must be connected. Figure 3.1.2 shows the connec- tion of differential analog input sources. Figure 3-1: Analog input circuit Signal Connections...

  • Page 24: Analog Output

    3.2 Analog Output The PCI-8136 provides 6 16-bit Digital-to-Analog converter chan- nels. The output voltage ranged from -10 V to +10V. To make cor- rect connection, please refer to following figure: Figure 3-2: Analog output circuit The Analog outputs are all single ended with common ground 'AGND'.

  • Page 25: Digital Input

    3.3 Digital Input The PCI-8136 provides 19 digital inputs with 2500V rms isolation. The system recognizes a logical '1' when no current goes from COM+ to DIf, and, Logical '0' is returned when current goes from COM+ to DIf. The max current passing trough DIf must be less than 20mA.
  • Page 26 The following is the pin assignment information for digital input. Signal PIN Connector Function DI00 CN1 (SCSI II – 100 Pin) Digital Input Ch. 00 DI01 59 CN1 (SCSI II – 100 Pin) Digital Input Ch. 01 DI02 13 CN1 (SCSI II – 100 Pin) Digital Input Ch.

  • Page 27: Digital Output

    3.4 Digital Output The PCI-8136 provides 7 open collector outputs with 2500 V rms isolation. The maximum output switching frequency is 10 kHz, when the continuous output supply current is subject to 500mA/ total, 90mA/CH(typical), and 150mA/CH(max). In power-on state, the system issues a logical '0'.
  • Page 28 Signal PIN Connector Function COM- 55 CN1 (SCSI II – 100 Pin) DIO Common Ground COM- 56 CN1 (SCSI II – 100 Pin) DIO Common Ground Signal Connections...

  • Page 29: Pulse Input (Encoder Counter)

    3.5 Pulse Input (Encoder Counter) The PCI-8136 provides 6 differential pulse inputs with 2500V rms isolation. The pulse mode is software programmable to be AB- phase, CW/CCW, or Pulse/Direction, and the counter speed goes up to 2 MHz. The relative signal names, and pin numbers are shown in the following tables.

  • Page 30: Figure 3-5: Pulse Input (Encoder Counter) Circuit

    Signal PIN Connector Function EB4+ 35 CN1 (SCSI II – 100 Pin) Encoder CH.4 B-Phase (+) EB4- 36 CN1 (SCSI II – 100 Pin) Encoder CH.4 B-Phase (-) EZ4+ 37 CN1 (SCSI II – 100 Pin) Encoder CH.4 Z-Phase (+) EZ4- 38 CN1 (SCSI II –...

  • Page 31: Figure 3-6: Connection To Line Driver Output

    Connection to Line Driver Output To drive the PCI-8136 encoder input, the driver output must pro- vide at least 3.5V across the differential pairs with at least 6 mA driving capability. The ground level of the two sides must be tight together too.

  • Page 32: Figure 3-7: Connect To Open Collector Output

    Figure 3-7: Connect to open collector output Signal Connections...

  • Page 33: Pulse Output (Pulse Generator)

    3.6 Pulse Output (Pulse Generator) The PCI-8136 provides 6 differential pulse output channels. The pulse mode is software programmable to be Pulse/Direction, CW/ CCW, or AB-phase, and the output frequency goes up to 500 KHz. The operations of pulse output channels are quite straightforward.

  • Page 34: Vcc Pin

    There is one pin named VCC+5V on Pin5 of CN1. This voltage source is from external 24V. Please don't use this voltage source on any device which is connected to PCI-8136's isolation I/Os. If not, the grounds will be connected at both of the isolative sides and the noise will be introduced from this loop.

  • Page 35: Operation Theory

    Operation Theory This chapter describes the detail operation of the PCI-8136 card. Contents of the following sections are as following. Section 4.1: AD Conversion and Preloaded Trigger Section 4.2: DA Conversion Section 4.3: DIO Section 4.4: Pulse Input and Position Compare Section 4.5: Pulse Output...

  • Page 36: Ad Conversion And Preloaded Trigger

    4.1 AD Conversion and Preloaded Trigger 4.1.1 ADC The PCI-8136 provides 6 differential ADC channels. Each channel consists of two inputs. One for a (+) signal and the other for a (-) signal. The input signal may have a voltage range from –10 ~ +10V or current range from –20mA ~ 20mA.

  • Page 37: Da Conversion

    4.2 DA Conversion The PCI-8136 has a 6 channel 16-bit, bipolar (±10V DC) digital to analog converter. The D (value assigned) to A (voltage output) converting chart is showed bellow. 4.2.1 DA Output by Trigger Source PCI-8136 allows users to set a pre-load value for each DAC chan- nel.

  • Page 38: Dio

    4.3 DIO 4.3.1 Digital Input The PCI-8136 provides 19 digital input channels with 2500Vrms isolation. The DI channel is logically “HIGH” when no current goes from COM+ to DIf, and, Logically “LOW” when current goes from COM+ to DIf. The max current passing through DIf must be less than 20mA.

  • Page 39: Digital Output

    4.3.2 Digital Output The PCI-8136 provides 7 open collector output channels with 2500Vrms isolation. Please carefully refer to section 3.4 for the cir- cuit wiring. DO COM+ ULN2003 DOut PhotoCouple Isolation DGND EXGND Inside PCI-8136 Related functions: _8136_D_Output(), _8136_D_OutputA(): please refer to sec- tion 5.4...

  • Page 40: Pulse Input And Position Compare

    4.4 Pulse Input and Position Compare 4.4.1 Pulse Input The PCI-8136 has 6 32-bit pulse input channels for encoder counter. It can accept 3 kinds of pulse signal: 1. Plus and minus pulse inputs (CW/CCW mode) 2. 90°phase difference signals(AB phase mode) 3.

  • Page 41: Encoder Counter Value Capture (Latch)

    90° phase difference signals Input Mode(AB phase Mode) In this mode, the EA signal is 90° phase leading or lagging in com- parison to the EB signal. Where “lead” or “lag' of phase difference between two signals is caused by the turning direction of motors. The up/down counter counts up when the phase of EA signal leads the phase of EB signal.

  • Page 42: Encoder Counter Value Compare

    5.6 4.4.3 Encoder Counter Value Compare The PCI-8136 provides a position compare function for all six pulse input channels. Once the counter value is reached the pre- set compare value, an interrupt signal will be generated immedi- ately.

  • Page 43: Pulse Output

    4.5 Pulse Output The PCI-8136 provides 6 pulse output channels. They are used to send out constant-frequency pulse trains. When changing the out- put frequency of any channel, there is at most 265ms time delay. There are also 3 kinds of pulse outputs: (1). plus and minus pulse inputs (CW/CCW mode);...
  • Page 44 90° phase difference signals input mode(AB phase Mode) In this mode, the OUT signal is 90° phase leading or lagging in comparison with DIR signal. Where “lead” or “lag' of phase differ- ence between two signals is caused by the direction of pulse train. Related functions: _8136_P_Initial(): please refer to section 5.6 _8136_P_Set_Output_Type(), _8136_P_Send(),...

  • Page 45: Interrupt Control

    4.6 Interrupt Control The PCI-8136 can generate an INT signal to the host PC accord- ing to 7 of factors, refer to _8136_S_Set_Int_factor() function for more details. Type 0 to type 2 are local digital Input interrupts. The following table represents the interrupt setting for local digital...

  • Page 46: Table 4-1: _8136_S_Get_Int_Status

    Table 4-1: _8136_S_Get_Int_Status Use Thread to deal with Interrupt under Windows NT/95 In order to detect the interrupt signal from PCI-8136 under Win- dows NT/95, users must create a thread routine first. Then use APIs provided by PCI-8136 to get the interrupt signal. Each card has 7 events for these interrupts.
  • Page 47 3. Define a Global Function (Thread Body). Use WaitForS- ingleObject() or WaitForMultipleObjects() to wait events. Remember to reset this event after you get the event. UINT IntThreadProc(LPVOID pParam) U32 IntSts; while(ThreadOn==TRUE) ::WaitForSingleObject(hEvent[6],INFINITE); _8136_S_Get_Int_status(0,0,&IntSts); ::ResetEvent(hEvent[6]); return 0; 4. Start the thread( Use a boolean value to control the thread's life ) ThreadOn=TRUE;...
  • Page 48 Operation Theory...

  • Page 49: Function Library

    C++.Net, C++ Builder, and Delphi language. The function prototypes and some common data types are decel- erated in PCI-8136.H. These data types are used by PCI-8136 library. We suggest you to use these data types in your application programs. The following table shows the data type names and their range.

  • Page 50: List Of Functions

    5.1 List of Functions Initialization Section 5.2 _8136_Initial Interface card initialization _8136_S_Close Interface card close _8136_S_Get_IRQ_Channel Get card's IRQ _8136_S_Get_Base_Addr Get card's base address System Parameters Section 5.3 _8136_S_Set_Timer_Value Set Timer click count Digital I/O Section 5.4 _8136_D_Output Digital output for one bit _8136_D_Input Digital input for one bit _8136_D_OutputA...
  • Page 51 _8136_P_Clear Clear encoder counter _8136_P_Send Send a constant pulse train _8136_P_Stop Stop pulse train _8136_P_Change_Speed Change pulse train frequency _8136_P_Read_Index Read index value _8136_P_Set_Index_Latch Set index latch type _8136_P_Read_Latch_Value Read a latched encoder data _8136_P_Set_Compare_Value Set a encoder compare data _8136_P_Get_Stock_Count _8136_P_Set_Input_Logic Interrupt...

  • Page 52: Initialization

    PCI-8136's information _8136_S_Get_Base_Addr Although PCI-8136 is a PCI interface card, user can use this func- tion to get the I/O Base Address which is assigned by PCI BIOS. This value has no meaning when operating this card. It is only a...
  • Page 53 Visual Basic 5.0 or higher B_8136_Initial (existCards As Integer) As Integer B_8136_S_Close (ByVal CardNo As Integer) As Integer B_8136_S_Get_IRQ_Channel(ByVal cardNo As Integer, irq_no As Integer) B_8136_S_Get_Base_Addr(ByVal cardNo As Integer, base_addr As Integer ) @ Arguments CardNo: card number designated to set (Range 0 - 3) *existCards: a return value to indicate how many cards are found Irq_no: IRQ channel for this card, return value...

  • Page 54: System Parameters

    _8136_P_Set_Enc_Filter - Set encoder filter clock @ Description _8136_A_Set_DAC_Clk There are 6 serial type DA channels in PCI-8136. This function is for settles the DAC transmission clock. Assign a clock divider number to change the DAC transmission rate. The maximum transmission clock is about 8.33 Mhz and the minimum is about...
  • Page 55 @ Syntax C/C++ (DOS, Windows 95/98/NT/2000) I16 _8136_A_Set_DAC_Clk(I16 CardNo, I16 Clk_Divider) I16 _8136_A_Set_ADC_Clk(I16 CardNo, I16 Clk_Divider) I16 _8136_S_Set_Timer_Value(I16 CardNo,U32 TimerValue) I16 _8136_P_Set_Enc_Filter(I16 CardNo,I16 Filter) Visual Basic 5.0 or higher B_8136_A_Set_DAC_Clk(ByVal CardNo As Integer, ByVal Clk_Divider As Integer) As Integer B_8136_A_Set_ADC_Clk(ByVal CardNo As Integer, ByVal Clk_Divider As Integer ) As Integer B_8136_S_Set_Timer_Value(ByVal CardNo As Integer , ByVal TimerValue As Long ) As Integer...

  • Page 56: Digital I/O

    _8136_D_InputA - Digital Input for all bits once @ Description _8136_D_Output: There are 7 open collector output channels in PCI-8136. This function controls these output bits by setting them on or off. This function can set each channel individually. Please refer to the pin assignment for bit numbers.
  • Page 57 @ Syntax C/C++ (DOS, Windows 95/98/NT/2000) U16 _8136_D_Output( I16 CardNo , I16 Channel , I16 Control ); U16 _8136_D_Input( I16 CardNo , I16 Channel , I16* Control ); U16 _8136_D_OutputA( I16 CardNo , I16 Value ); U16 _8136_D_InputA( I16 CardNo , I32 *Value ); Visual Basic 5.0 or higher B_8136_D_Output(ByVal CardNo As Integer, ByVal Channe As Integer, ByVal Control As Integer)

  • Page 58: Analog I/O

    5.5 Analog I/O @ Name _8136_A_Initial – Initialize ADC/DAC functions for PCI-8136 _8136_A_Write_Value - Output DAC in value _8136_A_Write_Volt - Output DAC in voltage _8136_A_Read_Value - Input from ADC in value _8136_A_Read_Volt - Input from ADC in voltage _8136_A_Output_Control - Start or stop DAC output...
  • Page 59 _8136_A_Read_Value This function reads a digital value from ADC channel. . A word can be read from this function. The mapping value for 0V is 2000, +10V is 4000 and –10V is 0. There are six channels in one card. All channels are free to run individually.
  • Page 60 _8136_A_Set_Compare_Volt This function is for DAC trigger output or simply for generating ADC comparator interrupt. When user wants to output a preload voltage which is triggered by ADC level, the trigger level must be set by this function. The trigger level is set by ADC voltage with a range from –10.0 to 10.0.
  • Page 61 B_8136_A_Read_Value Lib (ByVal CardNo As Integer, ByVal Channel As Integer, Value As Integer) As Integer B_8136_A_Read_Volt (ByVal CardNo As Integer, ByVal Channel As Integer, Volt As Double) As Integer B_8136_A_Output_Control (ByVal CardNo As Integer, ByVal Channel As Integer, ByVal Control As Integer) As Integer B_8136_A_Set_Compare_Value(ByVal CardNo As Integer, ByVal Channel As Integer, ByVal...
  • Page 62 Value 0-5 is for encoder 0-5 Value 8-13 is for ADC channel 0-5 @ Return Code ERR_RangeError ERR_NoError Function Library...

  • Page 63: Pulse I/O

    _8136_P_Set_Output_Type: There are 3 pulse output types in PCI-8136. This function is for configuring pulse output type by a value. Write a value 0 for pulse/ direction type. Write a value 1 for CW/CCW type. Write a value 2 for A/B phase type.
  • Page 64 This function changes the output pulse frequency on line. _8136_P_Read_Index There are 6 index signal inputs in one PCI-8136. This function is for checking the index status on or off. Each bit of this status value represents an index status.
  • Page 65 It will not be clear until next index latched signal is coming. _8136_P_Set_Compare_Value There are 6 encoder counters in PCI-8136. Each encoder can set a compare value individually. This compare value is also a 32-bits value.
  • Page 66 B_8136_P_Set_Output_Type (ByVal CardNo As Integer, ByVal AxisNo As Integer, ByVal PulseFmt As Integer) As Integer B_8136_P_Set_Input_Type (ByVal CardNo As Integer, ByVal EncNo As Integer, ByVal EncFmt As Integer, ByVal Mul As Integer) As Integer B_8136_P_Read (ByVal CardNo As Integer, ByVal EncNo As Integer, EncData As Long) As Integer B_8136_P_Send (ByVal CardNo As Integer, ByVal...
  • Page 67 2 = A/B Phase EncFmt: Input pulse format: 0 = A/B Phase 1 = CW/CCW 2 = Pulse/Direction Mul: for A_B type's mutiplier 0 = 0X A_B Phase 1 = 1X A_B Phase 2 = 2X A_B Phase 3 = 4X A_B Phase EncData: read back encoder data FrqL: Pulse output frequency (Range 0-500k Hz) CompValue: Encoder Compare Value...

  • Page 68: Interrupt

    5.7 Interrupt @ Name _8136_INT_Enable - Set interrupt event handler(WINDOWS ONLY) _8136_INT_Disable - Remove int. event handler(WINDOWS ONLY) _8136_S_Set_Int_Factor - Set interrupt factor _8136_S_INT_Control - Enable/disable interrupt _8136_S_Get_Int_Status - Get Int. status _8136_Callback_Function - Set a call back function for int @ Description _8136_INT_Enable This function is only for Windows system.
  • Page 69 _8136_Callback_Function This function can set a user-defined function to be an ISR. When one interrupt comes, this user-defined function will wake up. This function should be dealt with carefully, and not too much time should be spent on it. @ Syntax C/C++ (DOS, Windows 95/98/NT/2000) U16_8136_INT_Enable(I16 CardNo, HANDLE *phEvent);...
  • Page 70 @ Arguments CardNo: card number designated to set (Range 0 - 3) ChannelNo: channel number designated to set (Range 0 - 5) *phEvent: event handler array contains 7 handler for each card in Windows interrupt system *existCards: a return value to indicate how many cards are found intFlag: enable or disable interrupt signal (Range 0-1) intFactor: enable or disable interrupt for each type in each bit:...
  • Page 71 3 = Both Direction IntSts): function *callbackAddr(I16 AxisNo, pointer type @ Return Code ERR_RangeError ERR_NoError Function Library...
  • Page 72 Function Library...

  • Page 73: Appendix

    Appendix 6.1 Auto Calibration Utility 1. Execute the utility under c:\program file\adlink\pci- 8136\utility. 2. Connect all AD channel to ground. 3. It will remind you when you press “Tune AD” button. Appendix...
  • Page 74 4. After a minute a message will show that the adjustment is complete. 5. Connect all DA channels to AD channels one by one then press “Tune DA” button. 6. It will remind you to connect the AD channel to DA chan- Appendix...
  • Page 75 nel one by one. 7. After a minute a messge will show that the adjustment is complete. 8. Please use multimeter to do measure and adjust. Appendix...
  • Page 76 9. Use the 4 buttons outlined below to do fine adjustments. Please use “Channel” item box to change DA channel. Appendix...
  • Page 77 10.Please press “Save All Channel” to save parameter. 11. You will be asked if you would like to save the adjust- ment value. 11. Appendix...
  • Page 78 12.A save finish window will appear. 13.Press “Exit” button to exit utility. Appendix...

  • Page 79: Analog Output Error Test

    6.2 Analog Output Error Test This appendix is a reference for error values and their analog out- put. The error value depends on your card. Channel 0 Channel 1 Appendix...
  • Page 80 Channel 2 Channel 3 Appendix...
  • Page 81 Channel 4 Channel 5 Appendix...
  • Page 82 Appendix...

  • Page 83: Warranty Policy

    Warranty Policy Thank you for choosing ADLINK. To understand your rights and enjoy all the after-sales services we offer, please read the follow- ing carefully. 1. Before using ADLINK’s products please read the user man- ual and follow the instructions exactly. When sending in damaged products for repair, please attach an RMA appli- cation form which can be downloaded from: http:// rma.adlinktech.com/policy/.
  • Page 84 3. Our repair service is not covered by ADLINK's guarantee in the following situations: Damage caused by not following instructions in the User's Manual. Damage caused by carelessness on the user's part dur- ing product transportation. Damage caused by fire, earthquakes, floods, lightening, pollution, other acts of God, and/or incorrect usage of voltage transformers.

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