Advantech PCI-1710HG Spécifications

i Copyright Notice This documentation and the software included with this product are copyrighted 2003 by Advantech Co., Ltd. All rights are reserved

x Fig. 5-4 Selecting the device you want to calibrate·············································73 Fig. 5-5 Warning message before start calibratio

90 A.2 PCI-1711/1711L Specifications Analog Input Channels 16 Single-Ended Resolution 12-bit FIFO Size 1K samples Max. Sampling Rate 100 KS/s max

91 Digital Input/Output Input Channels 16 Low 0.4 V max. Input Voltage High 2.4V min. Low 0.4 V max. @ - 0.2mA Input Load High 2.7V min. @ 20µ A

92 A.3 PCI-1716/1716L Specifications Analog Input Channels 16 Single-Ended or 8rdiggerential or combination Resolution 16-bit FIFO Size 1K sample

93 Analog Input ( Only for PCI-1716 ) Channels 2 Resolution 16-bit Operation mode Single output Throughput * 200 KS/s max. per channel ( FSR) Usin

94 General I/O Connector Type 68-pin SCSI-II female Dimensions 175 mm x 100 mm ( 6.9” x 3.9” ) Typical + 5 V @ 850mA + 12V @ 600mA Power Consumption

95 Appendix B. Block Diagrams B.1 Block Diagram of PCI-1710/1710L/1710HG/1710HGL

96 B.2 Block Diagram of PCI-1711/1711L

97 B.3 Block Diagram of PCI-1716/1716L

98 (This page is left blank for hard printing.)

99 Appendix C. Register Structure and Format C.1 Overview The PCI-1710/1710L/1710HG/1710HGL/1

1 Introduction 1 CHAPTER

100 C.2 I/O Port Address Map The PCI-1710/1710L/1710HG/1710HGL/1711/1711L/1716/1716L requires 32 consecutive addresses in the PC's I/O space.

101 Table C-1 PCI-1710/1710L/1710HG/1710HGL/1711/1711L register format (Part 1) Read Base Address +decimal 7 6 5 4 3 2 1 0 Channel Number

102 Table C-1 PCI-1716/1716L register format (Part 2) Read Base Address +decimal 7 6 5 4 3 2 1 0 A/D Data 1 AD15 AD14 AD13 AD12 AD11 AD1

103 Table C-1 PCI-1710/1710L/1710HG/1710HGL/1711/1711L/ 1716/1716L register format (Part 3) Read Base Address +decimal 7 6 5 4 3 2 1 0 Dig

104 Table C-1 PCI-1710/1710L/1710HG/1710HGL/1711/1711L register format (Part 4) Write Base Address +decimal 7 6 5 4 3 2 1 0 Software A/D Tri

105 Table C-1 PCI-1716/1716L register format (Part 5) Write Base Address +decimal 7 6 5 4 3 2 1 0 Software A/D Trigger 1 0 A/D Channel

106 Table C-1 PCI-1710/1710L/1710HG/1710HGL/1711/1711L/ 1716/1716L register format (Part 6) Write Base Address +decimal 7 6 5 4 3 2 1 0 Dig

107 C.3 Channel Number and A/D Data — BASE+0 and BASE+1 BASE+0 and BASE+1 hold the result of A/D conversion data. For PCI-1710/1710L/1710HG/1710HGL

108 For PCI-1716/1716L, the 16 bits of data from the A/D conversion are stored in BASE+1 bit 7 to bit 0 and BASE+0 bit 7 to bit 0. Table C-3 PCI-17

109 C.4 Software A/D Trigger — BASE+0 You can trigger an A/D conversion by software, the card's on-board pacer or an external pulse. BASE+6,

2 (This page is left blank for hard printing.)

110 C.5 A/D Channel Range Setting — BASE+2 Each A/D channel has its own input range, controlled by a gain code stored in the on-board RAM. To cha

111 Table C-7 lists the gain codes for the PCI-1711/1711L. Table C-5 Gain codes for PCI-1710/1710L PCI-1710/1710L Gain Code Gain Input Range(V)

112 Table C-6 Gain codes for PCI-1710HG/1710HGL PCI-1710HG/1710HGL Gain Code Gain Input Range(V) B/U G2 G1 G0 1 -5 to +5 0 0 0 0 10 -0.5

113 Table C-7 Gain codes for PCI-1711/1711L PCI-1711/1711L Gain Code Gain Input Range(V) G2 G1 G0 1 -10 to +10 0 0 0 2 -5 to +5 0 0 1 4

114 C.6 MUX Control — BASE+4 and BASE+5 Table C-8 Register for multiplexer control Write Multiplexer Control Bit # 7 6 5 4 3 2 1 0 BASE

115 ? BASE+4 bit 3 to bit 0, STA3 ~ STA0, hold the start scan channel number. ? BASE+5 bit 3 to bit 0, STO3 ~ STO0, hold the stop scan channel nu

116 For example, the AI0 and AI1 is a pair. When in single-ended mode, we can get data from AI0 and AI1 separately. But if we set them as differentia

117 Warning! Only even channels can be set as differential. An odd channel will

118 C.7 Control Register — BASE+6 The write-only register BASE+6 and BASE+7 allows users to set an A/D trigger source and an interrupt source. Ta

119 IRQEN Interrupt enable bit. 0 Disable 1 Enable ONE/FH Interrupt source bit 0 Interrupt when an A/D conversion occurs

3 1. Introduction Thank you for buying the Advantech PCI-1710/1710L/1710HG/ 1710HGL/1711/1711L/

120 connected to 68 pin SCSI-II connector respectively. 1 A/D and D/A calibration mode The wiring becomes that AI0 is connected to 0 V (AGND), AI2

121 C.8 Status Register — BASE+6 and BASE+7 The registers of BASE+6 and BASE+7 provide information for A/D configuration and operation. Table C-1

122 C.9 Clear Interrupt and FIFO — BASE+8 and BASE+9 Writing data to either of these two bytes clears the interrupt or the FIFO. Table C-11 Reg

123 C.11 D/A Output Channel 0 — BASE+10 and BASE+11 The write-only registers of BASE+10 and BASE+11 accept data for D/A Channel 0 output. PCI-17

124 C.12 D/A Output Channel 1 — BASE+12 and BASE+13 The PCI-1716 provides the innovative design as gate control for Analog Output function. It wo

125 C.13 D/A Output Channel 1 — BASE+12 and BASE+13 The write-only registers of BASE+12 and BASE+13 accept data for D/A channel 1 output. PCI-17

126 C.14 D/A Reference Control — BASE+14 The write-only register of BASE+14 allows users to set the D/A reference source. PCI-1710L/1710HGL/1711L/

127 DAn_B/U for D/A output channel n 0 Bipolar 1 Unipolar DAn_I/E Internal or external reference voltage for D/A output channel n 0 In

128 C.15 Digital I/O Registers — BASE+16 and BASE+17 The PCI-1710/1710L/ 1710HG/1710HG/1711/1711L/1716/1716L offers 16 digital input channels and

129 C.16 Calibration Registers — BASE+18 and BASE+19 The PCI-1716/1716L offers Calibration registers BASE+16 and BASE+17 for user to calibrate the

4 w/o analog output PCI-1711 12-bit, 100kS/s 16-ch S.E. Inputs Low-cost Multifunction card PCI-1711L 12-bit, 100kS/s 16-ch S.E. Inputs Lo

130 Table C-21 Calibration Command and Data Register PCI-1716/1716L Command Code Meaning CM3 CM2 CM1 CM0 A/D bipolar offset adjust 0 0 0 0 A/D

131 C.17 Board ID Registers — BASE+20 The PCI-1710/1710L/1710HG/1710HGL/1716/1716L offers Board ID register BASE+20. With correct Board ID setting

132 (This page is left blank for hard printing.)

133 Appendix D. 82C54 Counter Chip Function D.1 The Intel 82C54 The PCI-1710/1710L/1710HG/1710

134 Counter 1 & 2 Counter 1 and counter 2 of the counter chip are cascaded to create a 32-bit timer for the pacer trigger. A low-to-high edge of

135 D.2 Counter Read/Write and Control Registers The 82C54 programmable interval timer uses four registers at addresses BASE + 24(Dec), BASE + 26(Dec

136 Description: SC1 & SC0 Select counter Counter SC1 SC0 0 0 0 1 0 1 2 1 0 Read-back c

137 BCD Select binary or BCD counting BCD Type 0 Binary counting 16-bits 1 Binary coded decimal (BCD) counting If you set the module for bina

138 by C2 to C0 contains a byte which shows the status of the counter. The data format of the counter read/write register then becomes: BASE+24/26/2

139 D.3 Counter Operating Modes MODE 0 – Stop on Terminal Count The output will initially be low after you set this mode of operation. After you load

5 1.1 Features The Advantech PCI-1710/1710L/1710HG/1710HGL/1711/1711L/ 1716/1716L provides users with the most requested measurement and control funct

140 pulses, the present period will not be affected, but the subsequent period will reflect the value. The gate input, when low, will force the outp

141 (N+1)/2 counts and low for (N-1)/2 counts. MODE 4 –Software-Triggered Strobe After the mo de is set, the output will be high. When the count is

142 D.4 Counter Operations Read/Write Operation Before you write the initial count to each counter, you must first specify the read/write operation t

143 latch commands, one for each counter latched. The read-back command can also latch status information for selected counter(s) by setting STA bit

144 (This page is left blank for hard printing.)

145 Appendix E. PCI-1716/1716L Calibration (Manually) E.1 A/D Calibration Regular and proper c

146 discrepancy is less then 2 LSB. If so, to go to next step. Otherwise, you must change the value and repeat all the procedure in this step again u

147 to clear FIFO. Then to set A/D channel to channel 2, and to set the range as -5 V to +5 V. 9. Writing the value from 0x0300 to 0x03FF sequenti

148 E.2 D/A Calibration (for PCI-1716 only) You can select an on-board +5V or +10V internal reference voltage or an external voltage as your analog o

149 BASE+9 to clear FIFO. Then to set the A/D range as 0 V to 10 V, and to set the D/A range as 0 V to 10 V. Next, writing 0xFFFF to corresponding D/A

6 Plug-and-Play Function The Advantech PCI-1710/1710L/1710HG/1710HGL/1711/1711L/ 1716/1716L is a Plug-and-Play device, which fully complies with the

150 corresponding D/A registers (BASE+10 and BASE+12). 7. Writing the value from 0x0600 to 0x06FF sequentially to Calibration Command and Data regis

151 Table E-2 D/A binary code table A/D code Mapping Voltage Hex. Dec. Bipolar Unipolar 0000h 0 -FS 0 7FFFh 32767 -1 LSB 0.5 FS – 1 LSB 8

152 (This page is left blank for hard printing.)

153 Appendix F. Screw-terminal Board F.1 Introduction The PCLD-8710 Screw-terminal Board provide

154 F.2 Features w Low-cost screw-terminal board for the PCI-1710/1710L/1710HG/ 1710HGL/1711/1711L/1716/1716L with 68-pin SCSI-II connector. w On-

7 On-board FIFO (First-In-First-Out) Memory The PCI-1710/1710L/1710HG/1710HGL/1711/1711L/1716/1716L provides an on-board FIFO memory buffer, storing u

8 On-board Programmable Counter The PCI-1710/1710L/1710HG/1710HGL/1711/1711L/1716/1716L is equipped with a programmable counter, which can serve as

9 1.2 Installation Guide Before you install your PCI-1710/1710L/1710HG/1710HGL/1711/ 1711L/1716/1716L card, please make sure you have the following n

ii (This page is left blank for hard printing.)

10 Fig.1-1 Installation Flow Chart

11 1.3 Software Advantech offers a rich set of DLL drivers, third-party driver support and application software to help fully exploit the functions of

12 1.4 Accessories Advantech offers a complete set of accessory products to support the PCI-1710/1710L/1710HG/1710HGL/1711/1711L/1716/1716L cards. T

13 n PCLD-8710 The PCLD-8710 is a DIN-rail mounting screw-terminal board to be used with any of the PC-LabCards which have 68-pin SCSI connectors.

14 (This page is left blank for hard printing.)

15 Installation CHAPTER 2

16 (This page is left blank for hard printing.)

17 2. Installation This chapter gives users a package item checklist, proper instructions about

18 before opening the bag. w Take hold of the card only by the metal bracket when removing it out of the bag. After taking out the card, first you

19 2.2 Driver Installation We recommend you to install the driver before you plug the PCI-1710/1710L/1710HG/1710HGL/1711/1711L/1716/1716L card into

iii Contents 1. Introduction···········································································································3 1.1 Features

20 Note: If the autoplay function is not enabled on your computer,

21 2.3 Hardware Installation Note: Make sure you have installed the driver first before yo

22 Step 7: Connect appropriate accessories (68-pin cable, wiring terminals, etc. if necessary) to the PCI card. Step 8: Replace the cover of your com

23 Fig.2-3 The device name listed on the Device Manager Note: If

24 2.4 Device Setup & Configuration The Device Manager program is a utility that allows you to set up, configure and test your device, and later

25 Fig. 2-4 The Device Manager dialog box Fig. 2-5 Selecting the device you want to install

26 Configuring the Device Step 4: On the Device Setting dialog box (Fig. 2-6), you can configure the voltage source either as External or Internal,

27 Fig. 2-7. Fig. 2-7 The Device Name appearing on the list of devices box Note: As w

28 2.5 Device Testing Following through the Setup and Configuration procedures to the last step described in the previous section, you can now procee

29 Note: n You can access the Device Test dialog box either by the

iv 5.2 PCI-1711/1711L Calibration····································································67 5.3 PCI-1716/1716L Calibration ··············

30 Testing Analog Output Function (only for PCI-1710/ 1710HG/1711/1716) Click the Analog Output tab to bring it up to the foreground. The Analog Outp

31 Testing Digital Input Function Click the Digital Input tab to show forth the Digital Input test panel as seen below. Through the color of the lamp

32 Testing Digital Output Function Click the Digital Output tab to bring up the Digital Output test panel such as the one seen on the next page. By p

33 Testing Counter Function Click the Counter Tab to bring its test panel forth. The counter channel (Channel 0) offers the users two options: Event

34 (This page is left blank for hard printing.)

35 Signal Connections CHAPTER 3

36 (This page is left blank for hard printing.)

37 3. Signal Connections 3.1 Overview Maintaining signal connections is one of the most impor

38 Note: The three ground references AIGND, AOGND, and DGND should be used discreetly eac

39 Fig. 3-1 I/O connector pin assignments for the PCI-1710/ 1710L/1710HG/1710HGL/1711/1711L/1716/1716L *: Pins 23~25 and pins 57~59 are not define

v C.15 Digital I/O Registers — BASE+16 and BASE+17 ······················· 128 C.16 Calibration Registers — BASE+18 and BASE+19····················

40 I/O Connector Signal Description Table 3-1 I/O Connector Signal Description Signal Name Reference Direction Description AI<0…15> AIGND In

41 3.3 Analog Input Connections The PCI-1710/1710L/1710HG/1710HGL/1716/1716L supports both 16-channel Single-Ended or 8 differential A/D Input, how

42 Fig. 3-2 Single-ended input channel connection Differential Channel Connections The differential input channels operate with two signal wires

43 To avoid the ground loop noise effect caused by common-mode voltages, you can connect the signal ground to the Low input. Fig. 3-3 shows a dif

44 against the AIGND. Fig. 3-4 shows a differential channel connection between a floating signal source and an input channel on the PCI-1710/1710L/

45 and rb, for example, if the input impedance rs is 1 kW, and each of the two resistors is 100 kW, then the resistors load down the signal source wi

46 3.4 Analog Output Connections The PCI-1710/1710HG/1711/1716 provides two D/A output channels (PCI-1710L/1710HGL/1711L/1716L are not designed to

47 3.5 Trigger Source Connections Internal Pacer Trigger Connection The PCI-1710/1710L/1710HG/1710HGL/1711/1711L/1716/1716L includes one 82C54 com

48 3.6 Field Wiring Considerations When you use the PCI-1710/1710L/1710HG/1710HGL/1711/1711L/ 1716/1716L to acquire data from outside, noises in th

49 signal cable at a right angle to the power line to minimize the undesirable effect. w The signals transmitted on the cable will be directly affec

vi (This page is left blank for hard printing.)

50 (This page is left blank for hard printing.)

51 Software Overview CHAPTER 4

52 (This page is left blank for hard printing.)

53 4. Software Overview This chapter gives you an overview of the software programming choices

54 Register-level Programming Register-level programming is reserved for experienced programmers who find it necessary to write codes directly at the

55 For instructions on how to begin programming works in each development tool, Advantech offers a Tutorial Chapter in the DLL Drivers Manual for you

56 Programming with DLL Driver Function Library Advantech DLL driver offers a rich function library to be utilized in various application programs. T

57 error message. Or you can refer to the DLL Driver Error Codes Appendix in the DLL Drivers Manaul for a detailed listing of the Error Code, Error I

58 (This page is left blank for hard printing.)

59 Calibration CHAPTER 5

vii Tables Table 3-1 I/O Connector Signal Description ························································40 Table C-1 PCI-1710/1710L/1710HG/1710

60 (This page is left blank for hard printing.)

61 5. Calibration This chapter provides brief information on PCI-1710/1710L/ 1710HG/1710HGL/171

62 voltage source. Note: Before you calibrate the A/D or D/A function, you must turn on t

63 Fig. 5-1 PCI-1710/1710L/L1710HG/1710HGL VR assignment The following list shows the function of each VR : VR Function VR1 A/D unipolar offset

64 A/D Calibration Regular and accurate calibration procedures ensure the maximum possible accuracy. The ADCAL.EXE calibration program leads you thro

65 D/A Calibration (for PCI-1710/1710HG only) In a way similar to the ADCAL.EXE program, the DACAL.EXE program leads you through the whole D/A calibr

66 Then, run the ADCAL.EXE program to finish the self-A/D calibration procedure. 1. Set AI0 as differential, bipolar, range ±5 V and AI2 as differe

67 5.2 PCI-1711/1711L Calibration Three calibration programs are included on the companion CD-ROM : ADCAL.EXE A/D calibration program DACAL.EXE

68 VR Assignment There are four variable resistors (VRs) on the PCI-1711 card and two variable resistors (VRs) on the PCI-171L card. These variable

69 A/D Calibration Regular and accurate calibration procedures ensure the maximum possible accuracy. The A/D calibration program ADCAL.EXE leads you

viii Table C-14 Register for load D/A channel 1 data ············································· 124 Table C-15 Register for D/A channel 1 data····

70 You can adjust VR3 and VR4 until the D/A channel 0 and 1 outpu

71 5.3 PCI-1716/1716L Calibration A calibration utility, AutoCali, is included on the companion CD-ROM : AutoCali.EXE PCI-1716/1716L calibration

72 Calibration Utility The calibration utility, AutoCali.EXE, provides four functions - auto A/D calibration, auto D/A calibration, manual A/D cali

73 Step 2: Select PCI-1716/1716L in the ADSDAQ dialog box. Fig. 5-4 Selecting the device you want to calibrate Step 3: After you start to calibrat

74 A/D channel Auto-Calibration Step 4: Click the Auto A/D Calibration tab to show the A/D channel auto-calibration panel (Fig. 5-6). Press the start

75 Step 6: The second A/D calibration procedure is enabled (Fig. 5-8) Fig. 5-8 A/D Calibration Procedure 2 Step 7: The third A/D calibration proce

76 Step 8: Auto-calibration is finished. (Fig. 5-10) Fig. 5-10 A/D Calibration is finished D/A channel Auto-Calibration Step 9: Click the Auto D/A

77 Fig. 5-11 Range Selection in D/A Calibration Step 10: D/A channel 0 calibration is enabled (Fig. 5-12) Fig. 5-12 Calibrating D/A Channel 0

78 Step 11: D/A channel 1 calibration is enabled (Fig. 5-13) Fig. 5-13 Calibrating D/A Channel 1 Step 12: Auto-calibration is finished (Fig. 5-14

79 A/D channel Manual-Calibration Step 1: Click the Manual A/D Calibration tab to show the A/D channel manual calibration panel. Before calibrating,

ix Figures Fig.1-1 Installation Flow Chart ···············································································10 Fig.2-1 The Setup Screen

80 Fig. 5-15 Selecting Input Rage in Manual A/D Calibration panel Step 2: According to the difference between reference voltage and receiving dat

81 Step 3: Adjust the registers until they fall between the input voltage from the standard voltage reference and the receiving voltage reflected in

82 Step 2: For example, choose channel 0; select the Range and select the wished output voltage code or value from the radio buttons (Fig. 5-17 and F

83 Step 3: According to the difference between the output voltage from D/A channel and the value in the multi-meter, adjust the gain, bipolar offset

84 (This page is left blank for hard printing.)

85 Appendixes

86 (This page is left blank for hard printing.)

87 Appendix A. Specifications A.1 PCI-1710/1710L/1710HG/1710HGL Analog Input Channels 16 sin

88 Analog Output Channels 2 Resolution 12-bit Using Internal Reference 0 ~ +5V, 0 ~ +10 V Output Range (Internal & External Reference) Using Ex

89 General I/O Connector Type 68-pin SCSI-II female Dimensions 175 mm x 100 mm ( 6.9” x 3.9” ) Typical + 5 V @ 850mA Power Consumption Max. + 5 V