Related Manuals for DDC SB-3622 Series
Summary of Contents for DDC SB-3622 Series
- Page 1 (217) 352-9330 | Click HERE Find the DDC SB-3622712-365 at our website:...
- Page 2 Specifications are subject to change without notice. Please visit our Web site at www.ddc-web.com for the latest information 105 Wilbur Place, Bohemia, New York 11716-2482 For Technical Support – 1-800-DDC-5757 ext. 7771 Headquarters U.S.A.
- Page 4 RECORD OF CHANGE Revision Date Pages Description 10/2000 Original Issue 10/2000 Software/Clerical update 10/2001 Software/Clerical update 05/2002 Linux/Clerical update 10/2003 Various Updated: Hardware Installation section, Program_Amplitude details, Specifications Table, Ordering Information, Appendix B, F. Added: New functions, LabVIEW section. 12/2005 Various Software/Clerical update 12/2007...
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Page 5: Table Of Contents
TABLE OF CONTENTS SOFTWARE LICENSE AND POLICIES................VI Trademarks............................vii Update Policy............................vii Technical Support ..........................viii HOW TO USE THIS MANUAL ..................IX Text Usage.............................. ix Symbols and Icons..........................ix Special Handling and Cautions........................ x INTRODUCTION......................1 What is included in this manual? ......................1 System Requirements..........................1 HARDWARE INSTALLATION.................. - Page 6 char* WINAPI Initialize(int card) ......................42 void WINAPI Latch_Channel(int Card, int Channel, int Latch) ..............43 void WINAPI Latch_TwoSpeed_Data(int Card, int Channel, int Start)..........44 void WINAPI Program_Amplitude(int Card, int Amplitude)..............45 void WINAPI Program_Angle(int Card, int Channel, WORD Angle) .............46 void WINAPI Program_Frequency(int Card, int Frequency)..............47 float WINAPI Program_Multiplier(int Card, int Channel, float Multiplier, int Direction, int SpeedMode) 48 void WINAPI Program_Ratio(int Card, int Channel, WORD Ratio) ............49 void WINAPI Program_Resolution(int Card, int Channel, int Resolution) ..........50...
- Page 7 LIST OF FIGURES Figure 1. SB-3622X PCI Card Block Diagram.............. 3 Figure 2. Add New Hardware Wizard Screen............... 4 Figure 3. Search For New Driver Screen ..............5 Figure 4. Search This Location For Driver Screen ............5 Figure 5. Install Driver From Location Screen ..............
- Page 8 LIST OF TABLES Table 1. Jumper Designations..................59 Table 2. “D” Connector Channel Reference Assignments.......... 59 Table 3. Output TBx Jumper Configuration ..............60 Table 4. Reference Multiplier (for non-standard D-S/R output voltages) ....61 Table 5. SB-3622X Pinouts of P1................62 Table 6.
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Page 9: Software License And Policies
License Agreement. You may terminate this agreement at any time by destroying all copies, modifications, and original materials supplied with the Program Product and destroying any portions of the DDC Program Product merged in any form. The user License Agreement basically states the following: •... -
Page 10: Trademarks
GENERAL TERMS. This is the only agreement between User and DDC regarding this Program Product and it may be modified only by a written agreement between those parties. This agreement cannot be modified by purchase orders, advertising or other representation by any person. -
Page 11: Technical Support
Customer support: 1-800-DDC-5757, ext. 7382 Headquarters: 1-800-DDC-5757 Web Site DDC also has an Internet World Wide Web site, which allows customers to easily download new revisions of software and documentation. The Internet address is www.ddc-web.com Data Device Corporation SB-3622X Manual... -
Page 12: How To Use This Manual
• BOLD–text that is written in bold letters indicates important information and table, figure, and chapter references. • BOLD ITALIC–will designate DDC Part Numbers. • Courier New–is used to indicate code examples. • <…> - Indicates user entered text or commands. -
Page 13: Special Handling And Cautions
H O W T O U S E T H I S M A N U A L The Reference icon indicates that there is related material in this manual or in another specified document. The Disk Icon describes information that is related to software. Special Handling and Cautions The SB-3622X series uses state-of-the-art components, and proper care should be used to ensure that the device will not be damaged by Electrical Static... -
Page 14: Introduction
Application software has the capability to simulate position for up to six channels of single speed or three channel pairs of two-speed. Included with each SB-3622X PCI Card is the DDC Toolbox library with example source code that allows users to easily write their own application software for the card. -
Page 15: Hardware Installation
HARDWARE INSTALLATION Card Installation The SB-3622X card is a PCI Target device and may be inserted into any PCI 2.1, or higher, compatible slot. The card is designed for a +5V PCI slot, and will not operate in a +3.3V PCI slot. When installing the card, the following should be observed: NEVER insert or remove the card with the power turned on. -
Page 16: Figure 1. Sb-3622X Pci Card Block Diagram
H A R D W A R E I N S T A L L A T I O N SCOTT-T DIRECT TRANSFORMER OUTPUT AMPLIFIER RH OUT RL OUT OSCILLATOR TRANSFORMER (OPTIONAL) Channel 1 D/S OR D/R OUTPUT PCI BUS SCALING HYBRID CONVERTER... -
Page 17: Windows 9X/2000 Driver Installation
H A R D W A R E I N S T A L L A T I O N Windows 9x/2000 Driver Installation After successfully installing the hardware as described in the Card Installation section on page 2, install the drivers. For a Windows 9x/2000 operating system continue with the following installation instructions. -
Page 18: Figure 3. Search For New Driver Screen
H A R D W A R E I N S T A L L A T I O N Figure 3. Search For New Driver Screen Click on Search for the best driver for your device. Click on the Next button. Figure 4. -
Page 19: Figure 5. Install Driver From Location Screen
H A R D W A R E I N S T A L L A T I O N Type the path of the SB-3622XS0 folder on the MFT CD (Example: E:\Software\SB36220 – where E is the CD drive letter) ), or Browse to locate the SB36220 folder. -
Page 20: Windows Nt Driver Installation
H A R D W A R E I N S T A L L A T I O N Windows NT Driver Installation After successfully installing the hardware as described in the Card Installation section on page 2, install the drivers. For a Windows NT operating system continue with the following installation instructions. - Page 21 Make a note of the data listed for the Logical Device #, Vendor ID/Device ID, Bus #, and Device # (or Slot #). 7. Edit /usr/lib/ddc/DDC_synchro.cfg to set the correct data for the Logical Device #, Vendor ID/Device ID, Bus #, and Device # (or Slot #) previously noted in step 6.
- Page 22 If a rebuild is required, simply run ‘make SB3622.0’ in the ‘synchro’ directory as unprivileged user then copy ‘SB3622.0’ to ‘/usr/lib/ddc’ as ‘root’. 9. Loading and unloading of the driver is accomplished by running the appropriate script as superuser. ‘usr/sbin/SB3622X_load’ will create the required device special files and load the driver into the kernel, and ‘usr/sbin/SB3622X_unload’...
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Page 23: Hardware Configuration
H A R D W A R E I N S T A L L A T I O N Hardware Configuration The SB-3622X is a PCI device, and as such does not require jumpers or switches to set the Base address or interrupt values. The job of configuration for Plug-and-Play PCI configuration is performed by the PC BIOS. -
Page 24: Applications Software Installation
Console Application, a Graphical User Interface and a Synchro.dll file. If you did not receive the application software described on the following pages with your card, please contact DDC customer service. MOTION FEEDBACK BOARD MANAGER APPLICATION A MOTION FEEDBACK BOARD MANAGER Application contained in the CONTROL PANEL is used to define each Synchro/Resolver card type in the system and the address for each Synchro/Resolver card. -
Page 25: Windows Software Installation
Runtime Libraries for Windows 95/98 and Windows NT/2000. The runtime library provides the user with a hardware abstraction layer for the DDC SB-3622X PCI series Digital-to-Synchro/Resolver. This software layer includes routines that dramatically reduce software development time by providing a high level interface to the PCI card. -
Page 26: Motion Feedback Board Manager
MOTION FEEDBACK BOARD MANAGER Once you have installed the hardware and software, you are now ready to configure the card. Device configuration is performed through the use of the Motion Feedback Board Manager Application. Turn on the computer. Click on Windows START. Click on SETTINGS. -
Page 27: Figure 8. Motion Feedback Devices Window
M O T I O N F E E D B A C K M A N A G E R Select Show installed devices from the Motion Feedback Devices window to display status information for the installed card(s). Figure 8. Motion Feedback Devices window Note: The Device # will default to none. -
Page 28: Figure 10. Modify Device Pull Down Menu
M O T I O N F E E D B A C K M A N A G E R Figure 10. Modify Device pull down menu Select an unused device number from the pull down menu (Currently only device numbers 0 to 7 can be selected). Note: If a previously assigned device number is selected, and the Prompt on Replace option is checked on the Motion Feedback Devices menu, the following warning will appear. -
Page 29: Figure 13. Motion Feedback Devices Window (Device # Assigned)
M O T I O N F E E D B A C K M A N A G E R Figure 13. Motion Feedback Devices window (Device # assigned) Note: The Motion Feedback Devices window should display the device assigned to the selected device number. -
Page 30: Figure 15. Device Driver Information Window
M O T I O N F E E D B A C K M A N A G E R Figure 15. Device Driver Information window 13) Select Close to close the Device Driver Information window and return to the Motion Feedback Devices window. -
Page 31: Graphical User Interface (Gui) Application
M O T I O N F E E D B A C K M A N A G E R Graphical User Interface (GUI) Application The Graphical User Interface allows the user to display and set card parameters in analog, digital and binary formats. Parameters are set and display options are selected using a combination of keyboard and mouse commands according to the chosen format. -
Page 32: Figure 18. Select Card Screen
M O T I O N F E E D B A C K M A N A G E R Figure 18. Select Card Screen Select a card from the drop down list, then click Select. Note: Selecting Demo Mode will open up the following demo application screen where input information can be simulated, even if a card is not installed. -
Page 33: Figure 20. Gui Application Screen
M O T I O N F E E D B A C K M A N A G E R Figure 20. GUI Application Screen To set the oscillator amplitude and frequency click Options, this will open the menu shown below. From this menu the display information can be configured along with the hardware configuration. -
Page 34: Figure 22. Options Screen - Select Channels Shown
M O T I O N F E E D B A C K M A N A G E R Figure 22. Options Screen – Select Channels Shown Channel option selections are made per channel or for all channels at one time. -
Page 35: Figure 23. Options Screen - Resolution Shown
M O T I O N F E E D B A C K M A N A G E R Figure 23. Options Screen – Resolution Shown Click on the Resolution scroll bar to select either 12 or 16 bit resolution. Note: The application will automatically recalculate the Revolutions/Second when the resolution is changed. -
Page 36: Figure 24. Options Screen - Reference Frequency And Amplitude Shown
M O T I O N F E E D B A C K M A N A G E R Figure 24. Options Screen – Reference Frequency and Amplitude Shown Once the appropriate oscillator is selected the oscillator amplitude and frequency can be programmed by inputting the values into the Reference Circuit windows. -
Page 37: Figure 25. Angular Position Screen - One-Speed
M O T I O N F E E D B A C K M A N A G E R Figure 25. Angular Position Screen – One-Speed DISPLAY OPTION EFFECT Analog Input Allows the user to set the input angle by using the mouse to move the analog input dial to the desired angle. -
Page 38: Figure 26. Angular Position Screen - Two-Speed
The RD/RDC applications manual system design section, P/N MN- 19220XX-001 and the Synchro/Resolver Conversion Handbook. Both of these documents can be downloaded from the DDC website at www.ddc-web.com. Figure 26. Angular Position Screen – Two-Speed 12) To exit the application screen, select Close. The following warning will be displayed. -
Page 39: Figure 27. Exit - Warning
M O T I O N F E E D B A C K M A N A G E R Figure 27. Exit - Warning Data Device Corporation SB-3622X Manual... -
Page 40: Console Application
M O T I O N F E E D B A C K M A N A G E R Console Application Note: For Linux installations refer to the “Readme.txt” supplied with the Linux software. The Console Application is an easy to use application that enables engineers maintenance personnel... -
Page 41: Figure 29. Console Application Setup
M O T I O N F E E D B A C K M A N A G E R Figure 29. Console Application Setup Enter the card number of the SB-3622X card and hit Enter. This will open up the following Console Application Menu. Figure 30. -
Page 42: Console Application Menu Options
M O T I O N F E E D B A C K M A N A G E R CONSOLE APPLICATION MENU OPTIONS To enter menu options use references below. Channel (1-6) represents channels 1, 2, 3, 4, 5, and 6. Channel Pair (1-3) represents channel pairs 1 (channels 1 and 2), 2 (channels 3 and 4), and 3 (channels 5 and 6). - Page 43 M O T I O N F E E D B A C K M A N A G E R (5) Write Static Two Speed Angles For users who just want to have a static Two Speed display, without using the built-in Two Speed operation mode, the user can enter a coarse angle, and the software will calculate and write the fine angle to the card.
- Page 44 M O T I O N F E E D B A C K M A N A G E R (11) Latch/Unlatch Two Speed Data There is the ability in hardware to latch the Two Speed Data for a given channel pair (1-3).
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Page 45: Function Calls
FUNCTION CALLS Software routines for the SB-3622X Digital-to-S/R PCI Interface Card. The following list contains all of the pertinent Function Calls required by the user. Any Function Calls contained within the Synchro.h file that are not listed here are available from the factory upon request. -
Page 46: Void Winapi Clear_All(Int Card, Int Channel Pairs)
F U N C T I O N C A L L S void WINAPI Clear_All(int Card, int Channel Pairs) DESCRIPTION This routine resets the hardware and clears the Coarse and Fine settings for the given channel pairs. INPUT DATA Card = an integer between 0 and 7 for the card of interest. -
Page 47: Void Winapi Clear_Channel(Int Card, Int Channel)
F U N C T I O N C A L L S void WINAPI Clear_Channel(int Card, int Channel) DESCRIPTION This routine resets the hardware and clears either the Coarse or Fine settings for the given channel. INPUT DATA Card = an integer between 0 and 7 for the card of interest. The card number is set in the MOTION FEEDBACK BOARD MANAGER. -
Page 48: Void Winapi Close(Int Card)
F U N C T I O N C A L L S void WINAPI Close(int Card) DESCRIPTION This routine closes the device driver and writes default values to the card. INPUT DATA Card = an integer between 0 and 7 for the card of interest. The card number is set in the MOTION FEEDBACK BOARD MANAGER. -
Page 49: Void Winapi Enable_Rotation(Int Card, Int Channel)
F U N C T I O N C A L L S void WINAPI Enable_Rotation(int Card, int Channel) DESCRIPTION This routine puts the card into Dynamic Rotation Mode without starting the rotation. INPUT DATA Card = an integer between 0 and 7 for the card of interest. The card number is set in the MOTION FEEDBACK BOARD MANAGER. -
Page 50: Void Winapi Enable_Twospeed(Int Card, Int Channel)
F U N C T I O N C A L L S void WINAPI Enable_TwoSpeed(int Card, int Channel) DESCRIPTION This routine turns the given channels to Two Speed mode, then starts Two Speed. Two Speed Mode is enabled without starting rotation. The Binary Rate Multiplier and the Speed ratio need to be programmed first. -
Page 51: Char* Winapi Get_Card_Address(Int Card)
F U N C T I O N C A L L S char* WINAPI Get_Card_Address(int Card) DESCRIPTION Reads the Registry and returns the value of the card address at that location. This routine can be used to display the address of the card for informational purposes. INPUT DATA Card = an integer between 0 and 7 for the card of interest. -
Page 52: Int Winapi Get_Card_Type(Int Card)
F U N C T I O N C A L L S Int WINAPI Get_Card_Type(int Card) DESCRIPTION This routine reads the Registry and returns the value of the card at that location. Can be used to error check the card number a user has chosen. INPUT DATA Card = An integer between 0 and 7 for the card of interest. -
Page 53: Int Winapi Get_Dll_Version(Void)
F U N C T I O N C A L L S Int WINAPI Get_DLL_Version(void) DESCRIPTION This routine returns the current version of the synchro.dll. Can be displayed in applications, and helps to maintain version control. INPUT DATA There is no inputted data for this routine. RETURNED DATA This routine will return version number of the synchro.dll. -
Page 54: Int Winapi Get_Last_Error(Char *Errormsg)
F U N C T I O N C A L L S Int WINAPI Get_Last_Error(char *ErrorMsg) DESCRIPTION This routine returns the last error that occurred, and clears the error code to 0. Can be called frequently, if needed. INPUT DATA ErrorMsg A char that will hold the last error message. -
Page 55: Char* Winapi Initialize(Int Card)
F U N C T I O N C A L L S char* WINAPI Initialize(int card) DESCRIPTION Opens and reads from the REGISTRY to get the card type. Performs a string comparison with the card type to branch to the appropriate card-specific routine. Closes the REGISTRY when finished. -
Page 56: Void Winapi Latch_Channel(Int Card, Int Channel, Int Latch)
F U N C T I O N C A L L S void WINAPI Latch_Channel(int Card, int Channel, int Latch) DESCRIPTION Either Latches (1) or Unlatches (0) the data for a given channel. This routine will stop any dynamic activity; therefore, it should not be used on a regular basis. INPUT DATA Card = an integer between 0 and 7 for the card of interest. -
Page 57: Void Winapi Latch_Twospeed_Data(Int Card, Int Channel, Int Start)
F U N C T I O N C A L L S void WINAPI Latch_TwoSpeed_Data(int Card, int Channel, int Start) DESCRIPTION When this function is activated, the Two Speed Data will latch as soon as the Coarse angle hits zero from either direction. Doing this verifies that the two Coarse and Fine angles are synchronized. -
Page 58: Void Winapi Program_Amplitude(Int Card, Int Amplitude)
F U N C T I O N C A L L S void WINAPI Program_Amplitude(int Card, int Amplitude) DESCRIPTION This routine allows the user to program the amplitude of the oscillator. Since there is only one oscillator on the card, the channel does not have to be selected. INPUT DATA Card = an integer between 0 and 7 for the card of interest. -
Page 59: Void Winapi Program_Angle(Int Card, Int Channel, Word Angle)
F U N C T I O N C A L L S void WINAPI Program_Angle(int Card, int Channel, WORD Angle) DESCRIPTION This function takes the angle inputted by the user and writes it to the card. This function checks to make sure that the card is not in Dynamic Mode. Therefore, Dynamic Mode is disabled before the angle is written to the card. -
Page 60: Void Winapi Program_Frequency(Int Card, Int Frequency)
F U N C T I O N C A L L S void WINAPI Program_Frequency(int Card, int Frequency) DESCRIPTION This routine allows the user to program the frequency of the oscillator. Since there is only one oscillator on the card, the channel does not have to be selected. INPUT DATA Card = an integer between 0 and 7 for the card of interest. -
Page 61: Float Winapi Program_Multiplier(Int Card, Int Channel, Float Multiplier, Int Direction, Int Speedmode)
F U N C T I O N C A L L S float WINAPI Program_Multiplier(int Card, int Channel, float Multiplier, int Direction, int SpeedMode) DESCRIPTION This function programs the Binary Rate Multiplier. In order to program the Rotational Frequency for the Coarse channel, the Speed Ratio has to be first set. INPUT DATA Card = an integer between 0 and 7 for the card of interest. -
Page 62: Void Winapi Program_Ratio(Int Card, Int Channel, Word Ratio)
F U N C T I O N C A L L S void WINAPI Program_Ratio(int Card, int Channel, WORD Ratio) DESCRIPTION Programs the Two Speed Ratio between Coarse and Fine angles. A ratio of 1:2 would be written as 2. A Ratio of 1:32 would be 32. INPUT DATA Card = an integer between 0 and 7 for the card of interest. -
Page 63: Void Winapi Program_Resolution(Int Card, Int Channel, Int Resolution)
F U N C T I O N C A L L S void WINAPI Program_Resolution(int Card, int Channel, int Resolution) DESCRIPTION Programs the resolution of a channel to 12 or 16 bits. Error checking is performed, the appropriate bits are masked, and the new value is written to the card. INPUT DATA Card = an integer between 0 and 7 for the card of interest. -
Page 64: Int Winapi Read_Control(Int Card, Int Channel)
F U N C T I O N C A L L S int WINAPI Read_Control(int Card, int Channel) DESCRIPTION This routine is a specialized version of the Read Register function. It reads the Control Register specifically. This way the user does not need to know the offsets for each channel. INPUT DATA Card = an integer between 0 and 7 for the card of interest. -
Page 65: Int Winapi Read_Latched_Angle(Int Card, Int Channel, Int* Coarse, Int* Fine)
F U N C T I O N C A L L S int WINAPI Read_Latched_Angle(int Card, int Channel, int* Coarse, int* Fine) DESCRIPTION After the Two Speed Latch bit is set, the latched data can be read to verify operation of the card. -
Page 66: Int Winapi Read_Register(Int Card, Int Register)
F U N C T I O N C A L L S int WINAPI Read_Register(int Card, int Register) DESCRIPTION This is a generic function to read any register on the Card. It can be used to read angle data, or to check the Control Register, etc. The possible offsets are listed in the synchro.h file. -
Page 67: Int Winapi Read_Resolution(Int Card, Int Channel)
F U N C T I O N C A L L S int WINAPI Read_Resolution(int Card, int Channel) DESCRIPTION Reads the given channel, and returns the current resolution. If bits are: 16 Resolution is 16 If bits are: 12 Resolution is 12 INPUT DATA Card = an integer between 0 and 7 for the card of interest. -
Page 68: Void Winapi Start_Rotation(Int Card, Int Channel, Int Start)
F U N C T I O N C A L L S void WINAPI Start_Rotation(int Card, int Channel, int Start) DESCRIPTION This function Starts (Mode = 1) or Stops (Mode = 0) the Dynamic Rotation on a given channel. INPUT DATA Card = an integer between 0 and 7 for the card of interest. -
Page 69: Void Winapi Start_Twospeed(Int Card, Int Channel, Int Start)
F U N C T I O N C A L L S void WINAPI Start_TwoSpeed(int Card, int Channel, int Start) DESCRIPTION This routine is used to Start (1) or Stop (0) the Two Speed rotation. INPUT DATA Card = an integer between 0 and 7 for the card of interest. The card number is set in the MOTION FEEDBACK BOARD MANAGER. -
Page 70: Void Winapi Static_Twospeed(Int Card, Int Channels, Double Coarseangle)
F U N C T I O N C A L L S void WINAPI Static_TwoSpeed(int Card, int Channels, double CoarseAngle) DESCRIPTION This routine writes a user-defined Coarse angle to the Coarse channel, and uses the programmed ratio to calculate and write the Fine angle to the Fine channel. The routine will also check to make sure the card is not in Dynamic Mode when writing to the card. -
Page 71: Setup For Rotation
F U N C T I O N C A L L S Setup for Rotation Setup Example To enable rotation of the card you will need to call the following functions: • Get_Card_Type (int Card) • Initialize (int Card) •... -
Page 72: Signal Input / Output Configuration
APPENDIX A Signal Input / Output Configuration Input and output options are created by factory installation of jumpers (TB1 to TB6) on each of the available channels. Table 1 lists the Jumper Block designations for each channel. Table 2 lists the “D” connector reference input pins for each channel. -
Page 73: Output Configuration
A P P E N D I X A OUTPUT CONFIGURATION TBx Jumpers are configured as per Table 3 to select an appropriate output option. Table 3. Output TBx Jumper Configuration (Applies to TB1-6) Jumpers Installed Output Option # Type Hybrid Type 11.8v Synchro 3-4, 5-6, 7-8, 9-10... -
Page 74: Custom Digital-To-Synchro/Resolver Output Voltages
A P P E N D I X A CUSTOM DIGITAL-TO-SYNCHRO/RESOLVER OUTPUT VOLTAGES For custom digital-to-synchro/resolver output voltages, the reference input voltage must be set as follows: Desired Output Voltage Reference Input Voltage where X is a custom ratio multiplier – refer to Table 4. Table 4. -
Page 75: Pinouts
APPENDIX B Pinouts CARD PINOUTS This section describes the pinouts for the card. The card has one connector, a 50 pin mini D connector. The pinouts for this mating connector are shown in Figure 32 and Table 5 on the following pages. Note: All ground returns are connected to the chassis ground. -
Page 76: Signal Connections
A P P E N D I X B SIGNAL CONNECTIONS • Synchro Mode Connect S1, S2, S3 • S1 = X • S2 = Z • S3 = Y • Resolver Mode Connect • S3 = +SIN • S1 = -SIN •... -
Page 77: Assembly Drawings
APPENDIX C Assembly Drawings MECHANICAL OUTLINE 0.105max Back Component Area Front Component Area 0.57max Single Width card - Applicable to Reference Types 0, 1, 2, 4, 5 and Output Types 0, 1, 2, 3, 4 0.905max Back Component Area Front Component Area 0.57max Double Width card - Applicable to Reference Types 3, 6 and Output Types 5, 6, 7, 8 12.285... -
Page 78: Assembly Drawing
A P P E N D I X C ASSEMBLY DRAWING Figure 34. SB-3622X Card Assembly Data Device Corporation SB-3622X Manual... -
Page 79: Card Photos
D-Type Connector PCI Bus Connector Bottom View Daughter Board* (DDC-71237) Figure 35. SB-3622X Card Photos (2 Channel version shown) *Note: T1, T2, T3, T5 and Daughter Board options shown installed. Actual configuration depends upon card Reference and Output type. Data Device Corporation... -
Page 80: Reference And Output Options
APPENDIX D Reference and Output Options Table 6. Reference Type Reference Reference Type Option External, Solid State Isolated Input External, 26V/400Hz Transformer Isolated Input External, 115V/400Hz Transformer Isolated Input External, 115V/60Hz Transformer Isolated Input Internal, 3.4V High Current (300ma, Differential) Solid State Oscillator Output Internal, High... -
Page 81: Glossary
GLOSSARY Accuracy........A measurement deviation from a calibrated standard. AGND..........Analog Ground. BW (Bandwidth) ......The frequency band in which a system can process information. Also known as the 3dB point. BIT ( Built-in test) ......Digital output that will indicate if a fault condition exists. Carrier Frequency .....Reference or excitation frequency required by the synchro or resolver device and the converter. - Page 82 Type II Tracking ......A type of servo control loop. Velocity........The rate of a change in position for a certain time interval. Vrms ..........Root-mean-square, or effective voltage (Vp x Data Device Corporation SB-3622X Manual...
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Page 83: Index
INDEX Assembly Drawings Icons Card Assembly........67 Caution............ x Card Photos........... 68 Disk ............xi Mechanical Outline....... 66 Idea/Tip ........... x Note............x Reference ..........xi BintoDec VI ..........74 Warning........... x Block Diagram ..........3 Initialize function ........42 Calculate TwoSpeed VI ...... - Page 84 I N D E X Reference Multiplier ......... 63 Special Handling and Cautions....xi Reset_all_counter VI ........ 79 Specifications..........58 Start_Rotation function......55 Start_TwoSpeed function......56 Signal Input/Output Configuration ... 60 Static_TwoSpeed function ......57 Direct "External" Input ......60 System Requirements........
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