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1. #Fpga synchro resolver full size
2. #Fpga synchro resolver 32 bit
3. #Fpga synchro resolver manual
4. #Fpga synchro resolver full

Data made available to the bus is continuously updated (tracking) without interruption output data is accurate, monotonic, and always fresh up to the maximum tracking rate of the converter.

#Fpga synchro resolver 32 bit

to 10KHZ., and convert them into 10-16 bit words of natural binary data.ĭata is addressable in a long word 32 bit format over the IBM PC/ATTM backplane. They will accept any group of upto 8 individual, or 4 sets of paired multispeed 3-wire Synchro, or 4-wire Resolver inputs, or 2-4 wire LVDT/RVDT inputs over a frequency range of 50Hz. The PCI-SynchroTM cards facilitate up to 8 isolated input chanels, and are 1-8 continuously tracking synchro or resolver to IBM PC/ATTM card converters, employing type 2 ratiometric tracking converters for high performance applications.

#Fpga synchro resolver manual

The availability of synchro/resolver I/O on the PCI bus, allows the user to configure his systems with resident test ability, switched manual or automatic self test, and simulation type programs. Isolated D-A/ A-D Converters, DigitalModulators, Demodulators, AC Reference Supplies, & related function converters may used with these cards.

The use of “proven whole converter” modules assures the user of guaranteed system accuracy and dynamics ability, long term conversion integrity and stability.Īll wiring is made through standard or 50 pin “D” style connectors. Power source jumpers are provided to select the +12VDC power source as “Bus-Powered” or as external inputs via the onboard terminal block. The demonstration program (with source code) is provided for Out- Of-The-Box testing, without any user programming required.Īll cards may be user configured completely Bus-Powered, with no external power supplies required. Status registers are provided for various levels of fault indication, Builtin- Test (where applicable), and configuration criteria.Ī sample demonstration program written in Visual C++ is provided with source code, which may be easily modified by the user for his/her particular application. The interface is a solidly-reliable / high-speed, true 32 bit “Long-Word-Level” register access.

#Fpga synchro resolver full

Maximum versatility has been employed on all PCI-SynchroTM products to assure the universal compatibility in adressing, timing, system, and specific computer hardware, software, and backplane independence.Īll PCI-SynchroTM cards are configured with full plug and play capabilities, and are ideally suited to real-time applications because there is no PCI-Bus latency. Both industrial and COTS military grade (extended) temperature range versions are available.ġ00% Transformer Isolation is offered for all AC I/O, and various Isolated DC converters are available as standard product, eliminating concerns for ground-loops, ground interjected (intermittent and ghostly) field noise, inductive surges, differing potentials, and high voltage field transients from effecting the card itself, the sensitive PCI bus backplane and any other device or system sharing these signals.

#Fpga synchro resolver full size

The PCI-SynchroTM Series converters provide up to 4 and 8 channels of Isolated Synchro/Resolver LVDT/ RVDT or absolute encoder interface on a single, standard full size 2 PCI printed circuit card.Ĭomputer Conversions’ full line of standard, proven “whole” Synchro/Resolver input and output type converters, CT’s and CDX’s etc… are used to populate the same standard PCI compliant CCA’s.ĭiffering converters may be mixed to minimize real estate of any type. These cards are ideally suited for both industrial and COTS military concerns, using any PCI bus compatible computer for simulation, ATE, “Absolute” position sensing and motion control, coordinates & process control, navigation, GPS, data acquisition, radar, ships speed indicators, antenna & targetting applications. The PCI-Synchro Series product line are full size PCI 2.2 compliant synchro, resolver, and LVDT I/O cards, and resolver-sensor card sets are used as absolute encoder systems.