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- #Fpga synchro resolver serial#
- #Fpga synchro resolver manual#
- #Fpga synchro resolver software#
- #Fpga synchro resolver Pc#
- #Fpga synchro resolver iso#
Compatible with all Xilinx FPGA platforms with FMC LPC or HPC connectors.Digital board for interfacing with the low and high voltage drive boards.
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An optional AD-DYNO2-EBZ dynamometer can also be purchased through Avnet and is intended to be an extension of the drive system. The kit consists of two boards: a controller board and a drive board. The system incorporates high quality power sources reliable power, control, and feedback signals isolation accurate measurement of motor current & voltage signals high speed interfaces for control signals to allow fast controller response industrial Ethernet high speed interfaces single ended Hall, differential Hall, encoder and resolver interfaces digital position sensors interface flexible control with a FPGA/SoC interface. Two motors can be driven at the same time, each motor having its separate power supply. The AD-FMCMOTCON2-EBZ is a complete high performance servo system on an FPGA Mezzanine Card (FMC) board, the purpose of which is to provide a complete motor drive system demonstrating efficient and high dynamic control of three phase PMSM and induction motors up to 48V and 20A. This evaluation board is obsolete and no longer recommended. Easy connection to motors and the ADSP-CM408 EZ Kit make this system perfect for your prototyping needs.
#Fpga synchro resolver Pc#
Users can prototype with PC power using MATLAB and Simulink, then deploy with the FlexMC Kit. The FlexMC Kit hardware includes a PMSM motor with encoder and a Boston Engineering universal AC input drive board that connects directly to an Analog Devices ADSP-CM408 Mixed-Signal Control Processor EZ Kit. Utilizing system modeling and design concepts, the FlexMC Kit also contains libraries in MATLAB and Simulink for additional access to proven methodologies.
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With the FlexMC Kit, you model your system in MATLAB and Simulink, generate the C code, and then deploy.
#Fpga synchro resolver software#
The FlexMC Kit has the hardware and software required to spin the motor under open or closed loop speed control. The ADI/Boston Engineering solution combines hardware and software with out-of-the-box functionality for permanent magnet synchronous motor (PMSM) with hall sensor, encoder, or sensorless feedback. The FlexMC Kit TM enables you to accelerate time-to-market and increase performance with powerful model-based design tools. The FlexMC Motor Control Development Platform TM is a rapid development system for any motor control solution. Integrated starter generators/alternators.
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#Fpga synchro resolver serial#
10-bit to 16-bit signed digital velocityĪccessed via either a 16-bit parallel port or a 4-wire serial interface. Incremental encoder emulation is in standard A-quad-B format with direction output available. Absolute 10-bit to 16-bit angular position data is accessed via either a 16-bit parallel port or a 4-wire serial interface. Excitation frequency is easily programmable to a number of standard frequencies between 2 kHz and 20 kHz. The sine and cosine inputs can accept differential input voltages of 3.15 V p-p ± 27%. The fault detection threshold levels can be individually programmed by the user for optimization within a particular application. A fault detection circuit can sense loss of resolver signals, out-of-range input signals, input signal mismatch, or loss of position tracking. It also provides noise immunity and tolerance of harmonic distortion on the reference and input signals. The Type II tracking loop provides continuous output position data without conversion delay.
#Fpga synchro resolver manual#
Contact your local Analog Devices, Inc., sales office to obtain a copy of the safety manual and ASIL B safety assessment certificate.
#Fpga synchro resolver iso#
The AD2S1210WDSTZ and the AD2S1210WDSTZRL7 models have been approved by an independent accredited body for use in Automotive Safety Integrity Level B rated applications according to ISO 26262. A Type II servo loop is employed to track the inputs and convert the input sine and cosine information into a digital representation of the input angle and velocity. The converter accepts 3.15 V p-p ± 27% input signals, in the range of 2 kHz to 20 kHz on the sine and cosine inputs. The AD2S1210 is a complete 10-bit to 16-bit resolution tracking resolver-to-digital converter, integrating an on-board programmable sinusoidal oscillator that provides sine wave excitation for resolvers.