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AMC - FPGA A/D D/A
AMC589CQuad ADC @ 3 GSPS with Quad DAC @ 12 GSPS, UltraScale+™, AMC The AMC589C provides quad ADC with sampling rates of up to 3 GSPS at a 14-bit resolution (AD9208). Also, quad DAC delivers update rates of up to 12 GSPS and incorporates direct RF synthesis capable of 6 GSPS at a 16-bit resolution (Analog Devices AD9162 or AD9164). 
AMC902Analog Filter, Gain Control with Dual Clock Conditioning The AMC902 accepts two analog Intermediate Frequency (IF) inputs via SSMC connectors. The analog signals are attenuated, amplified, filtered and amplified again before being output via SSMC. 
AMC599Dual ADC @ 6.4 GSPS and Dual DAC @ 12 GSPS, UltraScale, AMC The AMC599 provides dual ADC sampling rates of up to 6.4 GSPS at a 12-bit resolution (TI ADC12DJ3200, ADC12DJ2700, or ADC12DJ1600) or quad inputs at 3.2 GSPS. 
AMC598Quad ADC @ 3 GSPS with Quad DAC @ 12 GSPS, Kintex UltraScale, AMC The AMC598 provides quad ADC with sampling rates of up to 3 GSPS at a 14-bit resolution (AD9208 with the option for up to Octal ADC). 
AMC597300 MHz to 6 GHz Octal Versatile Wideband Transceiver (MIMO), UltraScale™ AMC The AMC597 is a wideband transceiver in AMC form factor. The AMC utilizes four AD9371 connected to a Kintex UltraScale™ FPGA providing eight transceivers channels making it suitable for signal SDR, BTS, antenna systems, research and instrumentation. 
AMC59456 GSPS 8-bit ADC, 2 or 4 channel with XCVU190 UltraScale™ The AMC594 used the Fujitsu MB8AC2070 ADC (Analog to Digital Converter) to provide dual 56 GSPS or quad 28 GSPS from four channels ADC (user selectable).The AMC594 makes use of extremely fast ADCs in CMOS process technology. 
AMC59156 GSPS 8-bit ADC, 2 or 4 channel with XCVU190 UltraScale The AMC591 used the Fujitsu MB8AC2070 ADC (Analog to Digital Converter) to provide dual 56 GSPS or quad 28 GSPS from four channels ADC (user selectable). The board is compliant to AMC.0 specifications. 
AMC59056 GSPS 8-bit ADC, 1, 2 or 4 channel, UltraScale™ The AMC590 used the Fujitsu MB8AC2070 ADC (Analog to Digital Converter) to provide 56 GSPS from a single channel, 28 GSPS from two channels, or 14 GSPS from four channels (user selectable). The board is compliant to the AMC.1 and AMC.2 specifications. 
AMC589Quad ADC @ 3 GSPS with Quad DAC @ 12 GSPS, UltraScale+™, AMC The AMC589 provides quad ADC with sample rates of up to 3 GSPS at a 14-bit resolution (AD9208). Also, quad DAC delivers update rates of up to 12 GSPS and incorporates direct RF synthesis at 6 GSPS at a 16-bit resolution (Analog Devices AD9162 or AD9164). 
AMC588300 MHz to 6 GHz Octal Versatile Wideband Transceiver (MIMO), UltraScale+™, AMC The AMC588 is a wideband transceiver in AMC form factor. The AMC utilizes four AD9371 connected to a Virtex UltraScale+™ FPGA that provides eight transceiver channels. This makes the unit suitable for signal SDR, BTS, antenna systems, research and instrumentation. 
AMC587Dual ADC @ 6.4 GSPS and Dual DAC @ 12 GSPS, UltraScale+, AMC The AMC587 provides dual ADC with sampling rates of up to 6.4 GSPS at a 12-bit resolution (TI ADC12DJ3200, ADC12DJ2700, or ADC12DJ1600) or quad inputs at 3.2 GSPS. 
AMC575Zynq UltraScale+ RFSoC FPGA, Double AMC, MTCA.4 The AMC575 utilizes the Xilinx XCZU29DR RFSoC. The AMC is compliant to AMC.1, AMC.2, AMC.3 and AMC.4 specifications. The unit has an on-board, re-configurable FPGA which interfaces directly to the AMC FCLKA, TCLKA-D. 
MRT575AMTCA.4 RTM for AMC575, Passive The MRT575A is a Rear Transition Module (RTM) for VadaTech’s AMC575, routing analog signals to the rear panel. The mid-size version routes 16 DAC outputs, with the full-size version adding 8 ADC inputs.
AMC574Xilinx Zynq® UltraScale+ RFSoC FPGA, Double-width AMC The AMC574 utilizes the Xilinx XCZU29DR RFSoC. The AMC is compliant to AMC.1, AMC.2, AMC.3 and AMC.4 specifications. The unit has an on-board, re-configurable FPGA which interfaces directly to the AMC FCLKA, TCLKA-D.
AMC573Xilinx Zynq® UltraScale+ RFSoC FPGA, AMC The AMC573 utilizes the Xilinx XCZU28DR RFSoC. The AMC is compliant to AMC.1, AMC.2, AMC.3 and AMC.4 specifications. The unit has an on-board, re-configurable FPGA which interfaces directly to the AMC FCLKA, TCLKA-D. 
AMC529AMC Dual DAC 14-bit @ 5.7 GSPS Module The AMC529 provides two Analog Devices AD9129. Each chip core is based on a quad switch architecture that enables dual-edge clocking operation, effectively increasing the DAC update rate to 5.7 GSPS when configured for Mix-Mode™ or 2x interpolation. 
AMC526AMC Dual ADC, Virtex-7, 12-Bit @ 2.6 GSPS The AMC526 provides dual-channel ADC with sample rates up to 2.6 GSPS, making it suitable for signal capture/analysis applications such as COMINT/SIGINT, radar, research and instrumentation. 
AMC524Quad ADC, 16-bit @ 125 MSPS, Dual DAC, Artix-7 The AMC524 provides a Direct Digital Synthesizer (DDS) capable of generating a frequency agile analog sinusoidal waveform (up to 1.0 GHz). The chipset includes a PLL for clock cleaning, along with a versatile internal timing and control mechanism. 
DAQ523MTCA.4 Data Acquisition Sub-system, 12-Channel 16-bit, 125 MSPS The DAQ523 is a digitizer sub-system in MTCA.4 form factor, comprising an FPGA AMC, an ADC rear transition module, and full software/firmware complete with DMA engine and EPICS support. 
AMC523Dual DAC 16-bit @ 250 MSPS, Kintex-7, MTCA.4 The AMC523 is a dual DAC (Digital to Analog Converter) module compliant to the MicroTCA.4 specification. The unit has an on-board, re-configurable FPGA which interfaces directly to the GbE and PCIe bus. It also has 12 channels ADC digital LVDS routed to the FPGA from the MRT523 RTM (sold separately). 
MRT523MTCA.4 RTM for AMC523, 12 Ch ADC 16-bit @ 125 MSPS The MRT523 is a Rear Transition Module (RTM) for VadaTech’s AMC523. The MRT523 accepts a mezzanine card (sold separately) to provide the ADC, DAC and Clock I/Os. 
MZ523AMezzanine for MRT523, 12 Channel Passive Pass-through The MZ523A is a mezzanine module for VadaTech’s MRT523. The AMC/MRT523 combination provides 12-channel ADC 16-bit @ 125 MSPS, and this mezzanine routes analog inputs to the ADC. 
MZ523BMezzanine for MRT523, 12 Channel Variable Gain The MZ523B is a mezzanine module for VadaTech’s MRT523. The AMC/MRT523 combination provides 12-channel ADC 16-bit @ 125 MSPS, and this mezzanine routes analog inputs to the ADC. 
MZ523CMezzanine for MRT523, 12 Channel Optical Detector The MZ523C is a mezzanine module for VadaTech’s MRT523. The AMC/MRT523 combination provides 12-channel ADC 16-bit @ 125 MSPS. This mezzanine provides 12 optical detectors with low-noise and high linearity amplifiers, routing detected signals to the ADCs. 
AMC522MTCA.4 AMC Dual DAC, 16-bit @ 250 MSPS The AMC522 provides dual DAC sampling rates of up to 250 MSPS at a 16-bit resolution. It is compliant to MTCA.4 and AMC.1, AMC.2, and AMC.4 specifications. The unit has an on-board, re-configurable Kintex-7 FPGA that directly interfaces with Ports 4-11 and also Port 17 for Trigger I/O. 
MRT522The MRT522 is a Rear Transition Module (RTM) for VadaTech’s AMC522, with the card pair offering 8-channel ADC and 2-channel DAC. The board uses SSMC connectors for the analog input and output interface. Mini-display Port connectors are used for the Clock and Trigger In/Out. 
AMC52124 Channels ADC, Mixed Sampling Rate The AMC521 utilizes eight dual channel ADS42JB69 ADC converters at 250 MSPS with 16-bit resolution for 16 high sampling rate channels. In addition the module has eight 16-bit Successive Approximation Register (SAR) based on TI ADS8568 ADC at a lower sampling rate for measurements up to 650 KSPS. 
AMC520AMC 10-channel ADC, MicroTCA.4 The AMC520 is a ten-channel ADC (Analog to Digital Converter) with two DAC (Digital to Analog Converter) compliant to the AMC.1 and AMC.2 specification. The unit has an on-board, re-configurable FPGA which interfaces directly to the GbE and PCIe bus. 
MRT520The MRT520 is a Rear Transition Module (RTM) for VadaTech’s AMC520 10-channel ADC. The board uses SSMC connectors for the analog input and output interface. Dual high-density DensiShield connectors are used for the LVDS and reference clocks. 
AMC511FPGA, Quad Channel ADC 180 MSPS AMC511 is a Quad ADC (Analog to Digital Converter) module compliant to the AMC.1* and AMC.2 specification. The unit has an on-board, re-configurable FPGA which interfaces directly to the GbE or PCIe bus. The FPGA has an interface to the QDR-II memory (36 and 72-bit wide). 
CM045μTCA.4 Kintex-7 Data Processing AMC (TCK7) The CM045 (TCK7) AMC-based Controller board is a general purpose high-performancelow-latency data processing unit designed according to the PICMG MTCA.4 specifications.The module provides processing power, data memory, communication links and referenceclock signals. 
CM044FPGA, Quad Channel ADC 180 MSPS The CM044 AMC-based Concentration Board (CoBo) is a high-performance data processor designed according to the PICMG MTCA.0 specifications. The board is targeted for General Electronics (GET) for Time Projection Chamber (TPC) project. MicroTCA.4 AD/DA
AMC575Zynq UltraScale+ RFSoC FPGA, Double AMC, MTCA.4 The AMC575 utilizes the Xilinx XCZU29DR RFSoC. The AMC is compliant to AMC.1, AMC.2, AMC.3 and AMC.4 specifications. The unit has an on-board, re-configurable FPGA which interfaces directly to the AMC FCLKA, TCLKA-D.
MRT575AMTCA.4 RTM for AMC575, Passive The MRT575A is a Rear Transition Module (RTM) for VadaTech’s AMC575, routing analog signals to the rear panel. The mid-size version routes 16 DAC outputs, with the full-size version adding 8 ADC inputs.
AMC523Dual DAC 16-bit @ 250 MSPS, Kintex-7, MTCA.4 The AMC523 is a dual DAC (Digital to Analog Converter) module compliant to the MicroTCA.4 specification. The unit has an on-board, re-configurable FPGA which interfaces directly to the GbE and PCIe bus. It also has 12 channels ADC digital LVDS routed to the FPGA from the MRT523 RTM (sold separately).
MRT523MTCA.4 RTM for AMC523, 12 Ch ADC 16-bit @ 125 MSPS The MRT523 is a Rear Transition Module (RTM) for VadaTech’s AMC523. The MRT523 accepts a mezzanine card (sold separately) to provide the ADC, DAC and Clock I/Os.
AMC522MTCA.4 AMC Dual DAC, 16-bit @ 250 MSPS The AMC522 provides dual DAC sampling rates of up to 250 MSPS at a 16-bit resolution. It is compliant to MTCA.4 and AMC.1, AMC.2, and AMC.4 specifications. The unit has an on-board, re-configurable Kintex-7 FPGA that directly interfaces with Ports 4-11 and also Port 17 for Trigger I/O.
MRT522The MRT522 is a Rear Transition Module (RTM) for VadaTech’s AMC522, with the card pair offering 8-channel ADC and 2-channel DAC. The board uses SSMC connectors for the analog input and output interface. Mini-display Port connectors are used for the Clock and Trigger In/Out.
AMC520AMC 10-channel ADC, MicroTCA.4 The AMC520 is a ten-channel ADC (Analog to Digital Converter) with two DAC (Digital to Analog Converter) compliant to the AMC.1 and AMC.2 specification. The unit has an on-board, re-configurable FPGA which interfaces directly to the GbE and PCIe bus.
MRT520The MRT520 is a Rear Transition Module (RTM) for VadaTech’s AMC520 10-channel ADC. The board uses SSMC connectors for the analog input and output interface. Dual high-density DensiShield connectors are used for the LVDS and reference clocks.
CM045μTCA.4 Kintex-7 Data Processing AMC (TCK7) The CM045 (TCK7) AMC-based Controller board is a general purpose high-performancelow-latency data processing unit designed according to the PICMG MTCA.4 specifications.The module provides processing power, data memory, communication links and referenceclock signals.
CM044FPGA, Quad Channel ADC 180 MSPS The CM044 AMC-based Concentration Board (CoBo) is a high-performance data processor designed according to the PICMG MTCA.0 specifications. The board is targeted for General Electronics (GET) for Time Projection Chamber (TPC) project. |
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