Analog Devices Inc. AD9739A-FMC-EBZ
- Part Number:
- AD9739A-FMC-EBZ
- Manufacturer:
- Analog Devices Inc.
- Ventron No:
- 2815852-AD9739A-FMC-EBZ
- Description:
- BOARD EVAL W/FMC CONN FPGA DEV
- ECAD Model:
-
- Datasheet:
- AD9739A Native FMC Card/Ref Design Overview
Analog Devices Inc. AD9739A-FMC-EBZ technical specifications, attributes, parameters and parts with similar specifications to Analog Devices Inc. AD9739A-FMC-EBZ.
- Number of Pins0
- PackagingBox
- SeriesTxDAC®
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Max Operating Temperature85°C
- Min Operating Temperature-40°C
- Base Part NumberAD9739
- Operating Supply Voltage3.3V
- InterfaceSPI, USB
- Power Dissipation960mW
- Number of Bits14
- Min Input Voltage1.15V
- Max Input Voltage1.25V
- Utilized IC / PartAD9739A
- Supplied ContentsBoard(s)
- Data InterfaceSPI
- Resolution1.75 B
- Sampling Rate2.5 Gsps
- Evaluation KitYes
- Sampling Rate (Per Second)2.5G
- Number of DAC Channels1
- DAC TypeCurrent
- REACH SVHCNo SVHC
- RoHS StatusROHS3 Compliant
- Lead FreeContains Lead
AD9739A-FMC-EBZ Overview
This product is manufactured by Analog Devices Inc. and belongs to the category of Evaluation Boards - Digital to Analog Converters (DACs). The images we provide are for reference only, for detailed product information please see specification sheet AD9739A-FMC-EBZ or the datasheet in PDF format. As a professional electronic components distributor, Ventron has five million electronic components available. Additionally, we have over 500,000 electronic components in stock ready for immediate shipment. If you have requirements, you can send us a quotation form to get the price of AD9739A-FMC-EBZ. We attach great importance to our customers' purchasing experience and are willing to establish a long-term cooperative relationship with you. If you have any questions or requirements, please feel free to contact us.
This product is manufactured by Analog Devices Inc. and belongs to the category of Evaluation Boards - Digital to Analog Converters (DACs). The images we provide are for reference only, for detailed product information please see specification sheet AD9739A-FMC-EBZ or the datasheet in PDF format. As a professional electronic components distributor, Ventron has five million electronic components available. Additionally, we have over 500,000 electronic components in stock ready for immediate shipment. If you have requirements, you can send us a quotation form to get the price of AD9739A-FMC-EBZ. We attach great importance to our customers' purchasing experience and are willing to establish a long-term cooperative relationship with you. If you have any questions or requirements, please feel free to contact us.
AD9739A-FMC-EBZ More Descriptions
AD9739A 14-Bit 2.5GSPS RF D/A Converter Evaluation Board With FMC Connector
AD9739, DAC, FMC, EVAL BOARD; Silicon Manufacturer:Analog Devices; Kit Application Type:Data Converter; Application Sub Type:DAC; Features:14bit, 2.5GSPS High Performance RF DAC Synthesizing Wideband Signal, FMC Connector; SVHC:No SVHC (18-Jun-2012)
The AD9737A/AD9739A are 11-bit and 14-bit, 2.5 GSPS high performance RF DACs that are capable of synthesizing wideband signals from dc up to 3 GHz. The AD9737A/AD9739A are pin and functionally compatible with the AD9739 with the exception that the AD9737A/AD9739A do not support synchronization or RZ mode, and are specified to operate between 1.6 GSPS and 2.5 GSPS. By elimination of the synchronization circuitry, some nonideal artifacts such as images and discrete clock spurs remain stationary on the AD9737A/AD9739A between power-up cycles, thus allowing for possible system calibration. AC linearity and noise performance remain the same between the AD9739 and the AD9737A/AD9739A. The inclusion of on-chip controllers simplifies system integration. A dual-port, source synchronous, LVDS interface simplifies the digital interface with existing FGPA/ASIC technology. On-chip controllers are used to manage external and internal clock domain variations over temperature to ensure reliable data transfer from the host to the DAC core. A serial peripheral interface (SPI) is used for device configuration as well as readback of status registers. The AD9737A/AD9739A are manufactured on a 0.18 µm CMOS process and operate from 1.8 V and 3.3 V supplies. They are supplied in a 160-ball chip scale ball grid array for reduced package parasitics. Product Highlights Ability to synthesize high quality wideband signals with bandwidths of up to 1.25 GHz in the first or second Nyquist zone. A proprietary quad-switch DAC architecture provides exceptional ac linearity performance while enabling mixmode operation. A dual-port, double data rate, LVDS interface supports the maximum conversion rate of 2500 MSPS. On-chip controllers manage external and internal clock domain skews. Programmable differential current output with an 8.66 mA to 31.66 mA range. Applications Broadband communications systems DOCSIS CMTS systems Military jammers Instrumentation, automatic test equipment Radar, avionics
AD9739, DAC, FMC, EVAL BOARD; Silicon Manufacturer:Analog Devices; Kit Application Type:Data Converter; Application Sub Type:DAC; Features:14bit, 2.5GSPS High Performance RF DAC Synthesizing Wideband Signal, FMC Connector; SVHC:No SVHC (18-Jun-2012)
The AD9737A/AD9739A are 11-bit and 14-bit, 2.5 GSPS high performance RF DACs that are capable of synthesizing wideband signals from dc up to 3 GHz. The AD9737A/AD9739A are pin and functionally compatible with the AD9739 with the exception that the AD9737A/AD9739A do not support synchronization or RZ mode, and are specified to operate between 1.6 GSPS and 2.5 GSPS. By elimination of the synchronization circuitry, some nonideal artifacts such as images and discrete clock spurs remain stationary on the AD9737A/AD9739A between power-up cycles, thus allowing for possible system calibration. AC linearity and noise performance remain the same between the AD9739 and the AD9737A/AD9739A. The inclusion of on-chip controllers simplifies system integration. A dual-port, source synchronous, LVDS interface simplifies the digital interface with existing FGPA/ASIC technology. On-chip controllers are used to manage external and internal clock domain variations over temperature to ensure reliable data transfer from the host to the DAC core. A serial peripheral interface (SPI) is used for device configuration as well as readback of status registers. The AD9737A/AD9739A are manufactured on a 0.18 µm CMOS process and operate from 1.8 V and 3.3 V supplies. They are supplied in a 160-ball chip scale ball grid array for reduced package parasitics. Product Highlights Ability to synthesize high quality wideband signals with bandwidths of up to 1.25 GHz in the first or second Nyquist zone. A proprietary quad-switch DAC architecture provides exceptional ac linearity performance while enabling mixmode operation. A dual-port, double data rate, LVDS interface supports the maximum conversion rate of 2500 MSPS. On-chip controllers manage external and internal clock domain skews. Programmable differential current output with an 8.66 mA to 31.66 mA range. Applications Broadband communications systems DOCSIS CMTS systems Military jammers Instrumentation, automatic test equipment Radar, avionics
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
08 April 2024
CC2530F128RHAT Architecture, Replacements, Advantages, Applications and Other Details
Ⅰ. Overview of CC2530F128RHATⅡ. Concrete applications of CC2530F128RHATⅢ. Advantages of CC2530F128RHATⅣ. How to choose the energy-saving working mode for CC2530F128RHAT?Ⅴ. Technical parameters of CC2530F128RHATⅥ. Block diagram and architecture... -
08 April 2024
STM32F103RET6: Everything You Need to Know For Your Project
Ⅰ. Overview of STM32F103RET6Ⅱ. Importance of STM32F103RET6 in the field of technologyⅢ. Specifications of STM32F103RET6Ⅳ. The practical application of STM32F103RET6Ⅴ. Electrical characteristics of STM32F103RET6Ⅵ. How to use STM32F103RET6?Ⅶ.... -
09 April 2024
TPS82085SILR Characteristics, Specifications, Application Cases and More
Ⅰ. What is TPS82085SILR?Ⅱ. Characteristics of TPS82085SILRⅢ. Device functional modesⅣ. Specifications of TPS82085SILRⅤ. Thermal consideration of TPS82085SILRⅥ. What advanced technologies does TPS82085SILR use?Ⅶ. Competitive product analysis of TPS82085SILRⅧ.... -
09 April 2024
INA826AIDR Layout and Selection Guide
Ⅰ. Description of INA826AIDRⅡ. Pin configuration and functionsⅢ. Functional features of INA826AIDRⅣ. What impact does external resistance have on the stability of INA826AIDR?Ⅴ. Schematic diagram and working principle...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.