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Showing Results For: Signal Conversion Development Tools
Signal Conversion Development Tools
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AD9154-FMC-EBZ, Analog Devices
Evaluation Board for AD9154 Quad, 16-Bit, 2.4 GSPS, TxDAC+® DAC, AD9154-FMC-EBZ
The AD9154-FMC-EBZ attaches to an ADS7 data pattern generator system. The AD9154 is a quad JESD204B signal processing RF Digital to Analog Converter. The ADS7 calibrates the data and sends it to the AD9154-FMC-EBZ via its JESD204B lanes.
The AD9154-FMC-EBZ is an FMC mezzanine card. +12V, +3.3V, and VADJ power supply rails are provided by the ADS7 system via the FMC connector P1. A clock distribution chip AD9516 is included on this evaluation board as a clock fan-out and frequency divider for the DACCLK, JESD204B SYSREF signals, and a GBTCLK clock used by the ADS7. There is also an FMC standard I2C bus that is used by the ADS7 to identify the AD9154-FMC-EBZ. This I2C interface is applied in firmware in the AD9154-FMC-EBZ PIC processor (XU1). PIC firmware is installed in PIC non-volatile memory by ADI. All ADS7 to/from AD9154-FMC-EBZ interface signals are connected via the FMC connector P1.
ADC Evaluation Boards and Development Kits, Analog
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410-241, Digilent
Pmod DA3 16-bit DAC
The
Pmod DA3
is a 16-bit Digital-to-Analogue converter module featuring the Analog Devices AD5541A device.
Low-noise monotonic analogue output
SMA output connector
+2.5V reference voltage
6-pin Pmod connector with GPIO interface
Follows Digilent Pmod Interface Specification Type 1
Dimensions: 30 x 20mm
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EVAL-CN0216-ARDZ, Analog Devices
CN-0216 is a precision weigh scale signal conditioning system. It uses the AD7791, a low power buffered 24-bit sigma-delta ADC along with dual external ADA4528-1 zero-drift amplifiers. This solution allows for high dc gain with a single supply.This circuit allows great flexibility in designing a custom low-level signal conditioning front end that gives the user the ability to easily optimize the overall transfer function of the combined sensor-amplifier-converter circuit.
Form Factor Compatible with Arduino
Usable for 4- or 6- wire sensors
High gain of 400, for wide bridge sensor ranges
Low power, single supply operation
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EVAL-ADE7753ZEB, Analog Devices
Evaluation Board for ADE7753 Energy Metering IC
The EVAL-ADE7753ZEB evaluation board, from Analog Devices, has been designed so that the ADE7753 can be evaluated in its end application easily, for example a watt-hour meter. Using the appropriate transducers on the current channel (e.g., shunt, CT, di/dt sensor, etc.), the evaluation board can be connected to a test bench or high voltage (240V rms) test circuit. The EVAL-ADE7753ZEB evaluation board (watt-hour meter) is configured and calibrated via the parallel port of a PC. Attenuation for the line voltage is provided by an on-board resistor divider network. The data interface between the evaluation board and the PC is fully isolated.
The EVAL-ADE7753ZEB evaluation board can be efficiently configured as an energy meter when used with the Windows™ based software, which is provided with the board. The evaluation board also functions as a stand-alone evaluation system. This can be easily incorporated into an existing system via a 25 way D-Sub connector. The EVAL-ADE7753ZEB evaluation board requires two external 5V power supplies (one is required for isolation purposes) and the appropriate current transducer.
Features of the EVAL-ADE7753ZEB:
- Evaluation board is designed to be used together with accompanying software to implement a fully functional energy meter (watt-hour meter)
- Easy connection of various external transducers via screw terminals
- Easy modification of signal conditioning components using PCB sockets
- LED indicators on logic outputs CF, ZX, SAG, and IRQ
- Optically isolated data output connection to PC parallel port
- Optically isolated frequency output (CF) to BNC
- External reference option available for on-chip reference evaluation
Energy/Power Measurement - Analog Devices
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MCP3424EV, Microchip
Evaluation Board for 18-bit Multi-Channel ADC, Microchip
The Evaluation Board for the 18-bit Multi-Channel ADC enables the connection of sensor inputs and measures the input voltage . Working in conjunction with the PICkit™ Serial Analyzer, the graphical interface (GUI) is able to display the ADC codes. The evaluation board also has test points for SDL, SDA and analogue inputs. Connecting an oscilloscope to the test points, enables the user to examine data communications through the I
2
C™ bus line and observe the resulting conversion input.
Analogue to Digital Converters - Microchip
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410-397, Digilent
Driven by the SYZYGY carrier, the Zmod DAC can simultaneously generate two ±5V signals with 14 bits of resolution at a sample rate up to 100MS/s. The analog outputs can be connected to a circuit using SMA cables. When coupled to a base board using SYZYGY expansion, like the Eclypse Z7 or Genesys ZU, the combination will serve as a powerful prototyping platform for instrumentation, high-speed control, and SDR products. By utilizing these expansion capabilities, users can spend more time on the analytical and system-level aspects of the solution rather than having to focus on the component-level interactions of the devices.
Channels: 2Channel type: single-endedResolution: 14-bitAbsolute Resolution (amplitude ≤1.25V): 167μVAbsolute Resolution (amplitude >1.25V): 665μVOutput impedance: 50ΩSample rate (real time): 100MS/s.AC amplitude (max): ±5 V.Analogue bandwidth: 40 MHz @ 3dB, 20 MHz @ 0.5dB, 14 MHz @ 0.1dBSlew rate (2V step): 180V/μs
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MCP4728EV, Microchip
Evaluation Board for MCP4728 Quad 12-Bit Digital to Analogue Converter
This Evaluation Board is a tool for quick and easy evaluation of the MCP4728 4-channel 12-bit DAC device. It contains the MCP4728 device and connection pins for the PICkit™ Serial Analyzer. Simply connect the board to the Serial Analyzer and type the DAC input data into the Serial Analyzer's PC GUI program. The Serial Analyzer will then send the user's data to the DAC device automatically. The new DAC's analogue outputs will be available immediately at the DAC output pins.
12-Bit Voltage Output DAC with four buffered outputs
On-board EEPROM for DAC Codes and I²C address bits
Internal or External Voltage Reference selection
Output Voltage Range: using internal V
REF
(2.048V): 0.000 to 2.048V with Gain=1, 0.000 to 4.096V with Gain=2
Output Voltage Range: using external V
REF
(V
DD
): 0.000 to V
DD
±0.2LSB DNL (typical)
Fast Settling Time: 6μs (typical)
Normal or Power-Down Mode
Low power consumption
Voltage range: +2.7 to +5.5Vdc
I²C serial interface: address bits: user programmable to EEPROM
I²C speed: standard (100kbps), Fast (400kbps) and High Speed (3.4Mbps) modes
10-pin MSOP package
Extended temperature range: -40°C to +125°C
Note
The PICkit™ Serial Analyzer is NOT included, but is sold separately.
Digital to Analogue Converters - Microchip
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MCP4725EV, Microchip
MCP4725 12-Bit Digital-to-Analogue Converter Evaluation Board
The Microchip MCP4725 Evaluation Board is a development tool for investigating the MCP4725 12-bit Digital-to-Analogue Converter. The board can be used with in conjunction with the Microchip PICkit™ Serial Analyser (available separately), or independently by connecting directly to the application board.
Features
Simplifies evaluation of the MCP4725
Allows Read and Write of the MCP4725 Register and EEPROM Data
Kit Contents
1 x MCP4725 12-Bit Digital-to-Analogue Converter Evaluation Board
Digital to Analogue Converters - Microchip