Analog Devices ADUM4177EBZ Evaluation Kit w/ cable
What you see is what you get. I can’t say this is new, but it’s in excellent condition. Came individually bagged and in the Analog Devices box. No documentation, just what you see pictured.
What you see is what you get. I can’t say this is new, but it’s in excellent condition. Came individually bagged and in the Analog Devices box. No documentation, just what you see pictured.
Offering a EVAL-AD5516-3EBZ Evaluation Board AD5516 Impedance Converter Network Analyzer made by Analog Devices. Nice Used Condition with Original Manufacturer Packaging. See photos for more details on what is included in this listing and its Condition.(ABBS3) Number Of Dac’s 16 Number Of Bits 14 Outputs And Type 16, Single Ended Sampling Rate (per Second) 750k Data Interface Serial Settling Time 32s Dac Type Voltage Voltage Supply Source Analog and Digital Operating Temperature -40C ~ 85C Utilized Ic / Part AD5516-3 Lead Free Status / RoHS Status Lead free / RoHS Compliant
Analog Devices EVAL‑ADM1192EBZ evaluation board. Evaluation board for the ADM1192, a device that combines ADM1192 IC. Uses an on‑board sense resistor. Sense resistor. We will try our best to resolve any issue.
open box, working evaluation board, come with power supply & USB cable.
There’s no other parts, manuals, software include. Other Notes of Interest.
Analog Devices EVAL-AD5371EBZ Evaluation Board Rev. 02 Retail on mouser: $141.12 AA109
In original box. Appears to have been used. Sold as-is. Not tested.
🔧 ADC Core (AD9484‑500). Typical board power consumption: < 1 W (ADC core ~350 mW). Input Type Differential analog input. 1.8 V analog. Analog Input. Resolution 8 bits. We will try our best to resolve any issue.
Flexibility for reference input, PFD frequency, and loop bandwidth. Typical phase noise performance of −140 dBc/Hz at 3 MHz offset. Typical spurious performance of −75 dBc at 200 kHz offset (2.5 GHz output).
Flexibility for reference input, PFD frequency, and loop bandwidth. Typical phase noise performance of −140 dBc/Hz at 3 MHz offset. Typical spurious performance of −75 dBc at 200 kHz offset (2.5 GHz output).