Part Number: ADC3443 Hi,
We are using the ADC3443 to sample the output of an image sensor. The input will thus be DC-coupled, using fully-differential input buffers.
We would like to estimate the noise performance of the ADC under these conditions but…
Hi Yuhyeon,
The ADC344x comes in different speed grades - ADC3441 (25MSPS), ADC3442 (50MSPS), ADC3443 (80MSPS), ADC3444(125MSPS). The users guide uses the 125MSPS as an example. The max speed of the ADC3442 is 50MSPS.
Regards, Amy
Part Number: ADC32J45EVM Other Parts Discussed in Thread: ADC3443 Hello Team,
My customer is looking for the ADC3000 GUI which they can use for the device ADC32J45EVM and TSW14J10EVM, Can you share with us the where to find it?
Regards,
Renan
Hi Ashok,
Yes, the ADS6442 supports 2Vpp differential input (1.5VDC common mode) so voltage swings from 0.5V to 2.5V.
ADC3443 also fits all of your requirements.
If interested in a 2CH ADC, the ADC3663 is a 16 bit, ultra low power 65MSPS SAR ADC.
Best…
Part Number: ADC3444 Other Parts Discussed in Thread: ADC3443 Hello,
My team has chosen ADC3444 for IF sampling application for a 25kHz BW signal. We will use it for 1-wire LVDS configuration, i.e. 80MSPS max. I would like to know if this Quad-Channel…
Part Number: ADC34J43 Other Parts Discussed in Thread: ADC3443 Hello,
In the ADC34J43 version, there is a digital gain option to set the FS swing between 1Vptp and 2Vptp with the registers at the addresses 02h to 05h.
If I'm selecting 1Vptp (digital…
Thank you so much!
Just a quick question:
Does ADC3443 have the capability to be connected to TSW1400EVM directly?
Can I control HSDC Pro and TSW1400EVM using MATLAB or LabVIEW too and do what I motioned earlier?
Thanks.
Hi Mike, Without reading into too much of the details, have you taken a look at the ADC34J43? Quad channel 14-bit in a small 7x7mm package. Very low power, so thermal design shouldn't be an issue with such high density. The JESD204B output interface…
Part Number: ADC3441 Hello,
in the datasheet for ADC344x pg. 46, 9.3.1 Analog Inputs section it says that
Each input pin (INP, INM) must swing symmetrically between (VCM + 0.5 V) and (VCM – 0.5 V), resulting in a 2-VPP (default) differential input swing…