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AD-FMCOMMS1-EBZ Specifications
Transmit Specs
There are many specifications on the Transmit side of a RF system
Theoretical specs
Bandwidth
Determining overall channel bandwidth is a little complex, since many devices don't have a meaningful (in this aspect) bandwidth number.
In the AD9122, the above figure shows an fDATA of 400MHz, creating a waveform over 350MHz.
The ADL5375 does include a baseband bandwidth specification - depending on the flatness you require, could be 200MHz (+/- 0.1dB) or 500MHz (+/- 0.5dB).
the ADL5602 has different gain, depending on the RF frequency (but over 250MHz, you will still notice).
So, transmit bandwidth can be as high as 250 MHz, depending on if the flatness of the ADL5602 and ADL5375 works for your application.
LO BW (Modified Board)
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LO BW with full output power |
Adjacent Channel Power (Modified Board)
Phase Noise (RevB unmodified Board)
Phase Noise (RevB Modified Board & RevC)
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Phase Noise at LO of 1.2GHz and Tone of 40MHz with full power out. | Phase Noise at LO of 1.2GHz and Tone of 40MHz with half power out. |
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Phase Noise at LO of 2.4GHz and Tone of 40MHz with full power out. | Phase Noise at LO of 2.4GHz and Tone of 40MHz with half power out. |
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Phase Noise at LO of 3.6GHz and Tone of 40MHz with full power out. | Phase Noise at LO of 3.6GHz and Tone of 40MHz with half power out. |
Output power (Modified Board)
Intermodulation Distortion (Old Board)
Intermodulation Distortion (Modified Board)
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1MHz Offset, LO 1.2GHz, Scale of 0.5 | 1MHz Offset, LO 1.2GHz, Scale of 0.25 | 1MHz Offset, LO 1.2GHz, Scale of 0.125 |
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1MHz Offset, LO 2.4GHz, Scale of 0.5 | 1MHz Offset, LO 2.4GHz, Scale of 0.25 | 1MHz Offset, LO 2.4GHz, Scale of 0.125 |
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1MHz Offset, LO 3.6GHz, Scale of 0.5 | 1MHz Offset, LO 3.6GHz, Scale of 0.25 | 1MHz Offset, LO 3.6GHz, Scale of 0.125 |
bandwidth (Modified Board)
Receive Specs
Response to a "chirp"
Although this doesn't have a specific number associated with it, many RF systems are “chirpy” - and linear response to these RF pulses is very important.
Here is a 2.4GHz waveform, input at -60dbB, with the VGA gain turned up to +20dB. Although this does have some DC offset (the card was not calibrated), the response is very linear over time, even when zoomed in. (Clicking on either picture will open it up in a larger window)
And with a larger input - it looks similar. This is with an input of +6.0dBm, with the VGA set to 4.5dB.|
The results are similar at different frequencies.|
Signal to Noise
Noise floor
Dynamic range
LO BW (Modified Board)
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LO Sweep from 400 MHz to 4GHz, with 0dBm input signal (Low frequency roll-off is due to Balun 3600BL14M050) |
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LO Sweep from 400 MHz to 4GHz, with 0dBm input signal (With new Balun TC1-1-43A) |
Intermodulation Distortion (Modified Board)
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1MHz Offset, LO 1.2GHz, 0dBm input | 1MHz Offset, LO 1.2GHz, -6dBm input | 1MHz Offset, LO 1.2GHz, -12dBm input |
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1MHz Offset, LO 2.4GHz, 0dBm input | 1MHz Offset, LO 2.4GHz, -6dBm input | 1MHz Offset, LO 2.4GHz, -12dBm input |
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1MHz Offset, LO 3.6GHz, 0dBm input | 1MHz Offset, LO 3.6GHz, -6dBm input | 1MHz Offset, LO 3.6GHz, -12dBm input |
Bandwidth (Modified Board)