The ADC12L066 is a monolithic CMOS analog-to-digital converter capable of converting
analog input signals into 12-bit digital words at 66 Megasamples per second (Msps), minimum, with
typical operation possible up to 80 Msps. This converter uses a differential, pipeline architecture
with digital error correction and an on-chip sample-and-hold circuit to minimize die size and power
consumption while providing excellent dynamic performance. A unique sample-and-hold stage yields a
full-power bandwidth of 450 MHz. Operating on a single 3.3V power supply, this device consumes just
357 mW at 66 Msps, including the reference current. The Power Down feature reduces power
consumption to just 50 mW.
The differential inputs provide a full scale input swing equal to
±VREF with the possibility of a single-ended input. Full use of the
differential input is recommended for optimum performance. For ease of use, the buffered, high
impedance, single-ended reference input is converted on-chip to a differential reference for use by
the processing circuitry. Output data format is 12-bit offset binary.
This device is available in the 32-lead LQFP package and will operate over the industrial
temperature range of −40°C to +85°C. An evaluation board is available to facilitate the evaluation
process.
The ADC12L066 is a monolithic CMOS analog-to-digital converter capable of converting
analog input signals into 12-bit digital words at 66 Megasamples per second (Msps), minimum, with
typical operation possible up to 80 Msps. This converter uses a differential, pipeline architecture
with digital error correction and an on-chip sample-and-hold circuit to minimize die size and power
consumption while providing excellent dynamic performance. A unique sample-and-hold stage yields a
full-power bandwidth of 450 MHz. Operating on a single 3.3V power supply, this device consumes just
357 mW at 66 Msps, including the reference current. The Power Down feature reduces power
consumption to just 50 mW.
The differential inputs provide a full scale input swing equal to
±VREF with the possibility of a single-ended input. Full use of the
differential input is recommended for optimum performance. For ease of use, the buffered, high
impedance, single-ended reference input is converted on-chip to a differential reference for use by
the processing circuitry. Output data format is 12-bit offset binary.
This device is available in the 32-lead LQFP package and will operate over the industrial
temperature range of −40°C to +85°C. An evaluation board is available to facilitate the evaluation
process.