ADC10080 Datasheet | National Semiconductor

Description The ADC10080 is a monolithic CMOS analog-to-digital converter capable of converting analog input signals into 10-bit digital words at 80 Megasamples per second (MSPS). This converter uses a differential, pipeline architecture with digital error correction and an on-chip sample-and-hold circuit to provide a plete conversion solution, and to minimize power consumption, while providing excellent dynamic performance. A unique sample-and-hold stage yields a fullpower bandwidth of 400 MHz. Operating on a single 3.0V power supply, this device consumes just 78.6 m W at 80 MSPS, including the reference current. The Standby feature reduces power consumption to just 15 m W. The differential inputs provide a full scale selectable input swing of 2.0 VP-P, 1.5 VP-P, 1.0 VP-P, with the possibility of a single-ended input. Full use of the differential input is remended for optimum performance. An internal +1.2V precision bandgap reference is used to set the ADC full-scale range, and also allows the user to supply a buffered referenced voltage for those applications requiring increased accuracy. The output data format is 10-bit offset binary, or two’s plement. This device is available in the 28-lead TSSOP package and will operate over the industrial temperature range of - 40˚C to +85˚C. Features n Single +3.0V operation n Selectable 2.0 VP-P, 1.5 VP-P, or 1.0 VP-P full-scale input swing n 400 MHz - 3 d B input bandwidth n Low power consumption n Standby mode n On-chip reference and sample-and-hold amplifier n Offset binary or two’s plement data format n Separate adjustable output driver supply to acmodate 2.5V and 3.3V logic families n 28-pin TSSOP package Key Specifications n n n n n n n n n Resolution Conversion Rate Full Power Bandwidth DNL SNR (f IN = 10 MHz) SFDR (f IN = 10 MHz) Data Latency Supply Voltage Power Consumption, 80 MHz 10 Bits 80 MSPS 400 MHz ± 0.25 LSB (typ) 59.5 d B (typ) - 78.7 d B (typ) 6 Clock Cycles +3.0V 78.6 m W Applications n n n n n n n n Ultrasound...