The ADC122S706 is a dual 12-bit, 500 kSPS to 1 MSPS simultaneous sampling
Analog-to-Digital (A/D) converter. The analog inputs on both channels are sampled simultaneously to
preserve their relative phase information to each other. The converter is based on a
successive-approximation register architecture where the differential nature of the analog inputs
is maintained from the internal track-and-hold circuits throughout the A/D converter to provide
excellent common-mode signal rejection. The ADC122S706 features an external reference that can be
varied from 1.0V to VA.
The ADC122S706 offers dual high-speed serial data outputs that are binary 2's complement
and are compatible with several standards, such as SPI™, QSPI™, MICROWIRE, and many common DSP
serial interfaces. Channel A's conversion result is outputted on DOUTA while
Channel B's conversion result is outputted on DOUTB. This feature makes the
ADC122S706 an excellent replacement for systems using two distinct ADCs in a simultaneous sampling
application. The serial clock (SCLK) and chip select bar (CS) are shared by
both channels. For lower power consumption, a single serial data output mode is externally
selectable.
The ADC122S706 may be operated with independent analog (VA) and
digital (VD) supplies. VA can range from 4.5V to 5.5V
and VD can range from 2.7V to VA. With the ADC122S706
operating with a VA of 5V and a VD of 3V, the power
consumption at 1 MSPS is typically 25 mW. Operating in power-down mode, the power consumption of
the ADC122S706 decreases to 3 µW. The differential input, low power consumption, and small size
make the ADC122S706 ideal for direct connection to sensors in motor control applications.
Operation is guaranteed over the industrial temperature range of −40°C to +105°C and
clock rates of 8 MHz to 16 MHz. The ADC122S706 is available in a 14-lead TSSOP package.
The ADC122S706 is a dual 12-bit, 500 kSPS to 1 MSPS simultaneous sampling
Analog-to-Digital (A/D) converter. The analog inputs on both channels are sampled simultaneously to
preserve their relative phase information to each other. The converter is based on a
successive-approximation register architecture where the differential nature of the analog inputs
is maintained from the internal track-and-hold circuits throughout the A/D converter to provide
excellent common-mode signal rejection. The ADC122S706 features an external reference that can be
varied from 1.0V to VA.
The ADC122S706 offers dual high-speed serial data outputs that are binary 2's complement
and are compatible with several standards, such as SPI™, QSPI™, MICROWIRE, and many common DSP
serial interfaces. Channel A's conversion result is outputted on DOUTA while
Channel B's conversion result is outputted on DOUTB. This feature makes the
ADC122S706 an excellent replacement for systems using two distinct ADCs in a simultaneous sampling
application. The serial clock (SCLK) and chip select bar (CS) are shared by
both channels. For lower power consumption, a single serial data output mode is externally
selectable.
The ADC122S706 may be operated with independent analog (VA) and
digital (VD) supplies. VA can range from 4.5V to 5.5V
and VD can range from 2.7V to VA. With the ADC122S706
operating with a VA of 5V and a VD of 3V, the power
consumption at 1 MSPS is typically 25 mW. Operating in power-down mode, the power consumption of
the ADC122S706 decreases to 3 µW. The differential input, low power consumption, and small size
make the ADC122S706 ideal for direct connection to sensors in motor control applications.
Operation is guaranteed over the industrial temperature range of −40°C to +105°C and
clock rates of 8 MHz to 16 MHz. The ADC122S706 is available in a 14-lead TSSOP package.