Texas Instruments

The ADC3561, ADC3562, ADC3563 (ADC356x) family of devices are a low-noise, ultra-low power, 16-bit, 10-MSPS to 65-MSPS, high-speed analog-to-digital converters (ADCs). Designed for low power consumption, these devices deliver a noise spectral density of –158 dBFS/Hz combined with excellent linearity and dynamic range. The ADC356x offers good DC precision together with IF sampling support making the device suitable for a wide range of applications. High-speed control loops benefit from the short latency of only one clock cycle. The ADC consumes only 122 mW at 65 MSPS and power consumption that scales well with lower sampling rates. The ADC356x uses a serial LVDS (SLVDS) interface to output the data which minimizes the number of digital interconnects. The device supports two-, one- and half-lane options. The ADC356x and ADC358x are a pin-to-pin compatible family with 16 and 18-bit resolution and different speed grades. The devices come in a 40-pin QFN package (5 x 5 mm), and supports the extended industrial temperature range from -40 to +105⁰C. The ADC3561, ADC3562, ADC3563 (ADC356x) family of devices are a low-noise, ultra-low power, 16-bit, 10-MSPS to 65-MSPS, high-speed analog-to-digital converters (ADCs). Designed for low power consumption, these devices deliver a noise spectral density of –158 dBFS/Hz combined with excellent linearity and dynamic range. The ADC356x offers good DC precision together with IF sampling support making the device suitable for a wide range of applications. High-speed control loops benefit from the short latency of only one clock cycle. The ADC consumes only 122 mW at 65 MSPS and power consumption that scales well with lower sampling rates. The ADC356x uses a serial LVDS (SLVDS) interface to output the data which minimizes the number of digital interconnects. The device supports two-, one- and half-lane options. The ADC356x and ADC358x are a pin-to-pin compatible family with 16 and 18-bit resolution and different speed grades. The devices come in a 40-pin QFN package (5 x 5 mm), and supports the extended industrial temperature range from -40 to +105⁰C.

The ADC3561, ADC3562, ADC3563 (ADC356x) family of devices are a low-noise, ultra-low power, 16-bit, 10-MSPS to 65-MSPS, high-speed analog-to-digital converters (ADCs). Designed for low power consumption, these devices deliver a noise spectral density of –158 dBFS/Hz combined with excellent linearity and dynamic range. The ADC356x offers good DC precision together with IF sampling support making the device suitable for a wide range of applications. High-speed control loops benefit from the short latency of only one clock cycle. The ADC consumes only 122 mW at 65 MSPS and power consumption that scales well with lower sampling rates. The ADC356x uses a serial LVDS (SLVDS) interface to output the data which minimizes the number of digital interconnects. The device supports two-, one- and half-lane options. The ADC356x and ADC358x are a pin-to-pin compatible family with 16 and 18-bit resolution and different speed grades. The devices come in a 40-pin QFN package (5 x 5 mm), and supports the extended industrial temperature range from -40 to +105⁰C. The ADC3561, ADC3562, ADC3563 (ADC356x) family of devices are a low-noise, ultra-low power, 16-bit, 10-MSPS to 65-MSPS, high-speed analog-to-digital converters (ADCs). Designed for low power consumption, these devices deliver a noise spectral density of –158 dBFS/Hz combined with excellent linearity and dynamic range. The ADC356x offers good DC precision together with IF sampling support making the device suitable for a wide range of applications. High-speed control loops benefit from the short latency of only one clock cycle. The ADC consumes only 122 mW at 65 MSPS and power consumption that scales well with lower sampling rates. The ADC356x uses a serial LVDS (SLVDS) interface to output the data which minimizes the number of digital interconnects. The device supports two-, one- and half-lane options. The ADC356x and ADC358x are a pin-to-pin compatible family with 16 and 18-bit resolution and different speed grades. The devices come in a 40-pin QFN package (5 x 5 mm), and supports the extended industrial temperature range from -40 to +105⁰C.

The ADC3564 device is a low-noise, ultra-low power, 14-bit, 125-MSPS, high-speed ADC. Designed for low power consumption, the device delivers a noise spectral density of –156 dBFS/Hz combined with excellent linearity and dynamic range. The ADC3564 offers IF sampling support which makes the device suited for a wide range of applications. High-speed control loops benefit from the short latency of as little as one clock cycle. The ADC consumes only 137 mW at 125 MSPS, and the power consumption scales well with lower sampling rates. The ADC3564 uses serial LVDS (SLVDS) interface to output the data which minimizes the number of digital interconnects. The device supports two-lane, one-lane and half-lane options. The device is a pin-to-pin compatible family with different speed grades and comes in a 40-pin VQFN package. The device supports the extended industrial temperature range from –40 to +105⁰C. The ADC3564 device is a low-noise, ultra-low power, 14-bit, 125-MSPS, high-speed ADC. Designed for low power consumption, the device delivers a noise spectral density of –156 dBFS/Hz combined with excellent linearity and dynamic range. The ADC3564 offers IF sampling support which makes the device suited for a wide range of applications. High-speed control loops benefit from the short latency of as little as one clock cycle. The ADC consumes only 137 mW at 125 MSPS, and the power consumption scales well with lower sampling rates. The ADC3564 uses serial LVDS (SLVDS) interface to output the data which minimizes the number of digital interconnects. The device supports two-lane, one-lane and half-lane options. The device is a pin-to-pin compatible family with different speed grades and comes in a 40-pin VQFN package. The device supports the extended industrial temperature range from –40 to +105⁰C.

The ADC358x is a low noise, ultra-low power 18-bit 65 MSPS high-speed ADC family. Designed for low noise performance, it delivers a noise spectral density of -160 dBFS/Hz combined with excellent linearity and dynamic range. The ADC358x offers very good DC precision together with IF sampling support which makes it suited for a wide range of applications. High-speed control loops benefit from the short latency as low as only 1 clock cycle. The ADC consumes only 119 mW at 65 Msps and its power consumption scales well with lower sampling rates. The ADC358x uses a serial LVDS (SLVDS) interface to output the data which minimizes the number of digital interconnects. The device supports a one-lane and two-lane option. The ADC358x is a pin to pin compatible family with different speed grades. It comes in a 40-pin QFN package (5 x 5 mm) and supports the extended industrial temperature range from -40 to +105⁰C. The ADC358x is a low noise, ultra-low power 18-bit 65 MSPS high-speed ADC family. Designed for low noise performance, it delivers a noise spectral density of -160 dBFS/Hz combined with excellent linearity and dynamic range. The ADC358x offers very good DC precision together with IF sampling support which makes it suited for a wide range of applications. High-speed control loops benefit from the short latency as low as only 1 clock cycle. The ADC consumes only 119 mW at 65 Msps and its power consumption scales well with lower sampling rates. The ADC358x uses a serial LVDS (SLVDS) interface to output the data which minimizes the number of digital interconnects. The device supports a one-lane and two-lane option. The ADC358x is a pin to pin compatible family with different speed grades. It comes in a 40-pin QFN package (5 x 5 mm) and supports the extended industrial temperature range from -40 to +105⁰C.

The ADC358x is a low noise, ultra-low power 18-bit 65 MSPS high-speed ADC family. Designed for low noise performance, it delivers a noise spectral density of -160 dBFS/Hz combined with excellent linearity and dynamic range. The ADC358x offers very good DC precision together with IF sampling support which makes it suited for a wide range of applications. High-speed control loops benefit from the short latency as low as only 1 clock cycle. The ADC consumes only 119 mW at 65 Msps and its power consumption scales well with lower sampling rates. The ADC358x uses a serial LVDS (SLVDS) interface to output the data which minimizes the number of digital interconnects. The device supports a one-lane and two-lane option. The ADC358x is a pin to pin compatible family with different speed grades. It comes in a 40-pin QFN package (5 x 5 mm) and supports the extended industrial temperature range from -40 to +105⁰C. The ADC358x is a low noise, ultra-low power 18-bit 65 MSPS high-speed ADC family. Designed for low noise performance, it delivers a noise spectral density of -160 dBFS/Hz combined with excellent linearity and dynamic range. The ADC358x offers very good DC precision together with IF sampling support which makes it suited for a wide range of applications. High-speed control loops benefit from the short latency as low as only 1 clock cycle. The ADC consumes only 119 mW at 65 Msps and its power consumption scales well with lower sampling rates. The ADC358x uses a serial LVDS (SLVDS) interface to output the data which minimizes the number of digital interconnects. The device supports a one-lane and two-lane option. The ADC358x is a pin to pin compatible family with different speed grades. It comes in a 40-pin QFN package (5 x 5 mm) and supports the extended industrial temperature range from -40 to +105⁰C.

The ADC364x family of devices are low-noise, ultra-low power, 14-bit, 10-MSPS to 65-MSPS dual-channel, high-speed analog-to-digital converters (ADCs). Designed for low power consumption, these devices deliver a noise spectral density of –155 dBFS/Hz, combined with excellent linearity and dynamic range. The ADC364x offers very good dc precision, together with IF sampling support, which make the device an excellent choice for a wide range of applications. High-speed control loops benefit from the short latency of only one clock cycle. The ADC consumes only 72 mW/ch at 65 MSPS, and power consumption scales well with lower sampling rates. The ADC364x use a DDR or serial CMOS interface to output the data offering lowest power digital interface, together with flexibility to minimize the number of digital interconnects. These devices are a pin-to-pin compatible family with different speed grades. These devices support the extended industrial temperature range of –40 to +105⁰C. The ADC364x family of devices are low-noise, ultra-low power, 14-bit, 10-MSPS to 65-MSPS dual-channel, high-speed analog-to-digital converters (ADCs). Designed for low power consumption, these devices deliver a noise spectral density of –155 dBFS/Hz, combined with excellent linearity and dynamic range. The ADC364x offers very good dc precision, together with IF sampling support, which make the device an excellent choice for a wide range of applications. High-speed control loops benefit from the short latency of only one clock cycle. The ADC consumes only 72 mW/ch at 65 MSPS, and power consumption scales well with lower sampling rates. The ADC364x use a DDR or serial CMOS interface to output the data offering lowest power digital interface, together with flexibility to minimize the number of digital interconnects. These devices are a pin-to-pin compatible family with different speed grades. These devices support the extended industrial temperature range of –40 to +105⁰C.

The ADC364x family of devices are low-noise, ultra-low power, 14-bit, 10-MSPS to 65-MSPS dual-channel, high-speed analog-to-digital converters (ADCs). Designed for low power consumption, these devices deliver a noise spectral density of –155 dBFS/Hz, combined with excellent linearity and dynamic range. The ADC364x offers very good dc precision, together with IF sampling support, which make the device an excellent choice for a wide range of applications. High-speed control loops benefit from the short latency of only one clock cycle. The ADC consumes only 72 mW/ch at 65 MSPS, and power consumption scales well with lower sampling rates. The ADC364x use a DDR or serial CMOS interface to output the data offering lowest power digital interface, together with flexibility to minimize the number of digital interconnects. These devices are a pin-to-pin compatible family with different speed grades. These devices support the extended industrial temperature range of –40 to +105⁰C. The ADC364x family of devices are low-noise, ultra-low power, 14-bit, 10-MSPS to 65-MSPS dual-channel, high-speed analog-to-digital converters (ADCs). Designed for low power consumption, these devices deliver a noise spectral density of –155 dBFS/Hz, combined with excellent linearity and dynamic range. The ADC364x offers very good dc precision, together with IF sampling support, which make the device an excellent choice for a wide range of applications. High-speed control loops benefit from the short latency of only one clock cycle. The ADC consumes only 72 mW/ch at 65 MSPS, and power consumption scales well with lower sampling rates. The ADC364x use a DDR or serial CMOS interface to output the data offering lowest power digital interface, together with flexibility to minimize the number of digital interconnects. These devices are a pin-to-pin compatible family with different speed grades. These devices support the extended industrial temperature range of –40 to +105⁰C.

The ADC364x family of devices are low-noise, ultra-low power, 14-bit, 10-MSPS to 65-MSPS dual-channel, high-speed analog-to-digital converters (ADCs). Designed for low power consumption, these devices deliver a noise spectral density of –155 dBFS/Hz, combined with excellent linearity and dynamic range. The ADC364x offers very good dc precision, together with IF sampling support, which make the device an excellent choice for a wide range of applications. High-speed control loops benefit from the short latency of only one clock cycle. The ADC consumes only 72 mW/ch at 65 MSPS, and power consumption scales well with lower sampling rates. The ADC364x use a DDR or serial CMOS interface to output the data offering lowest power digital interface, together with flexibility to minimize the number of digital interconnects. These devices are a pin-to-pin compatible family with different speed grades. These devices support the extended industrial temperature range of –40 to +105⁰C. The ADC364x family of devices are low-noise, ultra-low power, 14-bit, 10-MSPS to 65-MSPS dual-channel, high-speed analog-to-digital converters (ADCs). Designed for low power consumption, these devices deliver a noise spectral density of –155 dBFS/Hz, combined with excellent linearity and dynamic range. The ADC364x offers very good dc precision, together with IF sampling support, which make the device an excellent choice for a wide range of applications. High-speed control loops benefit from the short latency of only one clock cycle. The ADC consumes only 72 mW/ch at 65 MSPS, and power consumption scales well with lower sampling rates. The ADC364x use a DDR or serial CMOS interface to output the data offering lowest power digital interface, together with flexibility to minimize the number of digital interconnects. These devices are a pin-to-pin compatible family with different speed grades. These devices support the extended industrial temperature range of –40 to +105⁰C.

The ADC3660 device is a low-noise, ultra-low power, 16-bit, 65-MSPS dual-channel, high-speed analog-to-digital converter (ADCs). Designed for low power consumption, the device delivers a noise spectral density of –159 dBFS/Hz, combined with excellent linearity and dynamic range. The ADC3660 offers excellent dc precision, together with IF sampling support, which make the device an excellent choice for a wide range of applications. The ADC consumes only 71 mW/ch at 65 MSPS, and power consumption scales very well with lower sampling rates. In bypass mode (up to 31 MSPS) the output data is available after 1 or 2 clock cycles. The ADC3660 uses a serial CMOS (SCMOS) interface to output the data which minimizes the number of digital interconnects. The device supports a two-lane, a one-lane and a half lane option. The serialized CMOS interface supports output rates to 250 Mbps which translates to ~ 15 MSPS (2-wire) to ~ 3.75 MSPS (0.5-wire) output rates after complex decimation. Hence the ADC3660 can be operated in ’oversampling + decimating’ mode using the internal decimation filter in order to improve the dynamic range and relax external anti-aliasing filter. The device comes in a 40-pin WQFN package (5 mm × 5 mm) and supports the extended industrial temperature range of –40 to +105⁰C. The ADC3660 device is a low-noise, ultra-low power, 16-bit, 65-MSPS dual-channel, high-speed analog-to-digital converter (ADCs). Designed for low power consumption, the device delivers a noise spectral density of –159 dBFS/Hz, combined with excellent linearity and dynamic range. The ADC3660 offers excellent dc precision, together with IF sampling support, which make the device an excellent choice for a wide range of applications. The ADC consumes only 71 mW/ch at 65 MSPS, and power consumption scales very well with lower sampling rates. In bypass mode (up to 31 MSPS) the output data is available after 1 or 2 clock cycles. The ADC3660 uses a serial CMOS (SCMOS) interface to output the data which minimizes the number of digital interconnects. The device supports a two-lane, a one-lane and a half lane option. The serialized CMOS interface supports output rates to 250 Mbps which translates to ~ 15 MSPS (2-wire) to ~ 3.75 MSPS (0.5-wire) output rates after complex decimation. Hence the ADC3660 can be operated in ’oversampling + decimating’ mode using the internal decimation filter in order to improve the dynamic range and relax external anti-aliasing filter. The device comes in a 40-pin WQFN package (5 mm × 5 mm) and supports the extended industrial temperature range of –40 to +105⁰C.