- 8-bit High Speed Dual/ Quad ADC
Dual Channel Mode: FSmax = 500 MSPS
Quad Channel Mode: FSmax = 250 MSPS
- Integrated Cross Point Switches (Mux Array)
- 1X to 50X digital gain
No missing codes up to 32X
- 2X gain: 49.8 dB SNR
10X gain: 48 dB SNR
- Internal low jitter programmable Clock Divider
- Ultra Low Power Dissipation
710 mW including I/O at 500 MSPS
- 0.5 μs start-up time from Sleep,
15 μs from Power Down
- Internal reference circuitry with no external components required
- Coarse and fine gain control
- Digital fine gain adjustment for each ADC
- Internal offset correction
- 1.8 V supply voltage
- 1.7 - 3.6 V CMOS logic on control interface pins
- Serial LVDS / RSDS output
- 7x7 mm QFN 48 Pin (LP7D) Package
The HMCAD1513 is a versatile high performance low power analog-to-digital converter (ADC), utilizing time-interleaving to increase sampling rate. Integrated Cross Point Switches activate the input selected by the user.
In dual channel mode, any two of the four inputs can be selected to each ADC channel. In quad channel mode, any input can be assigned to any ADC channel.
An internal, low jitter and programmable clock divider makes it possible to use a single clock source for all operational modes.
The HMCAD1513 is based on a proprietary structure, and employs internal reference circuitry, a serial control interface and serial LVDS/RS DS output data. Data and frame synchronization clocks are supplied for data capture at the receiver. Internal 1 to 50X digital coarse gain with ENOB > 7.5 up to 16X gain, allows digital implementation of oscilloscope gain settings. Internal digital fine gain can be set separately for each ADC to calibrate for gain errors.
Various modes and configuration settings can be applied to the ADC through the serial control interface (SPI). Each channel can be powered down independently and data format can be selected through this interface. A full chip idle mode can be set by a single external pin. Register settings determine the exact function of this pin.
HMCAD1513 is designed to easily interface with Field Programmable Gate Arrays (FPGAs) from several vendors.
- Microwave backhaul
- Satellite Receivers
ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal.