- Biopotential signals in; digitized signals out
- 5 acquisition (ECG) channels and one driven lead
- Parallel ICs for up to 10+ electrode measurements
- Master ADAS1000 or ADAS1000-1 used with slave ADAS1000-2
- AC and dc lead-off detection
- Internal pace detection algorithm on 3 leads
- Support for user’s own pace
- Thoracic impedance measurement (internal/external path)
- Selectable reference lead
- Scalable noise vs. power control, power-down modes
- Low power operation from
- 11 mW (1 lead), 15 mW (3 leads), 21 mW (all electrodes)
- Lead or electrode data available
- Supports AAMI EC11:1991/(R)2001/(R)2007, AAMI EC38
- R2007, EC13:2002/(R)2007, IEC60601-1 ed. 3.0 b:2005,
- IEC60601-2-25 ed. 2.0 :2011, IEC60601-2-27 ed. 2.0
- b:2005, IEC60601-2-51 ed. 1.0 b: 2005
- Fast overload recovery
- Low or high speed data output rates
- Serial interface SPI-/QSPI™-/DSP-compatible
- 56-lead LFCSP package (9 mm × 9 mm)
- 64-lead LQFP package (10 mm × 10 mm body size)
The ADAS1000-1 is a 5 electrode ECG analog front end designed to measure electro cardiac (ECG) signals and lead-on/off status and output this information in the form of a data frame supplying either lead/vector or electrode data at programmable data rates. Its low power and small size make it suitable for portable, battery-powered applications. The high performance also makes it suitable for higher end diagnostic machines.
The ADAS1000-1 is one of the family of ADAS1000 generics tailored for ECG applications, the ADAS1000-1 has a subset of features of the family. The ADAS1000 family are designed to simplify the task of acquiring and ensuring quality ECG signals. They provide a low power, small data acquisition system for biopotential applications. Auxiliary features that aid in better quality ECG signal acquisition include: multichannel averaged driven lead, selectable reference drive, fast overload recovery, flexible respiration circuitry returning magnitude and phase information, internal pace detection algorithm operating on three leads, and the option of ac or dc lead-off detection. Several digital output options ensure flexibility when monitoring and analyzing signals. Value-added cardiac post processing is executed externally on a DSP, microprocessor, or FPGA.
Because ECG systems span different applications, these products feature a power/ noise scaling architecture where the noise can be reduced at the expense of increasing power consumption. Signal acquisition channels may be shut down to save power. Data rates can be reduced to save power.
To ease manufacturing tests and development as well as offer holistic power-up testing, the ADAS1000-1 offers a suite of features, such as dc and ac test excitation via the calibration DAC and CRC redundancy testing in addition to readback of all relevant register address space.
The input structure is a differential amplifier input thereby allowing users a variety of configuration options to best suit their application.
The ADAS1000-1 is available in a 56-lead LFCSP package and is specified over −40°C to +85°C temperature range.
ECG: Monitor & Diagnostic
- Bedside Patient Monitoring
- Portable Telemetry
- Cardiac Defibrillators
- Ambulatory Monitors
- Pace Maker Programmer
- Patient Transport
- Stress testing
ADAS1000 ECG Analog Front End Wins 2011 Best Electronic Design Award in Medical Category.
The EVAL-ADAS1000SDZ is a fully featured evaluation kit for the ADAS1000. The evaluation kit consists of an evaluation board kitted with 2 ADAS1000 devices capable of demonstrating ECG capture up to 12 leads. Included in the kit is a medical grade +5V wall adaptor with interchangeable worldwide wall plugs and a CD with user software for data capture and display. The software allows control of all ADAS1000 registers, ability to capture and display ECG data, respiration data, pace pulse detection and store data for offline processing. This evaluation board is provided for silicon evaluation purposes and is not designed to be connected directly to animal or human. This board operates in conjunction with the System Development Platform (SDP) or alternatively may be interfaced to directly via a dedicated serial interface connector (J4). The SDP controller board connects to the PC via USB 2.0. The evaluation board connects to the SDP controller board. The ADAS1000 evaluation board cannot be connected directly to the PC. The evaluation software running on the PC will communicate with the evaluation board through the SDP Controller board. The SDP Controller board is a separate list item in the ordering guide below (EVAL-SDP-CB1Z). If you have not previously purchased an SDP Controller board, please do so to ensure a full evaluation setup.
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.
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