The ability to perform efficient and accurate production testing in high-volume manufacturing facilities is crucial; test systems must be capable of automatically testing and diagnosing faults in the shortest possible time. Automated test equipment (ATE) is designed to address these challenges.
ATE is used in many different industries, testing everything from individual components, such as RF semiconductors, to complete electronic systems. Analog-to-digital conversion is a common function in mixed-signal ATE and requires digitizers with a higher performance than the device under test (DUT). This performance margin ensures the correct characterization of the DUT and plays a pivotal part in the time efficiency of this process.
Combination of high sample rates, vertical resolution and wide analog input bandwidth offers the best ATE flexibility including the reduction of system components such as mixers and amplifiers
Open FPGA for custom real-time digital signal processing
High data transfer rate is needed to support fast post-processing
Various form factors simplify system integration and allows for retrofitting new digitizers into existing systems
For information about the optional firmware packages and development kit see here
For a quick overview of available ADQ14 models please watch the short 2-minute video here
Traditional measurement systems are based on oscilloscopes. An oscilloscope is a lab equipment well recognized for its flexibility and adaptability to a diversity of measurement.
A digitizer is designed for being integrate in a system with a re-defined set of measurement tasks and to perform the same tasks as fast as possible in 24-7 operation.
The advantages of a digitizer are:
The digitizers are available as individual unit for integration in an existing PC. There are also reference designs available for various levels of integration.
Measurement sequence optimization
The traditional oscilloscope has a sequential way of operating which is necessary in a lab environment and may also be a good choice for the verification phase. In the figure below the measurement phase is completed, then the data is transferred to the user’s PC. Then the result is analyzed and/or plotted. This is very good for iterative investigations.
The measurement speed is optimized in the data flow of the digitizer. See figure below. As soon as a measurement is completed, the data is transferred. The digitizer is ready to take a new measurement while the data is transferred. The read-time between measurements is almost 0.
배송안내
배송 지역 | 대한민국 전지역
배송비 | 2,500원 (50,000원 이상 결제시 무료배송)
배송기간 | 주말 공휴일 제외 2~5일
- 모든 배송은 택배사 사정으로 지연될 수 있습니다.
교환 및 반품 안내
- 고객 변심으로 인한 교환/반품은 상품 수령 후 14일 이내 가능합니다.
- 고객 귀책 사유로 인한 반품의 경우 왕복 택배비는 고객 부담입니다.
- 반품접수 기한이 지난 경우, 제품 및 패키지 훼손, 사용 흔적이 있는 제품은 교환/반품이 불가합니다.
The ability to perform efficient and accurate production testing in high-volume manufacturing facilities is crucial; test systems must be capable of automatically testing and diagnosing faults in the shortest possible time. Automated test equipment (ATE) is designed to address these challenges.
ATE is used in many different industries, testing everything from individual components, such as RF semiconductors, to complete electronic systems. Analog-to-digital conversion is a common function in mixed-signal ATE and requires digitizers with a higher performance than the device under test (DUT). This performance margin ensures the correct characterization of the DUT and plays a pivotal part in the time efficiency of this process.
Combination of high sample rates, vertical resolution and wide analog input bandwidth offers the best ATE flexibility including the reduction of system components such as mixers and amplifiers
Open FPGA for custom real-time digital signal processing
High data transfer rate is needed to support fast post-processing
Various form factors simplify system integration and allows for retrofitting new digitizers into existing systems
For information about the optional firmware packages and development kit see here
For a quick overview of available ADQ14 models please watch the short 2-minute video here
Traditional measurement systems are based on oscilloscopes. An oscilloscope is a lab equipment well recognized for its flexibility and adaptability to a diversity of measurement.
A digitizer is designed for being integrate in a system with a re-defined set of measurement tasks and to perform the same tasks as fast as possible in 24-7 operation.
The advantages of a digitizer are:
The digitizers are available as individual unit for integration in an existing PC. There are also reference designs available for various levels of integration.
Measurement sequence optimization
The traditional oscilloscope has a sequential way of operating which is necessary in a lab environment and may also be a good choice for the verification phase. In the figure below the measurement phase is completed, then the data is transferred to the user’s PC. Then the result is analyzed and/or plotted. This is very good for iterative investigations.
The measurement speed is optimized in the data flow of the digitizer. See figure below. As soon as a measurement is completed, the data is transferred. The digitizer is ready to take a new measurement while the data is transferred. The read-time between measurements is almost 0.
배송안내
배송 지역 | 대한민국 전지역
배송비 | 2,500원 (50,000원 이상 결제시 무료배송)
배송기간 | 주말 공휴일 제외 2~5일
- 모든 배송은 택배사 사정으로 지연될 수 있습니다.
교환 및 반품 안내
- 고객 변심으로 인한 교환/반품은 상품 수령 후 14일 이내 가능합니다.
- 고객 귀책 사유로 인한 반품의 경우 왕복 택배비는 고객 부담입니다.
- 반품접수 기한이 지난 경우, 제품 및 패키지 훼손, 사용 흔적이 있는 제품은 교환/반품이 불가합니다.
