Sensor Acquisition Module Enhances 12-Bit Oscilloscopes

Groomed for use with the company’s four- or eight-channel, 12-bit resolution oscilloscope (HD4096 HDOs and MDAs), the SAM40 sensor acquisition module provides up to 24 input channels. This capability is ideal for system debug and analysis of deeply embedded, electromechanical, and mechatronic designs in medical, mil/aero, motors and drives, power, appliance, Internet of Things (IoT), and vehicle/automotive.

 

Models

Free Newsletter

Like this article? Subscribe to FierceSensors!

The sensors industry is constantly changing as innovation runs the market’s trends. FierceSensors subscribers rely on our suite of newsletters as their must-read source for the latest news, developments and analysis impacting their world. Register today to get sensors news and updates delivered right to your inbox.

 

SAM40-8 - Sensor Acquisition Module, 8 input channels, 40 kHz bandwidth. Must be used with 12-bit HDO.

 

SAM40-16 - Sensor Acquisition Module, 16 input channels, 40 kHz bandwidth. Must be used with 12-bit HDO.

 

SAM40-24 - Sensor Acquisition Module, 24 input channels, 40 kHz bandwidth. Must be used with 12-bit HDO.

 

Engineers commonly use multiple instruments to debug and validate complex deeply embedded control systems, mechatronics, and electro-mechanical systems. Multiple instruments report different information on different displays and in different formats. An HDO with a sensor acquisition module replaces multiple instruments with one consolidated view of system performance.

 

For more details, a SAM40-xx datasheet is available.

Suggested Articles

OmniVision's new OX01F10 SoC module provides automotive designers with a small form factor with low-light performance, ultra-low power and reduced cost.

Several industry leaders have formed a QSFP-DD800 Multi-Source Agreement (MSA) Group to expedite development of high-speed, double-density, quad small form…

NXP Semiconductors N.V. has announced its secure fine ranging chipset, SR100T, to achieve precise positioning performance for next-generation UWB-enabled…