| Allicdata Part #: | MAX11612EVKIT+-ND |
| Manufacturer Part#: |
MAX11612EVKIT+ |
| Price: | $ 0.00 |
| Product Category: | Development Boards, Kits, Programmers |
| Manufacturer: | Maxim Integrated |
| Short Description: | KIT EVALUATION FOR MAX11612 |
| More Detail: | MAX11612 - 12 Bit 94.4k Samples per Second Analog ... |
| DataSheet: |  MAX11612EVKIT+ Datasheet/PDF |
| Quantity: | 1000 |
| 1 +: | 0.00000 |
Specifications
| Series: | -- |
| Part Status: | Obsolete |
| Number of A/D Converters: | 1 |
| Number of Bits: | 12 |
| Sampling Rate (Per Second): | 94.4k |
| Data Interface: | I²C, Serial |
| Input Range: | -- |
| Power (Typ) @ Conditions: | -- |
| Utilized IC / Part: | MAX11612 |
| Supplied Contents: | Board(s) |
Description
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MAX11612EVKIT+ is one of the Evaluation Boards - Analog to Digital Converters (ADCs), which are used to convert analog signals such as voltage, current, and temperature into a digital signal for processing and measuring applications, such as in medical, industrial, and automotive applications. The MAX11612EVKIT+ is a 24-bit / 6-channel precision analog-to-digital converter (ADC) evaluation board, including MAX11612EWI/T low-power 24-bit ADC in a 4x4mm WQFN package. It is designed to showcase the high performance and easy evaluation of the MAX11612EWI/T ADC. The board includes a scratch-pad memory to enable stand-alone operation.
The application field of MAX11612EVKIT+ extends from low power sensing applications with high accuracy and low noise, to medical applications such as ECG and EEG monitoring, and to non-invasive medical sensing applications, such as temperature measurements. It can also be used in general-purpose data acquisition, data conversion, and digital communication systems in automotive, consumer, industrial and medical hot spot applications. The board can be used to acquire data from multiple signals and convert them into digital data that can be easily processed and evaluated.
The MAX11612EVKIT+ ADC board features dual-channel parallel and differential analog inputs that offer the flexibility of connecting both single-ended and differential signal sources. The board can accept an input voltage range of + 2V to + 5.5V and provides low noise and low power consumption; it can be further improved by programmable digital filtering. Additionally, the board includes a 12-bit DAC for reference voltage settings, and can support up to three power supplies.
The working principle of the MAX11612EVKIT+ board is very simple. The ADC board is connected to an analog source, such as a temperature sensor, which generates the analog input signal. The input signal is fed to the ADC, which then converts it into a digital signal. The digital signal is then sent to a microprocessor or other system components for processing and storage. The integrated DAC can be used to adjust the reference voltage for the ADC as well as the gain and offset of the converted digital signal. The board also includes three power-supply controllers that can be used to ensure uninterrupted operation of the board even in noisy environments.
In summary, the MAX11612EVKIT+ Evaluation Board - Analog to Digital Converter (ADC) is designed to facilitate the easy evaluation of the performance of the MAX11612EWI/T low-power 24-bit ADC in a 4x4mm WQFN package. The application field of the board covers a wide range of sensing applications, from low power sensing applications to medical applications such as ECG and EEG monitoring. This board offers a wide input range, low noise performance, low power consumption, and the flexibility of single-ended and differential analog inputs. Additionally, the board features three power supply controllers for improved noise immunity and a 12-bit DAC for reference voltage settings and adjustable gain and offset.
The application field of MAX11612EVKIT+ extends from low power sensing applications with high accuracy and low noise, to medical applications such as ECG and EEG monitoring, and to non-invasive medical sensing applications, such as temperature measurements. It can also be used in general-purpose data acquisition, data conversion, and digital communication systems in automotive, consumer, industrial and medical hot spot applications. The board can be used to acquire data from multiple signals and convert them into digital data that can be easily processed and evaluated.
The MAX11612EVKIT+ ADC board features dual-channel parallel and differential analog inputs that offer the flexibility of connecting both single-ended and differential signal sources. The board can accept an input voltage range of + 2V to + 5.5V and provides low noise and low power consumption; it can be further improved by programmable digital filtering. Additionally, the board includes a 12-bit DAC for reference voltage settings, and can support up to three power supplies.
The working principle of the MAX11612EVKIT+ board is very simple. The ADC board is connected to an analog source, such as a temperature sensor, which generates the analog input signal. The input signal is fed to the ADC, which then converts it into a digital signal. The digital signal is then sent to a microprocessor or other system components for processing and storage. The integrated DAC can be used to adjust the reference voltage for the ADC as well as the gain and offset of the converted digital signal. The board also includes three power-supply controllers that can be used to ensure uninterrupted operation of the board even in noisy environments.
In summary, the MAX11612EVKIT+ Evaluation Board - Analog to Digital Converter (ADC) is designed to facilitate the easy evaluation of the performance of the MAX11612EWI/T low-power 24-bit ADC in a 4x4mm WQFN package. The application field of the board covers a wide range of sensing applications, from low power sensing applications to medical applications such as ECG and EEG monitoring. This board offers a wide input range, low noise performance, low power consumption, and the flexibility of single-ended and differential analog inputs. Additionally, the board features three power supply controllers for improved noise immunity and a 12-bit DAC for reference voltage settings and adjustable gain and offset.
The specific data is subject to PDF, and the above content is for reference
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