Analog Devices Inc. AD7690BCPZRL7

AD7690BCPZRL7 Overview
Analog Devices Inc. is a highly reputable brand in the electronic industry, known for its high-quality and reliable products. One of its popular products is the Data Acquisition - Analog to Digital Converters (ADC) chip. This chip is highly versatile and is commonly used in various electronic devices such as sensors, industrial control systems, and medical equipment. It falls under the Data Acquisition - Analog to Digital Converters (ADC) category, making it a crucial component in the conversion of analog signals to digital data. One important aspect to consider when choosing electronic components is the contact plating. In this case, the Analog Devices Inc. ADC chip has a tin contact plating, which ensures a strong and stable connection between the chip and other electronic components. This feature is essential in ensuring the overall performance and longevity of the device. The JESD-609 Code for this ADC chip is e3, which indicates that it has undergone rigorous testing and meets industry standards for electrostatic discharge (ESD) protection. This code is crucial in ensuring the reliability and durability of the chip, as it protects it from potential damage caused by static electricity. When it comes to the reflow temperature, the Analog Devices Inc. ADC chip does not have a specified maximum temperature. This means that the chip can withstand a wide range of temperatures, making it suitable for use in various environments and applications. It is worth noting that the Qualification Status of this ADC chip is Not Qualified. This means that it has not yet undergone the full qualification process, but it is still a high-quality and reliable product. This status is common for newer products, and it does not affect the performance or functionality of the chip. The Analog Devices Inc. ADC chip has a minimum supply voltage of 4.75V, which is the minimum voltage required for the chip to operate correctly. This voltage range makes it suitable for use in a wide range of electronic devices and applications. In terms of the input voltage, this ADC chip has a minimum input voltage of 500mV. This means that it can accurately convert analog signals with a minimum voltage of 500mV, making it suitable for use in low-power devices. The converter type of this ADC chip is ADC, SUCCESSIVE APPROXIMATION, which is a commonly used method for analog-to-digital conversion. This type of converter is known for its high accuracy and fast conversion speed, making it an ideal choice for many applications. The Analog Devices Inc. ADC chip also has an external reference type, which means that an external voltage reference is required for accurate conversion. This feature allows for more precise and customizable measurements, making it suitable for use in various industrial and scientific applications. Lastly, the Linearity Error-Max (EL) for this ADC chip is 0.0006%, which is an incredibly low value. This indicates that the chip has a high level of accuracy and can provide precise digital data from the analog signals it receives. Additionally, the Ratio - S/H:ADC is 1:1, meaning that the sample and hold circuitry is well-matched with the ADC, further enhancing the accuracy of the conversion process. In conclusion, the Analog Devices Inc. ADC chip is a highly versatile and reliable component that is essential in converting analog signals to digital data. With its high-quality features such as tin contact plating, ESD protection, and low linearity error, this chip is a top choice for many electronic applications. It is a testament to the brand's commitment to providing top-notch products that meet industry standards and exceed customer expectations.

AD7690BCPZRL7 Features
1 Functions
10 basic kinds of terminations
10 pin count
Minimal supply voltage of 4.75V
5V power supplies
PulSAR? series

AD7690BCPZRL7 Applications
There are a lot of Analog Devices Inc. AD7690BCPZRL7 ADC applications.

In-building wireless telephony
Automotive
Digital beam-forming systems for ultrasound
Multicarrier, multimode digital receivers
Micro and pico cell systems, software radios
Imaging Systems
Music recording
4-channel data acquisition
Spectrum Analysis
Scientific instruments