Texas Instruments ADC10D1500CIUT/NOPB
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- ADC10D1500CIUT/NOPB
- Texas Instruments
- IC ADC 10BIT FOLD INTERP 292BGA
- Data Acquisition - Analog to Digital Converters (ADC)
- ADC10D1500CIUT/NOPB Datasheet
- 292-BBGA
- Tray
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What is ADC10D1500CIUT/NOPB
Texas Instruments Part Number ADC10D1500CIUT/NOPB(Data Acquisition - Analog to Digital Converters (ADC)), developed and manufactured by Texas Instruments, distributed globally by Jinftry. We distribute various electronic components from world-renowned brands and provide one-stop services, making us a trusted global electronic component distributor.
ADC10D1500CIUT/NOPB is one of the part numbers distributed by Jinftry, and you can learn about its specifications/configurations, package/case, Datasheet, and other information here. Electronic components are affected by supply and demand, and prices fluctuate frequently. If you have a demand, please do not hesitate to send us an RFQ or email us immediately [email protected] Please inquire about the real-time unit price, Data Code, Lead time, payment terms, and any other information you would like to know. We will do our best to provide you with a quotation and reply as soon as possible.
ADC10D1500CIUT/NOPB Specifications
- Part NumberADC10D1500CIUT/NOPB
- CategoryData Acquisition - Analog to Digital Converters (ADC)
- ManufacturerTexas Instruments
- DescriptionIC ADC 10BIT FOLD INTERP 292BGA
- PackageTray
- Series-
- FeaturesSimultaneous Sampling
- Operating Temperature-40°C ~ 70°C
- Mounting TypeSurface Mount
- Package / Case292-BBGA
- Supplier Device Package292-BGA (27x27)
- Reference TypeInternal
- Sampling Rate (Per Second)1.5G
- Data InterfaceLVDS - Parallel
- Number of Bits10
- Voltage - Supply, Analog1.8V ~ 2V
- Voltage - Supply, Digital1.8V ~ 2V
- Number of Inputs2
- Input TypeDifferential
- ConfigurationMUX-S/H-ADC
- Ratio - S/H:ADC1:1
- Number of A/D Converters2
- ArchitectureFolding Interpolating
Application of ADC10D1500CIUT/NOPB
ADC10D1500CIUT/NOPB Datasheet
ADC10D1500CIUT/NOPB Datasheet , Tray,Simultaneous Sampling,-40°C ~ 70°C,Surface Mount,292-BBGA,292-BGA (27x27),Internal,1.5G,LVDS - Parallel,10,1.8V ~ 2V,1.8V ~ 2V,2,Differential,MUX-S/H-ADC,1:1,2,Folding Interpolating
ADC10D1500CIUT/NOPB Classification
Data Acquisition - Analog to Digital Converters (ADC)
FAQ about Data Acquisition - Analog to Digital Converters (ADC)
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1. What is the main purpose of ADC?
The main purpose of ADC is to convert the input analog signal into a digital signal.
ADC, or analog-to-digital converter, is mainly used to convert continuously changing analog signals into discrete digital signals. The implementation process of ADC usually includes four steps: sampling, holding, quantization, and encoding.
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2. What is the difference between ADC and DAC?
The main difference between ADC and DAC is that they process different types of signals and conversion directions.
The main function of an ADC (analog-to-digital converter) is to convert analog signals into digital signals. This process involves sampling, quantization, and encoding, where sampling is the periodic measurement of the value of an analog signal at a certain sampling rate, quantization is the conversion of the sampled continuous values into a finite number of discrete levels, and encoding is the conversion of the quantized discrete levels into binary code. The output of the ADC is a digital signal that can be processed and stored by a computer or other digital circuit for various applications such as digital signal processing, data logging, and communications. Common applications in life include microphones, digital thermometers, digital cameras, etc., which convert the actual perceived analog information into digital signals for further processing and analysis12.
DAC ( -
3. What is the difference between the input and output of an ADC?
The input of ADC (Analog-to-Digital Converter) is analog quantity and the output is digital quantity.
The main function of ADC is to convert continuous analog signal into discrete digital signal. In electronic systems, analog signal usually refers to continuously changing voltage or current, such as the signal obtained from microphone or sensor. The amplitude and frequency of these analog signals can change continuously, while digital signals are composed of a series of discrete values, usually expressed in binary form.
Input: The input of ADC receives analog signals, which can be in the form of continuously changing physical quantities such as voltage and current. The amplitude and frequency of analog signals can change continuously, such as the voltage range from 0V to 5V.
Output: The output of ADC is digital signal, which is composed of a series of discrete values, usually expressed in binary form. The advantage of digital signals is that they can be calculated and processed quic
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