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1. Intel® MAX® 10 Analog to Digital Converter Overview
2. Intel® MAX® 10 ADC Architecture and Features
3. Intel® MAX® 10 ADC Design Considerations
4. Intel® MAX® 10 ADC Implementation Guides
5. Modular ADC Core Intel® FPGA IP and Modular Dual ADC Core Intel® FPGA IP References
6. Intel® MAX® 10 Analog to Digital Converter User Guide Archives
7. Document Revision History for Intel® MAX® 10 Analog to Digital Converter User Guide
2.2.1.1. Configuration 1: Standard Sequencer with Avalon-MM Sample Storage
2.2.1.2. Configuration 2: Standard Sequencer with Avalon-MM Sample Storage and Threshold Violation Detection
2.2.1.3. Configuration 3: Standard Sequencer with External Sample Storage
2.2.1.4. Configuration 4: ADC Control Core Only
5.4.1. Command Interface of Modular ADC Core and Modular Dual ADC Core
5.4.2. Response Interface of Modular ADC Core and Modular Dual ADC Core
5.4.3. Threshold Interface of Modular ADC Core and Modular Dual ADC Core
5.4.4. CSR Interface of Modular ADC Core and Modular Dual ADC Core
5.4.5. IRQ Interface of Modular ADC Core and Modular Dual ADC Core
5.4.6. Peripheral Clock Interface of Modular ADC Core and Modular Dual ADC Core
5.4.7. Peripheral Reset Interface of Modular ADC Core and Modular Dual ADC Core
5.4.8. ADC PLL Clock Interface of Modular ADC Core and Modular Dual ADC Core
5.4.9. ADC PLL Locked Interface of Modular ADC Core and Modular Dual ADC Core
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1.5.1. Voltage Representation Conversion
Use the following equations to convert the voltage between analog value and digital representation.
Equation 1. Conversion from Analog Value to Digital Code
Equation 2. Conversion from Digital Code to Analog Value
Calculation Example for VREF of 2.5 V
Analog voltage value to digital code (in decimal), where signal in is 2 V:
Digital code to analog voltage value, approximation to 4 decimal points: