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DAC11001A Scheda tecnica(PDF) 29 Page - Texas Instruments |
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DAC11001A Scheda tecnica(HTML) 29 Page - Texas Instruments |
29 / 42 page DAC110 01 SYNC SDO SDIN SCLK LDAC CLR ALA RM IOVDD RS RS RS RS DGND IOVDD PROCESS OR RPULLUP DGND IOVDD SCLK MOSI MIS O CS INT GPIO GPIO RS RS Low-jitte r LDAC Sou rce DAC110 01 SYNC SDO SDIN SCLK LDAC CLR ALA RM IOVDD R S R S R S R S R S DGND IOVDD PROCESS OR R PUL LU P DGND IOVDD SCLK MOSI MIS O CS TIMER GPIO GPIO 29 DAC11001A, DAC91001, DAC81001 www.ti.com SLASEL0 – OCTOBER 2019 Product Folder Links: DAC11001A DAC91001 DAC81001 Submit Documentation Feedback Copyright © 2019, Texas Instruments Incorporated 9.3 System Examples This section provides details on the digital interface and the embedded resistor configurations. 9.3.1 Interfacing to a Processor The DACx1001 family of DACs works with a 4-wire SPI interface. The digital interface of the DACx1001 to a processor is shown in Figure 19. The DACx1001 has an LDAC input option for synchronous output update. In ac-signal generation applications, the jitter in the LDAC signal contributes to signal-to-noise ratio (SNR). Therefore, the LDAC signal must be generated from a low-jitter timer in the processor. The CLR and ALARM pins are static signals, and therefore can be connected to general-purpose input-output (GPIO) pins on the processor. All active-low signals (SYNC, LDAC, CLR, and ALARM) must be pulled up to IOVDD using 10-kΩ resistors. ALARM is an output pin from the DAC, so the corresponding GPIO on the processor must be configured as an input. Either poll the GPIO, or configured the GPIO as an interrupt to detect any failure alarm from the DAC. When using a high SCLK frequency, use source termination resistors, as shown in Interfacing to a Processor. Typically, 33-Ω resistors work on printed circuit boards (PCBs) with a 50-Ω trace impedance. Figure 19. Interfacing to a Processor 9.3.2 Interfacing to a Low-Jitter LDAC Source When the processor is not able to provide a low-jitter source for the LDAC signal, an external low-jitter LDAC source can be used, as shown in Figure 20. The processor can take the LDAC signal as an interrupt and trigger the SPI frame synchronously. Figure 20. Interfacing to an External LDAC Source |
Codice articolo simile - DAC11001A_V01 |
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Descrizione simile - DAC11001A_V01 |
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