M1AFS600-PQ208 Datasheet, PDF(126/334 Page) Microsemi Corporation – Fusion Family of Mixed Signal FPGAs

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M1AFS600-PQ208 Datasheet, PDF (126/334 Pages) Microsemi Corporation – Fusion Family of Mixed Signal FPGAs

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Device Architecture

connected between the VAREF and ADCGNDREF pins. The VAREFSEL control pin is used to select the

reference voltage.

Table 2-42 â¢ VAREF Bit Function

Name

Bit

Function

VAREF 0 Reference voltage selection

0 â Internal voltage reference selected. VAREF pin outputs 2.56 V.

1 â Input external voltage reference from VAREF and ADCGNDREF

ADC Clock

The speed of the ADC depends on its internal clock, ADCCLK, which is not accessible to users. The

ADCCLK is derived from SYSCLK. Input signal TVC[7:0], Time Divider Control, determines the speed of

the ADCCLK in relationship to SYSCLK, based on EQ 15.

tADCCLK = 4 ï´ ï¨1 + TVCï© ï´ tSYSCLK

TVC: Time Divider Control (0â255)

tADCCLK is the period of ADCCLK, and must be between 0.5 MHz and 10 MHz

tSYSCLK is the period of SYSCLK

Table 2-43 â¢ TVC Bits Function

EQ 15

Name

Bits

Function

TVC

[7:0]

SYSCLK divider control

The frequency of ADCCLK, fADCCLK, must be within 0.5 Hz to 10 MHz.

The inputs to the ADC are synchronized to SYSCLK. A conversion is initiated by asserting the

ADCSTART signal on a rising edge of SYSCLK. Figure 2-90 on page 2-114 and Figure 2-91 on

page 2-115 show the timing diagram for the ADC.

Acquisition Time or Sample Time Control

Acquisition time (tSAMPLE) specifies how long an analog input signal has to charge the internal capacitor

array. Figure 2-88 shows a simplified internal input sampling mechanism of a SAR ADC.

Rsource

Sample and Hold

ZINAD

CINAD

Figure 2-88 â¢ Simplified Sample and Hold Circuitry

The internal impedance (ZINAD), external source resistance (RSOURCE), and sample capacitor (CINAD)

form a simple RC network. As a result, the accuracy of the ADC can be affected if the ADC is given

insufficient time to charge the capacitor. To resolve this problem, you can either reduce the source

resistance or increase the sampling time by changing the acquisition time using the STC signal.

EQ 16 through EQ 18 can be used to calculate the acquisition time required for a given input. The STC

signal gives the number of sample periods in ADCCLK for the acquisition time of the desired signal. If the

actual acquisition time is higher than the STC value, the settling time error can affect the accuracy of the

ADC, because the sampling capacitor is only partially charged within the given sampling cycle. Example

acquisition times are given in Table 2-44 and Table 2-45. When controlling the sample time for the ADC

2-110

Revision 4

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