AD6653-150EBZ Analog Devices Inc, AD6653-150EBZ Datasheet - Page 36

AD6653-150EBZ

Manufacturer Part Number

AD6653-150EBZ

Description

Manufacturer

Analog Devices Inc

Datasheet

1.AD6653-150EBZ.pdf (80 pages)

Specifications of AD6653-150EBZ

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AD6653

When the fast detect mode select bits are set to 0b001, 0b010, or

0b011, a subset of the fast detect output pins is available. In these

modes, the fast detect output pins have a latency of six clock

cycles, and the greater of the two input samples is output at the

DCO rate. Table 19 shows the corresponding ADC input levels

when the fast detect mode select bits are set to 0b001 (that is,

when the ADC fast magnitude is presented on the FD[3:1] pins).

Table 19. ADC Fast Magnitude Nomimal Levels

with Fast Detect Mode Select Bits = 001

ADC Fast

Magitude on

FD[2:0] Pins

000

001

010

011

100

101

110

111

When the fast detect mode select bits are set to 0b010 or 0b011

(that is, when ADC fast magnitude is presented on the FD[2:1]

pins), the LSB is not provided. The input ranges for this mode

are shown in Table 20.

Table 20. ADC Fast Magnitude Nomimal Levels

with Fast Detect Mode Select Bits = 010 or 011

ADC Fast

Magitude on

FD[2:1] Pins

ADC OVERRANGE (OR)

The ADC overrange indicator is asserted when an overrange is

detected on the input of the ADC. The overrange condition is

determined at the output of the ADC pipeline and, therefore, is

subject to a latency of 12 ADC clock cycles. An overrange at the

input is indicated by this bit 12 clock cycles after it occurs.

GAIN SWITCHING

The AD6653 includes circuitry that is useful in applications either

where large dynamic ranges exist or where gain ranging converters

are employed. This circuitry allows digital thresholds to be set

such that an upper threshold and a lower threshold can be

programmed. Fast detect mode select bits = 010 through fast

detect mode select bits = 101 support various combinations of

the gain switching options.

Nominal Input

Magnitude

Below FS (dB)

<−24

−24 to −14.5

−14.5 to −10

−10 to −7

−7 to −5

−5 to −3.25

−3.25 to −1.8

−1.8 to 0

Nominal Input

Magnitude

Below FS (dB)

<−14.5

−14.5 to −7

−7 to −3.25

−3.25 to 0

Nominal Input

Magnitude

Uncertainty (dB)

Minimum to −18.07

−30.14 to −12.04

−18.07 to −8.52

−12.04 to −6.02

−8.52 to −4.08

−6.02 to −2.5

−4.08 to −1.16

−2.5 to 0

Nominal Input

Magnitude

Uncertainty (dB)

Minimum to −12.04

−18.07 to −6.02

−8.52 to −2.5

−4.08 to 0

Rev. 0 | Page 36 of 80

One such use is to detect when an ADC is about to reach full

scale with a particular input condition. The result is to provide

an indicator that can be used to quickly insert an attenuator that

prevents ADC overdrive.

Coarse Upper Threshold (C_UT)

The coarse upper threshold indicator is asserted if the ADC fast

magnitude input level is greater than the level programmed in

the coarse upper threshold register (Address 0x105[2:0]). This

value is compared with the ADC Fast Magnitude Bits[2:0]. The

coarse upper threshold output is output two clock cycles after

the level is exceeded at the input and, therefore, provides a fast

indication of the input signal level. The coarse upper threshold

levels are shown in Table 21. This indicator remains asserted for a

minimum of two ADC clock cycles or until the signal drops

below the threshold level.

Table 21. Coarse Upper Threshold Levels

Coarse Upper Threshold

000

001

010

011

100

101

110

111

Fine Upper Threshold (F_UT)

The fine upper threshold indicator is asserted if the input

magnitude exceeds the value programmed in the fine upper

threshold register located in Register 0x106 and Register 0x107.

The 13-bit threshold register is compared with the signal

magnitude at the output of the ADC. This comparison is subject

to the ADC clock latency but is accurate in terms of converter

resolution. The fine upper threshold magnitude is defined by

the following equation:

Fine Lower Threshold (F_LT)

The fine lower threshold indicator is asserted if the input

magnitude is less than the value programmed in the fine lower

threshold register located at Register 0x108 and Register 0x109.

The fine lower threshold register is a 13-bit register that is

compared with the signal magnitude at the output of the ADC.

This comparison is subject to ADC clock latency but is accurate

in terms of converter resolution. The fine lower threshold

magnitude is defined by the following equation:

The operation of the fine upper threshold and fine lower

threshold indicators is shown in Figure 73.

dBFS = 20 log(Threshold Magnitude/2

C_UT Is Active When Signal

Magnitude Below FS

Is Greater Than (dB)

<−24

−24

−14.5

−10

−7

−5

−3.25

−1.8

)