AD9653BCPZRL7-125 View Datasheet(PDF) - Analog Devices

Part Name

Description

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AD9653BCPZRL7-125

Quad, 16-Bit, 125 MSPS, Serial LVDS 1.8 V Analog-to-Digital Converter

Analog Devices 

AD9653

Data Sheet

AVDD = 1.8 V, DRVDD = 1.8 V, 2.6 V p-p full-scale differential input at −1.0 dBFS; VREF = 1.3 V; 0°C to 85°C, DCS off, unless otherwise

noted.

Table 4.

Parameter1

SIGNAL-TO-NOISE RATIO (SNR)

fIN = 9.7 MHz

fIN = 15 MHz

fIN = 70 MHz

fIN = 128 MHz

fIN = 200 MHz

SIGNAL-TO-NOISE-AND-DISTORTION RATIO (SINAD)

fIN = 9.7 MHz

fIN = 15 MHz

fIN = 70 MHz

fIN = 128 MHz

fIN = 200 MHz

EFFECTIVE NUMBER OF BITS (ENOB)

fIN = 9.7 MHz

fIN = 15 MHz

fIN = 70 MHz

fIN = 128 MHz

fIN = 200 MHz

SPURIOUS-FREE DYNAMIC RANGE (SFDR)

fIN = 9.7 MHz

fIN = 15 MHz

fIN = 70 MHz

fIN = 128 MHz

fIN = 200 MHz

WORST HARMONIC (SECOND OR THIRD)

fIN = 9.7 MHz

fIN = 15 MHz

fIN = 70 MHz

fIN = 128 MHz

fIN = 200 MHz

WORST OTHER HARMONIC OR SPUR

fIN = 9.7 MHz

fIN = 15 MHz

fIN = 70 MHz

fIN = 128 MHz

fIN = 200 MHz

TWO-TONE INTERMODULATION DISTORTION (IMD)—AIN1 AND AIN2 = −7.0 dBFS

fIN1 = 70.5 MHz, fIN2 = 72.5 MHz

CROSSTALK2

CROSSTALK (OVERRANGE CONDITION)3

POWER SUPPLY REJECTION RATIO (PSRR)4

AVDD

DRVDD

ANALOG INPUT BANDWIDTH, FULL POWER

Temperature Min Typ Max Unit

25°C

80

dBFS

25°C

79.4

dBFS

25°C

77.5

dBFS

25°C

74.4

dBFS

25°C

71.7

dBFS

25°C

79.8

dBFS

25°C

79.2

dBFS

25°C

76.1

dBFS

25°C

74

dBFS

25°C

69.9

dBFS

25°C

13

Bits

25°C

12.9

Bits

25°C

12.3

Bits

25°C

12

Bits

25°C

11.3

Bits

25°C

94

dBc

25°C

94

dBc

25°C

82

dBc

25°C

86

dBc

25°C

75

dBc

25°C

−94

dBc

25°C

−94

dBc

25°C

−82

dBc

25°C

−87

dBc

25°C

−75

dBc

25°C

−100

dBc

25°C

−99

dBc

25°C

−96

dBc

25°C

−86

dBc

25°C

−84

dBc

25°C

−90

dBc

25°C

91

dB

25°C

87

dB

25°C

31

dB

25°C

79

dB

25°C

650

MHz

1 See the AN-835 Application Note, Understanding High Speed ADC Testing and Evaluation, for definitions and for details on how these tests were completed.

2 Crosstalk is measured at 70 MHz with −1.0 dBFS analog input on one channel and no input on the adjacent channel.

3 Overrange condition is defined as the input being 3 dB above full scale.

4 PSRR is measured by injecting a sinusoidal signal at 10 MHz to the power supply pin and measuring the output spur on the FFT. PSRR is calculated as the ratio of the

amplitudes of the spur voltage over the pin voltage, expressed in decibels.

Rev. 0 | Page 6 of 40

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