Datasheet

ManualsBrandsTEXAS INSTRUMENTS ManualsData collecting ICsData acquisition IC - AD converter (ADC) External , Internal VQFN 64

f − Frequency − MHz

−160

−140

−120

−100

−80

−60

−40

−20

0 10 20 30

Amplitude − dB

G055

SFDR = 88.5 dBc

SINAD = 74.35 dBFS

SNR = 74.56 dBFS

THD = 86.5 dBc

f − Frequency − MHz

−160

−140

−120

−100

−80

−60

−40

−20

0 10 20 30

Amplitude − dB

G056

SFDR = 88.18 dBc

SINAD = 74.13 dBFS

SNR = 74.28 dBFS

THD = 87.89 dBc

f − Frequency − MHz

−160

−140

−120

−100

−80

−60

−40

−20

0 10 20 30

Amplitude − dB

G057

SFDR = 89.9 dBc

SINAD = 71.51 dBFS

SNR = 71.88 dBFS

THD = 81.32 dBc

f − Frequency − MHz

−160

−140

−120

−100

−80

−60

−40

−20

0 10 20 30

Amplitude − dB

G058

1 = 190.1 MHz, –7 dBFS

2 = 185.3 MHz, –7 dBFS

2-Tone IMD = 92 dBFS

SFDR = 95 dBFS

− Input Frequency − MHz

0 25 50 75 100 125 150 175 200

SFDR − dBc

G059

Gain = 0 dB

Gain = 3.5 dB

− Input Frequency − MHz

0 25 50 75 100 125 150 175 200

SNR − dBFS

G060

Gain = 0 dB

Gain = 3.5 dB

ADS62P45, ADS62P44

ADS62P43, ADS62P42

SLAS561C –JULY 2007– REVISED FEBRUARY 2012

www.ti.com

TYPICAL CHARACTERISTICS - ADS62P42 (F

= 65 MSPS)

All plots are at 25°C, AVDD = DRVDD = 3.3 V, maximum rated sampling frequency, sine wave input clock, 1.5 V

differential

clock amplitude, 50% clock duty cycle, –1 dBFS differential analog input, internal reference mode, 0 dB gain, CMOS output

interface (unless otherwise noted)

FFT for 20 MHz INPUT SIGNAL FFT for 70 MHz INPUT SIGNAL

Figure 60. Figure 61.

FFT for 190 MHz INPUT SIGNAL INTERMODULATION DISTORTION (IMD) vs FREQUENCY

Figure 62. Figure 63.

SFDR vs INPUT FREQUENCY SNR vs INPUT FREQUENCY

Figure 64. Figure 65.

Product Folder Link(s): ADS62P45, ADS62P44 ADS62P43, ADS62P42