Datasheet
AD9762
–8–
REV. B
FREQUENCY – MSPS
dBc
–70
–75
–95
0 20 140
40 60 80 100 120
–80
–85
–90
2ND
HARMONIC
3RD
HARMONIC
4TH
HARMONIC
Figure 12. THD vs. f
CLOCK
@
f
OUT
= 2 MHz
1.25
–0.50
–1.25
4000
ERROR – LSB
1000 2000 3000
1.00
–0.25
0.25
0
–0.75
0.50
–1.00
0.75
CODE
0
Figure 15. Typical INL
10dB – Div
0
–100
START: 0.3 MHz STOP: 50.0 MHz
f
CLOCK
= 100 MSPS
f
OUT
= 2.41MHz
SFDR = 72dBc
AMPLITUDE = 0dBFS
Figure 18. Single-Tone SFDR
I
OUTFS
– mA
SFDR – dBc
80
70
30
28 2014
60
50
40
75
65
55
45
35
4 6 10 12 16 18
2.5MHz
10MHz
22.2MHz
40MHz
Figure 13. SFDR vs. f
OUT
and I
OUTFS
@ 100 MSPS, 0 dBFS
1
–0.4
4000
ERROR – LSB
1000 2000 3000
0.8
–0.2
0.2
0
0.4
0.6
CODE
0
Figure 16. Typical DNL
10dB – Div
0
–100
START: 0.3 MHz STOP: 50.0 MHz
f
CLOCK
= 100 MSPS
f
OUT1
= 13.5MHz
f
OUT2
= 14.5MHz
SFDR = 62dBc
AMPLITUDE = 0dBFS
Figure 19. Dual-Tone SFDR
OUTPUT FREQUENCY – MHz
SFDR – dBc
75
70
45
1 10 100
60
55
50
65
IDIFF @ –6dBFS
IDIFF @ 0dBFS
IOUTA @ –6dBFS
IOUTA @ 0dBFS
Figure 14. Differential vs. Single-
Ended SFDR vs. f
OUT
@ 100 MSPS
TEMPERATURE – ⴗC
SFDR – dBc
80
75
50
–40 –20 80
60
70
65
60
55
40200
2.5MHz
10MHz
40MHz
Figure 17. SFDR vs. Temperature
@ 100 MSPS, 0 dBFS
10dB – Div
–10
–110
START: 0.3 MHz STOP: 25.0 MHz
f
CLOCK
= 50 MSPS
f
OUT1
= 6.25MHz
f
OUT2
= 6.75MHz
f
OUT3
= 7.25MHz
f
OUT4
= 7.75MHz
SFDR = 71dBc
AMPLITUDE = 0dBFS
Figure 20. Four-Tone SFDR