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AD9002SD/883B View Datasheet(PDF) - Analog Devices

Part Name
Description
View to exact match
AD9002SD/883B
ADI
Analog Devices ADI
AD9002SD/883B Datasheet PDF : 8 Pages
1 2 3 4 5 6 7 8
AD9002–SPECIFICATIONS
ELECTRICAL CHARACTERISTICS (–VS = –5.2 V; Differential Reference Voltage = 2.0 V; unless otherwise noted)
Parameter
AD9002AD/AJ
AD9002BD/BJ
AD9002SD/SE
AD9002TD/TE
Temp Min Typ Max Min Typ Max Min Typ Max Min Typ Max Units
RESOLUTION
8
8
8
8
Bits
DC ACCURACY
Differential Linearity
Integral Linearity
No Missing Codes
+25°C
Full
+25°C
Full
Full
0.6 0.75
1.0
0.6 1.0
1.2
GUARANTEED
0.4 0.5
0.75
0.4 0.5
1.2
GUARANTEED
0.6 0.75
1.0
0.6 1.0
1.2
GUARANTEED
0.4 0.5 LSB
0.75 LSB
0.4 0.5 LSB
1.2 LSB
GUARANTEED
INITIAL OFFSET ERROR
Top of Reference Ladder
Bottom of Reference Ladder
Offset Drift Coefficient
+25°C
Full
+25°C
Full
Full
8
14
17
4
10
12
20
8
14
17
4
10
12
20
8
14
17
4
10
12
20
8
14
17
4
10
12
20
mV
mV
mV
mV
µV/°C
ANALOG INPUT
Input Bias Current1
Input Resistance
Input Capacitance
Large Signal Bandwidth2
Input Slew Rate3
+25°C
60 200
60 200
60 200
60 200 µA
Full
200
200
200
200 µA
+25°C 25 200
25 200
25 200
25 200
k
+25°C
17 22
17 22
17 22
17 22
pF
+25°C
160
160
160
160
MHz
+25°C
440
440
440
440
V/µs
REFERENCE INPUT
Reference Ladder Resistance
+25°C 40
Ladder Temperature Coefficient
Reference Input Bandwidth
+25°C
80 110 40
0.25
10
80 110 40
0.25
10
80 110 40
0.25
10
80 110
0.25
10
/°C
MHz
DYNAMIC PERFORMANCE
Conversion Rate
Aperture Delay
Aperture Uncertainty (Jitter)
Output Delay (tPD)4, 5
Transient Response6
Overvoltage Recovery Time7
Output Rise Time4
Output Fall Time4
Output Time Skew4, 8
+25°C 125 150
+25°C
1.3
+25°C
15
+25°C 2.5 3.7 5.5
+25°C
6
+25°C
6
+25°C
3.0
+25°C
2.5
+25°C
0.6
125 150
1.3
15
2.5 3.7 5.5
6
6
3.0
2.5
0.6
125 150
1.3
15
2.5 3.7 5.5
6
6
3.0
2.5
0.6
125 150
1.3
15
2.5 3.7 5.5
6
6
3.0
2.5
0.6
MSPS
ns
ps
ns
ns
ns
ns
ns
ns
ENCODE INPUT
Logic “1” Voltage4
Logic “0” Voltage4
Logic “1” Current
Logic “0” Current
Input Capacitance
Encode Pulsewidth (Low)9
Encode Pulsewidth (High)9
Full –1.1
Full
Full
Full
+25°C
3
+25°C 1.5
+25°C 1.5
–1.1
–1.5
150
120
3
1.5
1.5
–1.1
–1.5
150
120
3
1.5
1.5
–1.1
–1.5
150
120
3
1.5
1.5
V
–1.5 V
150 µA
120 µA
pF
ns
ns
OVERFLOW INHIBIT INPUT
0 V Input Current
Full
144 300
144 300
AC LINEARITY10
Effective Bits11
+25°C
7.6
In-Band Harmonics
dc to 1.23 MHz
+25°C 48 55
dc to 9.3 MHz
+25°C
50
dc to 19.3 MHz
+25°C
44
Signal-to-Noise Ratio12
+25°C 46 47.6
Two Tone Intermod Rejection13 +25°C
60
7.6
48 55
50
44
46 47.6
60
DIGITAL OUTPUTS4
Logic “1” Voltage
Logic “0” Voltage
Full –1.1
–1.1
Full
–1.5
–1.5
POWER SUPPLY14
Supply Current (–5.2 V)
Nominal Power Dissipation
Reference Ladder Dissipation
Power Supply Rejection Ratio15
+25°C
Full
+25°C
+25°C
+25°C
145 175
200
750
50
0.8 1.5
145 175
200
750
50
0.8 1.5
144 300
7.6
48 55
50
44
46 47.6
60
–1.1
–1.5
145 175
200
750
50
0.8 1.5
144 300
7.6
48 55
50
44
46 47.6
60
–1.1
–1.5
145 175
200
750
50
0.8 1.5
µA
Bits
dB
dB
dB
dB
dB
V
V
mA
mA
mW
mW
mV/V
NOTES
1Measured with AIN = 0 V.
2Measured by FFT analysis where fundamental is –3 dBc.
3Input slew rate derived from rise time (10 to 90%) of full scale input.
40utputs terminated through 100 to –2 V.
5Measured from ENCODE in to data out for LSB only.
6For full-scale step input, 8-bit accuracy is attained in specified time.
7Recovers to 8-bit accuracy in specified time after 150% full-scale input overvoltage.
8Output time skew includes high-to-low and low-to-high transitions as well as
bit-to-bit time skew differences.
9ENCODE signal rise/fall times should be less than 10 ns for normal operation.
10Measured at 125 MSPS encode rate.
11Analog input frequency = 1.23 MHz.
12RMS signal to rms noise, with 1.23 MHz analog input signal.
13Input signals 1 V p-p @ 1.23 MHz and 1 V p-p @ 2.30 MHz.
14Supplies should remain stable within ± 5% for normal operation.
15Measured at –5.2 V ± 5%.
Specifications subject to change without notice.
–2–
REV. D
 

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