Product Datasheet

ADA10000
1 GHz CATV Amplifier
Data Sheet - Rev 2.8
FEATURES
• 15 dB Gain
• Wide Bandwidth: 50 MHz to 1 GHz
• High Linearity : +64 dBmV IIP3 (+8 V supply)
• Low Distortion
• Low Noise Figure: 2.0 dB
• Single +4 V to +8 V Supply
• SOIC-16 and SOT-89 Package Options
• RoHS Compliant Package
AppliCations
• CATV Drop Amplifier
• Low noise amplifier for CATV Set-Top Boxes
• Home gateways
• Post Amp for RF overlay in FTTH/RFOG ONUs
PRODUCT DESCIPTION
The ADA10000 is a monolithic IC intended for use in
applications requiring high linearity, such as Cellular
Telephone Base Station Driver Amplifiers, CATV Fiber
Receiver and Distribution Amplifiers, and CATV Drop
S3 Package
Modified 16 Pin SOIC
S24 Package
SOT-89
Amplifiers. Offered in both a modified 16 lead SOIC
package and SOT-89 package, it is well suited for use
in amplifiers where small size, reduced component
count, and high reliability are important.
RF Output
/ Bias
RF Input
Figure 1: Block Diagram
10/2013
ADA10000
1
GND
GND
16
2
GND
GND
15
3
GND
RFOUT
14
4
GND
GND
13
5
GND
GND
12
6
RFIN
GND
11
7
GND
GND
10
8
GND
GND
9
Figure 2: Pinout - S3 Package
Table 1: Pin Description - S3 Package
2
PIN
NAME
1
GND
2
DESCRIPTION
PIN
NAME
Ground
16
GND
Ground
GND
Ground
15
GND
Ground
3
GND
Ground
14
RFOUT
RF Output / Bias
4
GND
Ground
13
GND
Ground
5
GND
Ground
12
GND
Ground
6
RFIN
RF Input
11
GND
Ground
7
GND
Ground
10
GND
Ground
8
GND
Ground
9
GND
Ground
Data Sheet - Rev 2.8
10/2013
DESCRIPTION
ADA10000
GND
4
1
2
3
RFIN
GND
RFOUT
Figure 3: Pinout - S24 Package
Table 2: Pin Description - S24 Package
3
PIN
NAME
DESCRIPTION
1
RFIN
RF Input
2
GND
Ground
3
RFOUT
RF Output / Bias
4
GND
Ground
Data Sheet - Rev 2.8
10/2013
ADA10000
ELECTRICAL CHARACTERISTICS
Table 3: Absolute Minimum and Maximum Ratings
PARAMETER
MIN
MAX
UNIT
Supply
(S3 package: pin 14)
(S24 package: pin 3)
0
+12
VDC
RF Power at Input (1)
(S3 package: pin 6)
(S24 package: pin 1)
-
+59
dBmV
-65
+150
°C
Storage Temperature
Stresses in excess of the absolute ratings may cause permanent damage.
Functional operation is not implied under these conditions. Exposure
to absolute ratings for extended periods of time may adversely affect
reliability.
Notes:
(1)RF input pin must be AC-coupled. No DC external bias should be applied.
Table 4: Operating Ranges
PARAMETER
MIN
TYP
MAX
UNIT
RF Input / Output Frequency
50
-
1000
MHz
Supply Voltage (VDD)
+4
+8
+9
VDC
Case Temperature
-40
-
+85
(1)
°C
The device may be operated safely over these conditions; however, parametric
performance is guaranteed only over the conditions defined in the electrical
specifications.
Notes:
(1)Median time to failure will degrade above this temperature.
4
Data Sheet - Rev 2.8
10/2013
ADA10000
Table 5: Electrical Specifications
(TA = +25 °C, VDD = +8 VDC, 75 Ω system, see Figures 4 and 5)
PARAMETER
MIN
TYP
MAX
UNIT
CSO (1) / CSO (2)
60 / 62
-
-
dBc
CTB
65 / 74
-
-
dBc
14
15
-
dB
-
2.0
3.5
dB
2nd Order Input Intercept Point
(IIP2) (3)
+77
+83
-
dBmV
3rd Order Input Intercept Point
(IIP3) (3)
+61
+64
-
dBmV
-
-
35
20
°C/W
50
-
150
mA
(1)
/ CTB (2)
Gain
Noise Figure
Thermal Resistance
Current Consumption (4)
COMMENT
S3 package
S24 package
Notes:
(1)160 channels, +17 dBmV per channel (measured at input), 6 MHz channel spacing.
(2)80 channels, +19 dBmV per channel (measured at input), 6 MHz channel spacing.
(3)Two tones, -39 dBmV per tone at input.
(4)The device can be operated at reduced supply voltages from 4 V to 8 V for lower power dissipation. Refer to Figures
7, 8, 13, and 16 for performance variation with supply voltage.
5
Data Sheet - Rev 2.8
10/2013
ADA10000
VDD
0.1 uF
3.9 uH
1000 pF
RFOUT
1000 pF
ADA10000
5.6 nH
RFIN
Figure 4: Standard Test/Application Circuit - S3 Package Device (75 Ω terminations)
VDD
0.01 uF
820 nH
1000 pF
180 pF
10 nH
1
RFIN
0.5 pF
ADA10000
2,4
100 3
RFOUT
0.5 pF
50 Figure 5: Standard Test/Application Circuit - S24 Package Device (75 Ω terminations)
6
Data Sheet - Rev 2.8
10/2013
ADA10000
S3 PACKAGE PERFORMANCE PERFORMANCE DATA: 50 MHz to 1000 MHz
As measured in test circuits shown in Figures 4 and 5.
17
3. 5
16
3. 0
15
2. 5
14
2. 0
Gai n
13
12
0
200
400
600
15.8
2.1
15.6
2.0
15.4
1.9
Gain
1.7
4
5
6
7
8
9
Supply Voltage (V )
Frequency (MHz)
Figure 9: Output Power vs.
Input Power - S3 Package Device
(TA = +25 8C; VDD = +8 V; f = 500 MHz;
75 V systems)
Figure 8: IIP2 and IIP3 vs.
Supply Voltage - S3 Package Device
(TA = +25 8C; 75 V systems)
89
1.8
NF
15.0
1. 0
1000
800
2.2
15.2
1. 5
NF
16.0
No is e F igur e ( dB )
4. 0
Ga in (d B)
Ga in (d B)
18
Figure 7: Gain and Noise Figure vs.
Supply Voltage - S3 Package Device
(TA = +25 8C; f = 500 MHz; 75 V systems)
No is e F igur e ( dB )
Figure 6: Gain and Noise Figure vs.
Frequency - S3 Package Device
(TA = +25 8C; VDD = +8 V; 75 V systems)
75
84
73
Ou tput Powe r ( dB mV)
IIP2, IIP 3 (dB mV)
79
74
69
64
IIP 2
IIP 3
59
71
69
67
65
54
4
5
6
7
8
9
63
48
Supply Voltage ( V)
50
Notes:
(1) IIP2 measure at 986.5 MHz; Input = two tones at 55.25 MHz and 931.25
MHz at +39 dBmV.
(2) IIP3 measured with two tones at the input: 986.5 MHz and 992.5 MHz at
+39 dBmV.
Figure 10: Unmatched Device Input Impedance
S3 Package Device
(TA = +25 8C; VDD = +8 V; 75 V systems)
52
54
58
Figure 11: Unmatched Device Output
Impedance - S3 Package Device
(TA = +25 8C; VDD = +8 V; 75 V systems)
50 MHz
50 MHz
1 GHz
1 GHz
Refer to the ANADIGICS web site for full 2-port s-parameter data.
7
56
Input Power (dBmV)
Data Sheet - Rev 2.8
10/2013
60
ADA10000
S24 (SOT-89) PACKAGE PERFORMANCE PERFORMANCE DATA:
Figure 13: Noise Figure vs. Voltage
S24Figure
(SOT-89)
Package
x: Noise Figure
vs FrequencyDevice
and Voltage
S24 (SOT-89) Packaged Device
8C
;
75
V systems)
(TA = +25
( T = +25 C, 75 ohm
system )
Figure 12: Gain vs. Frequency and Voltage
Figure x: Gain vs
Frequency and
Voltage
S24 (SOT-89)
Package
Device
S24 (SOT-89) Packaged Device
= +25 C, 75 ohm system )
75 V systems)
(TA = +25( T8C;
o
A
o
A
17.00
4.50
16.00
4.00
5V
6V
7V
3.50
15.00
8V
NF (dB)
Gain (dB)
9V
14.00
5V
13.00
3.00
2.50
6V
2.00
7V
8V
12.00
1.50
9V
11.00
0
100
200
300
400
500
600
700
800
900
1.00
1000
0
Frequency (MHz)
300
Ou tput Re turn Los s ( dB )
-15
-20
-25
-30
600
700
800
900
1000
-10
-15
-20
-25
-30
-35
-35
-40
-40
0
200
400
600
800
0
1000
200
400
600
800
100 0
Frequency (MHz)
Frequency (MHz)
Figure 17: Output Power vs.
Input Power - S24 Package Device
(TA = +25 8C; VDD = +8 V; f = 500 MHZ; 75 V
systems)
Figure 16: IIP2 and IIP3 vs.
Supply Voltage - S24 Package Device
(TA = +25 8C; 75 V systems)
89
75
84
73
Output Power (dBmV)
79
IIP2, IIP3 (dBmV)
500
-5
-10
74
69
64
IIP2
IIP3
59
4
5
6
7
Supply Voltage (V)
8
71
69
67
65
54
9
63
49
Notes:
(1) IIP2 measure at 986.5 MHz; Input = two tones at 55.25 MHz and 931.25
MHz at +39 dBmV.
(2) IIP3 measured with two tones at the input: 986.5 MHz and 992.5 MHz at
+39 dBmV.
8
400
Figure 15: Output Return Loss vs.
Frequency - S24 Package Device
A
= +25 8C; VDD = +8 V; 75 V systems)
(T
0
-5
Inpu t R etur n Los s ( dB )
200
Frequency (MHz)
Figure 14: Input Return Loss vs.
Frequency - S24 Package Device
(TA = +25 8C; VDD = +8 V; 75 V systems)
0
100
Data Sheet - Rev 2.8
10/2013
51
53
55
Input Power (dBmV)
57
59
61
ADA10000
Figure 18: Unmatched Device Input
Impedance - S24 Package Device
(TA = +25 8C; VDD = +8 V; 75 V systems)
Figure 19: Unmatched Device Output
Impedance - S24 Package Device
(TA = +25 8C; VDD = +8 V; 75 V systems)
50 MHz
50 MHz
1 GHz
1 G Hz
Refer to the ANADIGICS web site for full 2-port s-parameter data.
9
Data Sheet - Rev 2.8
10/2013
ADA10000
50 MHz to 1000 MHz DISTORTION DATA- S24 (SOT-89) PACKAGE DEVICE:
80 Channel Data
Figure 20: CTB vs Frequency and Voltage
Figure x: CTB vs Frequency and Voltage
= +30) dBmV/ch)
(80 Flat NTSC
Channels;
POUT
( 80 Flat
NTSC Channels; Pout
= +30dBmV/Ch
Figure 23: CTB vs Frequency and Output
Power (80Figure
Flatx: CTB
NTSC
Channels; VDD = +8 V;
vs Frequency and Output Power
( 80 Flat NTSC
V = +8V; T = +25 C )
TA =Channels;
+25 8C)
-60
DD
-65
6V
8V
38dBmV
36dBmV
-50
9V
34dBmV
32dBmV
-55
-75
CTB (dBc)
CTB (dBc)
40dBmV
-45
7V
-70
o
A
-40
5V
-80
30dBmV
-60
-65
-70
-75
-85
-80
-90
0
100
200
300
400
500
-85
600
Frequency (MHz)
-90
0
100
200
300
400
500
600
Frequency (MHz)
Figure 24: CSO vs Frequency and Output
= +8 V;
Power (80
Flat
NTSC
Channels;
VDD
Figure
x: CSO
VS Frequency
and Output
Power
( 80 Flat NTSC Channels; V = +8V; T = +25 C )
TA = +25 8C)
Figure 21:
CSO vs Frequency and Voltage
Figure x: CSO vs Frequency and Voltage
( 80 Flat
NTSC Channels; Pout
+30dBmV/Ch
)
(80 Flat NTSC
Channels;
P=OUT
= +30
dBmV/ch)
-40
DD
A
o
-40
-50
-45
-50
CSO (dBc)
-60
-55
-60
CSO(dBc)
-70
5V
-80
6V
7V
-70
-75
40dBmV
-80
8V
-90
-65
38dBmV
36dBmV
-85
9V
34dBmV
-90
-100
0
100
200
300
400
500
32dBmV
-95
600
Frequency (MHz)
30dBmV
-100
0
100
200
300
400
500
600
Frequency (MHz)
Figure 22: XMOD vs Frequency and Voltage
XMOD vs Frequency and Voltage
(80 Flat NTSC( 80Channels;
PPout
OUT
= +30 dBmV/ch)
Flat NTSC Channels;
= +30dBmV/Ch
)
Figure 25: XMOD vs Frequency and Output
= +8 V;
Power (80
Flat
NTSC
Channels;
VDDPower
Figure
x : XMOD
vs Frequency
and Output
( 80 Flat NTSC
Channels;
+25 V8C)= +8V; T = +25 C )
TA =
-50
DD
-35
-45
6V
7V
34dBmV
32dBmV
-50
8V
XMOD (dBc)
XMOD (dBc)
38dBmV
36dBmV
5V
-60
o
40dBmV
-40
-55
A
9V
-65
30dBmV
-55
-60
-65
-70
-70
-75
-75
0
100
200
300
Frequency (MHz)
10
400
500
600
-80
0
100
200
300
Frequency (MHz)
Data Sheet - Rev 2.8
10/2013
400
500
600
ADA10000
50 MHz to 1000 MHz DISTORTION DATA- S24 (SOT-89) PACKAGE DEVICE:
110 Channel Data
Figure 26: CTB vs Frequency and Voltage
Figure x: CTB vs Frequency and Voltage
( 110Channels;
Flat NTSC Channels; Pout
= +30dBmV/Ch
(110 Flat NTSC
POUT
= +30) dBmV/ch)
Figure 29: CTB vs Frequency and Output
Power (110Figure
Flat
NTSC Channels; VDD = +8 V;
x: CTB vs Frequency and Output Power
( 110113
Flat NTSC
Channels;
= +8V; T8C)
= +25 C )
@
mA;
TA V= +25
-55
DD
5V
-60
6V
8V
9V
-70
CTB (dBc)
CTB (dBc)
37dBmV
-45
7V
-65
o
A
-40
-75
35dBmV
-50
33dBmV
-55
29dBmV
31dBmV
27dBmV
-60
-65
-70
-75
-80
-80
-85
0
100
200
300
400
500
600
700
-85
800
Frequency (MHz)
-90
0
100
200
300
400
500
600
700
800
Frequency (MHz)
Figure 27: CSO vs Frequency and Voltage
Figure x: CSO vs Frequency and Voltage
(110 Flat NTSC
Channels; POUT = +30 dBmV/ch)
( 110 Flat NTSC Channels; Pout = +30dBmV/Ch )
-40
Figure 30: CSO vs Frequency and Output
Power (110Figure
Flatx:NTSC
Channels; VDD = +8 V; @
CSO vs Frequency and Output Power
( 110
Flat mA;
NTSC Channels;
= +8V;
T = +25 C )
113
TA =V+25
8C)
DD
o
A
-40
-50
-45
-50
CSO (dBc)
-60
-55
-60
CSO (dBc)
-70
5V
-80
6V
7V
-90
-65
-70
-75
37dBmV
8V
-80
35dBmV
9V
-85
33dBmV
31dBmV
-90
-100
0
100
200
300
400
500
600
700
29dBmV
27dBmV
-95
800
Frequency (MHz)
-100
0
100
200
300
400
500
600
700
800
Frequency (MHz)
Figure 28: XMOD vs Frequency and Voltage
Figure x: XMOD vs Frequency and Voltage
(110 Flat NTSC
Channels;
POUT
= +30 ) dBmV/ch)
( 110 Flat
NTSC Channels; Pout
= +30dBmV/Ch
-50
Figure 31: XMOD vs Frequency and Output
Power (110Figure
Flatx: NTSC
Channels; VDD = +8 V; @
X-MOD vs. Frequency and Output Power
( 110
Flat mA;
NTSC Channels;
= +8V;
T = +25oC )
113
TA =V+25
8C)
DD
6V
-40
7V
-45
8V
-60
37dBmV
35dBmV
33dBmV
31dBmV
29dBmV
-50
9V
XMOD (dBc)
XMOD (dBc)
-55
A
-35
5V
-65
27dBmV
-55
-60
-65
-70
-70
-75
-80
-75
0
100
200
300
400
Frequency (MHz)
500
600
700
800
-85
0
100
200
300
400
Frequency (MHz)
11
Data Sheet - Rev 2.8
10/2013
500
600
700
800
ADA10000
50 MHz to 1000 MHz DISTORTION DATA- S24 (SOT-89) PACKAGE DEVICE:
132 Channel Data
Figure 35: CTB vs Frequency and Output
Power (132
Flat NTSC Channels; VDD = +8 V;
Figure x: CTB vs Frequency and Output Power
( 132113
Flat NTSC
Channels;
V +25
= +8V; T
= +25 C )
@
mA;
TA =
8C)
Figure 32: CTB vs Frequency and Voltage
Figure
x: CTB vs Frequency
(132 Flat NTSC
Channels;
POUTand=Voltage
+30 dBmV/ch)
( 132 Flat NTSC Channels; Pout = +30dBmV/Ch )
-55
DD
5V
-60
7V
36dBmV
34dBmV
-45
8V
9V
32dBmV
-50
-70
CTB (dBc)
CTB (dBc)
o
38dBmV
-40
6V
-65
A
-35
-75
30dBmV
-55
-60
-65
-70
-80
-75
-80
-85
0
100
200
300
400
500
600
700
800
900
1000
-85
Frequency (MHz)
0
100
200
300
400
500
600
700
800
900
1000
Frequency (MHz)
Figure 36: CSO vs Frequency and Output
Power (132 Flat NTSC Channels; VDD = +8 V;
Figure x: CSO vs Frequency and Output Power
( 132
Flat NTSC
Channels;
= +8V; 8C)
T = +25 C )
@
113
mA;
TA =V +25
Figure 33:Figure
CSO
vs Frequency and Voltage
x: CSO vs Frequency and Voltage
( 132 Flat
NTSC Channels; Pout
+30dBmV/Ch
) dBmV/ch)
= +30
(132 Flat NTSC
Channels;
P=OUT
-40
DD
A
o
-35
-50
-40
-45
CSO (dBc)
-60
-50
-55
-70
-80
6V
7V
-90
-60
CSO(dBc)
5V
-65
-70
8V
-75
9V
-80
38dBmV
36dBmV
34dBmV
-85
-100
0
100
200
300
400
500
600
700
800
900
32dBmV
30dBmV
-90
1000
-95
Frequency (MHz)
-100
0
100
200
300
400
500
600
700
800
900
1000
Frequency (MHz)
Figure 34: XMOD vs Frequency and Voltage
Figure x: XMOD vs Frequency and Voltage
(132 Flat NTSC
Channels;
POUT
= +30) dBmV/ch)
( 132 Flat
NTSC Channels; Pout
= +30dBmV/Ch
-50
Figure 37: XMOD vs Frequency and Output
Power (132
Flat NTSC Channels; VDD = +8 V;
Figure x: XMOD vs Frequency and Output Power
( 132
Flat NTSC
Channels;
= +8V; 8C)
T = +25 C )
@
113
mA;
TA =V +25
DD
5V
6V
-55
-40
36dBmV
34dBmV
9V
-45
32dBmV
-60
XMOD (dBC)
XMOD (dBc)
o
38dBmV
7V
8V
-65
-70
30dBmV
-50
-55
-60
-65
-70
-75
0
100
200
300
400
500
600
Frequency (MHz)
700
800
900
1000
-75
0
100
200
300
400
500
600
Frequency (MHz)
12
A
-35
Data Sheet - Rev 2.8
10/2013
700
800
900
1000
ADA10000
50 MHz to 1000 MHz DISTORTION DATA- S24 (SOT-89) PACKAGE DEVICE:
155 Channel Data
Figure 38:
CTB vs Frequency and Voltage
Figure x: CTB vs Frequency and Voltage
( 155 Flat
NTSC Channels; Pout
+30dBmV/Ch
) dBmV/ch)
(155 Flat NTSC
Channels;
P=OUT
= +30
-50
5V
-55
6V
7V
-60
8V
CTB(dBc)
9V
-65
-70
-75
-80
-85
0
100
200
300
400
500
600
700
800
900
1000
Frequency (MHz)
Figure 39: CSO vs Frequency and Voltage
Figure x: CSO vs Frequency and Voltage
( 155Channels;
Flat NTSC Channels; P
Pout
= +30dBmV/Ch
(155 Flat NTSC
OUT
= +30) dBmV/ch)
-40
-50
CSO (dBc)
-60
-70
5V
-80
6V
7V
8V
-90
9V
-100
0
100
200
300
400
500
600
700
800
900
1000
Frequency (MHz)
Figure 40: XMOD vs Frequency and Voltage
Figure x: XMOD vs Frequency and Voltage
(155 Flat NTSC
Channels; POUT = +30 dBmV/ch)
( 155 Flat NTSC Channels; Pout = +30dBmV/Ch )
-50
5V
6V
7V
-55
8V
XMOD (dBc)
9V
-60
-65
-70
-75
0
100
200
300
400
500
600
Frequency (MHz)
13
Data Sheet - Rev 2.8
10/2013
700
800
900
1000
ADA10000
PERFORMANCE DATA
P1DB MEASUREMENTS
Figure 41: ADA10000 P1dB vs. Frequency
P1dB (dBmV)
72.6
72.5
72.4
72.3
0
200
400
600
800
1000
Frequency (MHz)
ADA10000 MER MEASUREMENTS
Figure 42: ADA10000 MER – 64 QAM @ 85 MHz
Figure 43: ADA10000 MER – 64 QAM @ 85 MHz
Figure 44: ADA10000 MER – 64 QAM @
987 MHz
Figure 45: ADA10000 MER – 256 QAM @
85 MHz
14
Data Sheet - Rev 2.8
10/2013
ADA10000
Figure 46: ADA10000 MER – 256 QAM @
543 MHz
15
Figure 47: ADA10000 MER – 256 QAM @
987 MHz
Data Sheet - Rev 2.8
10/2013
ADA10000
LOW FREQUENCY PERFORMANCE DATA: 5 MHz to 200 MHz
V DD
6.8 H
1000 pF
RF
1000 pF
10 nH
1
IN
0. 5 pF
0.01 uF
ADA10000
2,4
100
3
RF
0. 5 pF
50
Figure 48: Low Frequency (5 MHz to 200 MHz) Test Application Circuit S24 Package Device (75 Ω terminations)
16
Data Sheet - Rev 2.8
10/2013
OUT
ADA10000
Figure 50: Low Frequency Applications
(See Figure 20)
Gain vs.
- S24(see
Package
Figure Frequency
xx: Low Frequency Application
Fig. 20)
Gain vs. Frequency - S24 Package
(T =
+25 C, V == +8V,
ohm 75
system)
(TA = +258 C;
VDD
+875V;
V system)
Figure 49: Low Frequency Applications
(See Figure 20)
Input Return Loss vs. Frequency - S24
Package Figure
(TAxx:=Low+258
C; VDD = +8 V; 75 V
Frequency Application (see Fig. 20)
Input Return Loss vs. Frequency - S24 Package
(T = +25system)
C, V = +8V, 75 ohm system)
o
A
o
A
DD
17
DD
16.5
0
-5
16
-10
15.5
Gain (dB)
Input Return Loss (dB)
-15
-20
-25
15
14.5
-30
14
-35
-40
13.5
-45
13
-50
0
25
50
75
100
125
150
175
200
Frequency (MHz )
-55
-60
0
25
50
75
100
125
150
175
200
Frequency (MHz)
Figure 52: Low Frequency Applications
(See Figure 20)
Output Return Loss vs. Frequency - S24
Figure XX: LowPackage
Frequency Application (see Fig. 20)
Output Return Loss vs. Frequency - S24 Package
= +25 C, V =
= +8V,
(TA = +258 C;(T VDD
+875 ohm
V;system)
75 V system)
Figure 51: Low Frequency Applications
(See Figure 20)
Reverse Isolation
vs. Frequency - S24 Package
Figure xx: Low Frequency Application (see Fig. 20)
vs. Frequency - S24 Package
(TA = +258Reverse
C;(T Isolation
VDD
+875V;
75 V system)
= +25 C, V == +8V,
ohm system)
o
A
DD
A
0
-10
DD
-5
-15
Output Return Loss (dB)
Reverse Isolation (dB )
o
0
-5
-20
-25
-30
-35
-10
-15
-20
-40
-25
-45
-50
0
25
50
75
100
125
150
175
200
Frequency (MHz)
-30
0
o
10
9
Noise Figure (dB)
8
7
6
5
4
3
2
1
0
17
10
15
50
75
100
125
Frequency (MHz)
Figure 53: Low Frequency Applications
(See Figure 20)
Figure xx: Low Frequency Application (see Fig. 20)
Noise Figure vs.
- S24 Package
NoiseFrequency
Figure vs. Frequency
(T A = +25 C, VDD = +8V, 75 ohm system)
(TA = +25 8C;
VDD = +8 V; 75 V system)
5
25
20
Frequency (MHz)
25
30
Data Sheet - Rev 2.8
10/2013
150
175
200
225
250
ADA10000
PACKAGE OUTLINE
D
C
LE
E
H
L
0.015 [0.38]X45
a
A2
A
A1
0.003 [0.076mm]
B1
e
S
Y
M
INCHES
B
O
L
MILLIMETERS
MIN.
MAX.
MIN.
MAX.
A
0.058
0.068
1.47
1.73
A1
0.004
0.010
0.10
0.25
A2
0.055
0.065
1.40
1.65
B
0.013
0.020
0.33
0.50
B1
0.062
0.070
1.58
1.78
NOTE
NOTES:
1. CONTROLLING DIMENSION: INCHES
3. DIMENSION "E" DOES NOT INCLUDE INTER LEADFLASH OR
PROTRUSIONS. INTER LEADFLASH AND PROTRUSIONS
SHALL NOT EXCEED 0.010 [0.25mm] PER SIDE.
C
0.008
0.010
0.20
0.25
4
0.380
0.400
9.66
10.16
2
E
0.150
0.160
3.81
4.06
3
0.050 BSC
B
2. DIMENSION "D" DOES NOT INCLUDE MOLD FLASH,
PROTRUSIONS OR GATE BURRS. MOLD FLASH, PROTRUSIONS
AND GATE BURRS SHALL NOT EXCEED 0.006 [0.15mm]
PER SIDE.
D
e
4. LEAD THICKNESS AFTER PLATING TO BE 0.013 [0.33mm]
MAXIMUM.
1.27 BSC
H
0.226
0.244
5.74
6.20
L
0.016
0.040
0.41
1.02
LE
0.030
a
0
0.76
8
0
8
Figure 54: S3 Package Outline - Modified 16 Pin SOIC
18
GAUGE PLANE
SEATING PLANE
Data Sheet - Rev 2.8
10/2013
ADA10000
Figure 55: S24 Package Outline - SOT-89
19
Data Sheet - Rev 2.8
10/2013
ADA10000
Ordering Information
TEMPERATURE
RANGE
PACKAGE
DESCRIPTION
ADA10000RS3P1
-40 °C to +85 °C
RoHS Compliant
Modified 16 Pin SOIC
3,500 piece Tape and Reel
ADA10000RS24Q1
-40 °C to +85 °C
RoHS Compliant
SOT-89 Package
1,000 piece Tape and Reel
ORDER NUMBER
COMPONENT PACKAGING
ANADIGICS, Inc.
141 Mount Bethel Road
Warren, New Jersey 07059, U.S.A.
Tel: +1 (908) 668-5000
Fax: +1 (908) 668-5132
URL: http://www.anadigics.com
IMPORTANT NOTICE
ANADIGICS, Inc. reserves the right to make changes to its products or to discontinue any product at any time without notice.
The product specifications contained in Advanced Product Information sheets and Preliminary Data Sheets are subject to
change prior to a product’s formal introduction. Information in Data Sheets have been carefully checked and are assumed
to be reliable; however, ANADIGICS assumes no responsibilities for inaccuracies. ANADIGICS strongly urges customers
to verify that the information they are using is current before placing orders.
warning
ANADIGICS products are not intended for use in life support appliances, devices or systems. Use of an ANADIGICS product
in any such application without written consent is prohibited.
20
Data Sheet - Rev 2.8
10/2013