ADL5726-EVALZ [ADI]
Point to point microwave radios;型号: | ADL5726-EVALZ |
厂家: | ADI |
描述: | Point to point microwave radios |
文件: | 总13页 (文件大小:353K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
21.2 GHz to 23.6 GHz, Low Noise Amplifier
ADL5726
Data Sheet
FEATURES
FUNCTIONAL BLOCK DIAGRAM
Frequency range: 21.2 GHz to 23.6 GHz
Typical gain of >22.5 dB
Low noise input
Noise figure
3.3 dB typical at 21.2 GHz
ADL5726
VCC1
GND
VCC2
OUTN
OUTP
DNC
50Ω
SINGLE-ENDED
100Ω
DIFFERENTIAL
INPT
RBIAS
3.4 dB typical at 23.6 GHz
High linearity input
DNC = DO NOT CONNECT.
DO NOT CONNECT TO THIS PIN.
≥1.0 dBm typical input third-order intercept (IIP3)
−8 dBm input 1 dB compression point (P1dB) at 23.6 GHz
Matched 50 Ω single-ended input
Matched 100 Ω differential outputs
8-lead, 2.00 mm × 2.00 mm LFCSP microwave packaging
Figure 1.
APPLICATIONS
Point to point microwave radios
Instrumentation
Satellite communications (SATCOM)
Phased arrays
GENERAL DESCRIPTION
The ADL5726 is a narrow-band, high performance, low noise
amplifier (LNA) targeting microwave radio link receiver
designs. The monolithic silicon germanium (SiGe) design is
optimized for microwave radio link bands ranging from 21.2 GHz
to 23.6 GHz. The unique design offers a single-ended 50 Ω input
impedance and provides a 100 Ω balanced differential output
that is ideal for driving Analog Devices, Inc., differential
downconverters and radio frequency (RF) sampling analog-to-
digital converters (ADCs). This LNA provides noise figure
performance that, in the past, required more expensive three-
five (III-V) compounds process technology to achieve.
The ADL5721 and ADL5723 to ADL5726 family of narrow-
band LNAs are each packaged in a tiny, thermally enhanced,
2.00 mm × 2.00 mm LFCSP package. The ADL5721 and
ADL5723 to ADL5726 family operates over the temperature
range of −40°C to +85°C.
Rev. A
Document Feedback
Information furnished by Analog Devices is believed to be accurate and reliable. However, no
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
rights of third parties that may result from its use. Specifications subject to change without notice. No
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Trademarks and registeredtrademarks arethe property of their respective owners.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781.329.4700
Technical Support
©2016 Analog Devices, Inc. All rights reserved.
www.analog.com
ADL5726
Data Sheet
TABLE OF CONTENTS
Features .....................................................................................1
Theory of Operation .................................................................8
Applications Information ..........................................................9
Layout....................................................................................9
Differential vs. Single-Ended Output.....................................9
Performance Up To 26.5 GHz..............................................10
Evaluation Board.....................................................................11
Initial Setup.........................................................................11
Results .................................................................................11
Basic Connections for Operation.........................................12
Outline Dimensions................................................................13
Ordering Guide ...................................................................13
Applications...............................................................................1
Functional Block Diagram.........................................................1
General Description ..................................................................1
Revision History ........................................................................2
Specifications.............................................................................3
AC Specifications...................................................................3
DC Specifications...................................................................3
Absolute Maximum Ratings......................................................4
Thermal Resistance................................................................4
ESD Caution..........................................................................4
Pin Configuration and Function Descriptions...........................5
Typical Performance Characteristics .........................................6
REVISION HISTORY
9/2016—Rev. 0 to Rev. A
Changes to Figure 1 ...................................................................1
Added Performance Up To 26.5 GHz Section and Figure 18 to
Figure 23; Renumbered Sequentially.........................................9
Changes to Figure 26 ...............................................................12
4/2016—Revision 0: Initial Version
Rev. A | Page 2 of 13
Data Sheet
ADL5726
SPECIFICATIONS
AC SPECIFICATIONS
VCC1 = 1.8 V, VCC2 = 3.3 V, RBIAS = 442 Ω, TA = 25°C, ZSOURCE = 50 Ω, ZLOAD = 100 Ω differential, unless otherwise noted.
Table 1.
Parameter
Test Conditions/Comments
Min
Typ
Max
Unit
FREQUENCY RANGE
21.2
23.6
GHz
FREQUENCY = 21.2 GHz
Gain (S21)
Noise Figure
24.7
3.3
dB
dB
Input Third-Order Intercept (IIP3)
Input 1 dB Compression Point (P1dB)
Input Return Loss (S11)
Output Return Loss (S22)
FREQUENCY = 23.6 GHz
Gain (S21)
Δf = 1 MHz, input power (PIN) = −30 dBm per tone
1.0
−9.5
10
dBm
dBm
dB
10
dB
22.5
3.4
3.0
−8
10
dB
dB
dBm
dBm
dB
Noise Figure
Input Third-Order Intercept (IIP3)
Input 1 dB Compression Point (P1dB)
Input Return Loss (S11)
Output Return Loss (S22)
Δf = 1 MHz, PIN = −30 dBm per tone
10
dB
DC SPECIFICATIONS
Table 2.
Parameter
Test Conditions/Comments
Min
Typ
Max
Unit
POWER INTERFACE
Voltage
VCC1
VCC2
1.65
3.1
1.8
3.3
1.95
3.5
V
V
Quiescent Current vs. Temperature
VCC1
TA = 25°C
−40°C ≤ TA ≤ +85°C
TA = 25°C
14.1
15.4
74.4
77.0
mA
mA
mA
mA
VCC2
−40°C ≤ TA ≤ +85°C
Rev. A | Page 3 of 13
ADL5726
Data Sheet
ABSOLUTE MAXIMUM RATINGS
Table 3.
THERMAL RESISTANCE
θJA is thermal resistance, junction to ambient (°C/W), θJB is
thermal resistance, junction to board (°C/W), and θJC is thermal
resistance, junction to case (°C/W).
Parameter
Rating
Supply Voltages
VCC1
2.25 V
VCC2
4.1 V
Table 4. Thermal Resistance
Maximum Junction Temperature
Operating Temperature Range
Storage Temperature Range
Lead Temperature Range (Soldering, 60 sec)
150°C/W
1
1
1
Package Type
θJA
θJB
23.88
θJC
3.71
Unit
−40°C to +85°C
−55°C to +125°C
−65°C to +150°C
8-Lead LFCSP
39.90
°C/W
1 See JEDEC standard JESD51-2 for additional information on optimizing the
thermal impedance for a printed circuit board (PCB) with 3 × 4 vias.
Stresses at or above those listed under Absolute Maximum
Ratings may cause permanent damage to the product. This is a
stress rating only; functional operation of the product at these
or any other conditions above those indicated in the operational
section of this specification is not implied. Operation beyond
the maximum operating conditions for extended periods may
affect product reliability.
ESD CAUTION
Rev. A | Page 4 of 13
Data Sheet
ADL5726
PIN CONFIGURATION AND FUNCTION DESCRIPTIONS
VCC1
GND
INPT
VCC2
OUTN
OUTP
DNC
1
2
3
8
7
6
5
ADL5726
TOP VIEW
(Not to Scale)
RBIAS 4
NOTES
1. DNC = DO NOT CONNECT. DO NOT
CONNECT TO THIS PIN.
2. THE EXPOSED PAD MUST BE
SOLDERED TO A LOW IMPEDANCE
GROUND PLANE.
3. THE DEVICE NUMBER ON THE FIGURE
DOES NOT INDICATE THE LABEL ON
THE PACKAGE. REFER TO THE PIN 1
INDICATOR FOR THE PIN LOCATIONS.
Figure 2. Pin Configuration
Table 5. Pin Function Descriptions
Pin No.
Mnemonic
Description
1
2
3
4
VCC1
GND
INPT
RBIAS
1.8 V Power Supply. It is recommended to place the decoupling capacitors as close to this pin as possible.
Ground.
RF Input. This is a 50 Ω single-ended input.
Resistor Bias. For typical operation, connect a 442 Ω resistor from RBIAS to GND. It is recommended to place
the RBIAS resistor as close to the pin as possible.
5
DNC
Do Not Connect. Do not connect to this pin.
6, 7
8
OUTP, OUTN
VCC2
EPAD (EP)
RF Outputs. These pins are 100 Ω differential outputs.
3.3 V Power Supply. It is recommended to place the decoupling capacitors as close to this pin as possible.
Exposed Pad. The exposed pad must be soldered to a low impedance ground plane.
Rev. A | Page 5 of 13
ADL5726
Data Sheet
TYPICAL PERFORMANCE CHARACTERISTICS
35
10
9
8
7
6
5
4
3
2
1
0
T
T
T
= –40°C
= +25°C
= +85°C
3.1V/1.65V
3.3V/1.8V
3.5V/1.95V
A
A
A
30
25
20
15
10
5
0
21.2
21.5
21.8
22.1
22.4
22.7
23.0
23.3
23.6
23.6
23.6
21.2
21.5
21.8
22.1
22.4
22.7
23.0
23.3
23.6
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 3. Gain vs. Frequency for Various Temperatures
Figure 6. Noise Figure vs. Frequency for Various Supply Voltages
35
30
25
20
15
10
5
15
3.1V/1.65V
3.3V/1.8V
3.5V/1.95V
T
T
T
= –40°C
= +25°C
= +85°C
A
A
A
10
5
0
–5
–10
–15
–20
–25
0
21.2
21.5
21.8
22.1
22.4
22.7
23.0
23.3
21.2
21.5
21.8
22.1
22.4
22.7
23.0
23.3
23.6
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 4. Gain vs. Frequency for Various Supply Voltages
Figure 7. Input P1dB vs. Frequency for Various Temperatures
10
15
3.1V
3.3V
T
T
T
= –40°C
= +25°C
= +85°C
A
A
A
9
8
7
6
5
4
3
2
1
3.5V
10
5
0
–5
–10
–15
–20
–25
0
21.2
21.5
21.8
22.1
22.4
22.7
23.0
23.3
21.2
21.5
21.8
22.1
22.4
22.7
23.0
23.3
23.6
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 5. Nosie Figure vs. Frequency for Various Temperatures
Figure 8. Input P1dB vs. Frequency for Various Supply Voltages
Rev. A | Page 6 of 13
Data Sheet
ADL5726
15
0
–5
T
T
T
= –40°C
= +25°C
= +85°C
T
T
T
= –40°C
= +25°C
= +85°C
A
A
A
A
A
A
10
5
–10
–15
–20
–25
–30
0
–5
–10
–15
–20
–25
21.2
21.5
21.8
22.1
22.4
22.7
23.0
23.3
23.6
21.2
21.5
21.8
22.1
22.4
22.7
23.0
23.3
23.6
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 9. Input IP3 vs. Frequency for Various Temperatures
Figure 11. Input Return Loss vs. Frequency for Various Temperatures
15
0
3.1V
3.3V
3.5V
T
T
T
= –40°C
= +25°C
= +85°C
A
A
A
10
5
–5
–10
–15
–20
–25
–30
0
–5
–10
–15
–20
–25
21.2
21.5
21.8
22.1
22.4
22.7
23.0
23.3
23.6
21.2
21.5
21.8
22.1
22.4
22.7
23.0
23.3
23.6
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 10. Input IP3 vs. Frequency for Various Supply Voltages
Figure 12. Output Return Loss vs. Frequency for Various Temperatures
Rev. A | Page 7 of 13
ADL5726
Data Sheet
THEORY OF OPERATION
The ADL5726 is a narrow-band, high performance, low noise
amplifier targeting microwave radio link receiver designs. The
monolithic SiGe design is optimized for microwave radio link
bandsrangingfrom21.2 GHz to 23.6 GHz.
This LNA is ideal for driving Analog Devices differential
downconvertersand RF sampling ADCs.
The ADL5726 provides cost-effective noise figure performance
without requiring more expensive III-V compounds process
technology.
The unique design of the ADL5726 offers a single-ended 50 Ω
input impedance via the INPT pin, and provides a 100 Ω
balanced differential output via the OUTP and OUTN pins.
The ADL5726 is available in a 2.00 mm × 2.00mm LFCSP package,
and operates over the temperature range of −40°C to +85°C.
Rev. A | Page 8 of 13
Data Sheet
ADL5726
APPLICATIONS INFORMATION
10
9
8
7
6
5
4
3
2
1
0
LAYOUT
Solder the exposed pad on the underside of the ADL5726 to a
low thermal and electrical impedance ground plane. This pad is
typically soldered to an exposed opening in the solder mask on
the evaluation board. Connect the ground vias to all other
ground layers on the evaluation board to maximize heat
dissipation from the device package.
21.2
21.5
21.5
21.5
21.8
22.1
22.4
22.7
23.0
23.3
23.6
23.6
23.6
FREQUENCY (GHz)
Figure 15. Noise Figure vs. Frequency
15
10
5
Figure 13. Evaluation Board Layout for the ADL5726 Package
0
DIFFERENTIAL vs. SINGLE-ENDED OUTPUT
–5
This section provides the test resultsthat compare the ADL5726
using a differential vs. single-ended output. When using the
device as a single-ended output, use the RFOP output of the
evaluation board and terminate RFON to 50 Ω. Note that the
converse can be done as well; however, doing so produces
slightly different results from the plots shown in this section
because there is some amplitude imbalance between the two
differential ports, RFOP and RFON. The output trace and
connector loss were not deembedded for these measurements.
35
–10
–15
–20
–25
21.2
21.8
22.1
22.4
22.7
23.0
23.3
FREQUENCY (GHz)
Figure 16. Input IP3 vs. Frequency
15
10
30
25
20
15
10
5
5
0
–5
–10
–15
–20
–25
21.2
21.8
22.1
22.4
22.7
23.0
23.3
0
21.2
21.5
21.8
22.1
22.4
22.7
23.0
23.3
23.6
FREQUENCY (GHz)
FREQUENCY (GHz)
Figure 17. Input P1dB vs. Frequency
Figure 14. Gain vs. Frequency
Rev. A | Page 9 of 13
ADL5726
Data Sheet
10
8
PERFORMANCE UP TO 26.5 GHz
This section provides the test results at a higher frequency from
23.2 GHz to 26.5 GHz. Differential outputs are measured here.
Traces, hybrids, and connector losses were deembeded for all
measurements except output return loss. It is important to note
that this performance is typical and not guaranteed.
35
6
4
30
25
20
15
10
5
2
0
23.6
24.0
24.5
25.0
25.5
26.0
26.5
26.5
26.5
FREQUENCY (GHz)
Figure 21. Noise Figure vs. Frequency
0
–5
0
23.6
24.0
24.5
25.0
25.5
26.0
26.5
26.5
26.5
–10
–15
–20
–25
–30
FREQUENCY (GHz)
Figure 18. Gain vs. Frequency
15
10
5
0
–5
23.6
24.0
24.5
25.0
25.5
26.0
FREQUENCY (GHz)
–10
–15
–20
–25
Figure 22. Input Return Loss vs. Frequency
0
–5
23.6
24.0
24.5
25.0
25.5
26.0
–10
–15
–20
–25
–30
FREQUENCY (GHz)
Figure 19. Input P1dB vs. Frequency
15
10
5
0
–5
23.6
24.0
24.5
25.0
25.5
26.0
FREQUENCY (GHz)
–10
–15
–20
–25
Figure 23. Output Return Loss vs. Frequency
23.6
24.0
24.5
25.0
25.5
26.0
FREQUENCY (GHz)
Figure 20. IIP3 vs. Frequency
Rev. A | Page 10 of 13
Data Sheet
ADL5726
EVALUATION BOARD
The ADL5726-EVALZ comes with an ADL5726 chip. It supports
a single 5 V supply for ease of use. For 5 V operation, the 3.3 V
and 1.8 V test loops are for evaluation purposes only. When
using a 3.3 V or 1.8 V supply, remove the R1 and R2 resistors
from the evaluation board. Figure 25 shows the ADL5726-
EVALZ lab bench setup.
RESULTS
Figure 24 shows the expected results when testing the
ADL5726-EVALZ using the Rev. A version of the evaluation
board and its software. Note that future iterationsof the software
may produce different results. See the ADL5726 product page
for the most recent software version.
INITIAL SETUP
Figure 24 shows the results of the differential output for an input
of 21.2 GHz at −15 dBm. The hybrid and board loss have not
been deembedded.
To set up the ADL5726-EVALZ, take the following steps:
1. Power up the ADL5726-EVALZ with a 5 V dc supply. The
supply current of the evaluation board is approximately
90 mA, which is a combination of the VCC1 (1.8 V) and
the VCC2 (3.3 V) currents.
2. Connect the signal generatorto the input of the ADL5726-
EVALZ.
3. Connect RFOP and RFON to a 180° hybrid that works
within the 21.2 GHz to 23.6 GHz frequency range.
4. Connect the difference output of the hybrid to the
20
RESOLUTION BANDWIDTH = 20kHz
VIDEO BANDWIDTH = 20kHz
SWEEP = 301ms (1001pts)
10
1
0
–10
–20
–30
–40
–50
–60
–70
spectrum analyzer. The sum port of the hybrid must be
terminated to 50 Ω.
See Figure 25 for the ADL5726-EVALZ lab bench setup.
–80
21.15 21.16 21.17 21.18 21.19 21.20 21.21 21.22 21.23 21.24 21.25
FREQUENCY (GHz)
Figure 24. Test Results at 21.2 GHz
+5V DC
GND
SPECTRUM
ANALYZER
RFON
INPUT
RFOP
RF FREQUENCY GENERATOR
180° HYBRID FOR DIFFERENTIAL
TO SINGLE ENDED OUTPUT
Figure 25. ADL5726-EVALZ Lab Bench Setup
Rev. A | Page 11 of 13
ADL5726
Data Sheet
BASIC CONNECTIONS FOR OPERATION
Figure 26 shows the basic connections for operating the ADL5726 as it is implemented on the evaluation board of the device.
1.8V
3.3V
C2
C3
C5
C1
C4
C6
33PF
33PF
0.1UF
4.7NF
4.7NF
0.1UF
AGND
AGND
AGND
AGND
AGND
AGND
OUTN
1
572X_RFON
DUTA
25-146-1000-92
3 2
CNSRI2516100092_SW109201A5
4
1
2
3
4
8
7
6
5
VCC1
GND
INPT
VCC2
OUTN
OUTP
DNC
RFIN
RFIN
AGND
1
RBIAS
25-146-1000-92
2
3 4
PAD
CNSRI2516100092_SW109201A5
OUTP
1
572X_RFOP
25-146-1000-92
3 2
CNSRI2516100092_SW109201A5
PAD
AGND
ADL5726
AGND
RBIAS
4
442
AGND
1.8V
5V
RED
3P3V
RED
1P8V
RED
GND
BLK
AGND
AGND
1
1
1
1
R4
10K
DNI
R3
P1
1
2
AGND
5V
3.3V
1.8V
0
69157-102HLF
AGND
U1
ADM7170ACPZ-1.8
U2
ADM7172ACPZ-3.3
R1
0
R2
0
1.8V
8
7
5
4
3
5V
3.3V
5V
1
2
1
2
8
7
5
4
3
VOUT
VOUT
VIN
VIN
EN
SS
SENSE
VOUT1
VOUT2
VIN1
VIN2
EN
SS
SENSE
C7
4.7UF
C9
4.7UF
C10
4.7UF
C12
4.7UF
AGND
AGND
AGND
AGND
EP GND
EP GND
C8
C11
PAD
6
PAD
6
1000PF
1000PF
AGND
AGND
AGND
AGND
Figure 26. Evaluation Board Schematic
Table 6. Evaluation Board Configuration Options
Component
Function
Default Condition
Not applicable
3P3V, 1P8V, GND, 5V
Power supplies and ground.
Input, output, and data.
442 Ω for RBIAS.
1.8 V and 3.3 V regulator connections.
Do not install (DNI).
RFIN, 572X_RFOP, 572x_RFON
Not applicable
RBIAS
R1, R2
R3
RBIAS = 442 Ω (0402)
R1, R2 = 0 Ω (0402)
R3 = DNI (0402)
R4
Pull-up or pull-down resistor.
R4 = 10 kΩ (0402)
The capacitors provide the required decoupling for the supply
related pins.
C1, C4 = 4.7 nF (0402)
C2, C3 = 33 pF (0402),
C5, C6 = 0.1 µF (0402),
C1 to C12
C7, C9, C10, C12 = 4.7 µF (0603),
C8, C11 = 1000 pF (0603)
P1
U1
U2
DUTA
Jumper to change bands, 2-pin jumper.
ADM7170ACPZ-1.8 1.8 V regulator.
ADM7172ACPZ-3.3 3.3 V regulator.
ADL5726 device under test (DUT).
Not applicable
Not applicable
Not applicable
Not applicable
Rev. A | Page 12 of 13
Data Sheet
ADL5726
OUTLINE DIMENSIONS
1.70
1.60
1.50
2.10
2.00 SQ
1.90
0.50 BSC
8
5
0.15 REF
PIN 1 INDEX
EXPOSED
PAD
1.10
1.00
0.90
AREA
0.425
0.350
0.275
4
1
PIN 1
INDICATOR
(R 0.15)
TOP VIEW
BOTTOM VIEW
FOR PROPER CONNECTION OF
THE EXPOSED PAD, REFER TO
THE PIN CONFIGURATION AND
FUNCTION DESCRIPTIONS
0.60
0.55
0.50
0.05 MAX
0.02 NOM
SECTION OF THIS DATA SHEET.
SEATING
PLANE
0.30
0.25
0.20
0.20 REF
Figure 27. 8-Lead Lead Frame Chip Scale Package [LFCSP]
2.00 mm × 2.00 mm Body, and 0.55 mm Package Height
(CP-8-10)
Dimensions shown in millimeters
ORDERING GUIDE
Model 1
Temperature Range
Package Description
Package Option
CP-8-10
ADL5726ACPZN-R7
ADL5726-EVALZ
−40°C to +85°C
8-Lead Lead Frame Chip Scale Package [LFCSP]
Evaluation Board
1 Z = RoHS-Compliant Part.
©2016 Analog Devices, Inc. All rights reserved. Trademarks and
registered trademarks are the property of their respective owners.
D14320-0-9/16(A)
Rev. A | Page 13 of 13
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