20 MHz to 500 MHz Dual IF Amplifier ADL5534

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20 MHz to 500 MHz
Dual IF Amplifier
ADL5534
Data Sheet
13 RFOUT1
15 NC
16 RFIN1
12 CLIN1
NC 1
BIAS
NC 2
NC 3
ADL5534
BIAS
11 NC
10 NC
9 NC
RFOUT2 8
CLIN2 7
NC 6
RFIN2 5
NC 4
NC = NO CONNECT
06836-001
Fixed gain of 20 dB
Operation up to 500 MHz
Input/output internally matched to 50 Ω
Integrated bias control circuit
OIP3 of 40 dBm at 70 MHz
P1dB of 20.4 dBm at 70 MHz
Noise figure of 2.5 dB at 70 MHz
Temperature and power supply stable
Single 5 V power supply
14 NC
FUNCTIONAL BLOCK DIAGRAM
FEATURES
Figure 1.
GENERAL DESCRIPTION
The ADL5534 contains two broadband, fixed-gain, linear
amplifiers and operates at frequencies up to 500 MHz. The
device can be used in a wide variety of equipment, including
cellular, satellite, broadband, and instrumentation equipment.
The ADL5534 has a fixed gain of 20 dB, which is stable over
frequency, temperature, power supply, and from device-todevice. The amplifiers are single-ended and internally matched
to 50 Ω. Only input/output ac-coupling capacitors, power supply
decoupling capacitors, and an external bias inductor are
required for operation of each amplifier.
Rev. B
The ADL5534 is fabricated on a GaAs HBT process. The
device is packaged in a 16-lead 5 mm × 5 mm LFCSP that
uses an exposed paddle for excellent thermal impedance.
The ADL5534 consumes 98 mA of current per amplifier on
a single 5 V supply, and is fully specified for operation from
−40°C to +85°C.
A similar amplifier, ADL5531 (available from Analog Devices,
Inc.) is the 20 dB gain single-channel version. Fully populated
evaluation boards for both the ADL5531 and ADL5534 are
available.
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ADL5534
Data Sheet
TABLE OF CONTENTS
Features .............................................................................................. 1
Basic Connections .......................................................................... 10
Functional Block Diagram .............................................................. 1
General Description ......................................................................... 1
Using Baluns to Combine Both Amplifiers into a Single
Amplifier ..................................................................................... 11
Revision History ............................................................................... 2
ADC Driving Application ......................................................... 12
Specifications..................................................................................... 3
Soldering Information and Recommended PCB Land
Pattern .......................................................................................... 13
Typical Scattering Parameters ..................................................... 4
Absolute Maximum Ratings............................................................ 5
ESD Caution .................................................................................. 5
Pin Configuration and Function Descriptions ............................. 6
Evaluation Board ............................................................................ 14
Outline Dimensions ....................................................................... 16
Ordering Guide .......................................................................... 16
Typical Performance Characteristics ............................................. 7
REVISION HISTORY
2/14—Rev. A to Rev. B
Updated Outline Dimensions ........................................................16
Changes to Ordering Guide ...........................................................16
11/13—Rev. 0 to Rev. A
Changes to Figure 2 ........................................................................... 6
Added Figure 15, Renumbered Sequentially ................................. 9
Updated Outline Dimensions ........................................................16
Changes to Ordering Guide ...........................................................16
6/08—Revision 0: Initial Version
Rev. B | Page 2 of 16
Data Sheet
ADL5534
SPECIFICATIONS
VPOS = 5 V and TA = 25°C, unless otherwise noted.
Table 1.
Parameter
OVERALL FUNCTION
Frequency Range
Gain (S21)
Input Return Loss (S11)
Output Return Loss (S22)
Reverse Isolation (S12)
FREQUENCY = 70 MHz
Gain
vs. Frequency
vs. Temperature
vs. Supply
Output 1 dB Compression Point
Output Third-Order Intercept
Noise Figure
Device-to-Device Isolation
FREQUENCY = 190 MHz
Gain
vs. Frequency
vs. Temperature
vs. Supply
Output 1 dB Compression Point
Output Third-Order Intercept
Noise Figure
Device-to-Device Isolation
FREQUENCY = 380 MHz
Gain
vs. Frequency
vs. Temperature
vs. Supply
Output 1 dB Compression Point
Output Third-Order Intercept
Noise Figure
Device-to-Device Isolation
POWER INTERFACE
Supply Voltage
Supply Current
vs. Temperature
Power Dissipation
Conditions
Min
Typ
Max
Unit
500
20.4
−18.0
−29.0
−23.0
MHz
dB
dB
dB
dB
21.0
±0.04
±0.20
±0.20
20.4
40.0
2.5
−46.0
dB
dB
dB
dB
dBm
dBm
dB
dB
20
190 MHz
190 MHz
190 MHz
190 MHz
±5 MHz
−40°C ≤ TA ≤ +85°C
4.75 V to 5.25 V
∆f = 1 MHz, output power (POUT) = 0 dBm per tone
Measured at output with input applied to alternate device
19.5
20.4
±0.15
±0.20
±0.17
20.6
39.0
2.7
−38.0
21
dB
dB
dB
dB
dBm
dBm
dB
dB
19.0
19.8
±0.18
±0.22
±0.16
20.4
36.0
3.0
−34.0
20.5
dB
dB
dB
dB
dBm
dBm
dB
dB
4.75
5
98
±15
0.5
5.25
110
V
mA
mA
W
±50 MHz
−40°C ≤ TA ≤ +85°C
4.75 V to 5.25 V
∆f = 1 MHz, output power (POUT) = 0 dBm per tone
Measured at output with input applied to an alternate device
±50 MHz
−40°C ≤ TA ≤ +85°C
4.75 V to 5.25 V
∆f = 1 MHz, output power (POUT) = 0 dBm per tone
Measured at output with input applied to an alternate device
RFOUT1, RFOUT2 pins
Per amplifier
−40°C ≤ TA ≤ +85°C
Rev. B | Page 3 of 16
ADL5534
Data Sheet
TYPICAL SCATTERING PARAMETERS
VPOS = 5 V and TA = 25°C; the effects of the test fixture have been de-embedded up to the pins of the device.
Table 2.
Freq. (MHz)
20
50
100
150
200
250
300
350
400
450
500
S11
Magnitude (dB)
−22.72
−20.40
−19.83
−19.95
−20.29
−20.72
−20.93
−21.06
−21.43
−21.58
−21.75
Angle (°)
−102.04
−138.34
−160.87
−170.03
−174.24
−176.35
−175.04
−174.10
−171.87
−168.25
−163.79
S21
Magnitude (dB)
21.79
21.07
20.66
20.51
20.39
20.27
20.16
20.01
19.85
19.68
19.45
Angle (°)
174.78
171.81
169.90
167.16
164.06
160.68
157.31
153.74
150.30
146.82
142.72
Rev. B | Page 4 of 16
S12
Magnitude (dB)
−24.08
−23.40
−23.11
−23.01
−22.93
−22.85
−22.77
−22.69
−22.61
−22.51
−22.36
Angle (°)
5.82
6.92
7.81
9.36
11.42
13.45
15.66
17.74
20.07
22.24
24.88
S22
Magnitude (dB)
−18.56
−21.33
−25.56
−27.64
−27.78
−26.69
−24.58
−22.78
−20.76
−18.97
−17.10
Angle (°)
−42.21
−71.17
−90.45
−95.94
−94.45
−91.22
−89.94
−90.89
−91.14
−92.39
−92.91
Data Sheet
ADL5534
ABSOLUTE MAXIMUM RATINGS
Table 3.
Parameter
Supply Voltage on RFOUT1, RFOUT2
Input Power on RFIN1, RFIN2
Internal Power Dissipation (Paddle Soldered)
θJA (Junction-to-Air)
Maximum Junction Temperature
Operating Temperature Range
Storage Temperature Range
Rating
5.5 V
10 dBm
900 mW
54°C/W
150°C
−40°C to +85°C
−65°C to +150°C
Stresses above those listed under Absolute Maximum Ratings
may cause permanent damage to the device. This is a stress
rating only; functional operation of the device at these or any
other conditions above those indicated in the operational
section of this specification is not implied. Exposure to absolute
maximum rating conditions for extended periods may affect
device reliability.
ESD CAUTION
Rev. B | Page 5 of 16
ADL5534
Data Sheet
13 RFOUT1
15 NC
PIN 1
INDICATOR
12 CLIN1
NC 2
ADL5534
NC 3
TOP VIEW
(Not to Scale)
11 NC
10 NC
9 NC
RFOUT2 8
NC 6
CLIN2 7
RFIN2 5
NC 4
NOTES
1. NC = NO CONNECT.
2. THE EXPOSED PADDLE IS INTERNALLY
CONNECTED TO GND. SOLDER TO A LOW
IMPEDANCE GROUND PLANE.
06836-002
NC 1
14 NC
16 RFIN1
PIN CONFIGURATION AND FUNCTION DESCRIPTIONS
Figure 2. Pin Configuration
Table 4. Pin Function Descriptions
Pin No.
1, 2, 3, 4, 6, 9,
10, 11, 14, 15
5, 16
7, 12
Mnemonic
NC
Description
No Connect.
RFIN2, RFIN1
CLIN2, CLIN1
8, 13
RFOUT2, RFOUT1
RF Input. Requires a dc blocking capacitor. Use a 10 nF capacitor for normal operation.
A 1 nF capacitor connected from Pin 7 to ground and Pin12 to ground provides decoupling
for the on-board linearizer.
RF Output and Bias. DC bias is provided to this pin through an inductor. A 470 nH inductor is
recommended for normal operation. The RF path requires a dc blocking capacitor. Use a 10 nF
capacitor for normal operation.
GND. Solder this paddle to a low impedance ground plane.
Exposed Paddle
Rev. B | Page 6 of 16
Data Sheet
ADL5534
TYPICAL PERFORMANCE CHARACTERISTICS
22
45
20
42
30
10
27
24
P1dB
6
21
4
18
NOISE FIGURE
0
0
50
100
150
200
250
300
350
400
450
+25°C
21.0
32
20.5
30
–40°C
28
19.5
12
500
FREQUENCY (MHz)
26
500
19.0
0
50
100
150
200
250
300
350
400
450
FREQUENCY (MHz)
Figure 3. Noise Figure, Gain, P1dB, and OIP3 vs. Frequency
Figure 6. P1dB and OIP3 vs. Frequency and Temperature
42
21.4
21.2
190MHz
40
70MHz
21.0
38
20.8
36
20.4
OIP3 (dBm)
20.6
GAIN (dB)
34
+85°C
20.0
15
2
36
21.5
OIP3 (dBm)
12
38
+25°C
06836-006
33
+85°C
22.0
P1dB (dBm)
OIP3
P1dB AND OIP3 (dBm)
36
16
8
40
22.5
39
GAIN
14
42
–40°C
06836-003
NOISE FIGURE AND GAIN (dB)
18
23.0
–40°C
20.2
20.0
500MHz
34
380MHz
32
30
19.8
+25°C
19.6
28
+85°C
26
19.2
50
100
150
200
250
300
350
400
450
500
FREQUENCY (MHz)
24
–6
–4
–2
0
2
6
4
8
10
12
14
16
18
20
06836-007
0
06836-004
19.0
20MHz
500
06836-008
19.4
POUT (dBm)
Figure 4. Gain vs. Frequency and Temperature
Figure 7. OIP3 vs. Output Power and Frequency
–5
5.0
4.5
–10
NOISE FIGURE (dB)
S–PARAMETERS (dB)
4.0
–15
S11
–20
S12
–25
+85°C
3.5
3.0
2.5
+25°C
2.0
–40°C
S22
–30
1.5
20
60
100 140 180 220 260 300 340 380 420 460 500
FREQUENCY (MHz)
1.0
06836-005
–35
0
50
100
150
200
250
300
350
400
450
FREQUENCY (MHz)
Figure 5. Input Return Loss (S11), Output Return Loss (S22), and Reverse
Isolation (S12) vs. Frequency
Rev. B | Page 7 of 16
Figure 8. Noise Figure vs. Frequency and Temperature
ADL5534
Data Sheet
40
30
20
0
36.6
38.2
37.4
37.0
37.8
39.8
40.6
41.4
39.0
41.0
41.8
40.2
39.4
38.6
OIP3 (dBm)
06836-009
10
–30
–35
–40
–45
–50
–55
20
90
3.8
80
3.6
70
3.4
NOISE FIGURE (dB)
4.0
60
50
40
30
3.2
3.0
2.8
2.6
20
2.4
10
2.2
0
19.8
20.2
20.6
21.0
21.4
21.8
P1dB (dBm)
2.0
06836-010
PERCENTAGE (%)
Figure 12. Device-to-Device Isolation vs. Frequency
100
19.4
100 140 180 220 260 300 340 380 420 460 500
FREQUENCY (MHz)
Figure 9. OIP3 Distribution at 190 MHz
19.0
60
Figure 10. P1dB Distribution at 190 MHz
0
50
100
150
200
250
300
350
400
450
500
FREQUENCY (MHz)
06836-013
PERCENTAGE (%)
50
–25
06836-011
INPUT TO ALTERNATE OUTPUT ISOLATION (dB)
60
Figure 13. Noise Figure vs. Frequency at 25°C, Multiple Devices Shown
70
150
140
60
130
SUPPLY CURRENT (mA)
40
30
20
120
5.25V
110
100
90
5V
80
70
4.75V
60
0
19.9
19.7
19.8
20.1
20.0
20.7
20.9
20.5
20.6
20.8
21.0
20.4
GAIN (dB)
20.3
20.2
50
–40 –30 –20 –10
0
10
20
30
40
50
60
70
80
90
TEMPERATURE (°C)
Figure 14. Supply Current vs. Temperature and Supply Voltage
Figure 11. Gain Distribution at 190 MHz
Rev. B | Page 8 of 16
06836-014
10
06836-012
PERCENTAGE (%)
50
Data Sheet
ADL5534
115
+85°C
110
100
+25°C
95
90
85
80
–40°C
75
70
65
60
55
–6
–4
–2
0
2
4
6
8
10
12
14
16
18
20
22
POUT (dBm)
06836-100
SUPPLY CURRENT (mA)
105
Figure 15. Supply Current vs. POUT and Temperature V Supply = 5 V
Rev. B | Page 9 of 16
ADL5534
Data Sheet
BASIC CONNECTIONS
VPOS
RFIN2
C3
13
CLIN1
NC
NC
NC
CLIN2
RFOUT2
NC
RFOUT1
15
14
NC
16
RFIN1
Z1
NC
C5
12
1nF
11
10
9
RFOUT2
C4
8
4
NC
10nF
ADL5534
NC
NC
3
7
2
NC
RFIN2
1
5
10nF
GND
RFOUT1
C2
C1
6
RFIN1
C9
1µF
C7
10nF
L1
470nH
10nF
10nF
C6
1nF
L2
470nH
C10
1µF
GND1
06836-015
VPOS1
C8
10nF
Figure 16. Basic Connections
Table 5. Recommended Components for Basic Connections
Frequency
20 MHz to 500 MHz
C1, C2, C3, C4, C7, C8
10 nF
The basic connections for operating the ADL5534 are shown in
Figure 16. Recommended components are listed in Table 5. The
inputs and outputs should be ac-coupled with appropriately
sized capacitors (device characterization was performed with
10 nF capacitors). DC bias is provided to the amplifier via the
L1, L2
470 nH
C5, C6
1 nF
C9, C10
1 μF
L1 and L2 inductors connected to the RFOUT1 and RFOUT2
pins. The recommended inductors for L1 and L2 are Coilcraft,
1008CS-471XJLC or equivalent. The bias voltage should be
decoupled using 10 nF and 1 μF capacitors. A bias voltage
of 5 V is required.
Rev. B | Page 10 of 16
Data Sheet
ADL5534
VPOS
C7
10nF
CLIN1
NC
RFOUT1
CLIN2
RFOUT2
NC
C6
1nF
W1
GND
NC
12
11
C5
RFOUT
1nF
T2
ADT2-1T-1P+
10
9
C16
10nF
1
8
NC
C9
1µF
13
14
NC
Z1
ADL5534
NC
4
NC
5
RFIN
3
C15
10nF
7
T1
ADT2-1T-1P+
NC
NC
RFIN2
2
1
NC
6
1
RFIN1
16
15
L1
470nH
L2
470nH
C10
1µF
06836-016
VPOS1
C8
10nF
W2
GND1
Figure 17. Connections for Operating as a Balanced Amplifier
OIP3
40
80
OIP2
35
70
P1dB
25
50
20
40
GAIN
15
30
10
20
NOISE FIGURE
5
10
0
0
50
100
150
200
250
300
350
400
450
0
500
FREQUENCY (MHz)
Figure 18. Performance of the ADL5534 Operating in Balanced
Configuration
Rev. B | Page 11 of 16
OIP2 (dBm)
60
30
06836-017
The ADL5534 is ideal for use in a balanced amplifier configuration. To accomplish this, flux-coupled RF transformers
with a 2:1 impedance ratio can be used for wide band
operation. Alternatively, a balun can be constructed using
lumped element components for operation over a narrow
frequency range. Figure 17 shows the necessary connections
for configuring the ADL5534 for operation as a balanced
amplifier. Figure 18 shows the performance of the ADL5534
operating in a balanced configuration.
90
45
GAIN, NOISE FIGURE, P1dB, OIP3 (dB, dBm)
USING BALUNS TO COMBINE BOTH AMPLIFIERS
INTO A SINGLE AMPLIFIER
ADL5534
Data Sheet
VPOS
10nF
15
NC
Z1
NC
ADL5534
NC
NC
3
NC
10nF
CLIN2
1nF
120nH
120nH
11
49.9Ω
CML
49.9Ω
100pF
16pF
100pF
33Ω
AD9640
4.7pF
9
NC
120nH
120nH
33Ω
8
NC
7
6
5
NC
RFIN2
4
12
10
RFOUT2
RFIN
GND
13
14
NC
2
CLIN1
NC
RFOUT1
1
RFIN1
16
470nH
1µF
470nH
1nF
1µF
06836-018
VPOS1
10nF
GND1
Figure 19. Narrow-Band IF Sampling Solution for Unbuffered ADC
ADC DRIVING APPLICATION
(dBFS)
–75
–90
–105
–120
0
12
18
24
30
36
42
48
54
60
FREQUENCY (MHz)
Figure 21. Measured Single-Tone Performance of the Circuit in Figure 19
0 SFDR = 78.267dBc
NOISE FLOOR = –110.131dB
–15 FUND 1 = –7.181dBFs
FUND 2 = –7.191dBFs
–30 IMD (2F1 – F2) = –80.538dBc
IMD (2F2 – F1) = –82.086dBc
–45
(dBFS)
0
–5
–60
–75
–10
–90
–15
–105
–20
–120
–25
–135
–30
0
–35
6
12
18
24
30
36
FREQUENCY (MHz)
42
48
54
60
Figure 22. Measured Two-Tone Performance of the Circuit in Figure 19
100
150
200
250
300
350
400
FREQUENCY (MHz)
06836-019
–40
–45
50
6
06836-020
–135
5
NORMALIZED LOSS (dB)
–60
06836-021
The ADL5534 is a high linearity, fixed gain IF amplifier suitable
for use as an ADC driver. The ADL5534 has a differential input
and output impedance of 100 Ω. A flux-coupled RF transformer
with a 2:1 impedance ratio was used to perform the single-endedto-differential conversion at the input of the ADL5534. The
interface between the ADL5534 and the AD9640 is a thirdorder low pass filter presenting a 100 Ω differential impedance
to the source and load. The ADL5534 must be ac-coupled to
prevent dc bias from entering the inputs of the ADC. Capacitors
of 100 pF were chosen to reduce any low frequency noise coming
from the ADL5534 and provide dc blocking. The measured
results for this interface shows 0.5 dB insertion loss for a 20 MHz
bandwidth centered around 92 MHz. The wideband response for
the interface is shown in Figure 20. The single-tone results in
Figure 21 show an SNR of 69.3 dB and an SFDR of 82 dBc. The
two-tone results in Figure 22 show an IMD3 of −80.5 dBc and
an SFDR of 78 dBc.
0 SNR = 69.334dBc
SFDR = 82.267dBc
–15 NOISE FLOOR = –109.519dB
FUND = –1.05dBFs
–30 SECOND = –82.262dBc
THIRD = –88.688dBc
–45
Figure 20. Measured Frequency Response of ADC interface
in Figure 19
Rev. B | Page 12 of 16
Data Sheet
ADL5534
SOLDERING INFORMATION AND RECOMMENDED
PCB LAND PATTERN
0.2mm
3.1mm
0.8mm
2.4mm
Figure 23. Recommended Land Pattern
Rev. B | Page 13 of 16
06836-022
Figure 23 shows the recommended land pattern for ADL5534.
To minimize thermal impedance, the exposed paddle on the
package underside should be soldered down to a ground plane.
If multiple ground layers exist, they should be stitched together
using vias. Pin 1 to Pin 4, Pin 6, Pin 9 to Pin 11, and Pin 14 to
Pin 15 can be left unconnected, or can be connected to ground.
Connecting these pins to ground improves device-to-device
isolation and slightly enhances thermal impedance. For more
information on land pattern design and layout, refer to the
AN-772 Application Note, A Design and Manufacturing Guide for
the Lead Frame Chip Scale Package (LFCSP).
4.8mm
ADL5534
Data Sheet
EVALUATION BOARD
VPOS biases the amplifier corresponding to RFIN1 and
RFOUT1. Applying 5 V to VPOS1 biases the amplifier
corresponding to RFIN2 and RFOUT2. To bias both amplifiers
from a single supply, connect 5 V to VPOS or VPOS1 and
attach a jumper across W3.
Figure 24 shows the schematic for the ADL5534 evaluation
board. The board is powered by a single 5 V supply. The
components used on the board are listed in Table 6.
Transformers (T1 and T2) are provided so the ADL5534
can be configured as a balanced amplifier. Applying 5 V to
VPOS
C7
10nF
L1
470nH
C9
1µF
W1
GND
C1
10nF
3
4
R3
OPEN
NC
C12
OPEN
RFOUT1
RFOUT1
13
NC
NC
Z1
NC
ADL5534
NC
NC
NC
CLIN1
2
C15
OPEN
RFOUT2
T1
ADT2-1T-1P+
CLIN2
1
R7
OPEN
NC
NC
1
RFIN1
C11
OPEN
RFIN2
R1
OPEN
R5
OPEN
14
15
C2
10nF
16
RFIN1
NC
C13
OPEN
C5
12
R2
OPEN
R6
OPEN
1nF
11
10
T2
ADT2-1T-1P+
C16
OPEN
9
1
C14
OPEN
R8
OPEN
R4
OPEN
RFOUT2
8
7
C6
1nF
W3
VPOS
C4
10nF
L2
470nH
VPOS1
VPOS1
C8
10nF
C10
1µF
W2
GND1
06836-023
C3
10nF
6
5
RFIN2
Figure 24. Evaluation Board Schematic
Table 6. Evaluation Board Configuration Options
Component
C1, C2, C3, C4
C5, C6
C11, C12, C13, C14,
C15, C16
C9, C10
C7, C8
R1, R2, R3, R4, R5,
R6, R7, R8
T1, T2
L1, L2
VPOS, GND,
VPOS1, GND1
W1, W2
W3
Description
AC coupling capacitors
Provides decoupling for the on-board linearizer
Optional components used for configuring ADL5534 as a balanced amplifier
Default Condition
10 nF, Size 0402
1 nF, Size 0603
Open, Size 0402
Power-supply decoupling capacitors
Power-supply decoupling capacitors
Optional components used for configuring ADL5534 as a balanced amplifier
1 µF, Size 0603
10 nF, Size 0603
Open, Size 0603
T1 and T2 are 50 Ω to100 Ω impedance transformers used to configure the ADL5534
as a balanced amplifier; T1 and T2 are used to present a 100 Ω differential impedance
to the ADL5534
DC bias inductor
Clip-on terminals for power supply
Installed (Mini-Circuits®
ADT2-1T-1P+)
2-pin jumper for connection of ground and supply via cable
2-pin jumper used to connect VPOS to VPOS1
Rev. B | Page 14 of 16
470 nH, Size 1008
VPOS, VPOS1; red
GND, GND1; black
W1, W2
W3
06836-025
ADL5534
06836-024
Data Sheet
Figure 25. Evaluation Board Layout (Top)
Figure 26. Evaluation Board Layout (Bottom)
Rev. B | Page 15 of 16
ADL5534
Data Sheet
OUTLINE DIMENSIONS
5.10
5.00 SQ
4.90
0.80
BSC
PIN 1
INDICATOR
16
13
1
12
3.25
3.10 SQ
2.95
EXPOSED
PAD
9
TOP VIEW
0.80
0.75
0.70
SEATING
PLANE
0.75
0.60
0.50
4
BOTTOM VIEW
0.05 MAX
0.02 NOM
COPLANARITY
0.08
0.20 REF
0.35
0.30
0.25
5
8
0.25 MIN
FOR PROPER CONNECTION OF
THE EXPOSED PAD, REFER TO
THE PIN CONFIGURATION AND
FUNCTION DESCRIPTIONS
SECTION OF THIS DATA SHEET.
06-10-2011-A
PIN 1
INDICATOR
COMPLIANT TO JEDEC STANDARDS MO-220-WHHB.
Figure 27. 16-Lead Lead Frame Chip Scale Package [LFCSP_WQ]
5 mm × 5 mm Body, Very Very Thin Quad
CP-16-31
Dimensions shown in millimeters
ORDERING GUIDE
Model 1
ADL5534ACPZ-R7
ADL5534-EVALZ
1
Temperature Range
−40°C to +85°C
Package Description
16-Lead LFCSP_WQ, 7” Tape and Reel
Evaluation Board
Z = RoHS Compliant Part.
©2008–2014 Analog Devices, Inc. All rights reserved. Trademarks and
registered trademarks are the property of their respective owners.
D06836-0-2/14(B)
Rev. B | Page 16 of 16
Package Option
CP-16-31
Ordering Quantity
1500
1
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