ADL5519ACPZ-R2 AD [Analog Devices], ADL5519ACPZ-R2 Datasheet

no-image

ADL5519ACPZ-R2

Manufacturer Part Number
ADL5519ACPZ-R2
Description
1 MHz to 10 GHz, 50 dB Dual Log Detector/Controller
Manufacturer
AD [Analog Devices]
Datasheet
1.ADL5519ACPZ-R2.pdf (27 pages)
Preliminary Technical Data
FEATURES
Wide bandwidth: 1 MHz to 10 GHz
Dual-channel and channel difference outputs ports
Integrated accurately scaled temperature sensor
50 dB dynamic range up to 8 GHz
Stability over temperature ±0.5 dB
Low noise measurement/controller output VOUT
Pulse response time: 8/10 ns (fall/rise)
Small footprint 5 mm x 5 mm LFCSP package
Supply operation: 3.0 V to 5.5 V @ 65 mA
Fabricated using high speed SiGe process
APPLICATIONS
RF transmitter PA setpoint control and level monitoring
Power monitoring in radiolink transmitters
RSSI measurement in base stations, WLAN, WiMAX, radar
Antenna VSWR monitor
Dual-channel wireless infrastructure radios
GENERAL DESCRIPTION
The ADL5519 is a dual-demodulating logarithmic amplifier,
using the AD8317 core. It has the capability of accurately
converting an RF input signal to a corresponding decibel-scaled
output. The ADL5519 provides accurately scaled, independent,
logarithmic outputs of both RF measurement channels.
Difference output ports, which measure the difference between
the two channels, are also available. The on-chip channel
matching makes the log-amp channel difference outputs
extremely stable with temperature and process variations. The
device also includes a useful temperature sensor with an
accurately scaled voltage proportional to temperature, specified
over the device operating temperature range.
The ADL5519 maintains accurate log conformance for signals of
1 MHz to 8 GHz and provides useful operation to 10 GHz. The
input dynamic range is typically 50 dB (re: 50 Ω) with error less
than ±1 dB. The ADL5519 has 8/10 ns response time (fall
time/rise time) that enables RF burst detection to a pulse rate of
beyond 50 MHz. The device provides unprecedented logarithmic
intercept stability vs. ambient temperature conditions. A supply of
3.0 V to 5.5 V is required to power the device. Current
Rev. PrB
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 registered trademarks are the property of their respective owners.
COMR
COMR
PWDN
COMR
INHA
INHB
INLB
INLA
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781.329.4700
Fax: 781.461.3113
consumption is typically 65 mA, and it decreases to 1 mA when
the device is disabled.
The device is capable of supplying four log-amp measurements
simultaneously. Linear-in-dB measurements are provided at
OUTA and OUTB, with conveniently scaled slopes of -22
mV/dB. The log-amp difference between OUTA and OUTB is
available as differential or single-ended signals at OUTP and
OUTN. An optional voltage applied to VLVL provides a
common mode reference level to offset OUTP and OUTN
above ground. On-chip wide bandwidth output op amps are
connected to accommodate flexible configurations that support
many system solutions.
The ADL5519 can be easily configured to provide a control
voltage to a power amplifier at any output pin. Since the output
can be used for controller applications, special attention has
been paid to minimize wideband noise
The ADL5519 is fabricated on a SiGe bipolar IC process and is
available in a 5 mm × 5 mm, 32-lead LFCSP package for an
operating temperature range of −40
Dual Log Detector/Controller
25
26
27
28
29
30
31
32
24
1
Log Detector
Log Detector
CHANNEL A
CHANNEL B
1 MHz to 10 GHz, 50 dB
Figure 1. Functional Block Diagram
23
2
OUTB
OUTA
22
3
©2006 Analog Devices, Inc. All rights reserved.
BIAS
21
4
TEMP
20
5
o
C to +125
19
6
18
ADL5519
7
o
C..
www.analog.com
17
8
25
26
27
28
29
30
31
32
NC
NC
OUTA
FBKA
OUTP
OUTN
FBKB
OUTB

Related parts for ADL5519ACPZ-R2

Image
Part Number
Description
Manufacturer
Datasheet
Request R
AD-65
Part Number:
AD-65
Description:
Manufacturer:
Analog Devices
AD-DAC-FMC-ADP
Part Number:
AD-DAC-FMC-ADP
Description:
DPG2 EVAL ADAPTER FOR XILINX BOARDS
Manufacturer:
Analog Devices Inc
AD-DPGIOZ
Part Number:
AD-DPGIOZ
Description:
FIFO BD FOR THE AD9963/61
Manufacturer:
Analog Devices Inc
AD-MSDPDX1850-EVB
Part Number:
AD-MSDPDX1850-EVB
Description:
Xilinx FMC Interface
Manufacturer:
Analog Devices Inc
Datasheet:
AD-MSDPDX900-EVB.pdf (12 pages)
AD-MSDPDX2000-EVB
Part Number:
AD-MSDPDX2000-EVB
Description:
Xilinx FMC Interface
Manufacturer:
Analog Devices Inc
Datasheet:
AD-MSDPDX900-EVB.pdf (12 pages)
AD-MSDPDX2150-EVB
Part Number:
AD-MSDPDX2150-EVB
Description:
Xilinx FMC Interface
Manufacturer:
Analog Devices Inc
Datasheet:
AD-MSDPDX900-EVB.pdf (12 pages)
AD-MSDPDX2350-EVB
Part Number:
AD-MSDPDX2350-EVB
Description:
Xilinx FMC Interface
Manufacturer:
Analog Devices Inc
Datasheet:
AD-MSDPDX900-EVB.pdf (12 pages)
AD-MSDPDX2500-EVB
Part Number:
AD-MSDPDX2500-EVB
Description:
Xilinx FMC Interface
Manufacturer:
Analog Devices Inc
Datasheet:
AD-MSDPDX900-EVB.pdf (12 pages)
AD-MSDPDX2600-EVB
Part Number:
AD-MSDPDX2600-EVB
Description:
Xilinx FMC Interface
Manufacturer:
Analog Devices Inc
Datasheet:
AD-MSDPDX900-EVB.pdf (12 pages)
AD-MSDPDX900-EVB
Part Number:
AD-MSDPDX900-EVB
Description:
Xilinx FMC Interface
Manufacturer:
Analog Devices Inc
Datasheet:
AD-MSDPDX900-EVB.pdf (12 pages)
AD-FMCOMMS1-EBZ
Part Number:
AD-FMCOMMS1-EBZ
Description:
RF Development Tools Sransceiver board for FMC evaluation kit
Manufacturer:
Analog Devices
DAC_12B_10-100NS
Part Number:
DAC_12B_10-100NS
Description:
Analog Devices: Data Converters: DAC 12-Bit, 10 ns to 100 ns Converters Selection Table
Manufacturer:
AD [Analog Devices]
Datasheet:
DAC_12B_10-100NS.pdf (1 page)
DAC_8B_10-100NS
Part Number:
DAC_8B_10-100NS
Description:
Analog Devices: Data Converters: DAC 8-Bit, 10 ns to 100 ns Converters Selection Table
Manufacturer:
AD [Analog Devices]
Datasheet:
DAC_8B_10-100NS.pdf (1 page)
AD73411BB-80
Part Number:
AD73411BB-80
Description:
Low-Power Analog Front End with DSP Microcomputer
Manufacturer:
AD [Analog Devices]
Datasheet:
AD73411BB-80.pdf (36 pages)
AD7346B
Part Number:
AD7346B
Description:
2 Pair/1 Pair ETSI Compatible HDSL Analog Front End
Manufacturer:
AD [Analog Devices]
Datasheet:
AD7346B.pdf (8 pages)

ADL5519ACPZ-R2 Summary of contents

Page 1

Preliminary Technical Data FEATURES Wide bandwidth: 1 MHz to 10 GHz Dual-channel and channel difference outputs ports Integrated accurately scaled temperature sensor 50 dB dynamic range GHz Stability over temperature ±0.5 dB Low noise measurement/controller output VOUT ...

Page 2

ADL5519 TABLE OF CONTENTS Features .............................................................................................. 1 Applications....................................................................................... 1 General Description ......................................................................... 1 Specifications..................................................................................... 3 Absolute Maximum Ratings............................................................ 9 ESD Caution.................................................................................. 9 Pin Configuration and Function Descriptions........................... 10 Typical Performance Characteristics ........................................... 12 Theory of Operation ...................................................................... 13 Using the ...

Page 3

Preliminary Technical Data SPECIFICATIONS 1000 pF 25°C, 52.3 Ω termination resistor at INHI, unless otherwise noted. POS LPF A Table 1. Parameter SIGNAL INPUT INTERFACE Specified Frequency Range DC Common-Mode Voltage MEASUREMENT ...

Page 4

ADL5519 Parameter Temperature Sensitivity OUTP-OUTN Dynamic Gain Range Temperature Sensitivity Input A to Input B Isolation Input A to OUTB Isolation Input B to OUTA Isolation f = 1.9 GHz Input Impedance OUT[A, B] ±1 dB Dynamic Range OUT[A, B] ...

Page 5

Preliminary Technical Data Parameter OUT[A, B] Maximum Input Level OUT[A, B] Minimum Input Level OUT[ Slope OUT[A, B] Intercept Output Voltage - High Power In Output Voltage - Low Power In Temperature Sensitivity OUTP-OUTN Dynamic Gain Range ...

Page 6

ADL5519 Parameter f = 5.8 GHz Input Impedance OUT[A, B] ±1 dB Dynamic Range OUT[A, B] Maximum Input Level OUT[A, B] Minimum Input Level OUT[ Slope OUT[A, B] Intercept Output Voltage - High Power In Output Voltage ...

Page 7

Preliminary Technical Data Parameter Input B to OUTA Isolation OUTPUT INTERFACE OUT[A, B] Voltage Range Min OUT[P, N] output OUT[P, N] Voltage Range Min Source/Sink Current Small Signal Bandwidth Output Noise Fall Time Fall Time Rise Time Rise Time Video ...

Page 8

ADL5519 Parameter Disable Time POWER INTERFACE Supply Voltage Quiescent Current vs. Temperature Disable Current Conditions PWDN HI to OUTA/OUTB at 10% final value Open 10nF dBm LPA/B HPA/B VPS[ (Pins ...

Page 9

Preliminary Technical Data ABSOLUTE MAXIMUM RATINGS Table 2. Parameter Supply Voltage: VPSA, VPSB, VPSR V Voltage: VSTA, VSTB SET Input Power (Single-Ended, Re: 50 Ω) INHA, INLA, INHB, INLB Internal Power Dissipation θ JA Maximum Junction Temperature Operating Temperature Range ...

Page 10

ADL5519 PIN CONFIGURATION AND FUNCTION DESCRIPTIONS Table 3. Pin Function Descriptions PIN Name Description 1 COMR Common for difference output and Temp Sensor 2 COMR Common for difference output and Temp Sensor 3 VPSB Positive Supply for Channel B. Must ...

Page 11

Preliminary Technical Data 29 COMR Common for difference output and Temp Sensor 30 COMR Common for difference output and Temp Sensor 31 INLB AC coupled RF common for Channel B 32 INHB AC coupled RF input for Channel B Paddle ...

Page 12

ADL5519 TYPICAL PERFORMANCE CHARACTERISTICS +25°C, –40°C, +85°C; CLPA/B = OPEN. Colors: +25°C black, –40°C blue, +85°C red Figure 3: OUT[A, B] Voltage and Log Conformance vs. Input Amplitude at 450 MHz, Typical ...

Page 13

Preliminary Technical Data THEORY OF OPERATION The ADL5519 is a dual-channel 6-stage demodulating logarithmic amplifier, specifically designed for use in RF measurement and power control applications at frequencies GHz. Sharing much of its design with the AD8317 ...

Page 14

... C4 COMR COMR VPSA ADJA VPSR TEMP CLPA VSTA 47nF 25 INHA NC INHA R5 52.3Ω 26 INLA OUTA C3 47nF 27 COMR FBKA ADL5519ACPZ 28 PWDN OUTP OUTN 29 COMR EXPOSED PADDLE FBKB 30 COMR C2 OUTB 31 INLB R6 47nF 52.3Ω INHB INHB 47nF COMR COMR VPSB ADJB VREF ...

Page 15

Preliminary Technical Data POWER-DOWN INTERFACE The operating and stand-by currents for the ADL5519 at 25°C are approximately 65 mA and 1 mA, respectively. The PWDN and ADJ[A,B] pins are connected to the base of and NPN transistor to force a ...

Page 16

ADL5519 In this configuration, all four measurements, OUT[ N], are made available simultaneously. A differential output can be taken from OUTP − OUTN, and VLVL can be used to adjust the common-mode level for an ADC connection. MEASUREMENT ...

Page 17

... C7 SEE 0.1μF 100pF TEXT SEE TEXT COMR COMR VPSA ADJA VPSR TEMP CLPA INHA 25 26 INLA COMR 27 ADL5519ACPZ 28 PWDN 29 COMR EXPOSED PADDLE 30 COMR 31 INLB INHB 32 COMR COMR VPSB ADJB VREF VLVL CLPB SEE TEXT 0Ω ...

Page 18

ADL5519 and OUTP. This changes the output equation for OUTB and OUTP to OUTB = 2 × OUTA − VLVL For VLVL < OUTA/2, OUTN = 0 V Otherwise, OUTN = 2 × VLVL – OUTA The previous equations are ...

Page 19

Preliminary Technical Data increase until the power on the two input channels is equal, resulting in a signal chain gain of unity gain other than required, an attenuator can be used in one of the ...

Page 20

Preliminary Technical Data TEMPERATURE COMPENSATION ADJUSTMENT The ADL5519 has a highly stable measurement output with respect to temperature. However, when the RF inputs exceed a frequency of 600 MHz, the output temperature drift must be compensated for using ADJ[A, B] ...

Page 21

Preliminary Technical Data Once slope and intercept have been calculated, an equation can be written that will allow calculation of the input power based on the output voltage of the detector. P (unknown /Slope) + Intercept IN OUT1(measured) ...

Page 22

ADL5519 ( − × − V Slope P IN OUT Error (dB) = Slope where P is the x-axis intercept expressed in dBm. This is Z analogous to the input amplitude that would produce an output ...

Page 23

Preliminary Technical Data EVALUATION BOARD Table 5. Evaluation Board (Rev. A) Configuration Options Component Function VPOS, GND1, Supply and Ground Connections. GND1, GND2, GND3 are internally GND2, GND3 connected together. R5, R6, C1, C2, C3, Input Interface. C4 The 52.3 ...

Page 24

ADL5519 R1, R2, R9, R10 Output Interface – Difference C9, C10 Filter Capacitor. The low-pass corner frequency of the circuit that drives Pin OUTA[OUTB] can be lowered by placing a capacitor between CLPA[CLPB] and ground. Increasing this capacitor increases the ...

Page 25

... ADJA R4 0.1μF 0Ω C8 100pF C7 R13 SENSOR OPEN R14 R18 OPEN OPEN COMR VPSA ADJA VPSR TEMP ADL5519ACPZ EXPOSED PADDLE VPSB ADJB VREF VLVL R19 C5 OPEN 0.1μF C16 R11 100pF C6 0Ω R17 OPEN OPEN C11 R7 0.1μ ...

Page 26

Preliminary Technical Data Figure 28. Top Side Layout Figure 29. Top Side Silkscreen Figure 30: Bottom Side Layout Figure 31: Bottom Side Silkscreen Rev. PrB | Page ADL5519 ...

Page 27

... OUTLINE DIMENSIONS BSC SQ PIN 1 INDICATOR 1.00 12° MAX 0.85 0.80 SEATING PLANE ORDERING GUIDE Model Temperature Package 1 ADL5519ACPZ-R7 −40°C to +85°C 1 ADL5519ACPZ-R2 −40°C to +85°C ADL5519ACPZ- −40°C to +85°C 1 ADL5519-EVALZ Pb-free part waffle pack. 5.00 0.60 MAX 0.50 TOP BSC 4.75 VIEW BSC SQ 0 ...

Related keywords