Datasheet ADL5906 (Analog Devices) - 9

ManufacturerAnalog Devices
Description10 MHz TO 10 GHz 67 dB TruPwr Detector
Pages / Page32 / 9 — Data Sheet. ADL5906. TYPICAL PERFORMANCE CHARACTERISTICS. 4.0. 100MHz TO …
RevisionA
File Format / SizePDF / 1.9 Mb
Document LanguageEnglish

Data Sheet. ADL5906. TYPICAL PERFORMANCE CHARACTERISTICS. 4.0. 100MHz TO 1GHz. 0dBm. 3.5. –10dBm. 3.0. 2GHz. 3GHz. –20dBm. E (V) 2.5. E (V). 4GHz

Data Sheet ADL5906 TYPICAL PERFORMANCE CHARACTERISTICS 4.0 100MHz TO 1GHz 0dBm 3.5 –10dBm 3.0 2GHz 3GHz –20dBm E (V) 2.5 E (V) 4GHz

Model Line for this Datasheet

Text Version of Document

Data Sheet ADL5906 TYPICAL PERFORMANCE CHARACTERISTICS
VPOS1 = VPOS2 = 5 V, single-ended input drive, VRMS connected to VSET, VTGT = 0.8 V, CRMS = 0.1 µF, TA = +25°C (green), −55°C (light blue), −40°C (blue), +85°C (red), +105°C (orange), and +125°C (black), where appropriate. Error referred to slope and intercept at indicated calibration points. Input RF signal is a sine wave (CW), unless otherwise indicated.
4.0 4.0 100MHz TO 1GHz 0dBm 3.5 3.5 –10dBm 3.0 2GHz 3.0 3GHz –20dBm E (V) 2.5 E (V) G 4GHz 2.5 G A 5GHz A LT 6GHz LT –30dBm O 2.0 7GHz O 2.0 T V 8GHz T V U U –40dBm 1.5 9GHz TP 1.5 10GHz TP OU OU 1.0 1.0 –50dBm 0.5 20MHz 0.5 10MHz 0 0 –65 –60 –55 –50 –45 –40 –35 –30 –25 –20 –15 –10 –5 0 5 10
003
0.01 0.1 1 10
006
PIN (dBm)
1287-
FREQUENCY (GHz)
1287- 1 1 Figure 3. Typical VRMS vs. Input Power (dBm) vs. Frequency Figure 6. Typical VRMS vs. Frequency for Six RF Input Levels (10 MHz to 10 GHz) at 25°C
6.0 6 6.0 6 CW CW 5.5 QPSK PEP = 3.8dB 5 5.5 QPSK PEP = 3.8dB 5 16 QAM PEP = 6.3dB 16 QAM PEP = 6.3dB 5.0 64 QAM PEP = 7.4dB 4 5.0 64 QAM PEP = 7.4dB 4 4.5 3 4.5 3 4.0 2 E (V) 4.0 2 E (V) G G A 3.5 1 B) B) d A 3.5 1 d LT LT O 3.0 0 R ( O 3.0 0 R ( T V T V U 2.5 –1 RRO U 2.5 –1 RRO E E TP 2.0 –2 TP 2 –2 OU OU 1.5 –3 1.5 –3 1.0 –4 1.0 –4 0.5 –5 0.5 –5 0 –6 0 –6 –65 –55 –45 –35 –25 –15 –5 5
104
–65 –55 –45 –35 –25 –15 –5 5
007
PIN (dBm)
1287-
P
1
IN (dBm)
1287- 1 Figure 4. Error from CW Linear Reference vs. Signal Modulation Figure 7. Error from CW Linear Reference vs. Signal Modulation (QPSK, 16 QAM, 64 QAM), Frequency = 900 MHz, CRMS = 0.1 µF, (QPSK, 16 QAM, 64 QAM), Frequency = 2.14 GHz, CRMS = 0.1 µF, Three Point Calibration at 0 dBm, −40 dBm, and −55 dBm Three Point Calibration at 0 dBm, −40 dBm, and −55 dBm
6.0 6 6.0 6 CW CW 5.5 CDMA 2000 PEP = 11.02dB 5 5.5 LTE TM1 1CR 20MHz PEP = 11.58dB 5 1C W-CDMA PEP = 10.56dB 5.0 4C W-CDMA PEP = 12.08dB 4 5.0 4 4.5 3 4.5 3 4.0 2 E (V) 4.0 2 E (V) G A 3.5 1 B) G d A 3.5 1 B) d LT LT O 3.0 0 R ( O 3.0 0 R ( T V U 2.5 –1 RRO T V E U 2.5 –1 RRO E TP 2.0 –2 TP 2 –2 OU OU 1.5 –3 1.5 –3 1.0 –4 1.0 –4 0.5 –5 0.5 –5 0 –6 0 –6 –65 –55 –45 –35 –25 –15 –5 5
005
–65 –55 –45 –35 –25 –15 –5 5
008
PIN (dBm)
1287- 1
PIN (dBm)
1287- 1 Figure 5. Error from CW Linear Reference vs. Signal Modulation (CDMA 2000, Figure 8. Error from CW Linear Reference vs. Signal Modulation One-Carrier W-CDMA, Four-Carrier W-CDMA), Frequency = 2.14 GHz, (LTE TM1 One-Carrier, 20 MHz), Frequency = 2.14 GHz, CRMS = 0.1 µF, CRMS = 0.1 µF, Three Point Calibration at 0 dBm, −40 dBm, and −55 dBm Three Point Calibration at 0 dBm, −40 dBm, and −55 dBm Rev. A | Page 9 of 32 Document Outline Features Applications Functional Block Diagram General Description Table of Contents Revision History Specifications Absolute Maximum Ratings ESD Caution Pin Configuration and Function Descriptions Typical Performance Characteristics Theory of Operation Square Law Detector and Amplitude Target RF Input Interface Temperature Sensor Interface VREF Interface Temperature Compensation Interface Power-Down Interface VSET Interface Output Interface VTGT Interface Basis for Error Calculations Measurement Mode Basic Connections Setting VTADJ Setting VTGT Choosing a Value for CRMS Output Voltage Scaling System Calibration and Error Calculation Using VTEMP to Improve Intercept Temperature Drift Description of Characterization Evaluation Board Evaluation Board Assembly Drawings Outline Dimensions Ordering Guide