Datasheet ADL5506 (Analog Devices) - 9
| Manufacturer | Analog Devices |
| Description | 30 MHz to 4.5 GHz, 45 dB RF Detector |
| Pages / Page | 23 / 9 — Data Sheet. ADL5506. TYPICAL PERFORMANCE CHARACTERISTICS. 1.1. 1.0. … |
| Revision | C |
| File Format / Size | PDF / 1.1 Mb |
| Document Language | English |
Data Sheet. ADL5506. TYPICAL PERFORMANCE CHARACTERISTICS. 1.1. 1.0. 30MHz. –5dBm. 50MHz. 100MHz. 0.9. 450MHz. 900MHz. 0.8. 1900MHz. –15dBm
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Text Version of Document
Data Sheet ADL5506 TYPICAL PERFORMANCE CHARACTERISTICS
VPOS = 3 V, TA = +25°C (black), +85°C (red), 0°C (green), and −40°C (dark blue) where appropriate. CFLT = open, unless otherwise noted. Input RF signal is a sine wave (CW), unless otherwise indicated. Error referred to slope and intercept at indicated calibration points at 25°C. Power referenced to 50 Ω source and with a 52.3 Ω shunt matching resistor on the board. Distribution plots based upon more than 50 devices.
1.1 1.0 30MHz –5dBm 50MHz 1.0 100MHz 0.9 450MHz 0.9 900MHz 0.8 1900MHz –15dBm 0.8 2140MHz 2700MHz 0.7 E (V) E (V) G 3500MHz 0.7 A 4500MHz G 0.6 A –25dBm LT O LT 0.6 O 0.5 T V U T V 0.5 U 0.4 –35dBm TP TP OU 0.4 OU 0.3 –45dBm 0.3 0.2 0.2 0.1 0.1 0 –50 –40 –30 –20 –10 0 10
003
10 100 1000
006
PIN (dBm)
1768- 1
FREQUENCY (MHz)
1768- 1 Figure 3. Typical VLOG vs. PIN over Frequency at 25°C Figure 6. Typical VLOG vs. Frequency for Five RF Input Levels at 25°C
5.5 6 VPOS = 2.5V VPOS = 2.5V AT –40°C VPOS = 5.0V AT –40°C VPOS = 3.0V 5 VPOS = 2.5V AT +25°C VPOS = 5.0V AT +25°C VPOS = 5.0V VPOS = 2.5V AT +85°C VPOS = 5.0V AT +85°C 5.0 VPOS = 5.5V 4 VPOS = 3.0V AT –40°C VPOS = 5.5V AT –40°C VPOS = 3.0V AT +25°C VPOS = 5.5V AT +25°C 3 VPOS = 3.0V AT +85°C VPOS = 5.5V AT +85°C mA) 4.5 ( 2 NT B) 1 d 4.0 R ( 0 CURRE Y RRO –1 L E PP 3.5 –2 SU –3 3.0 –4 THREE-POINT CALIBRATION AT –5 –40dBm, –30dBm, AND –10dBm 2.7V, 3V, AND 3.3V ON TOP OF EACH OTHER 2.5 –6 –40 –20 0 20 40 60 80 100 120
004
–50 –45 –40 –35 –30 –25 –20 –15 –10 –5 0 5
007
TEMPERATURE (°C)
1768-
P
1
IN (dBm)
1768- 1 Figure 4. Quiescent Supply Current vs. Temperature, 2.5 V to 5.5 V Supply Figure 7. Log Conformance Error vs. PIN over Supply Voltage and Voltage Temperature at 100 MHz
6 6 VPOS = 2.5V AT –40°C VPOS = 5.0V AT –40°C VPOS = 2.5V AT –40°C VPOS = 5.0V AT –40°C 5 VPOS = 2.5V AT +25°C VPOS = 5.0V AT +25°C 5 VPOS = 2.5V AT +25°C VPOS = 5.0V AT +25°C VPOS = 2.5V AT +85°C VPOS = 5.0V AT +85°C VPOS = 2.5V AT +85°C VPOS = 5.0V AT +85°C 4 VPOS = 3.0V AT –40°C VPOS = 5.5V AT –40°C 4 VPOS = 3.0V AT –40°C VPOS = 5.5V AT –40°C VPOS = 3.0V AT +25°C VPOS = 5.5V AT +25°C VPOS = 3.0V AT +25°C VPOS = 5.5V AT +25°C 3 V 3 POS = 3.0V AT +85°C VPOS = 5.5V AT +85°C VPOS = 3.0V AT +85°C VPOS = 5.5V AT +85°C 2 2 B) 1 B) d 1 d R ( 0 R ( 0 RRO –1 RRO –1 E E –2 –2 –3 –3 –4 –4 THREE-POINT CALIBRATION AT THREE-POINT CALIBRATION AT –5 –40dBm, –30dBm, AND –10dBm –5 –40dBm, –30dBm, AND –10dBm 2.7V, 3V, AND 3.3V ON TOP OF EACH OTHER 2.7V, 3V, AND 3.3V ON TOP OF EACH OTHER –6 –6 –50 –45 –40 –35 –30 –25 –20 –15 –10 –5 0 5 –50 –45 –40 –35 –30 –25 –20 –15 –10 –5 0 5
005 008
PIN (dBm)
1768-
PIN (dBm)
1768- 1 1 Figure 5. Log Conformance Error vs. PIN over Supply Voltage and Figure 8. Log Conformance Error vs. PIN over Supply Voltage and Temperature at 900 MHz Temperature at 1900 MHz Rev. B | Page 9 of 23 Document Outline FEATURES APPLICATIONS GENERAL DESCRIPTION FUNCTIONAL BLOCK DIAGRAM REVISION HISTORY SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TYPICAL PERFORMANCE CHARACTERISTICS MEASUREMENT SETUPS THEORY OF OPERATION APPLICATIONS INFORMATION BASIC CONNECTIONS TRANSFER FUNCTION IN TERMS OF SLOPE AND INTERCEPT LOG CONFORMANCE ERROR CALCULATION Filter Capacitor Input Coupling Options Effect of Waveform Type on Intercept Temperature Drift at High Frequencies Operation Above 4.5 GHz VLOG Output Noise VLOG Pulse Response Time Device Handling EVALUATION BOARD LAND PATTERN AND SOLDERING INFORMATION OUTLINE DIMENSIONS ORDERING GUIDE AUTOMOTIVE PRODUCTS
VPOS = 3 V, TA = +25°C (black), +85°C (red), 0°C (green), and −40°C (dark blue) where appropriate. CFLT = open, unless otherwise noted. Input RF signal is a sine wave (CW), unless otherwise indicated. Error referred to slope and intercept at indicated calibration points at 25°C. Power referenced to 50 Ω source and with a 52.3 Ω shunt matching resistor on the board. Distribution plots based upon more than 50 devices.
1.1 1.0 30MHz –5dBm 50MHz 1.0 100MHz 0.9 450MHz 0.9 900MHz 0.8 1900MHz –15dBm 0.8 2140MHz 2700MHz 0.7 E (V) E (V) G 3500MHz 0.7 A 4500MHz G 0.6 A –25dBm LT O LT 0.6 O 0.5 T V U T V 0.5 U 0.4 –35dBm TP TP OU 0.4 OU 0.3 –45dBm 0.3 0.2 0.2 0.1 0.1 0 –50 –40 –30 –20 –10 0 10
003
10 100 1000
006
PIN (dBm)
1768- 1
FREQUENCY (MHz)
1768- 1 Figure 3. Typical VLOG vs. PIN over Frequency at 25°C Figure 6. Typical VLOG vs. Frequency for Five RF Input Levels at 25°C
5.5 6 VPOS = 2.5V VPOS = 2.5V AT –40°C VPOS = 5.0V AT –40°C VPOS = 3.0V 5 VPOS = 2.5V AT +25°C VPOS = 5.0V AT +25°C VPOS = 5.0V VPOS = 2.5V AT +85°C VPOS = 5.0V AT +85°C 5.0 VPOS = 5.5V 4 VPOS = 3.0V AT –40°C VPOS = 5.5V AT –40°C VPOS = 3.0V AT +25°C VPOS = 5.5V AT +25°C 3 VPOS = 3.0V AT +85°C VPOS = 5.5V AT +85°C mA) 4.5 ( 2 NT B) 1 d 4.0 R ( 0 CURRE Y RRO –1 L E PP 3.5 –2 SU –3 3.0 –4 THREE-POINT CALIBRATION AT –5 –40dBm, –30dBm, AND –10dBm 2.7V, 3V, AND 3.3V ON TOP OF EACH OTHER 2.5 –6 –40 –20 0 20 40 60 80 100 120
004
–50 –45 –40 –35 –30 –25 –20 –15 –10 –5 0 5
007
TEMPERATURE (°C)
1768-
P
1
IN (dBm)
1768- 1 Figure 4. Quiescent Supply Current vs. Temperature, 2.5 V to 5.5 V Supply Figure 7. Log Conformance Error vs. PIN over Supply Voltage and Voltage Temperature at 100 MHz
6 6 VPOS = 2.5V AT –40°C VPOS = 5.0V AT –40°C VPOS = 2.5V AT –40°C VPOS = 5.0V AT –40°C 5 VPOS = 2.5V AT +25°C VPOS = 5.0V AT +25°C 5 VPOS = 2.5V AT +25°C VPOS = 5.0V AT +25°C VPOS = 2.5V AT +85°C VPOS = 5.0V AT +85°C VPOS = 2.5V AT +85°C VPOS = 5.0V AT +85°C 4 VPOS = 3.0V AT –40°C VPOS = 5.5V AT –40°C 4 VPOS = 3.0V AT –40°C VPOS = 5.5V AT –40°C VPOS = 3.0V AT +25°C VPOS = 5.5V AT +25°C VPOS = 3.0V AT +25°C VPOS = 5.5V AT +25°C 3 V 3 POS = 3.0V AT +85°C VPOS = 5.5V AT +85°C VPOS = 3.0V AT +85°C VPOS = 5.5V AT +85°C 2 2 B) 1 B) d 1 d R ( 0 R ( 0 RRO –1 RRO –1 E E –2 –2 –3 –3 –4 –4 THREE-POINT CALIBRATION AT THREE-POINT CALIBRATION AT –5 –40dBm, –30dBm, AND –10dBm –5 –40dBm, –30dBm, AND –10dBm 2.7V, 3V, AND 3.3V ON TOP OF EACH OTHER 2.7V, 3V, AND 3.3V ON TOP OF EACH OTHER –6 –6 –50 –45 –40 –35 –30 –25 –20 –15 –10 –5 0 5 –50 –45 –40 –35 –30 –25 –20 –15 –10 –5 0 5
005 008
PIN (dBm)
1768-
PIN (dBm)
1768- 1 1 Figure 5. Log Conformance Error vs. PIN over Supply Voltage and Figure 8. Log Conformance Error vs. PIN over Supply Voltage and Temperature at 900 MHz Temperature at 1900 MHz Rev. B | Page 9 of 23 Document Outline FEATURES APPLICATIONS GENERAL DESCRIPTION FUNCTIONAL BLOCK DIAGRAM REVISION HISTORY SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TYPICAL PERFORMANCE CHARACTERISTICS MEASUREMENT SETUPS THEORY OF OPERATION APPLICATIONS INFORMATION BASIC CONNECTIONS TRANSFER FUNCTION IN TERMS OF SLOPE AND INTERCEPT LOG CONFORMANCE ERROR CALCULATION Filter Capacitor Input Coupling Options Effect of Waveform Type on Intercept Temperature Drift at High Frequencies Operation Above 4.5 GHz VLOG Output Noise VLOG Pulse Response Time Device Handling EVALUATION BOARD LAND PATTERN AND SOLDERING INFORMATION OUTLINE DIMENSIONS ORDERING GUIDE AUTOMOTIVE PRODUCTS
