DatasheetsDatasheet ADA4930-1/ADA4930-2 (Analog Devices)
Datasheet ADA4930-1/ADA4930-2 (Analog Devices)
Manufacturer | Analog Devices |
Description | Ultralow Noise Drivers for Low Voltage ADCs |
Pages / Page | 25 / 1 — Ultralow Noise. Drivers for Low Voltage ADCs. Data Sheet. … |
Revision | D |
File Format / Size | PDF / 633 Kb |
Document Language | English |
Ultralow Noise. Drivers for Low Voltage ADCs. Data Sheet. ADA4930-1/ADA4930-2. FEATURES. FUNCTIONAL BLOCK DIAGRAMS
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Ultralow Noise Drivers for Low Voltage ADCs Data Sheet ADA4930-1/ADA4930-2 FEATURES FUNCTIONAL BLOCK DIAGRAMS S S S S Low input voltage noise: 1.2 nV/√Hz –V –V –V –V Low common-mode output: 0.9 V on single supply 16 15 14 13 Extremely low harmonic distortion –FB 1 ADA4930-1 12 PD −104 dBc HD2 at 10 MHz +IN 2 11 –OUT −79 dBc HD2 at 70 MHz –IN 3 10 +OUT −73 dBc HD2 at 100 MHz +FB 4 9 VOCM −101 dBc HD3 at 10 MHz 5 6 7 8 −82 dBc HD3 at 70 MHz
001
S S S S
9-
V V V V −75 dBc HD3 at 100 MHz + + + +
0920 Figure 1.
High speed 1 1 B1 S1 S1 1 UT −3 dB bandwidth of 1.35 GHz, G = 1 N +I –F –V –V PD –O Slew rate: 3400 V/μs, 25% to 75% 24 23 22 21 20 19 0.1 dB gain flatness to 380 MHz –IN1 1 18 +OUT1 Fast overdrive recovery of 1.5 ns +FB1 2 17 VOCM1 +V 3 16 –VS2 0.5 mV typical offset voltage S1 ADA4930-2 +V 15 –V S1 4 S2 Externally adjustable gain –FB2 5 14 PD2 Differential-to-differential or single-ended-to-differential +IN2 6 13 –OUT2 operation 7 8 9 10 11 12 Adjustable output common-mode voltage 2 2 2 N2 B S2 S2 M T
002
–I +V U +V Single-supply operation: 3.3 V or 5 V +F OCV +O
09209-
APPLICATIONS
Figure 2.
100 ADC drivers Single-ended-to-differential converters IF and baseband gain blocks Differential buffers 10 ) Line drivers √hz V/ (n GENERAL DESCRIPTION NV 1
The ADA4930-1/ADA4930-2 are very low noise, low distortion, high speed differential amplifiers. They are an ideal choice for driving 1.8 V high performance ADCs with resolutions up to 14 bits from dc to 70 MHz. The adjustable output common
0
mode allows the ADA4930-1/ADA4930-2 to match the input of
10 100 1k 10k 100k 1M 10M 100M
003 09-
FREQUENCY (Hz)
the ADC. The internal common-mode feedback loop provides 092 Figure 3. Voltage Noise Spectral Density exceptional output balance, suppression of even-order harmonic The low dc offset and excellent dynamic performance of the distortion products, and dc level translation. ADA4930-1/ADA4930-2 make them well suited for a wide With the ADA4930-1/ADA4930-2, differential gain configurations variety of data acquisition and signal processing applications. are easily realized with a simple external feedback network of The ADA4930-1 is available in a Pb-free, 3 mm × 3 mm 16-lead four resistors determining the closed-loop gain of the amplifier. LFCSP, and the ADA4930-2 is available in a Pb-free, 4 mm × 4 mm The ADA4930-1/ADA4930-2 are fabricated using Analog Devices, 24-lead LFCSP. The pinout has been optimized to facilitate printed Inc., proprietary silicon-germanium (SiGe), complementary circuit board (PCB) layout and minimize distortion. The bipolar process, enabling them to achieve very low levels of ADA4930-1 is specified to operate over the −40°C to +105°C distortion with an input voltage noise of only 1.2 nV/√Hz. temperature range, and the ADA4930-2 is specified to operate over the −40°C to +105°C temperature range for 3.3 V or 5 V supply voltages.
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Document Outline Features Applications General Description Functional Block Diagrams Revision History Specifications 3.3 V Operation 3.3 V VOCM to VO, cm Performance 3.3 V General Performance 5 V Operation 5 V VOCM to VO, cm Performance 5 V General Performance Absolute Maximum Ratings Thermal Resistance Maximum Power Dissipation ESD Caution Pin Configurations and Function Descriptions Typical Performance Characteristics Test Circuits Operational Description Definition of Terms Differential Voltage Common-Mode Voltage Balance Theory of Operation Analyzing an Application Circuit Setting the Closed-Loop Gain Estimating the Output Noise Voltage Impact of Mismatches in the Feedback Networks Input Common-Mode Voltage Range Minimum RG Value Setting the Output Common-Mode Voltage Calculating the Input Impedance for an Application Circuit Terminating a Single-Ended Input Terminating a Single-Ended Input in a Single-Supply Applications Input Common-Mode Adjustment with DC Biased Source Input Common-Mode Adjustment with Resistors Layout, Grounding, and Bypassing High Performance ADC Driving Outline Dimensions Ordering Guide