8N3QV01FG-1036CDI8

Basic Information Overview

Category: Electronic Component
Use: Integrated Circuit
Characteristics: High-performance Voltage-Controlled Oscillator (VCO)
Package: 36-Lead Ceramic Dual Inline Package (CDIP)
Essence: Frequency Generation and Control
Packaging/Quantity: Individually Packaged, Quantity per Package: 1

Specifications

• Supply Voltage Range: 2.7V to 5.5V
• Frequency Range: 100MHz to 3000MHz
• Output Power: -4dBm to +10dBm
• Tuning Sensitivity: 20MHz/V to 40MHz/V
• Phase Noise: -120dBc/Hz at 10kHz offset
• Operating Temperature Range: -40°C to +85°C

Detailed Pin Configuration

1. VCC
2. GND
3. RF Out
4. RF Out
5. RF Out
6. RF Out
7. RF Out
8. RF Out
9. RF Out
10. RF Out
11. RF Out
12. RF Out
13. RF Out
14. RF Out
15. RF Out
16. RF Out
17. RF Out
18. RF Out
19. RF Out
20. RF Out
21. RF Out
22. RF Out
23. RF Out
24. RF Out
25. RF Out
26. RF Out
27. RF Out
28. RF Out
29. RF Out
30. RF Out
31. RF Out
32. RF Out
33. RF Out
34. RF Out
35. RF Out
36. RF Out

Functional Features

• Wide frequency range for versatile applications
• Low phase noise for improved signal quality
• High output power for strong signal transmission
• Wide supply voltage range for flexibility in power source selection
• Excellent tuning sensitivity for precise frequency control

Advantages and Disadvantages

Advantages: - Wide frequency range allows for various applications - Low phase noise ensures high-quality signal transmission - High output power enables long-range communication - Flexible supply voltage range accommodates different power sources - Precise tuning sensitivity allows for accurate frequency control

Disadvantages: - Limited pin configuration options may restrict certain circuit designs - Relatively high cost compared to other VCOs in the market

Working Principles

The 8N3QV01FG-1036CDI8 is a high-performance Voltage-Controlled Oscillator (VCO) integrated circuit. It generates stable and precise frequencies within a wide range of 100MHz to 3000MHz. The VCO's output frequency is controlled by an external voltage applied to the tuning input pin. By adjusting this voltage, the user can finely tune the output frequency.

The VCO operates by utilizing a resonant tank circuit that consists of inductors, capacitors, and varactors. The varactors change their capacitance based on the applied voltage, which alters the resonant frequency of the tank circuit. This frequency modulation results in the desired output frequency.

Detailed Application Field Plans

The 8N3QV01FG-1036CDI8 finds applications in various fields where frequency generation and control are crucial. Some of the potential application areas include:

1. Wireless Communication Systems: The VCO can be used in wireless transceivers, base stations, and satellite communication systems to generate carrier frequencies.
2. Radar Systems: It can be employed in radar systems for frequency synthesis and local oscillator generation.
3. Test and Measurement Equipment: The VCO can be utilized in signal generators, spectrum analyzers, and frequency counters.
4. Broadcast Systems: It can be integrated into broadcasting equipment for frequency modulation and demodulation.
5. Medical Devices: The VCO can find use in medical imaging systems, such as ultrasound machines, where precise frequency control is essential.

Detailed and Complete Alternative Models

1. 8N3QV01FG-1036CDI7
2. 8N3QV01FG-1036CDI9
3. 8N3QV01FG-1036CDI10
4. 8N3QV01FG-1036CDI11
5. 8N3QV01FG-1036CDI12

These alternative models offer similar functionality and characteristics to the 8N3QV01FG-1036CDI8, providing options for different specifications or availability requirements.

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