Allicdata Part #: | NJ-10M-6801-ND |
Manufacturer Part#: |
NJ-10M-6801 |
Price: | $ 481.42 |
Product Category: | Crystals, Oscillators, Resonators |
Manufacturer: | Taitien |
Short Description: | OSC OCXO 10.0000MHZ SNWV SMD |
More Detail: | 10MHz OCXO Sine Wave Oscillator 12V 6-SMD, No Lea... |
DataSheet: | NJ-10M-6801 Datasheet/PDF |
Quantity: | 1000 |
5 +: | $ 433.27600 |
Series: | NJ-10M-6800 |
Packaging: | Strip |
Part Status: | Active |
Base Resonator: | Crystal |
Type: | OCXO |
Frequency: | 10MHz |
Function: | -- |
Output: | Sine Wave |
Voltage - Supply: | 12V |
Frequency Stability: | ±50ppb |
Operating Temperature: | -20°C ~ 70°C |
Current - Supply (Max): | 400mA |
Ratings: | -- |
Mounting Type: | Surface Mount |
Package / Case: | 6-SMD, No Lead, 5 Leads |
Size / Dimension: | 1.000" L x 0.870" W (25.40mm x 22.10mm) |
Height - Seated (Max): | 0.520" (13.20mm) |
Current - Supply (Disable) (Max): | -- |
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Oscillators
The NJ-10M-6801 is a type of oscillator, which is an electronic circuit that produces repetitive signals or waveforms. It is used as an important source of electrical signal in many electronic devices. This article will discuss the application fields and working principles of the NJ-10M-6801.
Application Fields
The NJ-10M-6801 oscillator can be applied to several technical applications including timing, detection, frequency synthesis, and harmonic generation. As an example, it can be used in the production of integrated circuits, which require extremely precise timing. Similarly, it is often used in the design of communications receivers, where it provides a stable source of timing signals for the circuit.
The NJ-10M-6801 oscillator has also found application as a source of low-frequency loudspeaker tones in consumer electronic products. It can also be used in the production of high-speed oscillation feedback systems, where it provides a reliable and stable signal for the circuit to operate correctly. Finally, it can be used for Low-Frequency Oscillation (LFO) voltage control, in which the voltage applied to a circuit is rapidly changed, producing a range of timbral variations.
Working Principle
The NJ-10M-6801 oscillator relies on an electronic feedback loop in order to produce a continuous signal. This is achieved by feeding the output of the oscillator back to its input and allowing the signal to form a repetitive pattern. This process is known as resonance and is an essential part of the oscillator’s functionality.
The NJ-10M-6801 oscillator is based on a flip-flop design, which involves the use of two interconnected transistors. When the input signal is sent to the transistor, an electrical charge is then transferred between them. The energy generated by this transfer then creates an oscillation as the transistors switch states in an alternating manner, amplifying the input signal and creating the feedback loop.
In addition, the NJ-10M-6801 oscillator relies on capacitors to maintain the oscillation frequency. Capacitors store an electrical charge that is then discharged at a constant rate, allowing the oscillator to remain locked in a specific frequency. By adjusting the capacitors, the frequency of oscillation can be regulated, providing precise control over the signal.
Finally, the NJ-10M-6801 oscillator also features an output circuit, which is responsible for ensuring that the generated waveform is not distorted. This is achieved by using circuitry that is designed to act as a buffer between the output and the input, ensuring that the input signal remains unchanged by the output circuit.
Conclusion
The NJ-10M-6801 oscillator is a type of electronic circuit that is used to generate repetitive signals or waveforms. It relies on an electronic feedback loop and a flip-flop design to sustain the oscillation frequency, and it also features an output circuit in order to ensure that the generated waveform is not distorted. It can be applied to timing, detection, frequency synthesis, and harmonic generation in various electronic devices, making it an invaluable source of electrical signal in many areas of electronics.
The specific data is subject to PDF, and the above content is for reference
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