Microchip Technology TCVCXO Sine Wave Oscillators 3
| Part | RoHS | Manufacturer | Oscillator Type | Mounting Feature | No. of Terminals | Frequency Stability | Frequency Adjustment (Mechanical) | Aging | Package Body Material | Maximum Supply Voltage | Technology | Output Impedance | Maximum Supply Current | Nominal Supply Voltage | Power Supplies (V) | Package Equivalence Code | Sub-Category | Physical Dimension | Minimum Supply Voltage | Maximum Operating Temperature | Minimum Control Voltage | Minimum Operating Temperature | Terminal Finish | Frequency Deviation or Pullability | Nominal Operating Frequency | Maximum Control Voltage | Manufacturer Series | Qualification | Output Level | Additional Features | JESD-609 Code | Minimum Operating Frequency | Maximum Operating Frequency |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
Microchip Technology |
CLIPPED SINE |
SURFACE MOUNT |
6 |
1 % |
NO |
1 PPM/FIRST YEAR |
CERAMIC |
3.63 V |
10000 ohm |
2.5 mA |
3.3 V |
2.5mm x 2.0mm x 0.9mm |
2.97 V |
85 Cel |
.5 V |
-40 Cel |
5 ppm |
40.96 MHz |
2.5 V |
.8 V |
TR, 7 INCH |
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|
Microchip Technology |
CLIPPED SINE |
SURFACE MOUNT |
8 |
.28 % |
NO |
0.5 PPM/FIRST YEAR |
CERAMIC |
3.63 V |
CLIPPED SINE |
10000 ohm |
3.4 mA |
3.3 V |
5.0mm x 3.2mm x 1.5mm |
2.97 V |
85 Cel |
.5 V |
-30 Cel |
Gold (Au) - with Nickel (Ni) barrier |
5 ppm |
50 MHz |
2.5 V |
.8 V |
e4 |
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|
Microchip Technology |
CLIPPED SINE |
SURFACE MOUNT |
4 |
2.5 % |
NO |
1 PPM/YEAR |
3.15 V |
10000 ohm |
2 mA |
3 V |
DILCC4,.39,300 |
11.8mm x 9.9mm x 2.2mm |
2.85 V |
75 Cel |
.5 V |
-30 Cel |
8 ppm |
19.2 MHz |
2.5 V |
.7 V |
TCVCXO (Temperature Compensated Voltage Controlled Crystal Oscillator) sine wave oscillators are electronic devices that generate a stable sine wave signal for use in various applications, such as communication systems, test and measurement equipment, and frequency synthesizers. They use a crystal oscillator as a frequency reference and a temperature compensation circuit to stabilize the oscillator frequency.
The TCVCXO sine wave oscillator works by using a temperature compensation circuit to adjust the voltage applied to the crystal oscillator, compensating for changes in temperature that can affect the oscillator frequency. This results in a stable and accurate sine wave signal output.
One of the advantages of TCVCXO sine wave oscillators is their high stability and accuracy over a wide temperature range. They can generate sine wave signals with very low frequency drift and jitter, making them ideal for use in applications that require precise timing.
Another advantage of TCVCXO sine wave oscillators is their low phase noise and wide frequency range. They can generate sine wave signals at frequencies ranging from a few kilohertz to hundreds of megahertz, and have very low phase noise, making them suitable for use in high-precision applications.