Product parameters
|
PARAMETER |
CO53D |
CONDITIONS /REMARKS |
|
Nominal frequency range |
10~ 1500MHz |
Fund.,overtone or PLL |
|
Supply voltage |
1.8V /2.5V /3.3V |
other option possible |
|
Supply current |
100mA |
Maximum, Fund mode lower Icc |
|
Frequency stability |
±25ppm /±50ppm / ±100ppm |
See note below. |
|
Operating temperature range |
-40 to +85°C or -55 to 125°C |
other options available. |
|
Output waveform and load |
LVDS /100Ω |
RL between outputs |
|
Output voltage level HIGH |
1.40V |
Typical |
|
Output voltage level LOW |
1.10V |
Typical |
|
Rise and Fall times |
1.5ns |
@ 20~80~20%Vcc |
|
Symmetry (duty cycle) |
45~55% |
@ outputs cross point |
|
Phase Jitter RMS |
<1ps |
Integrated 12kHz≤Fj≤20MHZ |
|
Note: Stability includes frequency deviations at +25°C, over temperature range, due to supply voltage changes, output load changes, shock and vibration. |
||
Product Features
■ Small dimensions 5.0x3.2x1.3 with 6 solder pads
■ Highly reliable seam sealed ceramic package
■ Wide frequency range
■ Low jitter and phase noise
Applications
- Suzhou Hangjing's LVDS Oscillator 5032-CO53D6 Series is applied in High speed communication/ Telecom equipment /Handheld equipment.


Product advantages
Low power consumption
The typical differential crystal oscillator (such as LVDS output) has a power consumption of only 60% to 70% of that of a single-ended crystal oscillator, which helps to reduce the energy consumption of the device.
High differential stability
The differential crystal oscillator provides a more precise clock signal with low phase noise, suitable for applications with strict timing requirements (such as communication systems, industrial automation).
certificate
The 5032-CO53D6 Series Programmable Oscillator is fully RoHS-compliant, lead-free, halogen-free, and its REACH compliance is monitored.




FAQ
Q1: How to address reliability issues in high-pressure environments (e.g., underwater equipment)?
A: Use specialized pressure-resistant crystals and robust encapsulation to prevent mechanical stress or leakage.
Q2: What causes temperature drift in crystals, and how to compensate?
A: Caused by drive-level excess or load capacitance mismatch; fix with low-drive circuits, capacitor matching, or TCXOs.
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