POP 10 MHz Precision Oscillator Package

POP 10 MHz Precision Oscillator Package

Precision OCXO (ovenized) 10 MHz oscillator and mux/tee in one package

3D Drawing (Solidworks drawing is available on request)

pdf icon Click to download specs & mechanical PDF

Switching Power Supply

PS1 for North America
PS2 for Global

System Interface Product (SIP): POP (OCXO) – Specifications

System Interface Product: POP – Mechanical Diagram

Ovenized Oscillator (OCXO)

Orbital Research now has three OCXO Oscillators depending on your requirements:

  1. Our standard offering for most applications
  2. Our enhanced offering with better phase noise
  3. Our Airborne offering with better immunity to vibration and a greater temperature range.

Mux/Tee (as secondary modules)

  • Highpass filtered L band,
  • rolloff below 900 MHz, flat 950 thru 2900 MHz
  • Very low bandpass ripple
  • Very high Rx to 10MHz port isolation (no leakage back to receiver)

Functional

  • Will operate with LNBs, BDCs, VSATs, BUCs, and Modems

Structural

  • Machined from solid aluminum billet for strength and stability
  • Allodyne finish for corrosion protection and excellent RF shielding/grounding
  • Connectors are ‘O’ ring sealed for weather resistant operation
  • RoHS & REACH compliant

Power Supply

Orbital advises that a separate power supply be used for each power input (Oscillator and secondary package) as one power supply for both can cause extraneous signals to be transferred to the Oscillator, which can degrade its performance.

Because the POP is ovenized, it can draw as much as 350 mA during startup, as it heats to operating temperature.

SIP Solutions

Systems Interface Products Although Combiners and Oscillators are also SIP products, we have narrowed the definition here to just include Bias Tees, Diplexers, Mux Tees, TTL Switches, Thru Tees, Dual Power Tees, etc.
Here are standard applications for each of these products. Here’s how to insert 10 MHz, insert DC, extract 10 MHz, block DC, extract DC, multiplex DC L band and 10 MHz, and perform impedance transforms while you do it.

Using a Hi Power Thru Tee to power a BUC Modem has DC power, but not enough to power my new BUC.
4 Way Combiner with 10 MHz Oscillator and Hi Power DC insert. I want to lock several modems to a single 10 MHz Oscillator, and insert high power DC to my BUC.
Orbital 2-way Combiner using 10 MHz from one of the modems and Hi Power Mux/Tee to insert DC power I have a pair of modems, one of which provides a 10 MHz reference, but I don’t have enough power from my modem for my new high power BUC.
Orbital Combiner/Divider stripping out the 10MHz from only one of two modems I have a pair of modems and I need to use the 10 MHz reference from one of them and split it. I need to take the L-Band signal from both modems and combine it with the 10 MHz reference. Now I need to insert DC power for a pair of high power BUCS.
Orbital Combiner/Divider using a MOS 10 MHz Oscillator I need to combine the L-Band signals from a pair of modems with an common, external 10 MHz source, and insert power to a pair of high power BUCs.
Using an Orbital Hi Power Thru Tee to circumvent a divider or switch My modem does not have sufficient DC to power my BUCs, and I can’t switch DC power to the BUC, what to do?
Horizontal/Vertical Polarity 1 for 2 Redundant System We need a system that will provide us with both horizontal and vertical polarities at Ku Band. In addition, the system must offer 1 for 2 redundancy.

More SIP Solutions

Using a Mux Tee Using an Orbital MT-40 Mux Tee to multiplex the L-Band, and 10 MHz reference signals with DC power for a BUC.
Using a Bias Tee Using an Orbital MT-40 Mux Tee as a Bias Tee to insert DC Power to a BUC
Using a Diplexer Using an Orbital MT-40 Mux Tee as a Diplexer to insert a 10 MHz reference to a BUC
Using Redundant Power Tee Using an Orbital Redundant Power Tee provides inexpensive power supply redundancy.
Using a Thru Tee Using an Orbital Thru Tee to provide a separate DC power supply to the BUC, while passing the 10 MHz signal through from the modem.

How to order

For pricing options please call 1-604-419-8585 or contact us.

Need help?

Harsh environment?

Complicated or unique application?

We’ll work with you to develop custom LNBs and components that meet your needs.

High performance LNBs and frequency conversion products for the most challenging SATCOM conditions on the planet.

ORBITAL RESEARCH LTD.

1 (604) 419-8585

1 (604) 419-8561

8652 Commerce Court
Burnaby, BC, Canada  V5A 4N6

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