RK-410 Datasheet, PDF(1/6 Page) TEMEX – For this product family, a full detailed specification can also be delivered on request

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RK-410 Datasheet, PDF (1/6 Pages) TEMEX – For this product family, a full detailed specification can also be delivered on request

Mini USO

RK 410

10-10 Stability class OCXO

For this product family, a full detailed specification can also be delivered on request.

Specific request can be addressed to RAKON info@rakon.fr

Product Description

This Mini Ultra Stable Oscillator is designed for Master Clocks, Navigation and Positioning Systems. It is used

in such applications as GPS receivers, digital cards, board calculators, down and up converters, synthesizers.

This frequency source is featured by remarkable overall frequency stability vs. temperature range up to Â±0.5

ppb under vacuum, Â± 20 ppb per year, power consumption at steady state of 3W under vacuum.

The AV (Allan Variance) variant of the Mini USO has a short term stability of 5.10-13 at 1 and 10 s.

This mini USO is available in a 100x94x55mm format (0.57 l) with a Sub-D 15 connector and is manufactured

in accordance with MIL-PRF-55310 (Class 1, type 4, level S).

Features

â¢

10 MHz

â¢

Allan Variance: 5E-13

â¢

Supply voltage: +12V or +15V

â¢

Warm up Consumption: 10 W max

â¢

Steady state Consumption: 3W under vacuum

â¢

Manufacturing in accordance with:

â¢

o MIL-PRF-55310 (Class 1, type 4, level S)

o ECSS-Q-ST-70-08C and ECSS-Q-ST-70-38C

Ageing: Â± 50 ppb over 15 years

Output Wave Form: sine 50 Ohms

Output Level: from 0 to 10 dBm

Component selected as per ECSS-Q-ST-60C

Materials selected as per ECSS-Q-70

Temperature stability: Â± 0.5 ppb under vacuum

Applications

â¢ Master clocks

â¢ GPS receivers

â¢ Navigation

â¢ FGU

Specifications

1. Environmental conditions

Parameters

Conditions/remarks

Min

Nom

Max

Unit

Operating Temperature

Switch-on Temperature

Option A

Option B

Option C

TSo

Â°C

-20

Â°C

-30

Â°C

-40

Â°C

Non-Operating

Temperature

TNOp

-55

125

Â°C

Random Vibration Level as per MIL-STD-202, Method 204, condition I-J (37.8 Grms)

Sine Vibration

Level as per MIL-STD-202, Method 204, condition D (15 G)

Shocks

Mechanical shock as per MIL-STD-202, Method 213, Condition E (half sine with a

peak acceleration of 1000g for duration of 0.5 msec)

Radiation

TID : 100 kRad, low dose rate

No SEL up to LET=60 MeV/mg/cmÂ²

January, 17th 2012

Shortform, 51001205.110, Issue A0

1/6

Specifications subject to change without notice

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