Specification Oscillator type: Rev.: 2 AXE10L/LE SMD SPXO with LVDS Output Parameter min. typ. max. Unit Frequency range Frequency stability (Note 2) 1.000 800 ±25 ±50 Initial tolerance vs. operating temperature range vs. supply voltage variation vs. load change Long term (aging) per year Frequency adjustment range Electronic Frequency Control (EFC) range RF output Signal waveform Load Rise & decay time Symmetry (duty cycle) Start-up time Jitter (RMS) Supply voltage VS ±3 ±1 ±3 N.A. Condition Option 2 = “25-0C” Option 2 = “50-4F” Included in “frequency stability” VS ±5% Load ±5% @ +25°C ppm LVDS 50 Ω 1 ns 45 55 % 10 ms 1 ps 3.15 3.3 3.45 V 4.75 5.0 5.75 V 120 mA Not applicable VL < 0.8 V: Enable VH > 2.0 V or OPEN: Disable 0 +70 °C -40 +85 °C Current consumption (steady state) Enable/Disable function (Pin 1) Operating temperature range Enclosure (see drawing) (LxWxH) Weight Packing Notes: 1. 2. 3. 4. MHz ppm ppm ppm ppm ppm ppm ppm Date: 2014-04-04 14.8x9.8x5.5 max. 2 Tape & Reel mm g 20% ~ 80% of amplitude @ VS/2 10 kHz ~ 20 MHz Option 1 = “33” Option 1 = “50” @ +25°C (Note 3) Model = “AXE10L” Model = “AXE10LE” Option 2 = “25-0C” Option 2 = “50-4F” IEC 61837 CO 27 IEC 60286-3 Terminology and test conditions are according to IEC60679-1 and MIL-PRF-55310, unless otherwise stated Frequency stability = initial tolerance + stability vs. temperature Maximum current consumption depends on frequency and load All combinations of options might not be available. Please consult factory Absolute Maximum Ratings Parameter min. max. Supply Voltage VS Storage Temperature -0.5 -55 VS + 10% +105 Unit Condition V °C VS to GND Ordering Code Model Option 1 [Supply Voltage] Option 2 Revision [Temperature range] AXE10L 50 25-0C AXE10LE Example: AXE10L-50-25-0C_Rev.2 – 155.520 MHz GmbH & Co. KG Roemerring 9 D-74821 Mosbach Germany Rev.2 AXE10L/LE Rev.2 Drawing D2 Page 1(3) Frequency [MHz] 155.520 www.axtal.com fon: +49 (6261) 939834 fax: +49 (6261) 939836 E-mail: [email protected] Enclosure drawing Pin connections AXE10L: Pin # 1 2 3 4 5 6 Symbol N.C. N.C. GND RF OUT1 RF OUT2 Vs Function No Connection No Connection Ground RF Output Complementary RF Out Supply Voltage AXE10LE: Pin # 1 2 3 4 5 6 Symbol E/D N.C. GND RF OUT1 RF OUT2 Vs Function Enable/Disable No Connection Ground RF Output Complementary RF Out Supply Voltage Handling and Testing Parameter Procedure Handling and Testing Processing Parameter Application Note AXAN-011 Application Note AXAN-012 Procedure Electrostatic discharge (ESD) THD devices SMD devices Washable RoHS compliant GmbH & Co. KG Roemerring 9 D-74821 Mosbach Germany IEC60749-26 IEC60749-27 Yes Yes AXE10L/LE Rev.2 Drawing D2 Page 2(3) HBM MM No No Source www.axtal.com www.axtal.com Condition 2000 V 200 V www.axtal.com fon: +49 (6261) 939834 fax: +49 (6261) 939836 E-mail: [email protected] Environmental conditions Test Sealing tests (if applicable) Solderability Resistance to soldering heat Shock* IEC 60068 Part … 2-17 IEC 60679-1 Clause 5.6.2 MIL-STD202G Method 112E 2-20 2-58 5.6.3 208H 210F 2-27 5.6.8 213B Vibration, 2-6 5.6.7.1 201A sinusoidal* 204D Vibration, 2-64 5.6.7.3 214A random* Endurance tests 108A - ageing 5.7.1 - extended aging 5.7.2 Other environmental conditions on request MIL-STD810F Method MIL-PRF55310D Clause 3.6.1.2 3.6.52 3.6.48 516.4 3.6.40 516.4-4 3.6.38.1 3.6.38.2 3.6.38.3 3.6.38.4 514.5 4.8.35 Test conditions (IEC) Gross leak: Test Qc, Fine leak: Test Qk Test Ta Method 1 Test Td1 Method 2 Test Td2 Method 2 Test Ea, 3 x per axes 100g, 6 ms half-sine pulse Test Fc, 30 min per axes, 10 Hz - 55 Hz 0,75mm; 55 Hz - 2 kHz, 10g Test Fdb 30 days @ 85°C, OCXO @25°C 1000h, 2000h, 8000h @85°C Data sheet is for information purposes only and may be subject to modifications or may be discontinued without notice. Revision History Rev. Drawing Date [dd.mm.yyyy] 2 2 D1 D2 01.10.2012 04.04.2014 GmbH & Co. KG Roemerring 9 D-74821 Mosbach Germany Remarks Editorial changes Environmental conditions updated, editorial changes AXE10L/LE Rev.2 Drawing D2 Page 3(3) Author Checked BN HH BN HH www.axtal.com fon: +49 (6261) 939834 fax: +49 (6261) 939836 E-mail: [email protected]