Rev.: 1 Date: 2016‐01‐30 Specification AXLE5032LN Oscillator type: Low Noise High Stability (VC)TCXO in 5x3.2 mm package Parameter Frequency range Nominal frequencies Frequency stability Initial tolerance @ 25°C vs. operating temperature range vs. supply voltage variation vs. load change Long term (aging) 1st year Frequency adjustment range Electronic Frequency Control (EFC) EFC voltage VC EFC slope (f / VC) EFC input impedance RF output Signal waveform Load Amplitude (peak‐peak) VOL VOH Duty cycle Rise/fall time Phase noise @ 10.000 MHz *with EFC‐function (Option 1 = “V”) **without EFC‐function (Option 1 = “_”) Enable/Disable funtion Supply voltage VS (Note 4) min. typ. 10 52 MHz 10, 12.8, 13, 16, 16.384, 20, MHz 25, 26, 40, 50 ±1 ±0.05 ±0.05 ±1 ppm ppm ppm ppm ppm ±10 2.5 ppm V ± 0.2 to ± 2.0 ±5 0.5 1.5 Positive 100 kΩ Clipped Sine Wave HCMOS 10 kΩ || 10 pF 12 pF (15 pF max.) 0.8 0.4 2.4 45 55 6 ‐120* ‐125** ‐140* ‐145** ‐153* ‐155** 2.565 4.75 2.7 5.0 Current consumption Enclosure (see drawing) (LxWxH) Weight Packing Notes: 1. 2. 3. 4. 5. max. Unit V V V % ns dBc/Hz dBc/Hz dBc/Hz 2.835 5.25 3 8 V V mA mA 3 mm g 5.0x3.2x1.5 Tape & Reel Condition Other frequencies on request @ VCnom Note 2 Option 4&5 (Tables 1~3) VS ±5 % Load ±10 % @+40°C Note 3 Option 1 = “V” Option 3 = “C” Option 3 = “H” Option 3 = “C” Option 3 = “H” Option 3 = “C” Option 3 = “H” @ 100 Hz @ 1 kHz @ 10 kHz ~ 100 kHz Option 2 = “27” Option 2 = “50” Option 3 = “C” Option 3 = “H” IEC 60286‐3 Terminology and test conditions are according to IEC60679‐1 and MIL‐PRF‐55310, unless otherwise stated Tolerance will be increased after reflow soldering Lower aging on request Supply voltage 3.0 V or 3.3 V on request All combinations of options might not be available. Please consult factory Absolute Maximum Ratings Parameter min. max. Supply Voltage VS Control Voltage VC Storage Temperature ‐0.5 ‐0.5 ‐55 VS + 10% 6 +105 GmbH & Co. KG Roemerring 9 D‐74821 Mosbach Germany AXLE5032LN Rev.1 Drawing D1 Page 1(4) Unit Condition V V °C VS to GND VC to GND ww.axtal.com fon: +49 (6261) 939834 fax: +49 (6261) 939836 E‐mail: info@axtal.com Frequency stability vs. temperature Option 4 02 028 05 10 15 20 Table 1 Stability* [ppm] ±0.2 ±0.28 ±0.5 ±1.0 ±1.5 ±2.0 Lower Temperature Option 5 T [°C] 0 0 1 ‐10 2 ‐20 3 ‐30 4 ‐40 5 ‐50 6 ‐55 Table 2 Upper Temperature Option 5 T [°C] A +50 B +60 C +70 D +75 E +80 F +85 G +90 H +95 *stability referred to (fmax+fmin)/2 Frequency stability [Option 2] Temperature range [°C] 02 028 05 10 15 20 ‐20 ~ +70 O O X X X X ‐40 ~ +85 O O XX X X X ‐55 ~ +95 ‐ ‐ ‐ O O O Table 3 “Availability” XX = Standard, X = available, O = available on request, ‐ not available Ordering Code Option Option 2 Option 3 Option 4 1 [Supply [RF [Stability] [EFC]* Voltage] output] AXLE5032LN _ or “V” 27 or 50 C or H Table 1 Example: AXLE5032LN‐V‐50‐C‐05‐4F_Rev.1 – 10.000 MHz Model Option 5 [Temperature Revision Frequency [MHz] range] Table 2 Rev.1 10.000 Handling and Testing Parameter Procedure Handling and Testing Processing Parameter Electrostatic discharge (ESD) THD devices SMD devices Washable RoHS compliant Application Note AXAN‐011 Application Note AXAN‐012 Procedure IEC60749‐26 HBM IEC60749‐27 MM Yes No Yes No Source www.axtal.com www.axtal.com Condition 2000 V 200 V GmbH & Co. KG Roemerring 9 D‐74821 Mosbach Germany AXLE5032LN Rev.1 Drawing D1 Page 2(4) ww.axtal.com fon: +49 (6261) 939834 fax: +49 (6261) 939836 E‐mail: info@axtal.com Enclosure drawing Soldering pattern: Pin connections Pin # 1 2 3 4 5 6 7 OE PNF 8 VS Symbol I.C. or VC I.C. I.C. GND RF OUT Function Do not connect or Control Voltage (EFC) Do not connect Do not connect Ground RF Output. For Clipped Sine wave connect DC‐ decoupling cap of 1nF Tristate or do not connect Phase noise filter External capacitor 33 nF Supply Voltage Connect external bypass capacitor of 100 nF GmbH & Co. KG Roemerring 9 D‐74821 Mosbach Germany AXLE5032LN Rev.1 Drawing D1 Page 3(4) ww.axtal.com fon: +49 (6261) 939834 fax: +49 (6261) 939836 E‐mail: info@axtal.com 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‐STD‐ 202G Method 112E MIL‐STD‐ 810F Method MIL‐PRF‐ 55310D Clause 3.6.1.2 2‐20 2‐58 5.6.3 208H 210F 3.6.52 3.6.48 2‐27 5.6.8 213B 516.4 3.6.40 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 Vibration, 2‐6 5.6.7.1 201A 516.4‐4 3.6.38.1 sinusoidal* 204D 3.6.38.2 Vibration, 2‐64 5.6.7.3 214A 514.5 3.6.38.3 random* 3.6.38.4 Endurance tests 108A ‐ ageing 5.7.1 4.8.35 30 days @ 85°C, OCXO @25°C ‐ extended aging 5.7.2 1000h, 2000h, 8000h @85°C Other environmental conditions on request 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] 1 D1 30.01.2016 Remarks First issue AXLE5032LN Author Checked BN BN GmbH & Co. KG Roemerring 9 D‐74821 Mosbach Germany AXLE5032LN Rev.1 Drawing D1 Page 4(4) ww.axtal.com fon: +49 (6261) 939834 fax: +49 (6261) 939836 E‐mail: info@axtal.com