Crystal Clock Oscillator n How to Handle NZ2016S Series n Example of Lead-free Soldering Conditions (Infrared Soldering) Temperature (°C) 300 Peak 260±5 °C/10 sec. Max 4.5 °C/s max 4.5 °C/s max 200 230 °C over 30±10 sec. 100 150–180 °C 90±30 sec. 4.5 °C/s max 0 Time l Soldering conditions The product’ s characteristics may deteriorate, depending on soldering conditions. Use the product within the following limitations: * At 260 ° C or less within 10 seconds or at 230 ° C or less within 60 seconds l Shock Resistance This product has been designed to be highly resistant to shock (it is guaranteed that it will not be damaged when dropped three times from a height of 75 cm onto a hard wooden board or at 29,400/s 2 in each of the half-wave sine-wave X, Y, and Z directions three times). However, if the unit is dropped by mistake, measure the performance (oscillation check) of the product again. l Cleaning Ultrasonic cleaning of this product is possible, but depending on the cleaning conditions the product’ s oscillator may suffer a resonance fracture. Before ultrasonic cleaning, make sure to check the conditions. l Others • Because C-MOS is used for this product, pay great care to static electricity in the same way as for normal C-MOS IC. • The #2 terminal (GND) is a ground terminal. Therefore, if it is mistaken for the #4 terminal (V DD ) and a reverse voltage applied, it may suffer internal fractures. Make sure to connect the terminal correctly. n Guaranteed Items l The environmental and mechanical characteristics of NZ2016S Series are guaranteed by conducting the following tests: No. Test Items Conditions Specifications 1 Thermal shock resistance 100 cycles (one cycle is conducted for 30 minutes at –40 °C and for 30 minutes at + 85 °C.) 2 High temperature and high humidity resistance Subject to a temperature of +85 °C, in humidity of 80 to 85 %, and for 250 hours (nonactive) *1 3 85 °C aging 85 ℃ (nonactive), for 500 hours Total amplitude: *1 *1 2 4 Vibration resistance 1.52 mm or 196 m/s , frequency: 10 to 2,000 Hz, and logarithmic frequency sweep for 20 minutes in each of the three orthogonal directions for four hours (12 hours in total) *1 5 Shock resistance Impact acceleration: 29,400 m/s2, impact time: 0.3 ms, and Half-wave sine wave in each of the three orthogonal directions three times *1 6 Drop impact resistance (with a jig) Dropped 10 times from a jig, 1.5 m in height, onto a concrete plane with a dummy load of 200 g in each of six directions. *1 7 Soldering property (reflow) Heated at the warm-up temperature of 150±10 °C for 60 to 120 seconds, and for 30±1 seconds after the regular temperature of 215 °C has been reached, with a peak temperature of 240 °C. Ninety percent or more of the soldered part must be covered with solder. 8 Soldering heat resistance (reflow) Heated at the warm-up temperature of 180±10 °C for 120 seconds or more, and at the regular temperature of 225 °C or more for 70 seconds or less, with a peak temperature of 260 °C and three reflows. *1 (*1) After the above tests have been conducted, the tested product must then meet the electric characteristic specifications. In addition, the change amount of F before and after the above tests must follow ΔF/F ≤ ±10 x 10–6. The electric characteristic specifications refer to the standard specifications of the following items: (Current consumption, Tr/Tf, VOL/VOH, duty cycle, current consumption during standby, and standby function) n Packing n Reel φ13.0 40.0 (4×10P) 1.85 4.0 φ1.05 Output frequency 1.2 φ60 2 .2 5 8 .0 3 .5 1 .7 5 2.0 0.25 Product direction 3 ° m ax 4.0 φ1.55 φ180 n Tape n Package Indications 0.95 Pull direction Up to 3,000 pieces per reel are boxed and shipped with the taping method shown above. 9.0 *Note: The packing shown above is a standard method for a large order. Packing and shipping of small orders, samples, etc. differs, depending on quantity. #1 indication Trace code Year/week/Day code l Because of space limitations, the output frequency is indicated as five digits including the decimal point. Therefore, 28.63636 MHz is indicated as 28.63. cc50_081208_2016cla_e