Crystal oscillator Product Number (please contact us) CRYSTAL OSCILLATOR (SPXO) SG2016CAN: X1G004801xxxx00 OUTPUT : CMOS SG-210STF: X1G004171xxxx00 SG3225CAN: X1G005961xxxx15 SG5032CAN: X1G004451xxxx00 SG2016 / 3225 / 5032 / 7050CAN SG7050CAN: X1G004481xxxx00 SG-210STF Frequency : 20 standard frequencies Supply voltage : 1.8 V to 3.3 V Typ. Function : Standby( ST ) SG2016CAN SG-210STF SG3225CAN SG5032CAN SG7050CAN Operating temperature : -40 C to +105 C (2.0 x 1.6 mm) (2.5 x 2.0 mm) (3.2 x 2.5 mm) (5.0 x 3.2 mm) (7.0 x 5.0 mm) Specifications (characteristics) Item Symbol Specifications Conditions / Remarks 4 MHz 8 MHz 10 MHz 12 MHz 12.288 MHz 14.7456 MHz 16 MHz 20 MHz 24 MHz 24.576 MHz Output frequency fo 25 MHz 26 MHz 27 MHz 32 MHz 33.33 MHz 33.3333 MHz 40 MHz 48 MHz 50 MHz 72 MHz 1.60 V to 3.63 V 4 MHz fo 50 MHz, T use = +105 C Max. Refer to Supply voltage VCC 1.71 V to 3.63 V fo = 72 MHz, T use = +85 C Max. Figure 1 2.25 V to 3.63 V fo = 72 MHz, T use = +105 C Max. -55 C to +125 C SG2016CAN Storage temperature T stg -40 C to +125 C All others Operating temperature T use -20 C to +70 C, -40 C to +85 C, -40 C to +105 C See of figure *1 -6 25 10 -20 C to +70 C Frequency tolerance f tol -6 50 10 -40 C to +85 C, -40 C to +105 C VCC = 1.8 V 10 % VCC = 2.5 V 10 % VCC = 3.3 V 10 % 1.5 mA Max. 1.6 mA Max. 1.8 mA Max. No load condition, 4 MHz fo 20 MHz Current consumption I 1.8 mA Max. 2.0 mA Max. 2.2 mA Max. No load condition, 20 MHz < fo 40 MHz CC 2.1 mA Max. 2.4 mA Max. 2.6 mA Max. No load condition, 40 MHz < fo 50 MHz 2.4 mA Max. 2.8 mA Max. 3.0 mA Max. No load condition, fo = 72 MHz Stand-by current I std 2.1 A Max. 2.5 A Max. 2.7 A Max. ST =GND Symmetry SYM 45 % to 55 % 50 % VCC level, L CMOS 15 pF 1.8 V 10 % 2.5 V 10 % 3.3 V 10 % V 90 % V Min. OH CC IOH -1.5 mA -3 mA -4 mA VOL 10 % VCC Max. IOL 1.5 mA 3 mA 4 mA Output voltage 1.8 V10 % 2.5 V10 % 3.3 V10 % V V - 0.4 V Min. OH-2 CC IOH -3 mA -4 mA -6 mA VOL-2 0.4 V Max. IOL 3 mA 4 mA 6 mA Output load condition L CMOS 15 pF Max. (CMOS) V 80 % V Min. IH CC Input voltage ST terminal VIL 20 % VCC Max. 3 ns Max. Rise time and Fall time tr / tf 20 % V to 80 % V level, L CMOS = 15 pF CC CC 3.5 ns Max. ( 1.8 V10 %) Start-up time t str 3 ms Max. T = 0 at 90 % VCC -6 Frequency aging f age 3 10 / year Max. +25 C, First year Model : SG2016 / 3225 / 5032 / 7050CAN Product name SG2016 C AN 25.000000MHz T J H A Vcc V (Standard form) 3.63 3.63 Model Output(C: CMOS) Frequency Supply voltage Frequency tolerance Operating temperature range 105 2.25 2.25 Internal identification code is default) 85 Supply voltage *See Figure 1 Frequency tolerance / Operating temperature range 1.71 1.71 -6 T 1.8 V to 3.3 V Typ. DB* 25 10 / -20 C to +70 C 11..6600 -6 K 2.5 V to 3.3 V Typ. JG 50 10 / -40 C to +85 C 1.2 60 75 f MHz 4 50 72 0 -6 JH 50 10 / -40 C to +105 C Figure 1The upper limit of Operating temperature * Please refer to Product number list on Full Data Sheet for available frequencies and the related conditions Please note that Supply voltage range (V ) CC Model : SG-210STF depends on Output frequency (fo) and upper limit of Product name SG-210 S T F 25.000000MHz Y Operationg temperature (T use Max.). (Standard form) Model Function(S:Standby) Supply voltage Frequency Frequency tolerance Supply voltage *See Figure 1 Frequency tolerance -6 T 1.8 V to 3.3 V Typ. S* 25 10 / -20 C to +70 C -6 L 50 10 / -40 C to +85 C -6 Y 50 10 / -40 C to +105 C * Please refer to Product number list on Full Data Sheet for available frequencies Crystal oscillator External dimensions (Unit:mm) Footprint (Recommended) (Unit:mm) SG2016CAN SG2016CAN SG-210STF SG-210STF SG3225CAN SG3225CAN SG5032CAN SG5032CAN SG7050CAN SG7050CAN Pin Map Pin Connection Function ST terminal ST function Oscillator circuit Output 1 ST HIGH orope Oscillation Specified frequency: Enable LOW Oscillation stop High impedance: Disable 2 GND Ground 3 OUT Clock output 4 V Power supply CC Notes: To maintain stable operation, provide a 0.01uF to 0.1uF by-pass capacitor at a location as near as possible to the power source terminal of the crystal product (between Vcc - GND).