SG-310SCF (Crystal Oscillator SPXO)

SG-310SG-310

RoHS Compliant

pb free

  • Frequency range
    2MHz to 48MHz
  • Supply voltage
    3.3V Typ.
  • Function
    Standby(ST)
  • External dimensions
    3.2 × 2.5 × 1.05mm

Specifications

Item Symbol Specifications Condition/Remarks
SG-310 SEF SG-310 SDF SG-310 SCF
Output frequency range f0 2.000MHz to 48.000MHz
Supply voltage VCC 1.8V Typ.
1.6V to 2.2V
2.5V Typ.
2.2V to 3.0V
3.3V Typ.
2.7V to 3.6V
Storage temperature range T_stg -40°C to +125°C Store as bare product.
Operating temperature range T_use -40°C to +85°C
Frequency tolerance f_tol B: ±50 × 10-6
C: ±100 × 10-6
-20°C to +70°C
L: ±50 × 10-6
M: ±100 × 10-6
-40°C to +85°C
Current consumption ICC 1.5mA Max. 1.5mA Max. 1.5mA Max. No load condition,
2MHz ≦ f0 ≦ 4MHz
1.5mA Max. 1.5mA Max. 2.0mA Max. No load condition,
4MHz < f0 ≦ 8MHz
1.5mA Max. 2.0mA Max. 2.5mA Max. No load condition,
8MHz < f0 ≦ 16MHz
2.0mA Max. 2.0mA Max. 2.5mA Max. No load condition,
16MHz <f 0 ≦ 25MHz
2.0mA Max. 2.5mA Max. 3.5mA Max. No load condition,
25MHz < f0 ≦ 33MHz
3.0mA Max. 3.5mA Max. 4.5mA Max. No load condition,
33MHz < f0≦ 48MHz
Stand-by current I_std 0.7µA Max.
(0.2µA Typ.)
1.5µA Max.
(0.5µA Typ.)
2.0µA Max.
(1.0µA Typ.)
ST
Symmetry SYM 45% to 55% 45% to 55% 45% to 55% 2MHz ≦ f0 ≦16MHz 50% VCClevel
L_CMOS ≦ 15pF
40% to 60% 16MHz < f0 ≦40MHz
40% to 60% 40MHz < f0 ≦ 48MHz
Output voltage VOH 90% VCC Min. IOH=-3mA
VOL 10% VCC Max. IOL= 3mA
Output load condition
(CMOS)
L_CMOS 15pF Max.
Input voltage VIH 80% VCC Min. ST
VIL 20% VCC Max.
Rise time / Fall time tr / tf 4ns Max. 20% VCC to 80% VCC level,
L_CMOS=15pF
Start-up time t_str 10ms Max. t=0 at 90% VCC
Frequency aging f_aging ±5 × 10-6 / year Max. +25°C,First year,
VCC=1.8V,2.5V, 3.3V

Product name (Standard form)

External dimensions

dimension
(Unit: mm)

Note.
ST pin = HIGH or "open" : Specified frequency output.
ST pin = LOW : Output is high impedance, oscillation stops.

Footprint (Recommended)

footprint
(Unit: mm)

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).

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