The ECS-2520SMVQ AEC-Q200 tight stability MultiVoltTM oscillator is ideal for automotive, industrial and IoT applications.
Original August 2024
ECS’ Inc.’s ECS-2520SMVQ is an AEC-Q200 tight stability MultiVoltTM crystal oscillator series that is available in a 2.5 x 2.0 x 1.0 mm 4-pad ceramic package. This oscillator offers a frequency range of 8 MHz ~ 60 MHz and a tight stability option of ±5ppm with additional stability options of ±10ppm and ±20ppm. The ‘DS’ option offers a ±20ppm stability over an extended operating temperature range of -40ºC ~ +125ºC. MultiVoltTM crystal oscillators are compatible with a static 1.8 V, 2.0 V, 3.0 V and 3.3 V power supply and across a 1.6 V ~ 3.3 V supply.
Features:
- 2.5 x 2.0 x 1.0 mm 4-pad ceramic package
- MultiVoltTM compatible across 1.6 V ~ 3.63 V
- Compatible with 1.8 V, 2.5 V, 3.0 V and 3.3 V supply voltage
- Stability options: ±5ppm, ±10ppm and ±20ppm
- Temperature range options: -40ºC ~ 85ºC, -40ºC ~ 105ºC and -40ºC ~ 125ºC
- AEC-Q200 qualified
- IATF 16949 certified production
- RoHS and REACH compliant
Applications:
- Automotive
- Industrial
- IoT
Image | Part Number | Frequency | Frequency Stability | Operating Temperature | Datasheet | Inventory |
ECS-2520SMVQ-080-DS-TR | 8 MHz | ±20ppm | -40ºC ~ +125ºC | Datasheet | Inventory | |
ECS-2520SMVQ-120-DS-TR | 12 MHz | ±20ppm | -40ºC ~ +125ºC | Datasheet | Inventory | |
ECS-2520SMVQ-245.7-DS-TR | 24.576 MHz | ±20ppm | -40ºC ~ +125ºC | Datasheet | Inventory | |
ECS-2520SMVQ-250-DS-TR | 25 MHz | ±20ppm | -40ºC ~ +125ºC | Datasheet | Inventory | |
ECS-2520SMVQ-333.3-DS-TR | 33.333 MHz | ±20ppm | -40ºC ~ +125ºC | Datasheet | Inventory | |
ECS-2520SMVQ-500-DS-TR | 50 MHz | ±20ppm | -40ºC ~ +125ºC | Datasheet | Inventory |
Please contact us if you need additional information or have a specific requirement in your application.
ECS Inc. International
15351 West 109th Street
Lenexa, KS 66219
Tel: 913-782-7787
Toll Free: 1-800-237-1041
Fax: 913-782-6991
ECS-2520SMVQ AEC-Q200 Tight Stability MultiVoltTM Crystal Oscillator was last modified: December 20th, 2024 by