ECS-327ATQMV MultiVolt™ crystal oscillator lets designers use the same device for many applications, reducing qualification requirements and inventory.
Original September 2018 | Update July 2023
ECS-327ATQMV is a 32.768 kHz low-power, AEC-Q200 qualified, MultiVolt™ SMD crystal oscillator. The compact ceramic package 3.2 x 2.5 x 0.9 mm (LWH) uses an industry standard footprint. The MultiVolt feature allows customers to use the same device for many designs, reduce qualification requirements, and reduce inventory.
September 2022 Update
ECS Inc. International has expanded the AEC-Q200 qualified ECS-327ATQMV MultiVolt™ oscillator family to include two additional part numbers to cover more applications. The two new part numbers are ECS-327ATQMV-BP-TR that offers ±50ppm stability at -40ºC ~ 105ºC and ECS-327ATQMV-CN-TR that offers ±100ppm stability at -40ºC ~ 105ºC.
Features:
- 3.2 mm x 2.5 mm 4-pad footprint
- MultiVoltTM 1.62V ~ 3.63V
- Compatible with 1.8V, 2.5V, 3.0V or 3.3V supply
- Operating temperature ranges: -40ºC ~ +85ºC, -40ºC ~ +105ºC, -40ºC ~ +125ºC
- Lead finish Au
- HCMOS output
- RoHS 2 and REACH compliant
- MSL 1
Applications:
- IoT
- Storage devices
- COTS
- Navigation
- Medical (non-life sustaining)
- Mobile devices
- Industrial
- Wireless devices
- General microprocessors
| Image | Part Number | Frequency | Frequency Stability | Operating Temperature | Datasheet | Inventory |
 | ECS-327ATQMV-AS-TR | 32.768 kHz | ±100ppm | -40ºC ~ 125ºC | Datasheet | Inventory |
| ECS-327ATQMV-BP-TR | 32.768 kHz | ±50ppm | -40ºC ~ 105ºC | Datasheet | Inventory |
| ECS-327ATQMV-BS-TR | 32.768 kHz | ±50ppm | -40ºC ~ 125ºC | Datasheet | Inventory |
| ECS-327ATQMV-CN-TR | 32.768 kHz | ±25ppm | -40ºC ~ 85ºC | 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-327ATQMV MultiVolt Oscillator was last modified: July 24th, 2023 by