The ECX-33QZ are AEC-Q200 qualified crytals in the 3.2 x 2.5 x 0.8 mm (LWH) four pad industry standard package.
These crystal’s rugged design utilizes additional internal bonding points, making them suitable for high shock environments such as automotive and tire pressure monitoring systems (TPMS) applications.
Features:
- Frequency Range: 12 MHz to 32 MHz
- AEC-Q200 qualified
- Suitable for use in high shock and high vibration environments
- Vibration resistance
- 10~2000 Hz p-p 1.5 mm: 20g’s
- Shock resistance: 5000g 0.3 msec
- Standard Operating Temperature: -40°C ~ +125°C
- RoHS 2 and REACH compliant
- MSL 1
- Lead finish Au
Applications:
- TPMS applications
- Automotive
- Mobile Device
- Drive Controls
- Industrial applications
Image | Part Number | Frequency | Frequency Tolerance | Operating Temperature | Datasheet | Check Inventory |
---|---|---|---|---|---|---|
ECS-160-12-33QZ-ADS-TR | 16 MHz | ±25 PPM | -40°C ~ +125°C | Datasheet | Inventory | |
ECS-120-12-33QZ-ADS-TR | 12 MHz | ±25 PPM | -40°C ~ +125°C | Datasheet | Inventory | |
ECS-250-18-33QZ-ADS-TR | 25 MHz | ±25 PPM | -40°C ~ +125°C | Datasheet | Inventory | |
ECS-250-12-33QZ-ADS-TR | 25 MHz | ±25 PPM | -40°C ~ +125°C | Datasheet | Inventory | |
ECS-160-18-33QZ-ADS-TR | 16 MHz | ±25 PPM | -40°C ~ +125°C | Datasheet | Inventory | |
ECS-240-18-33QZ-ADS-TR | 24 MHz | ±25 PPM | -40°C ~ +125°C | Datasheet | Inventory | |
ECS-260-10-33QZ-TR | 26 MHz | ±15 PPM | -40°C ~ +85°C | Datasheet | Inventory | |
ECS-180.8-10-33QZ-TR | 18.08 MHz | ±15 PPM | -40°C ~ +125°C | Datasheet | Inventory | |
ECS-135.6-10-33QZ-TR | 13.56 MHz | ±15 PPM | -40°C ~ +125°C | Datasheet | Inventory | |
ECS-196.875-10-33QZ-TR | 19.6875 MHz | ±15 PPM | -40°C ~ +125°C | 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
ECX-33QZ AEC-Q200 Qualified Ruggedized Crystal was last modified: December 29th, 2023 by