The ECOC-9775 is a 9.70 mm x 7.50 mm LVCMOS oven-controlled oscillator (OCXO) that is ideal for 5G, small cells, SyncE and IEEE 1588 applications.
Original February 2024
The ECOC-9775 is a 9.7 x 7.5 x 5.65 mm surface mount oven controlled crystal oscillator (OCXO). The standard part offers a ±20 ppb stability at a -40°C ~ +85°C operating temperature. Additional features include a 10 MHz to 40 MHz frequency range, a 3.3V supply voltage and an LVCMOS output type. Oven-controlled crystal oscillators play a vital role in maintaining precision frequency control, particularly in applications where the utmost importance is placed on reliable data transmission and precise measurement accuracy. The ECOC-9775 is ideal for 5G, small cells, SyncE, and IEEE 1588 applications.
Features:
- 9.7 x 7.5 x 5.65 mm package size
- ±20 ppb stability
- -40°C ~ +85°C operating temperature
- 3.3V supply voltage
- LVCMOS output
Applications:
- Networking
- Communications
- 5G
- Small cells
- SyncE
- IEEE 1588
Image | Part Number | Frequency | Frequency Stability | Supply Voltage | Operating Temperature | Datasheet | Inventory |
NEW ECOC-9775-10.000-DN-TR | 10 MHz | ±20ppm | 3.3V | -40°C ~ 85°C | Datasheet | Inventory | |
NEW ECOC-9775-19.440-DN-TR | 19.44 MHz | ±20ppm | 3.3V | -40°C ~ 85°C | Datasheet | Inventory | |
NEW ECOC-9775-20.000-DN-TR | 20 MHz | ±20ppm | 3.3V | -40°C ~ 85°C | Datasheet | Inventory | |
NEW ECOC-9775-25.000-DN-TR | 25 MHz | ±20ppm | 3.3V | -40°C ~ 85°C | Datasheet | Inventory | |
NEW ECOC-9775-30.720-DN-TR | 30.72 MHz | ±20ppm | 3.3V | -40°C ~ 85°C | Datasheet | Inventory | |
NEW ECOC-9775-38.800-DN-TR | 38.8 MHz | ±20ppm | 3.3V | -40°C ~ 85°C | Datasheet | Inventory | |
NEW ECOC-9775-48.000-DN-TR | 48 MHz | ±20ppm | 3.3V | -40°C ~ 85°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
ECOC-9775 LVCMOS OCXO was last modified: February 6th, 2024 by