38.400 MHz ceramic SMD crystal ABRACON ABM10-165-38.400MHZ-T3 hermetically sealed low profile design
Product Overview
The ABM10-165-38.400MHz-T3 is an ultra-miniature ceramic SMD crystal designed for demanding applications. Featuring a low profile of 2.5 x 2.0 x 0.5 mm, it offers excellent overall frequency stability of 20ppm over a -30C to +85C temperature range and low aging. This crystal is ideal for UWB applications, Real Time Location Systems, and Wireless Sensor Networks, including those utilizing the Decawave DW1000 (IEEE802.15.4-2011 UWB) chipset. It is RoHS compliant and hermetically sealed, making it non-moisture sensitive.
Product Attributes
- Brand: ABRACON
- Certifications: ISO9001:2008 Certified, RoHS/RoHS II Compliant
- Material: Ceramic SMD
- Packaging Options: Bulk, Tape & Reel (3k/reel)
- Moisture Sensitivity Level (MSL): N/A (Hermetically Sealed)
Technical Specifications
| Specification | Value | Units | Notes |
|---|---|---|---|
| Model | ABM10-165-38.400MHz-T3 | ||
| Frequency | 38.400 | MHz | Fundamental Mode |
| Dimensions | 2.5 x 2.0 x 0.5 | mm | Ultra Miniature Ceramic SMD |
| Operating Temperature | -30 to +85 | C | |
| Storage Temperature | -40 to +85 | C | |
| Overall Frequency Stability | 20 | ppm | See Note 1 |
| Initial Calibration + Frequency Stability over Operating Temperature | -15 to +20 | ppm | See Note 2 |
| Frequency Shift vs Reflow + Aging | -5 to 0 | ppm | See Note 3 |
| Frequency Perturbations | 1 | ppm | See Note 4 |
| Long Stability | 1 | ppm | See Note 5 |
| Equivalent Series Resistance (ESR) | 40 | ||
| Load Capacitance (CL) | 10 | pF | |
| Drive Level | 100 | W | Maximum |
| Insulation Resistance @100V15V, 25C | 500 | M | |
| Packaging | 3000pcs/reel | Tape & Reel (T3) |
Notes:
1. Including initial calibration, reflow, frequency verses temperature and 5-years aging at 25C.
2. Referenced to nominal frequency at specified load capacitance over the operating temperature range.
3. Two consecutive reflow as per the profile in Section 6.1 after 24 hours recovery at 25C. Frequency drift over 5 years at 25C.
4. Peak-to-peak deviation from the frequency vs. temperature curve fit 5th order. Minimum of 1 frequency reading every 3C over operating temperature range.
5. Frequency drift over 1 year at 25C.
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