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| (R) RO2113A 314.5 MHz SAW Resonator * * * * * Ideal for 315 MHz Superhet Receiver LOs Very Low Series Resistance Quartz Stability Surface-Mount Ceramic Case with 21 mm2 Footprint Complies with Directive 2002/95/EC (RoHS) The RO2113A is a true one-port, surface-acoustic-wave (SAW) resonator in a surface-mount, ceramic case. It provides reliable, fundamental-mode, quartz frequency stabilization of local oscillatiors operating at 314.5 MHz. This SAW is designed for 315 MHz superhet receivers with500 kHz IF (Philips UAA320IT). Applications include automotive-keyless-entry receivers operating in the USA under FCC Part 15, in Canada under DoC RSS-210, and in Italy. Absolute Maximum Ratings Rating CW RF Power Dissipation (See: Typical Test Circuit.) DC Voltage Between Terminals (Observe ESD Precautions) Case Temperature Soldering Temperature (10 seconds / 5 cycles max.) Value +0 30 -40 to +85 260 Units dBm VDC C C SM-2 Case Electrical Characteristics Characteristic Center Frequency at +25 C Absolute Frequency Tolerance from 314.500 MHz Insertion Loss Quality Factor Temperature Stability Unloaded Q 50 Loaded Q Turnover Temperature Turnover Frequency Frequency Temperature Coefficient Frequency Aging RF Equivalent RLC Model Absolute Value during the First Year Motional Resistance Motional Inductance Motional Capacitance Shunt Static Capacitance Test Fixture Shunt Inductance Lid Symbolization DC Insulation Resistance between Any Two Terminals RM LM CM CO LTEST 5, 6, 9 2, 7 103 2.7 5, 6, 9 Sym fC fC IL QU QL TO fO FTC |fA| 1 5 1.0 10 80.9315 3.17441 3.0 90 3.3 19 6, 7, 8 Notes 2, 3, 4, 5 2, 5, 6 5, 6, 7 10 Minimum 314.425 Typical Maximum 314.575 75 0.8 18,200 1,500 25 fC 0.032 10 ppm/C2 ppm/yr M H fF pF nH 40 C 1.5 Units MHz kHz dB CAUTION: Electrostatic Sensitive Device. Observe precautions for handling. Notes: 1. Lifetime (10 year) frequency aging. 8. 2. 3. 4. 5. 6. 7. The center frequency, fC, is measured at the minimum insertion loss point, ILMIN, with the resonator in the 50 test system (VSWR 1.2:1). The shunt inductance, LTEST, is tuned for parallel resonance with CO at fC. One or more of the following United States patents apply: 4,454,488 and 4,616,197. Typically, equipment utilizing this device requires emissions testing and government approval, which is the responsibility of the equipment manufacturer. Unless noted otherwise, case temperature TC = +25C2C. The design, manufacturing process, and specifications of this device are subject to change without notice. Derived mathematically from one or more of the following directly measured parameters: fC, IL, 3 dB bandwidth, fC versus TC, and CO. 9. Turnover temperature, TO, is the temperature of maximum (or turnover) frequency, fO. The nominal frequency at any case temperature, TC, may be calculated from: f = fO [1 - FTC (TO -TC)2]. This equivalent RLC model approximates resonator performance near the resonant frequency and is provided for reference only. The capacitance CO is the static (nonmotional) capacitance between the two terminals measured at low frequency (10 MHz) with a capacitance meter. The measurement includes parasitic capacitance with "NC" pads unconnected. Case parasitic capacitance is approximately 0.05 pF. Transducer parallel capacitance can by calculated as: CP CO - 0.05 pF. RF Monolithics, Inc. Phone: (972) 233-2903 Fax: (972) 387-8148 RFM Europe Phone: 44 1963 251383 Fax: 44 1963 251510 (c)1999 by RF Monolithics, Inc. The stylized RFM logo are registered trademarks of RF Monolithics, Inc. E-mail: info@rfm.com http://www.rfm.com RO2113A-041603 Page 1 of 2 314.5 MHz Electrical Connections The SAW resonator is bidirectional and may be installed with either orientation. The two terminals are interchangeable and unnumbered. The callout NC indicates no internal connection. The NC pads assist with mechanical positioning and stability. External grounding of the NC pads is recommended to help reduce parasitic capacitance in the circuit. SAW Resonator Equivalent LC Model Terminal 0.05 pF* NC NC Co = Cp + 0.05 pF Cp *Case Parasitics Terminal Rm Lm Cm Temperature Characteristics The curve shown on the right fC = f O , T C = T O 0 (f-fo ) / fo (ppm) Typical Test Circuit The test circuit inductor, LTEST, is tuned to resonate with the static capacitance, CO, at FC. accounts for resonator contribution only and does not include LC component temperature contributions. 0 -50 -100 -150 -200 0 +20 +40 +60 +80 -50 -100 -150 -200 -80 -60 -40 -20 ELECTRICAL TEST From 50 Network Analyzer To 50 Network Analyzer Typical Circuit Board Land Pattern T = T C - T O ( C ) The circuit board land pattern shown below is one possible design. The optimum land pattern is dependent on the circuit board assembly process which varies by manufacturer. The distance between adjacent land edges should be at a maximum to minimize parasitic capacitance. Trace lengths from terminal lands to other components should be short and wide to minimize parasitic series inductances. (4 Places) Typical Dimension: 0.010 to 0.047 inch (0.25 to 1.20 mm) Case Design The case material is black alumina with contrasting symbolization. All pads are nominally centered with respect to the base and consist of 40 to 70 microinches electroless gold on 60-350 micorinches electroless nickel. Typical Application Circuits Typical Low-Power Transmitter Application +9VDC Modulation Input 200k C1 L1 47 (Antenna) ROXXXXA Bottom View 470 C2 RF Bypass Millimeters Dimensions Min A B C D Output Inches Min 0.226 0.147 0.075 0.037 0.033 0.046 0.037 0.017 0.017 0.200 0.015 0.120 Max 0.236 0.157 0.085 0.043 0.047 0.060 0.043 0.023 0.023 0.210 0.025 0.130 Max 5.99 3.99 2.16 1.10 1.20 1.53 1.10 0.59 0.59 5.33 0.64 3.30 5.74 3.73 1.91 0.94 0.83 1.16 0.94 0.43 0.43 5.08 0.38 3.05 Typical Local Oscillator Application E F G H K M N +VDC C1 L1 +VDC ROXXXXA Bottom View C2 RF Bypass P RF Monolithics, Inc. Phone: (972) 233-2903 Fax: (972) 387-8148 RFM Europe Phone: 44 1963 251383 Fax: 44 1963 251510 (c)1999 by RF Monolithics, Inc. The stylized RFM logo are registered trademarks of RF Monolithics, Inc. E-mail: info@rfm.com http://www.rfm.com RO2113A-041603 Page 2 of 2 |
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