Details, datasheet, quote on part number: RP1207-7
CategoryTiming Circuits => Resonators => SAW Resonators
TitleSAW Resonators
DescriptionFrequency = 434.02 ;; Description = Resonator
CompanyRF Monolithics
DatasheetDownload RP1207-7 datasheet
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Features, Applications

Ideal for 434.02 MHz Low-Power Transmitters Nominal Insertion Phase Shift 180 at Resonance Quartz Stability Rugged, Hermetic, Low-Profile TO39 Case

The is a two-port, 180 surface-acoustic-wave (SAW) resonator in a low-profile TO39 case. It provides reliable, fundamental-mode, quartz frequency stabilization of AM, FSK, or PSK transmitters operating at 434.02 MHz.

Rating CW RF Power Dissipation (See: Typical Test Circuit) DC Voltage Between Any Two Pins (Observe ESD Precautions) Case Temperature Value to +85 Units dBm VDC C

Center Frequency Insertion Loss Quality Factor Temperature Stability Unloaded Q 50 Loaded Q Turnover Temperature Turnover Frequency Temp. Coefficient Frequency Aging RF Equivalent RLC Absolute Value during First Year Motional Resistance Motional Inductance Motional Capacitance Shunt Static Capacitance Lid Symbolization (in addition to Lot and/or Date Codes) DC Insulation Resistance between Any Two Pins CM CO Characteristic Absolute Frequency Tolerance from 433.920 MHz Sym TO fO FTC |fA| RFM Notes Minimum 433.945 Typical Maximum 66 C kHz ppm/C2 ppm/yr pF 8.0 Units MHz kHz dB

CAUTION: Electrostatic Sensitive Device. Observe precautions for handling.

Notes: Frequency aging is the change in fC with time and is specified +65C or less. Aging may exceed the specification for prolonged temperatures above +65C. Typically, aging is greatest the first year after manufacture, decreasing significantly in subsequent years. The frequency fC is the frequency of minimum IL with the resonator in the specified test fixture a 50 test system with VSWR 1.2:1. Typically, fOSCILLATOR or fTRANSMITTER is less than the resonator fC. One or more of the following United States patents apply: 4,454,488; 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 +25C 5C 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. Turnover temperature, TO, is the temperature of maximum (or turnover) frequency, fO. The nominal frequency at any case temperature, TC, may be calculated from: [1 - FTC (TO - TC)2]. Typically, oscillator is 20 less than the specified resonator TO. This equivalent RLC model approximates resonator performance near the resonant frequency and is provided for reference only. The capacitance CO is the measured static (nonmotional) capacitance between either pin 1 and ground or pin 2 and ground. The measurement includes case parasitic capacitance.

RF Monolithics, Inc. Phone: (972) 233-2903 Fax: (972) 387-9148 RFM Europe Phone: 1963 251383 Fax: by RF Monolithics, Inc. The stylized RFM logo are registered trademarks of RF Monolithics, Inc.

The following equivalent LC model is valid near resonance:

This two-port, three-terminal SAW resonator is bidirectional. However, impedances and circuit board parasitics may not be symmetrical, requiring slightly different oscillator component-matching values.

Connection Input or Output or Input Case Ground

The curve shown on the right accounts for resonator contribution only and does not include LC component temperature contributions.

The plot shown below is a typical frequency response for the RP series of two-port resonators. The plot is for RP1094.

RF Monolithics, Inc. Phone: (972) 233-2903 Fax: (972) 387-9148 RFM Europe Phone: 1963 251383 Fax: by RF Monolithics, Inc. The stylized RFM logo are registered trademarks of RF Monolithics, Inc.

This SAW resonator can be used in oscillator or transmitter designs that require 180 phase shift at resonance in a two-port configuration. Oneport resonators can be simulated, as shown, by connecting pins 1 and 2 together. However, for most low-cost consumer products, this is only recommended for retrofit applications and not for new designs.


Some Part number from the same manufacture RF Monolithics
RP1236 Frequency = 312.0 ;; Description = Resonator
RP1237 Frequency = 418.0 ;; Description = Resonator
RP1238 Frequency = 407.3 ;; Description = Resonator
RP1239 Frequency = 315.0 ;; Description = Resonator
RP1285 Frequency = 916.55 ;; Description = Resonator
RP1286 Frequency = 906.0 ;; Description = Resonator
RP1298 Frequency = 423.22 ;; Description = Resonator
RP1308 Frequency = 433.92 ;; Description = Resonator
RP1312 Frequency = 854.0 ;; Description = Resonator
RS1033-1 Frequency = 668.03 ;; Description = Resonator
RS1033-5 Frequency = 668.1 ;; Description = Resonator
RS1035-5 Frequency = 680.1 ;; Description = Resonator
RX5000 Frequency = 433.92 ;; Description = Receiver, Ash, 115.2 KBPS
RX5001 Frequency = 315.0 ;; Description = Receiver, Ash, 115.2 KBPS
RX5002 Frequency = 418.0 ;; Description = Receiver, Ash, 115.2 KBPS
RX5003 Frequency = 303.825 ;; Description = Receiver, Ash, 115.2 KBPS
RX5500 Frequency = 433.92 ;; Description = Receiver, Ash, 19.2 KBPS
RX5501 Frequency = 315.0 ;; Description = Receiver, Ash, 19.2 KBPS
RX6000 Frequency = 916.50 ;; Description = Receiver, Ash, 115.2 KBPS
RX6001 Frequency = 868.35 ;; Description = Receiver, Ash, 115.2 KBPS
RX6004 Frequency = 914.0 ;; Description = Receiver, Ash, 115.2 KBPS
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