RF3181 Ideal Front-End Filter for 916.5 MHz Wireless Receivers Low-Loss, Coupled-Resonator Quartz Design Simple External Impedance Matching 916.50 MHz Rugged TO39 Hermetic Package Pb Complies with Directive 2002/95/EC (RoHS) SAW Filter The RF3181 is a low-loss, compact, and economical surface-acoustic-wave (SAW) filter designed to provide front-end selectivity in 916.5 MHz receivers. Receiver designs using this filter include superhet with 10.7 MHz or 500 kHz IF, direct conversion and superregen. Typical applications of these receivers are wireless remote- control and security devices operating in the USA under FCC Part 15 and in Canada under DoC RSS-210. This coupled-resonator filter (CRF) uses selective null placement to provide suppression, typically greater than 40 dB, of the LO and image spurious responses of superhet receivers with 10.7 MHz IF. Muratas advanced SAW design and fabrication technology is utilized to achieve high performance and very low loss with simple external impedance matching (not included). Quartz construction provides excellent frequency stability over a wide temperature range. TO39-3 Case Characteristic Sym Notes Minimum Typical Maximum Units Center Frequency at 25C f 916.400 916.500 916.600 MHz Absolute Frequency C 1, 2 f 100 kHz Tolerance from 916.500 MHz C Insertion Loss IL 1 3.2 5 dB 3 dB Bandwidth BW 1,2 600 750 1000 kHz 3 Rejection at f - 21.4 MHz (Image) 33 40 C at f - 10.7 MHz (LO) 1 15 37 dB C Ultimate 80 Temperature Operating Case Temp. T -40 +85 C C Turnover Temperature T 25 C O 3, 4 Turnover Frequency f f MHz O C 2 Freq. Temp. Coefficient FTC 0.032 ppm/C Frequency Aging Absolute Value during the First Year fA 5 10 ppm/yr External Impedance Series Inductance L 1 Coilcraft 8.2 nH Chip Inductor nH Shunt Capacitance C 1 1 5 pF Lid Symbolization (in addition to Lot and/or Date Codes) RFM RF3181 CAUTION: Electrostatic Sensitive Device. Observe precautions for handling. NOTES: 1. Unless noted otherwise, all measurements are made with the filter installed in the specified test fixture which is connected to a 50 test system with VSWR 1.2:1. The test fixture L and C are adjusted for minimum insertion loss at the filter center frequency, f . Note that insertion loss, bandwidth, and passband shape c are dependent on the impedance matching component values and quality. 2. The frequency f is defined as the midpoint between the 3dB frequencies. c 3. Unless noted otherwise, specifications apply over the entire specified operating temperature range. 4. The turnover temperature, T , is the temperature of maximum (or turnover) frequency, f . The nominal frequency at any case temperature, T , may be O o c 2 calculated from: f = f 1 - FTC (T -T ) . o o c 5. Frequency aging is the change in fc with time and is specified at +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. 6. The design, manufacturing process, and specifications of this device are subject to change without notice. 7. One or more of the following U.S. Patents apply: 4,54,488, 4,616,197, and others pending. 8. All equipment designs utilizing this product must be approved by the appropriate government agency prior to manufacture or sale. Copyright Murata Manufacturing Co., Ltd. All rights reserved. April 2015 RF3181 (R) 11/17/17 Page 1 of 2 www.murata.comAbsolute Maximum Ratings Rating Value Units Incident RF Power +13 dBm DC Voltage Between Any Two Pins (Observe ESD Precautions) 30 VDC 5 -40 to +85 C Case Temperature Soldering Temperature (10 seconds / 5 cycles max.) 260 C Typical Filter Response Typical filter responses are shown below. The actual response is dependent on external impedance matching and circuit layout. Illustrated frequencies and minimum rejection for LO and IMAGE are shown only for superhet receivers with 10.7 MHz IF. 0 0 -1 -10 -2 -20 -3 -30 -4 Min 3dB Passband -40 -5 at 25C -50 -6 -60 -7 -70 -8 200 kHz/div -80 Frequency 5 MHz/div Frequency Case Design C G B Electrical Connections H Bottom View F Pin Connection E A Pin 1 Pin 2 1 Input or Output D (3 places) 2 Output or Input Pin 3 3 Case Ground J (2 places) 45 Typical Test Circuit Millimeters Inches Dimensions L L Min Max Min Max 1 2 A 9.40 0.370 From 50 To 50 3 CC B 3.18 0.125 Network Network Analyzer Analyzer C 2.50 3.50 0.098 0.138 D 0.46 Nominal 0.018 Nominal E 5.08 Nominal 0.200 Nominal F 2.54 Nominal 0.100 Nominal G 2.54 Nominal 0.100 Nominal H 1.02 0.040 J 1.40 0.055 Copyright Murata Manufacturing Co., Ltd. All rights reserved. April 2015 www.murata.com RF3181 (R) 11/17/17 Page 2 of 2 Amplitude Response Amplitude Response