FM-RTFQ1-433SM

FM TRANSMITTER & RECEIVER HYBRID MODULES. • • • • • • • • • • • • • • • FM Radio Transmitter & Receivers Available as 315 or 433 or 868MHz Transmit Range up to 250m Miniature Packages Data Rate up to 9.6Kbps No Adjustable Components Very Stable Operating Frequency Operates from –20 to +85 C 0 FM-RTFQ SERIES FM-RRFQ SERIES RTFQ1 RTFQ1 SM Transmitter 3-12 Supply Voltage SIL, DIL or SMT Packages available Receiver PLL XTAL Design CMOS/TTL Output RSSI Output Standby Mode (max 100nA) 5V Supply Voltage RTFQ2 Applications • • • • • • W ireless Security Systems Car Alarms Remote Gate Controls Remote Sensing Data Capture Sensor Reporting RRFQ1 RRFQ2 Description These miniature RF modules provide a cost effective high performance FM Radio data link, at either 315, 433.92 or 868MHz. Manufactured using laser trimmed processes on thick film ceramic substrates, the hybrid modules exhibit extremely stable electronic characteristics over an industrial temperature range. The hybrid technology uses no adjustable components ensuring very reliable operation. This transmitter and receiver pair enables the simple implementation of a data link at distances up to 75 metres in-building and 250 metres open ground. These modules will suit one-to-one and multi-node wireless links in applications including car and building security, EPOS and inventory tracking, remote industrial process monitoring and computer networking. Because of their small size and low power requirements both modules are ideal for use in portable, batterypowered applications such as hand-held terminals. DS069-8 Aug 07 ©2007 Reg. No. 227 4001, England Page 1 FM TRANSMITTER & RECEIVER HYBRID MODULES. Transmitters FM-RTFQ SERIES FM-RRFQ SERIES There are three versions of transmitter: RTFQ1; A dual in line package operating at 3.3V. This provides the most rugged mechanical fixing to the host PCB. Power down mode is also available. RTFQ1 SM: A dual in line surface mount package operating at 3.3V. This provides the quickest and most efficient mechanical fixing to the host PCB. Currently only available in 433MHz. A Single in Line Package incorporating a voltage regulator for 3-12V operation. Compatible with many other RF transmitter module footprints available. RTFQ2; Transmitter Block Diagram In XTAL XTAL Oscillator PLL Synthesizer Power Amp Out En Part Numbering Part Number FM-RTFQ1-315 FM-RTFQ1-433 FM-RTFQ1-868 FM-RTFQ2-433R FM-RTFQ2-868R FM-RTFQ1-433SM Description DIL FM Transmitter Module 315 MHz DIL FM Transmitter Module 433.92 MHz DIL FM Transmitter Module 868.35 MHz SIL FM Transmitter Module 433.92 MHz 3-12V I/P SIL FM Transmitter Module 868.35 MHz 3-12V I/P Surface Mount FM Transmitter 433.92 MHz Receivers There are two versions of receiver: RRFQ1: A Single in Line Package with sleep / Power down mode. RRFQ2: A Single in Line Package, pin compatible with many other receivers Receiver Block Diagram Vcc In Vcc Pre Amp Filter Mixer 10.7MHz IF Filter FM Demodulator Comparator Out PLL Synthesizer GND GND GND Part Numbering Part Number FM-RRFQ1-315 FM-RRFQ1-433 FM-RRFQ1-868 FM-RRFQ2-433 FM-RRFQ2-868 Description SIL FM Receiver Module 315 MHz SIL FM Receiver Module 433.92 MHz SIL FM Receiver Module 868.35 MHz SIL FM Receiver Module 433.92 MHz SIL FM Receiver Module 868.35 MHz DS069-8 Aug 07 ©2007 Reg. No. 227 4001, England Page 2 FM TRANSMITTER & RECEIVER HYBRID MODULES. RTFQ1 Mechanical Dimensions PCB Layout Requirements 20.32mm FM-RTFQ SERIES FM-RRFQ SERIES 1 5.08mm 2.54mm 20mm 2 3 Top View (Components Underneath) 6 11.43mm Module Thickness 2mm Pins on "0.1 pitch 5 4 Pin Dimensions : 0.25mm x 0.50mm RTFQ1 SMT Dimensions RTFQ2 Mechanical Dimensions PCB Layout Requirements 30.48mm 10.67mm RTFQ2 Module Thickness 2mm Pins on "0.1 pitch 2.54 20.32mm 2.54 spacing 12 345 1mm Pin Dimensions : 0.25mm x 0.50mm Pin Description RTFQ1 1 2 3 4 5 6 RTFQ2 N/A 5 1 3 4 2 Name En IN GND Vcc GND EA Description Enable (active high) Data input Ground, Connect to RF earth return path Supply Voltage Ground, Connect to RF earth return path External Antenna Technical Specifications Electrical Characteristics Supply Voltage RTFQ1 Supply Voltage RTFQ2 Supply Current Standby Current (IN = EN = Low) Frequency RF Output into 50Ω (Vcc=3.3V) Initial Frequency Accuracy FM Deviation Harmonic Spurious Emissions Input High Voltage RTFQ1 Input High Voltage RTFQ2 Power up Time (En to full RF) Power up Time (Power on to full RF) Max Data Rate Operating Temperature MIN 2.1 2.5 TYPICAL 3.3 7 315.0 433.92 868.35 +5 / +5 / +1 0 30 -50 MAX 4.00 12.00 8 100 DIMENSION V V mA nA MHz dBm KHz KHz dBc V V mS mS KHz °C -35 25 1.5 1.5 +35 35 Vcc 5.5 1 5 9.6 +80 -25 DS069-8 Aug 07 ©2007 Reg. No. 227 4001, England Page 3 FM TRANSMITTER & RECEIVER HYBRID MODULES. RRFQ1 Mechanical Details 38.1mm 4mm FM-RTFQ SERIES FM-RRFQ SERIES Component Side 1 3 7 11 15 18.3mm 2.54mm Pin Dimensions : 0.25mm x 0.50mm RRFQ2 Mechanical Details 45.72mm 3mm Component Side 12 14 18 16.5mm 1mm 2.54mm Pin Dimensions : 0.25mm x 0.50mm Pin Description RRFQ1 1 2, 7,11 3 12 13 N/A 14 15 RRFQ2 16 2,15 1 14 17 18 N/A Pin Description +Vcc GND Data In (Antenna) NC Received Signal Strength Output AF Output Data Out Power Down 0V = Standby 5V = Operating RSSI Output* RF In (dBm) -120 -110 -100 -90 -80 -70 -60 -50 -40 RSSI (V) 1.20 1.32 1.50 1.78 2.06 2.35 2.62 2.72 2.75 RSSI Output The RSSI provides a DC Voltage proportional to the peak value of the receive data signal. This output can be used as an indicator for the received signal strength to use in wake-up circuits etc. An RC circuit is normally used to provide the timing for the RSSI signal. The modules have a 10nF capacitor internally connected to GND, therefore a pull down resistor (to GND) connected to the RSSI pin may be used to generate a simple RC network time constant for the RSSI signal output. Please note that the maximum output current is typically 950µA, the discharge current is lower than 2µA DS069-8 Aug 07 ©2007 Reg. No. 227 4001, England Page 4 FM TRANSMITTER & RECEIVER HYBRID MODULES. Technical Specifications Electrical Characteristics Supply Voltage (Vcc) Supply Current (Operating) Supply Current (Standby) Receiver Frequency R.F Sensitivity (100% AM) 315 ,433MHZ versions 868MHz versions 3dB Bandwidth Data Rate RRFQ1 RRFQ2 Turn on Time Turn on Time Level of Emitted Spectrum Low Level Output Voltage High Level Output Voltage RSSI Output Operating Temperature Range Min 4.5 Typical 5 5.7 315.00 433.92 868.35 -103 -100 +/-150 300 300 8 -70 0.8 Vcc-1 0.95 -25 +80 9,600 4,800 5 Max 5.5 6.8 100 FM-RTFQ SERIES FM-RRFQ SERIES Dimension V mA nA MHz Notes dBm KHz Hz mSecs mSecs dBm V V mA o C 1 2 I = 200uA I = 200uA Notes 1. Time from PD pin going high to stable data. (RRFQ1 only) 2. Time from Power ON to stable data. Prototyping Hints It is essential when building any Low Power Radio System that you have a ‘clean’ DC power source. Typically the ripple voltage should be less than 10mV Peak to Peak. Normally a 470uF decoupling capacitor is sufficient de-coupling for an AC derived DC power source. Small capacitors of 10-100nF can also be used across the power supply to filter high frequency noise. Never place a Transmitter or Receiver directly into Vero-Board or any similar prototyping board. This will severely restrict the range. Rather, use small lengths of wire from the prototyping board to the pins of the Transmitter or Receiver. A useful antenna, for testing purposes, for both the Transmitter and Receiver on 433MHz is to use a piece of wire 17.3cm long (23.8cm at 315MHz) soldered directly to the antenna pin. Data should be encoded before it is transmitted over a wireless link to ensure reliability and reduce the effect of interference and cross talk. A range of encoders IC’s are available from RF Solutions, please refer to the RF Solutions website for further information. DS069-8 Aug 07 ©2007 Reg. No. 227 4001, England Page 5 FM TRANSMITTER & RECEIVER HYBRID MODULES. Typical Application FM-RTFQ SERIES FM-RRFQ SERIES The following circuits show a remote control system with ‘self learning feature’. Please refer to datasheet DS600 for more information. Transmitter Circuit 3.3V Antenna SW1-4 1 2 3 4 A0 A1 A2 A3 RF600E Vcc LED DATA GND 8 7 6 5 3.3V 2K2 1 EN ANT 6 10K BC848 2 IN 3 GND 5 GND 4 Vcc RTFQ1-XXX Receiver Circuit Vcc 1KΩ 13 14 4 15KΩ L FM -RRFQ1 12 3 7 11 15 Status LED Option Link 12 17 Sleep Vcc Vcc OP1 LKIN O/P 1 O/P 2 O/P 3 O/P 4 Transmitter Low Battery Serial Data Output Vcc 18 OP2 1 OP3 OP4 M 2 3 11 10 LRN RF600D LB 1KΩ Learn Switch 9 IN SD1 ECLK 7 GND 5 22KΩ For more information or general enquiries, please contact: RF Solutions Ltd., Unit 21, Cliffe Industrial Estate, South Street, Lewes, E Sussex, BN8 6JL. England Tel +44 (0)1273 898 000 Fax +44 (0)1273 480 661 Email: sales@rfsolutions.co.uk http://www.rfsolutions.co.uk RF Solutions is a member of the Low Power Radio Association All Trademarks acknowledged and remain the property of the respected owners Information contained in this document is believed to be accurate, however no representation or warranty is given and R.F. Solutions Ltd. assumes no liability with respect to the accuracy of such information. Use of R.F.Solutions as critical components in life support systems is not authorised except with express written approval from R.F.Solutions Ltd. DS069-8 Aug 07 ©2007 Reg. No. 227 4001, England Page 6