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| RF2926 11 Typical Applications * Wireless Meter Reading * Keyless Entry Systems * 433/868/915MHz ISM Band Systems * Wireless Data Transceiver * Wireless Security Systems * Battery Powered Portable Devices UHF DUAL CONVERSION TRANSCEIVER Product Description The RF2926 is a monolithic integrated circuit intended for use as a low cost FM transceiver. The device is provided in 48-lead plastic TQFP packaging and is designed to provide a dual conversion, half-duplex transceiver. The chip is intended for linear (AM, FM) or digital (ASK, FSK, OOK) applications in the North American 915MHz and European 433/868MHz ISM bands. The integrated VCO has a buffered output to feed the RF signal back to the PLL IC to form the frequency synthesizer. Separate RX ENABL, TX ENABL, and PLL ENABL lines allow for half duplex operation as well as turning on the VCO to give the synthesizer time to settle and complete power downmode. .362 .346 .006 .002 .020 .362 .346 .280 .272 .011 .007 .057 .053 .280 .272 7MAX 0MIN .031 .021 .007 MAX Optimum Technology Matching(R) Applied u Package Style: LQFP-48 Si BJT Si Bi-CMOS LVL ADJ PA INP GaAs HBT SiGe HBT UP CONV LO+ LO- GaAs MESFET Si CMOS Features * Monolithic Integrated Transceiver * 2.7V to 5.0V Supply Voltage 35 VCO OUT 11 TRANSCEIVERS 46 Gain Control TX OUT RX IN 2 4 44 37 36 39 * Narrow Band and Wide Band FM/FSK * 300MHz to 1000MHz Frequency Range * 130MHz Bandwidth in First IF * 5mW Output Power at 433MHz 34 31 LNA OUT MIX CA MIX IN 8 43 28 10 26 RSSI MIX OUT+ MIX OUT12 13 15 IF1 IN 14 IF1 BP+ 16 IF1 BP18 IF1 OUT 25 RSSI 20 VREF IF 21 IF2 IN 22 IF2 BP+ 23 IF2 BP24 ATA OUT 27 30 MOD IN RESNTRRESNTR+ DEMOD IN FM OUT DATA REF Ordering Information RF2926 RF2926 PCBA UHF Dual Conversion Transceiver Fully Assembled Evaluation Board Functional Block Diagram RF Micro Devices, Inc. 7625 Thorndike Road Greensboro, NC 27409, USA Tel (336) 664 1233 Fax (336) 664 0454 http://www.rfmd.com Rev A5 010404 11-185 RF2926 Absolute Maximum Ratings Parameter Supply Voltage Control Voltages Input RF Level Output Load VSWR Operating Ambient Temperature Storage Temperature Ratings -0.5 to +5.5 -0.5 to +5.0 +10 50:1 -40 to +85 -40 to +150 Unit VDC VDC dBm C C Caution! ESD sensitive device. RF Micro Devices believes the furnished information is correct and accurate at the time of this printing. However, RF Micro Devices reserves the right to make changes to its products without notice. RF Micro Devices does not assume responsibility for the use of the described product(s). Parameter Overall RF Frequency Range Specification Min. Typ. Max. 300 to 1000 300 to 1000 -18 50 2 Set by loop filter bandwidth +2 20 TBD 200 Unit MHz MHz dBm MHz dBm dB dB/V kHz Freq=433MHz Condition T=25 C, VCC =3.6V, Freq=433MHz VCO VCO Frequency Range VCO OUT Level VCO OUT Impedance 50 load impedance Transmit Section Max Modulation Frequency Min Modulation Frequency Maximum Power Level Power Control Range Power Control Sensitivity Max FM Deviation 11 TRANSCEIVERS Antenna Port Impedance Antenna Port Impedance Antenna Port VSWR Modulation Input Impedance Harmonics Spurious 50 TBD 1.5:1 4 -50 TBD 300 to 1000 -99 0.7 to 2.2 25 80 18 7 -18.5 -70 130 34 13 TBD 330 330 See plot Instantaneous frequency deviation is inversely proportional with the modulation voltage TX ENABL="1" TX ENABL="0" TX Mode Measured on eval board with RF filters in system. k dBm dBc MHz dBm V mV/dB dB dB dB dBm dBm MHz dB dB mVPP Overall Receive Section Frequency Range RX Sensitivity RSSI DC Output Range RSSI Sensitivity RSSI Dynamic Range IF BW =400kHz, Freq=915MHz, S/N=8dB RLOAD =51k See plot 70 LNA and Mixer Cascaded Gain Cascaded Noise Figure Cascaded Input IP3 LO Leakage Freq=915MHz; RX current 12mA Freq=915MHz; RX current 12mA Freq=915MHz; RX current 12mA First IF Section IF 3dB Bandwidth Voltage Gain Noise Figure Input IP3 IF1 Input Impedance IF1 Output Impedance IF=110.6MHz, ZL =330 11-186 Rev A5 010404 RF2926 Parameter Second IF Section IF Frequency Range Voltage Gain IF2 Input Impedance IF2 Output Impedance Demod Input Impedance FM Output Impedance Data Output Impedance FM Output Bandwidth Data Output Bandwidth Data Output Level 0.1 10.7 60 330 1 10 500 >1 1.6 22 MHz dB k k M MHz MHz V IF=10.7MHz At IF2 OUT pin Specification Min. Typ. Max. Unit Condition 1.4 0.3 VCC -0.3 FM Output DC Level FM Output AC Level 2.6 200 2.0 1.0 25k 3.6 2.7 to 5.0 37.3 10.9 10 to 18 1 3.8 V mVPP V V V V mA mA mA A mA ZLOAD=1M || 3pF; Output voltage is proportional with the instantaneous frequency deviation. ZLOAD>10k ZLOAD>10k Voltage supplied to the input Voltage supplied to the input Power Down Control Logical Controls "ON" Logical Controls "OFF" Control Input Impedance Power Supply Voltage Current Consumption Specifications Operating limits TX Mode, LVL ADJ=3.6V TX Mode, LVL ADJ=0V RX Mode; Current is adjustable Power Down Mode PLL Only Mode 11 TRANSCEIVERS Rev A5 010404 11-187 RF2926 Pin 1 Function TX ENABL Description Enables the transmitter circuits. TX ENABL>2.0V powers up all transmitter functions. TX ENABL<1.0V turns off all transmitter functions except the PLL functions. Interface Schematic 20 k TX ENABL 40 k 2 TX OUT RF output pin for the transmitter electronics. TX OUT output impedance is a low impedance (see output impedance plot in Figure TBD) when the transmitter is enabled. TX OUT is a high impedance when the transmitter is disabled. 20 VCC TX OUT 3 4 GND2 RX IN Ground connection for the 40 dB IF limiting amplifier and Tx PA functions. Keep traces physically short and connect immediately to ground plane for best performance. RF input pin for the receiver electronics. RX IN input impedance is a low impedance (see input impedance plot in Figure TBD) when the receiver is enabled. RX IN is a high impedance when the receiver is disabled. RX IN 500 5 6 7 8 GND1 LNA GND LNA GND LNA OUT Ground connection for RF receiver functions. Keep traces physically short and connect immediately to ground plane for best performance. Ground connection for the LNA. Ground connection for the LNA. Output pin for the receiver RF low noise amplifier. This pin is an open collector output and requires an external pull up coil to provide bias and tune the LNA output. A capacitor in series with this output can be used to match the LNA to 50 impedance image filters. Same as pin 4. RF input to the RF Mixer. An LC matching network between LNA OUT and MIX IN can be used to connect the LNA output to the RF mixer input in applications where an image filter is not needed or desired. GND5 is the ground connection shared by the input stage of the transmit power amplifier and the receiver RF mixer. Complementary (with respect to pin 13) IF output from the RF mixer. Alternately, an IF tank can be used to tailor the IF frequency and bandwidth to meet the needs of a given application. VCC LNA OUT 11 TRANSCEIVERS 9 10 GND3 MIX IN MIX IN GND5 11 12 GND5 MIX OUT+ MIX OUT+ MIX OUT- 15 pF GND5 15 pF GND5 13 MIX OUT- 14 15 IF1 BP+ IF1 IN IF output from the RF mixer. For a balanced mixer output, pull-up induc- See pin 12. tors from pin 12 and 13 to VCC and a capacitor between the pins should be used. The sum of the total pull-up inductance should be used to resonate the capacitor between pins 12 and 13. DC feedback node for the 40dB limiting amplifier strip. A 10nF bypass See pin 16. capacitor from this pin to ground is required. IF input to the 40dB limiting amplifier strip. A DC blocking capacitor is IF1 BP+ required on this input. The value of this capacitor should be small 60 k enough as to not attenuate the IF frequency when terminated into the 330 input impedance. 330 IF1 IN+ IF1 BP60 k 330 11-188 Rev A5 010404 RF2926 Pin 16 17 18 Function IF1 BPGND7 IF1 OUT Description See pin 14. Ground connection for 40dB IF limiting amplifier. Keep traces physically short and connect immediately to ground plane for best performance. IF output from the 40dB limiting amplifier. The IF1 OUT output presents a nominal 330 output resistance and interfaces directly to 10.7MHz ceramic filters. Interface Schematic See pin 15. IF1 OUT 19 20 21 GND6 VREF IF IF2 IN Ground connection for 60dB IF limiting amplifier. Keep traces physically short and connect immediately to ground plane for best performance. DC voltage reference for the IF limiting amplifiers. A 10nF capacitor from this pin to ground is required. IF input to the 60dB limiting amplifier strip. A 10nF DC blocking capacitor is required on this input. The IF2 IN input presents a nominal 330 input resistance and interfaces directly to 10.7MHz ceramic filters. IF2 IN IF2 BP+ 60 k 330 IF2 BP60 k 330 22 23 24 IF2 BP+ IF2 BPDATA OUT DC feedback node for the 60dB limiting amplifier strip. A 10nF bypass capacitor from this pin to ground is required. See pin 21. Demodulated data output from the demodulator. Output levels on this are TTL/CMOS compatible. The magnitude of the load impedance is intended to be 1M or greater. See pin 20. See pin 20. DATA OUT 25 RSSI A DC voltage proportional to the received signal strength is output from this pin. The output voltage range is 0.5V to 2.5V and increases with increasing signal strength. VCC RSSI 11 TRANSCEIVERS 26 FM OUT Linear output from the FM demodulator. This pin is used in analog applications when signal fidelity is important. FM OUT 27 DATA REF This pin is used for setting the adaptive Data Slicer DC reference level. A capacitor from this pin to ground can be used to set the reference level at the average DC level of the data bit stream.The DC level determines the bit decision threshold. This pin is the input to the FM demodulator. This pin is NOT AC coupled. Therefore, a DC blocking capacitor is required on this pin to avoid shorting the demodulator input with the LC tank. A ceramic discriminator or DC blocked LC tank resonant at the IF should be connected to this pin. 50 k DATA REF 28 DEMOD IN VCC IF Output VCC 10 k DEMOD IN 29 VCC4 This pin is used is supply DC bias to the 60dB IF limiting amplifier. An IF bypass capacitor should be connected directly to this pin and returned to ground. A 10nF capacitor is recommended for 10.7MHz IF applications. Rev A5 010404 11-189 RF2926 Pin 30 Function RESNTR+ Description This port is used to supply DC voltage to the VCO as well as to tune the center frequency of the VCO. Equal value inductors should be connected to this pin and pin 31 although a small imbalance can be used to tune in the proper frequency range. Interface Schematic RESNTR+ RESNTR- 4 k MOD IN 31 32 33 34 RESNTRVCC2 GND4 MOD IN See RESNTR+ description. See pin 30. 35 VCO OUT This pin is used is supply DC bias to the VCO and buffer amps. A 10nF capacitor is recommended for 10.7MHz IF applications. GND4 is the ground shared on chip by the VCO, prescaler, and PLL electronics. FM analog or digital modulation can be imparted to the VCO through See pin 30. this pin. The VCO varies in accordance to the voltage level presented to this pin. To set the deviation to a desired level, a voltage divider referenced to VCC is the recommended. This deviation is also dependent upon the overall capacitance of the external resonant circuit. This pin is used is supply a buffered VCO output to go to the PLL chip. This pin has a DC bias and needs to be AC coupled. VCO OUT 36 LO- Balanced input for the first LO. This signal is presented to both the receiver second downconverter and transmit upconvertor. LO- LO+ 37 38 39 LO+ GND8 UP CONV GND9 VCC1 Complementary input of LO-. Ground for LO amp and transmit upconvertor. Keep traces physically short and immediately to the ground plane for best performance. The output of the transmit signal upconvertor. This signal should be filtered to remove the undesired sideband and spurs before being applied to the PA input, pin 45. Same as pin 38. This pin is used to supply DC bias to the receiver RF electronics. A RF bypass capacitor should be connected directly to this pin and returned to ground. A 100pF capacitor is recommended for 915MHz applications. A 220pF capacitor is recommended for 433MHz applications. This pin is used to mute the data output (DATA OUT). MUTE>2.0V turns the DATA OUT signal on. MUTE<1.0V turns the DATA OUT signal off. The MUTE signal should be logic low in the Sleep Mode. See pin 36. 11 TRANSCEIVERS 40 41 See pin 38. 42 MUTE 75 k MUTE 25 k 43 MIX CA 44 45 PA INP VCC3 Mixer Current Adjust. This pin is used to adjust the current in the receiver. A resistor connected to ground controls the bias current in the mixer. The resistor should vary between 1k to open circuit to vary the current from 18mA to 10.6mA Input of the transmit power amplifier. This pin is used to supply DC bias to the transmitter PA. A RF bypass capacitor should be connected directly to this pin and returned to ground. A 100pF capacitor is recommended for 915MHz applications. A 220pF capacitor is recommended for 433MHz applications. 11-190 Rev A5 010404 RF2926 Pin 46 Function LVL ADJ Description This pin is used to vary the transmitter output power. An output level adjustment range greater than 12dB is provided through analog voltage control of this pin. DC current of the transmitter power amp is also reduced with output power. This pin MUST be low when the transmitter is disabled. 400 Interface Schematic 40 k LVL ADJ 4 k 47 PLL ENABL This pin is used to power up or down the VCO and PLL. A logic high (PLL ENABL>2.0V) powers up the VCO and PLL electronics. A logic low (PLL ENABL<1.0V) powers down the PLL and VCO. 50 k PLL ENABL 48 RX ENABL Enable pin for the receiver circuits. RX ENABL>2.0V powers up all receiver functions. RX ENABL<1.0V turns off all receiver functions except the PLL functions and the RF mixer. 50 k RX ENABL Pin Out PLL ENABL RX ENABL PA INPUT UP CONV LVL ADJ MIX CA MUTE GND9 GND8 38 VCC3 VCC1 48 TX ENABL 1 TX OUT 2 GND2 3 RX IN 4 GND1 5 LNA GND 6 LNA GND 7 LNA OUT 8 GND3 9 MIX IN 10 GND5 11 MIX OUT+ 12 13 MIX OUT- 47 46 Gain Control 45 44 43 42 41 40 39 37 36 LO35 VCO OUT 34 MODIN 33 GND4 32 VCC2 31 RESNTR30 RESNTR+ 29 VCC4 28 DEMOD IN LO+ 11 TRANSCEIVERS RSSI 27 DATA REF 26 FM OUT 25 RSSI 14 IF1 BP+ 15 IF1 IN 16 IF1 BP- 17 GND7 18 IF1 OUT 19 GND6 20 VREF IF 21 IF2 IN 22 IF2 BP+ 23 IF2 BP- 24 DATA OUT Rev A5 010404 11-191 11 TRANSCEIVERS 11-192 RF2926 10 22 pF Filter 22 pF 0.1 F 22 pF 22 pF 10 k 48 1 36 35 34 33 32 4.7 nH 6 31 30 D1 220 pF 9 22 pF 10 2 pF 11 12 10 0.1 F 22 pF 390 nH 5 pF Filter 47 k 2.7 k Filter DATA OUT 10 pF RSSI 22 nF 22 nF 22 nF 5 pF 560 nH 13 14 15 16 17 18 19 20 21 22 nF 22 23 24 22 nF FM OUT 26 FM Disc. VCC MUTE 0.1 F VCC LO INPUT 51 1 nF 1 nF 41 40 39 38 37 VCO OUT MOD IN LVL ADJ PLL ENABL RX ENABL 47 Gain Control 46 45 44 43 42 TX ENABL 22 pF 2 8.2 nH 3 4 pF 4 5 2 pF 10 k 22 pF 4 pF 22 pF 0.1 F 10 RF VCC 10 VCC 22 pF 0.1 F VCC 18 nH 8 29 28 RSSI 27 7 10 22 pF 6 pF LOOP FILTER 4.7 nH 10 VCC 5 pF 1.5 k 10 nF 22 pF 0.1 F 0.1 F LNA OUT Filter 18 nH 5 pF Application Schematic 915MHz MIX IN 25 VCC MIX OUT Rev A5 010404 RF2926 Evaluation Board Layout Board Size 3.04" x 3.04" Board Thickness 0.031", Board Material FR-4 11 TRANSCEIVERS Rev A5 010404 11-193 RF2926 11 TRANSCEIVERS 11-194 Rev A5 010404 |
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