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| 19-2145; Rev 1; 8/03 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands General Description The MAX2900-MAX2904 complete single-chip 200mW transmitters are designed for use in the 868MHz/ 915MHz frequency bands. The MAX2900/MAX2901/ MAX2902 are compliant with the FCC CFR47 part 15.247 902MHz to 928MHz ISM-band specifications. MAX2903/ MAX2904 are compliant with the ETSI EN330-220 specification for the European 868MHz ISM band. These transmitter ICs offer a high level of integration while minimizing the number of external components. This is achieved by full integration of the transmit modulator, power amplifier, RF VCO, 8-channel frequency synthesizer, and baseband PN sequence lowpass filter. By filtering the BPSK modulation, the spurious emissions are reduced, enabling up to eight independent transmit channels in the U.S. ISM band. Inputs are provided for spread-spectrum BPSK, ASK, and OOK. FM can be achieved by directly modulating the VCO. The devices are intended primarily for use with an external differential antenna. Features o Versions for U.S. 902MHz to 928MHz Band and European 868MHz Band o -7dBm to +23dBm Adjustable Differential RF Output Power o +23dBm Output Power at 4.5V, +20dBm Output Power at 3.0V o Support BPSK, OOK, ASK, and FM Modulations o Modulation Filter for Direct Sequence BPSK up to 8Mchips/s o Fully Integrated VCO with On-Chip Tank o Extremely Low Frequency Pulling for OOK Modulation (typ 60kHz peak, 5kHz RMS) o Integrated Frequency Synthesizer for up to 8 Channels (MAX2900) o +2.7V to +4.5V Supply Operation o Small 28-Pin QFN Package with Exposed Pad (5mm 5mm) MAX2900-MAX2904 Applications Automatic Meter Reading Wireless Security Systems/Alarms Wireless Sensors Wireless Data Networks Wireless Building Control PART MAX2900EGI MAX2901EGI MAX2902EGI MAX2903EGI MAX2904EGI Ordering Information TEMP RANGE -40C to +85C -40C to +85C -40C to +85C -40C to +85C -40C to +85C PIN-PACKAGE 28 QFN-EP* 28 QFN-EP* 28 QFN-EP* 28 QFN-EP* 28 QFN-EP* *Exposed pad Functional Diagrams/Pin Configurations CPOUT 28 VTUNE GND VREG VCC1 RLPF VCC5 27 D2 26 REFOUT VCC4 25 24 REFIN 23 OSC 22 21 D0 VTUNE GND VREG VCC1 RLPF 1 2 CPOUT 28 VCC5 27 DIV63 REFOUT VCC4 26 25 24 REFIN 23 OSC 22 21 VCO+ 20 VCO- 1 MAX2900 2 CP 3 4 5 6 7 8 GATE REG 8-CHANNEL SYNTHESIZER /4 19 N.C. 18 N.C. 17 RF+ 16 RF15 GND 10 11 12 13 14 3 4 5 6 7 8 REG 20 D1 CP MAX2901/ MAX2903 19 DIVOUT DUALCHANNEL (/62 OR /63) SYNTHESIZER 18 GND 17 RF+ 16 RFGATE 15 GND 10 11 12 13 14 EN REFEN EN REFEN 9 9 MODIN OOKIN VCC2 VASK LD PWRSET VCC3 MODIN OOKIN VCC2 VASK LD PWRSET VCC3 Functional Diagrams/Pin Configurations are continued at end of data sheet. ________________________________________________________________ Maxim Integrated Products 1 For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim's website at www.maxim-ic.com. 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands MAX2900-MAX2904 ABSOLUTE MAXIMUM RATINGS VCC to GND ...........................................................-0.3V to +5.0V Analog/Digital Input Voltage to GND..........-0.3V to (VCC + 0.3V) Analog/Digital Input Current ..............................................10A Continuous Power Dissipation (TA = +70C) 28-Pin QFN-EP (derate 28.5mW/C above +70C)............2W Operating Temperature Range ...........................-40C to +85C Junction Temperature .....................................................+150C Storage Temperature Range .............................-65C to +150C Lead Temperature (soldering, 10s) .................................+300C Stresses beyond those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. CAUTION! ESD SENSITIVE DEVICE Part Selection Information Five different versions are available. The versions differ by their frequency band of operation, and by the synthesizer's mode of operation. The MAX2900 has an internal 8-channel synthesizer. The MAX2901 and MAX2903 are dual-channel versions with a selectable internal synthesizer division ratio of 62 or 63. The MAX2901 operates in the 902MHz to 928MHz ISM band and the MAX2903 operates in the 867MHz to 870MHz European ISM band. PART MAX2900EGI MAX2901EGI MAX2902EGI MAX2903EGI MAX2904EGI FREQUENCY RANGE (MHz) 902 to 928 902 to 928 902 to 928 867 to 870 867 to 870 The MAX2902 and MAX2904 require an off-chip frequency synthesizer. The MAX2902 operates in the 902MHz- 928MHz ISM band and MAX2904 operates in the 867MHz-870MHz European ISM band. The MAX2901-MAX2904 provide LO outputs to drive a receiver and/or an external synthesizer. SYNTHESIZER Internal 8 selectable channels Internal 2 selectable channels Off-chip Internal 2 selectable channels Off-chip LO OUTPUTS No Yes Yes Yes Yes DC ELECTRICAL CHARACTERISTICS (VCC = +2.7V to +4.5V, EN = OOKIN = REFEN = high, TA = -40C to +85C. Typical values are at VCC = +4.5V, TA = +25C, unless otherwise noted.) (Note 1) PARAMETER Supply Voltage Shutdown mode: EN = REFEN = low VCC = +4.0V VCC = +4.5V CONDITIONS MIN 2.7 -3 TYP 4.5 0.7 60 32 +3 MAX 4.5 10 200 40 UNITS V A Synth mode: OOKIN = low (MAX2900/MAX2901/MAX2903 only) Supply Current Transmit mode with output matching optimized for +23dBm at +4.5V: PWRSET loaded with 22k resistor Transmit mode with output matching optimized for +20dBm at +3.0V: PWRSET loaded with 22k resistor TA = -40C to +85C 150 200 mA TA = -40C to +85C 110 135 2 _______________________________________________________________________________________ 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands DC ELECTRICAL CHARACTERISTICS (continued) (VCC = +2.7V to +4.5V, EN = OOKIN = REFEN = high, TA = -40C to +85C. Typical values are at VCC = +4.5V, TA = +25C, unless otherwise noted.) (Note 1) PARAMETER CONDITIONS Transmit mode with output matching optimized for +17dBm at +3.0V: PWRSET loaded with 36k resistor Transmit mode with output matching optimized for +14dBm at +3.0V: PWRSET loaded with 51k resistor MIN -3 TYP +3 MAX UNITS MAX2900-MAX2904 TA = +25C 75 Supply Current (continued) TA = +25C 57 mA Reference-only mode: EN = low PA standby mode: OOKIN = low (MAX2902/MAX2904 only) VCO Input Tuning Pin Current VREG VCO Regulator Voltage DIGITAL INPUT/OUTPUTS (PINS EN, REFEN, D0, D1, D2, MODIN, OOKIN, LD) Input Level High Input Level Low Input Bias Current Output Level High Output Level Low Output Current ANALOG CONTROL INPUTS (PINS PWRSET, RLPF, VASK) PWRSET Voltage RLPF Voltage VASK Input Impedance 100 -100 -10 VCC - 0.4 VCC - 0.5V VTUNE = +4.5V, TA = +25C 2 29 0.02 2.0 3 33 2 A V V 0.5 10 V A V 0.4 100 1.2 1.2 220 400 V A V V k _______________________________________________________________________________________ 3 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands MAX2900-MAX2904 AC ELECTRICAL CHARACTERISTICS (MAX290_ EV kits. VCC = +2.7V to +4.5V, RRLPF = 68k, RPWRSET = 22k, fRF = 917.28MHz (MAX2900/MAX2901/MAX2902) or fRF = 868MHz (MAX2903/MAX2904), VASK = VREG, f REF = 14.56MHz (MAX2900/MAX2901/MAX2902) or f REF = 13.62MHz (MAX2903/MAX2904), chip rate on MODIN = 1.22Mbps, POUT = +23dBm, TA = -40C to +85C. Typical values are at VCC = +4.5V, TA = +25C, unless otherwise noted.) (Note 1) PARAMETER ANALOG INPUT PINS VTUNE Input Capacitance DIGITAL INPUT PINS Digital Input Pin Capacitance VCO AND SYNTHESIZERS SECTION RFOUT Frequency Range REFIN Reference Frequency Range REFDIV Fixed Reference Divider Ratio Main Divider Ratios PLL Comparison Frequency VCO Buffer Output Power REFDIV Fixed Reference Divider Ratio VCO Phase Noise VCO Tuning Gain VCO Frequency Pulling with OOK Modulation PLL Phase Noise REFOUT Voltage Swing CPOUT Charge Pump Current Reference Spurs Reference Input Voltage for Nominal Operation MODIN Frequency Range Modulation Filter Nominal 3dB Bandwidth Modulation Filter Final Attenuation Measured at 30MHz Carrier Suppression Noise Power Density At 960MHz (measured at RFOUT at +23dBm output power) 28 Using an external frequency reference 200 (MAX2900/MAX2901/MAX2902) (MAX2903/MAX2904) (MAX2900/MAX2901/MAX2902) (MAX2903/MAX2904) (MAX2900) Table 4 (MAX2900) (MAX2901/MAX2903) (MAX2900) (MAX2901/MAX2903) 300 differential load (MAX2901-MAX2904) (MAX2901/MAX2903) At 100kHz offset, measured at RFOUT, PLL loop BW = 5kHz VTUNE = +1.35V OOKIN clocked at 19kHz, internal (crystal) or external reference frequency Measured at RFOUT, 5kHz offset, PLL loop BW = 50kHz 100 500 -62 300 44 1 902 867 14 13 4 249 62 3.5 13 -12 1 -101 65 5 60 -96 86 1 dBc/Hz MHz/V kHz RMS kHz peak dBc/Hz mVp-p A dBc mV 3.64 917.28 868 14.56 13.78 4 928 870 15 14.5 4 256 63 3.75 15 MHz dBm MHz MHz 3 pF VTUNE = +1.35V 15 pF CONDITIONS MIN -3 TYP +3 MAX UNITS BPSK, OOK MODULATOR, AND PA 1.2 1 41 28 -150 8 Mb/s MHz dB dB dBc/Hz 4 _______________________________________________________________________________________ 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands AC ELECTRICAL CHARACTERISTICS (continued) (MAX290_ EV kits. VCC = +2.7V to +4.5V, RRLPF = 68k, RPWRSET = 22k, fRF = 917.28MHz (MAX2900/MAX2901/MAX2902) or fRF = 868MHz (MAX2903/MAX2904), VASK = VREG, f REF = 14.56MHz (MAX2900/MAX2901/MAX2902) or f REF = 13.62MHz (MAX2903/MAX2904), chip rate on MODIN = 1.22Mbps, POUT = +23dBm, TA = -40C to +85C. Typical values are at VCC = +4.5V, TA = +25C, unless otherwise noted.) (Note 1) PARAMETER CONDITIONS PWRSET = 22k, VCC = +4.5V, TA = +25C RF Output Power PWRSET = 22k, VCC = +4.5V, TA = -40C to +85C PWRSET = 22k, VCC = +3.0V, TA = +25C RF Output Power Flatness Adjacent Channel Power Ratio Alternate Channel Power Ratio OOK Control Range ASK Output Power Adjustment Range RFOUT Rise and Fall Time ASK output power backoff relative to max power OOKIN = high, VASK = 0 OOKIN = high, VASK = 1V fRF = 900MHz to 930MHz (MAX2900/MAX2901/MAX2902) fRF = 867MHz to 870MHz PN sequence at 1.22MHz PN sequence at 1.22MHz 40 MIN -3 21 20.5 18 20 0.3 0.1 -17 -26 80 41 dB 16 1 -50 -51 -63 dBc < -70 s dBc dBc dB TYP 23.5 +3 25 25 21 dB dBm MAX UNITS MAX2900-MAX2904 Square-wave signal applied on OOK At 2nd harmonic of RF output frequency with external matching network At 3rd harmonic of RF output frequency with external matching network At 4th harmonic of RF output frequency with external matching network Out of 902MHz to 928MHz band other than harmonics with external matching network (MAX2900/MAX2901/MAX2902) Out of 867MHz to 870MHz band other than harmonics with external matching network (MAX2903/MAX2904) Spurious Emissions < -70 Unlocked, Out-of-Band Spurious Output Level Any condition when synthesizer unlocked (pin LD low) Modulation off, measured at 960MHz, any gain setting (MAX2900/MAX2901/MAX2902) < -50 -126 -126 2:1 2:1 -120 dBm Noise Level Out of Band Modulation off, measured at 900MHz, any gain setting (MAX2903/MAX2904) Output VSWR for Guaranteed Stability Maximum Allowable Output VSWR -120 dBm/Hz Note 1: Devices are production tested at TA = +25C and +85C. Min/Max values are guaranteed by design and characterization over temperature and supply voltage. _______________________________________________________________________________________ 5 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands MAX2900-MAX2904 Typical Operating Characteristics (MAX290_ EV kits. VCC = +4.5V, fRF = 917.28MHz (MAX2900/MAX2901/MAX2902) or fRF = 868MHz (MAX2903/MAX2904), RRLPF = 68k, RPWRSET = 22k, VASK = VREG, fREF = 14.56MHz (MAX2900/MAX2901/MAX2902) or fREF = 13.78MHz (MAX2903/MAX2904), chip rate on MODIN = 1.22 Mbps, RF output matching network optimized for +23dBm, V CC = 4.5V, T A = +25C, unless otherwise noted.) SUPPLY CURRENT vs. VCC MAX2900 toc01 SHUTDOWN CURRENT vs. VCC MAX2900 toc02 OUTPUT POWER vs. VCC MAX2900 toc03 160 150 SUPPLY CURRENT (mA) 140 130 120 110 100 90 80 2.5 3.0 3.5 VCC (V) 4.0 TA = -40C TA = +85C TA = +25C 100 26 SHUTDOWN CURRENT (A) 24 OUTPUT POWER (dBm) TA = +25C TA = +85C 10 22 TA = +85C 1 TA = -40C 20 18 TA = -40C 0.1 4.5 2.5 3.0 3.5 VCC (V) 4.0 4.5 TA = +25C 16 2.5 3.0 3.5 VCC (V) 4.0 4.5 VCO PHASE NOISE AT 917.28MHz MAX2900 toc04 VCO SUPPLY PUSHING vs. VCC MAX2900 toc05 PLL LOCK TIME MAX2900 toc06 -40dBc/Hz 918.0 917.5 OUTPUT FREQUENCY (MHz) 917.0 916.5 916.0 915.5 100kHz 20kHz/div -140dBc/Hz FREQUENCY OFFSET (MHz) 915.0 2.5 3.0 3.5 VCC (V) 4.0 4.5 -100kHz START 0s STOP 30s LOWPASS FILTER 3-dB RESPONSE vs. RRLPF MAX2900 toc07 BPSK MODULATION OUTPUT vs. TIME MAX2900 toc08 RF POWER vs. FREQUENCY (MAX2900/MAX2901/MAX2902) A B C RF POWER (dBm) 23 22 21 20 19 E D F A: VCC = 4.5V, TA = -40C B: VCC = 4.5V, TA = +25C C: VCC = 4.5V, TA = +85C D: VCC = 2.7V, TA = -40C E: VCC = 2.7V, TA = +25C F: VCC = 2.7V, TA = +85C MAX2900 toc09 3500 LOWPASS FILTER 3-dB BANDWIDTH (kHz) 3000 2500 2000 225deg 25 24 45deg/div 1500 1000 500 0 10 20 30 40 RRLPF (k) 50 60 70 -225deg START 0s STOP 40s 18 900 905 910 915 920 925 930 FREQUENCY (MHz) 6 _______________________________________________________________________________________ 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands Typical Operating Characteristics (continued) (MAX290_ EV kits. VCC = +4.5V, fRF = 917.28MHz (MAX2900/MAX2901/MAX2902) or fRF = 868MHz (MAX2903/MAX2904), RRLPF = 68k, RPWRSET = 22k, VASK = VREG, fREF = 14.56MHz (MAX2900/MAX2901/MAX2902) or fREF = 13.78MHz (MAX2903/MAX2904), chip rate on MODIN = 1.22 Mbps, RF output matching network optimized for +23dBm, V CC = 4.5V, T A = +25C, unless otherwise noted.) RF POWER vs. FREQUENCY (MAX2903/MAX2904) RF OUTPUT MATCHING OPTIMIZED FOR +14dBm OUTPUT AT VCC = +3.0V VCC = +3.6V MAX2900 toc10 MAX2900-MAX2904 OUTPUT SPECTRUM WITH 600kHz SQUARE WAVE INPUT AT MODIN MAX2900 toc11 OUTPUT SPECTRUM WITH PN SEQUENCE AT 1.22MHz AT MODIN MKR 917.35MHz 8.17dBm MAX2900 toc12 17 30dBm 16 RF POWER (dBm) MKR 917.31MHz -16.33dBm 30dBm 15 VCC = +3.0V 14 VCC = +2.7V 13 10dB/div 10dB/div 12 860 864 868 FREQUENCY (MHz) 872 876 -70dBm CENTER 917.28MHz SPAN 20MHz -70dBm CENTER 917.28MHz SPAN 20MHz RF OUT RISE AND FALL TIME TRANSIENT WITH SQUARE OOK Tr Tf MAX2900 toc13 RF OUT RISE AND FALL TIME TRANSIENT WITH SQUARE ASK MAX2900 toc14 SPURIOUS LEVEL FROM DC TO 7TH HARMONIC MKR 910MHz 23.17dBm MAX2900 toc15 0dBVp-p 22dBVp-p 30dBm Tr Tf 10dB/div 10dB/div 10dB/div -100dBVp-p START 46s STOP 86s -78dBVp-p -70dBm START 45s STOP 85s START 0Hz STOP 7GHz SPURIOUS LEVEL BETWEEN 50MHz FROM CARRIER FREQUENCY MAX2900 toc16 TRANSMITTER EFFICIENCY vs. RPWRSET 40 35 30 25 20 15 A B C D E F MAX2900 toc17 30dBm 45 TRANSMITTER EFFICIENCY (%) 10dB/div -70dBm CENTER 917.28MHz SPAN 100MHz 10 14 A: VCC = 4.5V, TA = -40C B: VCC = 4.5V, TA = +25C C: VCC = 4.5V, TA = +85C D: VCC = 2.7V, TA = -40C E: VCC = 2.7V, TA = +25C F: VCC = 2.7V, TA = +85C 18 22 26 30 34 38 RPWRSET (k) _______________________________________________________________________________________ 7 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands MAX2900-MAX2904 Pin Description MAX2900 1 2 3 PIN MAX2901 MAX2903 1 2 3 MAX2902 MAX2904 1 2 3 NAME VTUNE GND VREG PIN TYPE Analog Input Supply Pin Analog Input/Output FUNCTION VCO tuning voltage input Ground Regulated voltage output to supply the VCO. Bypass with a 0.01F capacitor to GND as close to the part as possible. Power supply pin for VCO circuits. Bypass with a 1000pF and a 10F capacitor to GND as close to the part as possible. 4 4 4 VCC1 Supply Pin 5 6 7 8 9 5 6 7 8 9 5 6 7 8 9 RLPF EN REFEN MODIN OOKIN Analog Input Resistor to ground on this pin sets the Resistor to Ground modulation filter bandwidth. Digital Input Digital Input Digital Input Digital Input Chip-enable digital input pin. Set EN low maintain the chip in power-down mode. Enable for crystal oscillator and frequency reference buffer. BPSK modulation input On-off keying modulation. On state = high. Power supply pin for internal RF buffer circuits. Bypass with a 100pF and a 0.01F capacitor to GND as close to the part as possible. ASK voltage input pin Lock detector output digital pin. Level is high when PLL is inside lock range. 10 10 10 VCC2 Supply 11 12 -- 13 11 12 -- 13 11 -- 12 13 VASK LD D.C. PWRSET Analog Voltage Input Digital Output Do NOT Connect -- Analog Input Current input set to adjust output power. Resistor to Ground Supply Power supply pin for RF power amplifier circuits. Bypass with a 100pF capacitor to GND as close to the part as possible. 14 14 14 VCC3 8 _______________________________________________________________________________________ 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands MAX2900-MAX2904 Pin Description (continued) PIN MAX2900 15 16, 17 18 -- -- 19 -- -- 20 21 22 MAX2901 MAX2903 15 16, 17 -- 18 -- -- 19 20, 21 -- -- 22 MAX2902 MAX2904 15 16, 17 -- -- 18 19 -- 20, 21 -- -- 22 NAME GND RF-, RF+ N.C. GND D.C. N.C. DIVOUT VCO-, VCO+ D1 D0 OSC PIN TYPE Supply Pin RF Output Not Connected Supply Pin Do Not Connect Not Connected ECL Output Open Collector RF Digital Input Digital Input Analog Input Analog Voltage Input Ground RF differential output, open-collector type -- Ground -- -- Divider output VCO output (differential) Channel selection bit 1 Channel selection bit 0 Crystal oscillator connection. See Typical Operating Circuit. Reference input pin analog (can be used as input or as crystal oscillator driver). See Typical Operating Circuit. Power-supply pin for the synthesizer circuits. Bypass with a 1000pF capacitor to GND as close to the part as possible. Power-supply pin for the digital circuits. Bypass with a 100pF capacitor to GND as close to the part as possible. Buffered clock analog output pin Channel selection bit 2 Division ratio selections (division ratio = 62 when DIV63 = high; division ratio = 63 when DIV63 = low). -- Power-supply pin for charge pump circuits. Bypass with a 100pF capacitor to GND as close to the part as possible. Power-supply pin. Bypass with a 100pF capacitor to GND as close to the part as possible. Charge pump output pin -- Back side of package is connected to ground. FUNCTION 23 23 23 REFIN 24 24 -- VCC4 Supply Pin -- 25 26 -- -- 27 -- 25 -- 26 -- 27 24 25 -- -- 26 -- VCC4 REFOUT D2 DIV63 N.C. VCC5 Supply Pin Analog Output Digital Input Digital Input Not Connected Supply Pin -- 28 -- GROUND -- 28 -- GROUND 27 -- 28 GROUND VCC5 CPOUT D.C. GROUND Supply Pin Analog Output Do Not Connect Electrical Ground _______________________________________________________________________________________ 9 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands MAX2900-MAX2904 Detailed Description Principles of Operation When EN goes high, the reference and the VCO start while the PA stays in the off mode. For MAX2900/ MAX2901/MAX2903, the PLL also starts when EN goes high. After the lock-detect pin LD goes high, the PA is set to stand-by mode. For the MAX2902/MAX2904, the VCO loop has to be closed by using an external synthesizer. After this, pulling OOKIN high turns on the PA. The internal modulation filter smoothes the power ramp-up of the PA. The modulation filter BW is typically 0.8MHz, used for a 1.22Mbps chip rate, and can be adjusted by varying RLPF. A high value can be used for RLPF to get a slow PA ramping up when BPSK is not used. The reference blocks can be turned on separately (and earlier) by pulling REFEN high, to allow the crystal frequency to settle. The device supports various modulation modes: * BPSK, filtered by the internal modulation filter, is obtained through the MODIN pin. This is the preferred mode of operation for MAX2900. OOK is obtained digitally with the OOKIN pin. ASK is obtained through the ASK pin. TO INTERNAL CONTROL CIRCUIT 3) Transmit mode: Pin EN and REFEN are high. If output pin LD is high, the device is ready to transmit. When OOKIN is high, the power amplifier is turned on. The current consumption varies between 50mA and 120mA, depending on the output power requested by the combination of the OOK duty cycle, the PWRSET value, and output matching circuit. 4) Reference Only mode: This mode enables the use of the crystal reference from the IC to drive the external logic ICs. To obtain this mode, set the REFEN pin high and EN low. In this mode, only the reference circuit turns on, the crystal oscillator starts, and the clock is present at the REFOUT pin. The current consumption remains much lower than that in the SYNTH mode because the VCO, synthesizer, and PA standby circuits are off. When EN goes high, the IC goes into the SYNTH mode. Synthesizer Programming The three pins D0-D2 (MAX2900) and DIV63 (MAX2901/ MAX2903) are used as digital entries to program the synthesizer division ratios. Tables 4 and 5 show the division ratios obtained for the various pin logic levels. * * * * FM is imposed on the VCO or the reference. FM is the preferred mode of operation for the MAX2903/MAX2904 due to the narrowband operation common in Europe. The maximum output power is set by the output matching network and the external biasing resistor on the PWRSET pin. For the MAX2901-MAX2904, differential LO outputs are provided to drive a companion receiver and/or an external synthesizer. PIN PWRSET 100 1.2V INTERNAL CIRCUITS EXTERNAL RESISTOR Figure 1. PIN PWRSET Equivalent Circuit Power-Up Modes The circuit has four modes of operations, defined as follows: 1) Shutdown mode: Pin EN and REFEN are low, all functions are off, and the current consumption is leakage only. 2) Synth mode: Pin EN and REFEN are high, pin OOKIN is low. The reference circuits, VCO, and synthesizer are turned on. The power amplifier is in stand-by mode. Total current is less than 50mA. Note that as long as the LD pin is not going high, indicating that the PLL is unlocked, OOKIN high is ignored. Analog Input Control Pins The two pins PWRSET and VASK are analog inputs used to control the power of the transmitter. The equivalent input schematics are defined in Figures 1, 2, and 3. The PWRSET pin sets the biasing of the amplification chain. Because the last stage of the amplifier operates in saturation, the output power mostly depends on the load and supply voltage. The purpose of the PWRSET resistor is to achieve optimum biasing (and therefore efficiency) for various maximum output power configurations. For a given application with a known operating voltage and peak power, a fixed value of resistor is determined. The output power range of -7dBm to +23dBm at 4.5V is obtained by choosing a combination of output load line and the resistor on PWRSET; 22k is 10 ______________________________________________________________________________________ 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands used on the EV kit board for +23dBm output power at 4.5V, and 22k is also recommended for +20dBm output power at +3.0V. For +17dBm at 3.0V, 36k is recommended. The current consumption, efficiency, and distortion in the amplification chain are affected by the choice of the resistor RPWRSET, offering a lot of design flexibility. TO VREG (2.1V) TO INTERNAL CONTROL CIRCUIT The RLPF pin sets the bandwidth of the modulation filter. The default filter bandwidth, obtained with a 68k resistor, is for 1.2Mchips/s. The bandwidth is increased to accommodate 5Mchips/s by decreasing the resistor value to about 26k. The minimum value for the resistor is 12k, which generates the maximum filter bandwidth. A higher value can be used in FM mode to set up a slow ramp-up time for the PA. MAX2900-MAX2904 Data Filter Characteristics The data filter approximates a 3rd-order Butterworth filter. The 3dB cut-off frequency is adjusted through the resistor on pin RLPF, which controls the first two poles of the filter (the last high-frequency pole is fixed and set around 10MHz). The filter is adjustable in a range from approximately 700kHz to 7MHz. With the nominal setting (3dB cut off at 0.8MHz), the filter attenuation is 10dB at 3.6MHz. If used with a BPSK at 1.22MHz, this provides about 30dB of modulation rolloff at 3.6MHz. Hence, a significant channelization effect is obtained. In the wideband setting (3dB cut off at 5MHz), the attenuation at 30MHz is still 30dB, helping to pass the FCC spurious emissions at 960MHz. PIN VASK >200k INTERNAL CIRCUITS EXTERNAL RESISTOR BRIDGE 1.5V Figure 2. PIN VASK Equivalent Circuit The VASK pin is an input to the internal gain control circuitry. The gain control is greater than 30dB over the full range of input voltages from 0 to VREG = 2.1V. This input is used for ASK modulation. At 1V, a typical 15dB attenuation is obtained from the peak power. When this input is not used, connect VASK to VREG. The RLPF input controls the modulation filter center frequency. TO INTERNAL CONTROL CIRCUIT PIN RLPF 100 1.2V INTERNAL CIRCUITS EXTERNAL RESISTOR Figure 3. PIN RLPF Equivalent Circuit ______________________________________________________________________________________ 11 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands MAX2900-MAX2904 Table 1. MAX2900 Power-Up Modes LOGIC LEVEL REFEN 0 1 1 1 EN 0 0 1 1 OOKIN X X 0 1 REFERENCE Off On On On INTERNAL BLOCK STATUS VCO MOD FILTER Off Off On On SYNTHESIZER Off Off On On PA Off Off Off On only after LD goes high Table 2. MAX2901/MAX2903 Power-Up Modes REFEN 0 1 1 1 EN 0 0 1 1 OOKIN X X 0 1 REFERENCE Off On On On VCO MOD FILTER Off Off On On SYNTHESIZER Off Off On On PA Off Off Off On only after LD goes high Table 3. MAX2902/MAX2904 Power-Up Modes REFEN 0 1 0 1 0 1 EN 0 0 1 1 1 1 OOKIN X 0 0 0 1 1 REFERENCE Off On Off On Off On VCO MOD FILTER Off Off On On On On PA Off Off Off Off On On Table 4. MAX2900 Synthesizer Programming D0 0 0 0 0 1 1 1 1 D1 1 1 0 0 1 1 0 0 D2 1 0 1 0 1 0 1 0 DIVISION RATIO 249 250 251 252 253 254 255 256 Table 5. MAX2901/MAX2903 Synthesizer Programming DIV 63 0 1 DIVISION RATIO 62 63 12 ______________________________________________________________________________________ C25 EXT REFERENCE (OPT) C23 REFOUT C28 C24 C26 Y1 (OPT) WBFM (OPT) VCC5 REFOUT CPOUT D2 26 D0 1 21 D0 D1 C15 L3 18 N.C. C31 RLPF 5 17 RF6 7 8 9 10 11 12 13 14 GATE 15 GND L2 16 L1 C32 L4 C16 C34 EN REFEN RF+ C33 L5 25 24 23 22 VCC4 OSC R3 28 27 C35 VTUNE R1 C2 C1 R4 MAX2900 20 CP /4 19 N.C. REG 8-CHANNEL SYNTHESIZER D1 GND 2 3 4 VREG C3 C4 VCC1 C13 REFIN LOOP ANTENNA R5 VCC2 VASK LD VREG R6 C8 ASK (OPT) VCC3 C12 VCC_DRV VCC_PA OOK R7 R8 MAX2900-MAX2904 ______________________________________________________________________________________ Typical Operating Circuits MAX2900 TYPICAL OPERATING CIRCUIT PWRSET C18 MODIN (PN) MODIN OOKIN 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands 13 MAX2900-MAX2904 VCC5 REFOUT CPOUT VCC4 OSC 22 24 23 R1 28 27 26 25 R3 DIV63 REFIN OOK R6 C8 VREG ASK (OPT) PWRSET 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands 14 C25 EXT REFERENCE /FM INPUT C23 REFOUT C28 C24 C26 Y1 WBFM (OPT) VCC R11 R10 C37 21 20 DIVOUT 19 C15 L3 C31 17 16 RFGND L2 RF+ L1 C32 L4 C16 C34 C33 VCOVCO+ C2 C35 1 GND 2 CP VREG 3 4 5 6 7 8 9 10 11 12 13 14 GATE 15 REG 18 GND VTUNE C1 R4 MAX2901/ MAX2903 VCOOUT C3 C4 VCC1 C13 RLPF R5 REFEN EN DUALCHANNEL (/62 OR /63) SYNTHESIZER L5 LOOP ANTENNA VCC2 VASK LD MODIN OOKIN VCC3 C12 VCC_DRV VCC_PA MODIN (PN) C18 ______________________________________________________________________________________ R7 R8 Typical Operating Circuits (continued) MAX2901/MAX2903 TYPICAL OPERATING CIRCUIT REFFREQ /FM CPOUT REFIN C28 C26 WBFM (OPT) VCC D.C. REFOUT 25 24 23 22 VCC5 N.C. VCC4 REFIN OSC R11 21 20 VCOVCO+ 27 26 R3 28 R1 1GHz FREQUENCY SYNTH R10 C37 RFIN VCOOUT C15 L3 C2 C35 1 2 3 4 REG 18 D.C. C31 17 RF6 7 8 9 10 11 12 13 14 GATE 15 GND L2 16 C32 RF+ L1 L4 C16 C34 C33 L5 19 N.C. GND VREG VTUNE C1 R4 C3 C4 VCC1 C13 RLPF 5 R5 REFEN EN MAX2902/ MAX2904 LOOP ANTENNA VCC2 VASK D.C. VREG R6 C8 ASK (OPT) C18 VCC3 C12 VCC_DRV VCC_PA OOK R7 R8 MAX2900-MAX2904 ______________________________________________________________________________________ Typical Operating Circuits (continued) MAX2902/MAX2904 TYPICAL OPERATING CIRCUIT PWRSET MODIN (PN) MODIN OOKIN 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands 15 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands MAX2900-MAX2904 Functional Diagrams/ Pin Configurations (continued) TRANSISTOR COUNT: 898 D.C. 28 VTUNE GND VREG VCC1 RLPF Chip Information VCC5 27 N.C. 26 REFOUT VCC4 25 24 REFIN 23 OSC 22 21 VCO+ 20 VCO19 N.C. 1 2 3 4 5 6 7 8 GATE REG MAX2902/ MAX2904 18 D.C. 17 RF+ 16 RF15 GND EN REFEN 9 10 11 12 13 14 MODIN OOKIN VCC2 VASK D.C. PWRSET VCC3 16 ______________________________________________________________________________________ 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands Package Information (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to www.maxim-ic.com/packages.) 32L QFN.EPS MAX2900-MAX2904 ______________________________________________________________________________________ 17 200mW Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands MAX2900-MAX2904 Package Information (continued) (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to www.maxim-ic.com/packages.) Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. 18 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 (c) 2003 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products. |
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