max2900etit Maxim Integrated Products, Inc., max2900etit Datasheet
max2900etit
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max2900etit Summary of contents
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Rev 1; 8/03 200mW Single-Chip Transmitter ICs for 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 ...
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Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands ABSOLUTE MAXIMUM RATINGS V to GND ...........................................................-0.3V to +5.0V CC Analog/Digital Input Voltage to GND..........-0. Analog/Digital Input Current ..............................................±10µA Continuous Power Dissipation (T = +70°C) A 28-Pin QFN-EP (derate 28.5mW/°C ...
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Single-Chip Transmitter ICs for DC ELECTRICAL CHARACTERISTICS (continued +2.7V to +4.5V OOKIN = REFEN = high otherwise noted.) (Note 1) PARAMETER Transmit mode with output matching optimized for +17dBm at +3.0V: PWRSET loaded ...
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Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands AC ELECTRICAL CHARACTERISTICS (MAX290_ EV kits +2.7V to +4.5V 868MHz (MAX2903/MAX2904), VASK = VREG, f (MAX2903/MAX2904), chip rate on MODIN = 1.22Mbps +25°C, unless ...
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Single-Chip Transmitter ICs for AC ELECTRICAL CHARACTERISTICS (continued) (MAX290_ EV kits +2.7V to +4.5V 868MHz (MAX2903/MAX2904), VASK = VREG, f (MAX2903/MAX2904), chip rate on MODIN = 1.22Mbps +25°C, unless otherwise noted.) ...
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Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands (MAX290_ EV kits +4.5V 917.28MHz (MAX2900/MAX2901/MAX2902 68kΩ 22kΩ, VASK = VREG, f PWRSET chip rate on MODIN = 1.22 Mbps, RF output ...
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Single-Chip Transmitter ICs for (MAX290_ EV kits +4.5V 68kΩ 22kΩ, VASK = VREG, f PWRSET chip rate on MODIN = 1.22 Mbps, RF output matching network optimized for +23dBm, V otherwise noted.) ...
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Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands PIN MAX2901 MAX2902 MAX2900 MAX2903 MAX2904 ...
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Single-Chip Transmitter ICs for PIN MAX2901 MAX2902 MAX2900 MAX2903 MAX2904 16, 17 16 — — — 18 — — — — 19 — 19 — — 20, 21 20, 21 ...
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Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands 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 ...
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Single-Chip Transmitter ICs for used on the EV kit board for +23dBm output power at 4.5V, and 22kΩ is also recommended for +20dBm out- put power at +3.0V. For +17dBm at 3.0V, 36kΩ is rec- ommended. The current consumption, ...
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Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands Table 1. MAX2900 Power-Up Modes LOGIC LEVEL REFEN EN OOKIN Table 2. MAX2901/MAX2903 Power-Up Modes REFEN EN OOKIN 0 0 ...
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Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands ______________________________________________________________________________________ Typical Operating Circuits 13 ...
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Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands DIV63 14 ______________________________________________________________________________________ Typical Operating Circuits (continued) ...
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Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands ______________________________________________________________________________________ Typical Operating Circuits (continued) 15 ...
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Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands Functional Diagrams/ Pin Configurations (continued VTUNE 1 2 GND 3 VREG REG 4 VCC1 MAX2902/ MAX2904 RLPF GATE 7 REFEN ...
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Single-Chip Transmitter ICs for (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.) ______________________________________________________________________________________ 868MHz/915MHz ISM Bands Package Information 17 ...
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Single-Chip Transmitter ICs for 868MHz/915MHz ISM Bands (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 ...