general description the max2383 upconverter and pa driver ic is designed for emerging arib (japan) and etsi-umts (europe) w-cdma applications. the ic includes an upconversion mixer with variable gain con- trol, an lo buffer, and a variable-gain pa driver for out- put power control. the max2383 is designed to support the imt-2000 frequency band. it includes a differential if input port, an lo input port, and pa driver input/output ports. the upconverter mixer incorporates an agc with over 30db of gain control. the ic provides automatic throttle-back of pa driver and mixer current as output power is reduced. the main signal path and the lo buffer can be shutdown independently. the on-chip lo buffer can be kept on while the main transmitter path is being turned on and off to minimize vco pulling during tx gated-transmission. the max2383 is specified for +2.7v to +3.0v single supply and is housed in an ultra-miniature 3 x 4 ucsp� package for optimum cost- and space-reduc- tion and for best rf performance. the ic is targeted for the 2270mhz to 2580mhz lo frequency range. it is fabricated using an advanced high-frequency bipolar process. the mixer and pa driver linearity have been optimized to provide excellent rf performance in the 1920mhz to 1980mhz band, while drawing minimal current. the mixer? performance is optimized for a -10dbm ?db lo drive at the lo buffer input port. the lo port can be configured to be driven either single- ended or differentially. the max2383 achieves excellent noise and image sup- pression without the use of an interstage tx saw band- pass filter, thereby saving valuable board space, cost, and supply current. for lna and downconverter mixer companion ics, see the max2387/max2388/max2389 data sheet. applications japanese 3g cellular phones (arib) european 3g cellular phones (umts) chinese 3g cellular phones (td-scdma) pcs phones features +6dbm output power with -46dbc acpr ultra-miniature ucsp package upconverter gain-control range: 35db automatic dynamic current control 12ma quiescent supply current on-chip lo buffer with disable low out-of-band noise power in rx band: -144dbm/hz at +6dbm p out no interstage tx saw bandpass filter required actual size ucsp 2mm ? 1.5mm max2383 w-cdma upconverter and pa driver with power control ________________________________________________________________ maxim integrated products 1 lo+ / lo_en a1 b1 c1 c2 a2 c3 a3 b3 b4 c4 a4 lo-/ shdn pa drvr if in- if in+ rf out gnd drin gc v cc drout gnd top view max2383 block diagram ordering information 19-2108; rev 1; 8/03 for pricing, delivery, and ordering information, please contact maxim/dallas direct! at 1-888-629-4642, or visit maxim? website at www.maxim-ic.com. evaluation kit available part temp range pin-package MAX2383EBC-T -40 � c to +85 � c 3 x 4 ucsp pin configuration appears at end of data sheet. typical operating circuit appears at end of data sheet. ucsp is a trademark of maxim integrated products, inc.
max2383 w-cdma upconverter and pa driver with power control 2 _______________________________________________________________________________________ absolute maximum ratings dc electrical characteristics (v cc = +2.7v to +3.0v, shdn = +1.5v, t a = -40 � c to +85 � c. typical values are at v cc = +2.85v, t a = +25 � c, unless otherwise noted.) stresses beyond those listed under ?bsolute maximum ratings?may cause permanent damage to the device. these are stress rating s only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specificatio ns is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. v cc , rf out to gnd ..............................................-0.3v to +6.0v ac signals ................................................................+1.0v peak shdn , lo_en, v gc to gnd ......................-0.3v to (v cc + 0.3v) digital input current ....................................................... 10ma continuous power dissipation (t a = +70 � c) 12-pin ucsp (derate 80mw/ � c above +70 � c) ........ 628mw operating temperature range ..........................-40 � c to +85 � c junction temperature .....................................................+150 � c storage temperature range ............................-65 � c to +160 � c lead temperature (bump reflow) ..................................+235 � c parameter symbol conditions min typ max units supply voltage v cc 2.7 2.85 3.0 v p drout = +6dbm, v gc = 2.0v 34 44 operating supply current i cc p if -35dbm, v gc = 1.4v 12 20 ma shutdown supply current i cc shdn = 0.5v, lo_en = 0.5v, v gc = 0.5v 0.5 10 a lo buffer current i cc shdn = 0.5v, lo_en = 1.5v, v gc = 2v 6 8 ma digital input logic high v ih 1.5 v cc v digital input logic low v il 0 0.5 v input logic high current i ih 1a input logic low current i il -1 a recommended gain-control voltage v gc 0.5 2.0 v gain-control input bias current i gc 0.5v v gc 2.0v -5 5 a ac electrical characteristics (max2383 ev kit; v cc = +2.7v to +3.0v; shdn = lo_en = +1.5v; if source impedance = 400 ? (differential), if input level = -16dbm (differential); lo input level = -10dbm, differential lo drive from 150 ? source impedance; mixer upconverter and pa driver are cascaded directly through an interstage matching network; drout drives a 50 ? load impedance; v gc = 2.0v; f if = 380mhz, f rf = 1920mhz to 1980mhz, f lo = 2300mhz to 2360mhz; t a = -40 � c to +85 � c. typical values are at v cc = +2.85v, t a = +25 � c, unless otherwise noted.) (note 1) parameter symbol conditions min typ max units cascaded performance (measured from if input to drout (pa driver output)) if frequency f if (note 2) 200 � 600 mhz rf frequency range f rf (note 2) 1920 1980 mhz lo frequency range f lo high-side lo case (note 2) 2270 � 2580 mhz 3 limit 4.4 +6 output power (meets acpr specifications) p drout v gc = 2.0v 6 limit 3.8 +6 dbm power gain g p v gc = 2.0v 17 19.5 db caution! esd sensitive device
max2383 w-cdma upconverter and pa driver with power control _______________________________________________________________________________________ 3 ac electrical characteristics (continued) (max2383 ev kit; v cc = +2.7v to +3.0v; shdn = lo_en = +1.5v; if source impedance = 400 ? (differential), if input level = -16dbm (differential); lo input level = -10dbm, differential lo drive from 150 ? source impedance; mixer upconverter and pa driver are cascaded directly through an interstage matching network; drout drives a 50 ? load impedance; v gc = 2.0v; f if = 380mhz, f rf = 1920mhz to 1980mhz, f lo = 2300mhz to 2360mhz; t a = -40 � c to +85 � c. typical values are at v cc = +2.85v, t a = +25 � c, unless otherwise noted.) (note 1) parameter symbol conditions min typ max units gain-control range v gc = 0.5v to 2.0v, p if -35dbm 25 35 db adjacent channel power ratio acpr1 v gc = 2.0v (5mhz offset / 3.84mhz bw) -46 dbc alternate channel power ratio acpr2 v gc = 2.0v (10mhz offset / 3.84mhz bw) -56 dbc out-of-band noise power in rx band v gc = 2.0v, p drout = +6dbm (tx: 1980mhz; rx: 2110mhz) -144 -140 dbm/ hz tx in-band noise power v gc = 2.0v, p drout = +6dbm -139 -135 dbm/ hz tx in-band noise power v gc = 0.5v, p drout = -35dbm -147 dbm/ hz recommended lo input level p lo differential -13 -10 -7 dbm note 1: minimum and maximum values are guaranteed by design and characterization over temperature and supply voltages. note 2: operation outside this frequency range is possible, but has not been verified. typical operating characteristics (max2383 ev kit; v cc = +2.85v; shdn = lo_en = v cc , v gc = 2.0v; if source impedance = 400 ? (differential), if input level = -16dbm (differential); lo input level = -10dbm, differential lo drive from 150 ? source impedance; mixer upconverter and pa driver are cascaded through an interstage matching network; drout drives a 50 ? load impedance; f if = 380mhz, f rf = 1950 mhz, f lo = 2330mhz; t a = +25 � c.) 10 16 13 25 22 19 34 31 28 37 0 1.0 0.5 1.5 2.0 2.5 total supply current vs. gain-control voltage max2383 toc01 v gc (v) total supply current (ma) t a = +85 c t a = +25 c t a = -40 c 0 5 10 15 20 25 30 35 40 -40 -15 10 35 60 85 total supply current vs. temperature max2383 toc02 temperature ( c) total supply current (ma) shdn = high, lo_en = high shdn = low, lo_en = high -25 -15 -20 -5 -10 5 0 10 20 15 25 0 0.4 0.6 0.8 0.2 1.0 1.2 1.4 1.8 1.6 2.0 conversion power gain vs. gain-control voltage max2383 toc03 v gc (v) conversion power gain (db) t a = -40 c t a = +85 c t a = +25 c
max2383 w-cdma upconverter and pa driver with power control 4 _______________________________________________________________________________________ 18.0 19.0 18.5 20.0 19.5 20.5 21.0 conversion power gain vs. rf frequency max2383 toc04 rf frequency (mhz) conversion power gain (db) 1920 1940 1950 1930 1960 1970 1980 18.0 19.0 18.5 20.0 19.5 20.5 21.0 conversion power gain vs. lo input level max2383 toc05 p loin (dbm) conversion power gain (db) -13 -11 -10 -12 -9 -8 -7 4.0 5.0 4.5 6.0 5.5 6.5 7.0 -40 85 p drout vs. temperature max2383 toc06 temperature ( c) p drout (dbm) 10 -15 35 60 acpr = -46dbc acpr = -49dbc typical operating characteristics (continued) (max2383 ev kit; v cc = +2.85v; shdn = lo_en = v cc , v gc = 2.0v; if source impedance = 400 ? (differential), if input level = -16dbm (differential); lo input level = -10dbm, differential lo drive from 150 ? source impedance; mixer upconverter and pa driver are cascaded through an interstage matching network; drout drives a 50 ? load impedance; f if = 380mhz, f rf = 1950 mhz, f lo = 2330mhz; t a = +25 � c.) -50 -40 -45 -30 -35 -25 -20 0.5 1.0 1.5 2.0 lo leakage vs. gain-control voltage max2383 toc10 v gc (v) lo leakage (dbm) p lo = -7dbm p lo = -10dbm -36 -34 -32 -30 -28 -26 -24 -22 -20 1920 1940 1930 1950 1960 1970 1980 image suppression vs. rf frequency max2383 toc11 rf frequency (mhz) image suppression (dbc) -75 -65 -70 -50 -55 -60 -35 -40 -45 -5 1 3 -3 -1 5 7 9 11 acpr1 and acpr2 vs. p drout max2383 toc07 p drout (dbm) acpr and acpr2 (dbc) -30 acpr1 at v gc = 1.5v acpr1 at v gc = 1.7v acpr1 at v gc = 2v acpr2 at v gc = 1.7v acpr2 at v gc = 2v -150 -148 -149 -146 -147 -145 -144 -40 85 rx band noise power vs. temperature max2383 toc08 temperature ( c) noise power (dbm/hz) 10 -15 35 60 tx: 1980mhz, noise measured at 2110mhz p drout = +6dbm -150 -146 -148 -142 -144 -138 -140 -136 inband noise power vs. gain-control voltage max2383 toc09 v gc (v) noise power (dbm/hz) 0 0.5 1.0 1.5 2.0 tx : 1980mhz, noise measured at 1960mhz -20 -16 -18 -12 -14 -10 -8 output return loss vs. rf frequency max2383 toc12 rf frequency (mhz) output return loss (db) 1920 1940 1950 1930 1960 1970 1980 v gc = 2v v gc = 1.7v v gc = 1.4v
max2383 w-cdma upconverter and pa driver with power control _______________________________________________________________________________________ 5 detailed description variable-gain mixer the max2383 contains a double-balanced gilbert cell mixer merged with a gain-control circuit, followed by a mixer buffer. the mixer is driven differentially at its if ports. the lo input for the mixer is conditioned through a low-noise, inductively loaded buffer. the mixer differ- ential output is driven through an on-chip balun into a single-ended common emitter amplifier, which drives the output pin (rf out ). the mixer buffer is a single- ended in/out common emitter stage with inductive degeneration and an external inductive load. additionally, these circuits are biased from � vcs � gen- erators, designed to produce a low-noise constant degeneration voltage at the user � s current source. these bias circuits also provide the control required to selectively power-down the circuit and also provide for gain control and current throttle-back. pa driver the pa buffer is a single-ended in/out common emitter stage with inductive degeneration and an external inductive load. applications information lo buffer inputs the external lo is interfaced either differentially or sin- gle-ended to the differential lo buffer. those two pins also function as the control inputs for the device. hence, they are dc-coupled to the chip-control circuit- ry, and ac-coupled to the lo port. shdn and lo_en turn off the whole ic when both pins are pulled low. lo_en helps reduce vco pulling in gated-transmission mode by providing means to keep the lo buffer on while the upconverter and driver turn on and off. to avoid loading of the lo buffer, connect a 10k ? isolation resistor between the lo_en/lo+ pin and the lo_en logic input, and a 10k ? isolation resistor between the shdn /lo- pin and the shdn logic input. differential if inputs the max2383 has a differential if input port for inter- facing to differential if filters. the if pins should be ac- coupled to the if ports. the typical if frequency is 380mhz, but the device can operate from 200mhz to 600mhz. the differential impedance between the two if inputs is approximately 400 ? in parallel with 1.0pf. interstage matching the mixer buffer drives the following pa driver through an interstage matching network connected between the mixer � s rf out pin and the pa driver � s input pin (drin). this off-chip matching network, which consists of two series inductors and a parallel capacitor, is designed to achieve better than 25dbc image suppression with no current consumption penalty. the quality factor of this off-chip resonant circuit determines the image suppres- sion level and usable bandwidth from the point of view of passband gain flatness. pa driver output the pa driver output, drout, is an open-collector out- put that requires an external inductor to v cc for proper biasing. the output matching components are chosen pin name function a1+ lo_en /lo+ lo buffer enable pin. when low, the lo buffer shuts off. also noninverting input for lo port. it can be ac- coupled to gnd, when the lo is driven single-ended. a2 v cc power-supply pin. bypass with a 330pf capacitor to gnd as close to the pin as possible. a3 drout pa driver output pin. externally matched to 50 ? . a4 gnd ground reference for rf b1 shdn / lo- shutdown pin. when low, the entire part shuts off, except for lo buffer. also inverting input for lo port. it can be ac-coupled to gnd, when the lo is driven single-ended. b3 gc power control input pin (0.5v to 2.0v for control voltage) b4 drin pa driver input pin (interstage node). can be externally matched to 50 ? . c1 if in- inverting if input (400 ? differential nominal impedance between if in+ and if in- ) c2 if in+ noninverting if input (400 ? differential nominal impedance between if in+ and if in- ) c3 rf out upconverter output port (interstage node). can be externally matched to 50 ? . c4 gnd ground reference for rf pin description
max2383 w-cdma upconverter and pa driver with power control 6 _______________________________________________________________________________________ for optimum linearity and return loss. it is important to tune the interstage matching network components along with the driver output matching components, to achieve the desired cascaded acpr performance from the whole device. layout issues for best performance, pay attention to power-supply issues as well as to the layout of the signal lines. the ev kit can be used as a layout example. ground con- nections followed by supply bypass are the most important. power-supply and shdn bypassing bypass v cc with a 330pf capacitor to gnd as close as possible to the v cc pin. use separate vias to the ground plane for each of the bypass capacitors and minimize trace length to reduce inductance. use three separate vias to the ground plane for each ground pin. power-supply layout to minimize coupling between different sections of the ic, the ideal power-supply layout is a star configuration with a large decoupling capacitor at a central v cc node. the v cc traces branch out from this central node, each going to a separate v cc node in the pc board. at the end of each trace is a bypass capacitor that has low esr at the rf frequency of operation. this arrangement provides local decoupling at each v cc pin. at high frequencies, any signal leaking out of one supply pin sees a relatively high impedance (formed by the v cc trace inductance) to the central v cc node, and an even higher impedance to any other supply pin, as well as a low impedance to ground through the bypass capacitor. impedance-matching network layout the drout and interstage matching networks are very sensitive to layout-related parasitic. to minimize para- sitic inductance, keep all traces short and place com- ponents as close as possible to the chip. to minimize parasitic capacitance, minimize the area of the plane. pin configuration ucsp reliability the chip-scale package (ucsp) represents a unique package that greatly reduces board space compared to other packages. ucsp reliability is integrally linked to the user � s assembly methods, circuit board material, and usage environment. the user should closely review these areas when considering use of a ucsp. this form factor may not perform equally to a packaged product through traditional mechanical reliability tests. performance through operating life test and moisture resistance remains uncompromised as it is primarily determined by the wafer-fabrication process. mechanical stress performance is a greater considera- tion for a ucsp. ucsp solder joint contact integrity must be considered since the package is attached through direct solder contact to the user � s pc board. testing done to characterize the ucsp reliability perfor- mance shows that it is capable of performing reliably through environmental stresses. results of environmen- tal stress tests and additional usage data and recom- mendations are detailed in the ucsp application note, which can be found on maxim � s website, www.maxim-ic.com. chip information transistor count: 998 if in- if in+ rf out gnd v cc drout gc gnd drin lo+ / lo_en lo- / shdn a b c 12 34 top view max2383
max2383 w-cdma upconverter and pa driver with power control _______________________________________________________________________________________ 7 vco shdn lo_en lo+ / lo_en a1 b1 c1 c2 a2 c3 a3 b3 b4 c4 a4 lo- shdn pa drvr if in+ if in- rf out drin gc v cc drout gnd gnd p out v cc v cc if saw filter cascaded; no interstage filter required max2383 typical operating circuit
max2383 w-cdma upconverter and pa driver with power control 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. 8 _____________________maxim integrated products, 120 san gabriel drive, sunnyvale, ca 94086 408-737-7600 ? 2003 maxim integrated products printed usa is a registered trademark of maxim integrated products. 12l ucsp 4x3, b12-5 .eps 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 .)
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