general description the max4001 evaluation kit (ev kit) is a fully assembled and tested surface-mount circuit board that evaluates the max4001 rf-detecting controller in a 9-bump chip- scale package (ucsp�). the max4001 ev kit includes on-board shutdown control as well as quasi-measure- ment mode circuitry to provide an easy method to eval- uate the max4001. the rf input utilizes a 50 ? sma connector for convenient connection to test equipment. the max4001 ev kit can also be used to evaluate the max4000 and max4002 rf-detecting controllers. features 2.7v to 5.5v single-supply operation 50 ? sma connector on rf input low-profile design (0.65mm, max) on-board quasi-measurement mode circuitry on-board shutdown control ultra-compact solution fully assembled and tested surface-mount board evaluates: max4000/max4001/max4002 max4001 evaluation kit ________________________________________________________________ maxim integrated products 1 designation qty description c1, c3, c5 3 0.1f 20%, 10v x5r ceramic capacitors (0402) tdk c1005x5r1a104m c2 1 not installed (0402) c4 1 2200pf 10%, 50v x7r ceramic capacitor (0402) tdk c1005x7r1h222k c6 1 33pf 5%, 50v c0g ceramic capacitor (0402) tdk c1005c0g1h330j c7, c8 2 100pf 5%, 50v c0g ceramic capacitors (0402) tdk c1005c0g1h101j ju1, ju2 2 2-pin headers ju3 1 3-pin header r1 1 100 ? 1% resistor (0402) r2 1 52.3 ? 1% resistor (0402) component list 19-2574; rev 0; 9/02 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. part temp range ic package MAX4001EVKIT 0 � c to +70 � c 9 ucsp supplier phone fax website tdk 847-803-6100 847-390-4405 www.component.tdk.com component suppliers ordering information note: to evaluate the max4000 or max4002, request a max4000ebl or a max4002ebl free sample with the MAX4001EVKIT. designation qty description r3 1 0 ? 5% resistor (0402) r4 1 not installed (0402) r5, r6, r8 3 10.0k ? 1% resistors (0402) r7 1 14.0k ? 1% resistor (0402) rfin 1 sma connector (pc edge-mount) u1 1 max4001ebl-t (9-bump ucsp) top mark: abe u2 1 max4412exk-t (5-pin sc70) top mark: abh none 3 shunts none 1 max4001 ev kit pc board none 1 max4000/max4001/max4002 data sheet none 1 max4001 ev kit data sheet note: please indicate that you are using the max4001 when contacting this component supplier. ucsp is a trademark of maxim integrated products, inc.
evaluates: max4000/max4001/max4002 quick start recommended equipment � one variable dc power supply capable of supplying between 2.7v and 5.5v at 50ma � one signal generator capable of delivering -35dbm to +10dbm at frequencies between 900mhz and 2.5ghz � one voltmeter procedure the max4001 ev kit is fully assembled and tested. follow the steps below to verify board operation. do not turn on the power supply until all connections are completed: 1) set the variable dc power supply to 3v. 2) ensure that the variable dc power supply is turned off. 3) connect the positive terminal of the variable dc power supply to the pad marked vcc. connect the ground return of the variable dc power supply to the pad marked gnd. 4) set the signal generator to produce an output sig- nal of 0dbm at a frequency of 2.5ghz. 5) ensure that the signal generator is turned off. 6) connect the signal generator to the edge-mount sma connector marked rfin. 7) connect the positive terminal of the voltmeter to the pad marked set. connect the ground return of the voltmeter to the pad marked gnd. 8) ensure that shunts are installed across jumpers ju1 and ju2. 9) ensure that a shunt is placed across pin 1 and pin 2 of jumper ju3. 10) turn on the variable dc power supply. 11) turn on/enable the output of the signal generator. 12) verify with the voltmeter that an output voltage of 1.2v (5%) is produced between the set pad and the gnd pad. detailed description the max4001 ev kit is a fully assembled and tested surface-mount circuit board that evaluates the max4001 rf-detecting controller. the max4001 ev kit includes on-board shutdown control as well as quasi- measurement mode circuitry to provide an easy method to evaluate the max4001. the rf input utilizes a 50 ? sma connector for convenient connection to test equipment. the max4001 ev kit can also be used to evaluate the max4000 and max4002 rf-detecting controllers. for operation in controller mode, both ju1 and ju2 should be removed. use a dac or external precision voltage supply to apply the set-point voltage to the set pad. connect the rf source (the power amplifier (pa) output through a directional coupler) to the rfin sma connector. connect the gain control pin of the pa to the out pad. when used in controller mode, a capacitor (c4) must be present for loop stability (see the filter capacitor selection section). to simulate an automatic gain-control (agc) loop, a quasi-measurement mode can be implemented where the max4001 delivers an output voltage that is propor- tional to the log of the input signal (see the quasi- measurement mod e section). to establish the transfer function of the log amp, the rf input power level should be swept while the voltage at the set pad is measured. this is the simplest method to validate operation of the evaluation board. shutdown control jumper ju3 controls the cmos-compatible shutdown pin ( shdn ) of the max4001, which disables the max4001. removing the shunt from ju3 allows the shdn pin to be driven with an external signal source connected to the shdn pad (see table 1 for shutdown shunt positions). quasi-measurement mode enabling the quasi-measurement mode changes the max4001 ev kit function from a pa controller to a log detector. this mode allows for easy measurement of rfin versus the set voltage and these measurements can then be used to find the intercept and slope required for the given application. placing shunts across ju1 and ju2 enables the quasi- measurement mode (which connects the out voltage through an inverting op amp to the set pin). the quasi- measurement mode yields a nominal relationship between rfin and set (see table 2 for quasi-mea- surement mode shunt positions). max4001 evaluation kit 2 _______________________________________________________________________________________ jumper shunt position description 1 � 2 max4001 enabled 2 � 3 max4001 disabled ju3 not installed shdn pin driven by an external signal source table 1. shutdown selection
filter capacitor selection when functioning as a pa controller, the max4001 requires some capacitance to maintain loop stability. global system for mobile (gsm) applications require a control-loop bandwidth of at least 150khz. a 2200pf capacitor, c4, is installed to obtain this control-loop bandwidth. refer to the gain and phase vs. frequency graph in the applications information section of the max4000/max4001/max4002 data sheet for alternative capacitor values. evaluating the max4000/max4002 evaluating the max4000 the max4001 can be replaced with the max4000 to allow an input range of -45dbm to 0dbm into 50 ? . the modifications required are as follows: 1) replace u1 with a max4000ebl. 2) replace c6 with a 0 ? (0402) resistor. evaluating the max4002 the max4001 can be replaced with the max4002 to allow an input range of -30dbm to +15dbm in 50 ? . the modifications required are as follows: 1) replace u1 with a max4002ebl. layout considerations a good pc board is an essential part of rf circuit design. the max4001 ev kit pc board can serve as a guide for laying out a board using the max4000/ max4001/max4002. keep traces carrying rf signals as short as possible to minimize radiation and insertion loss due to the pc board. each vcc node on the pc board should have its own decoupling capacitor. this minimizes supply coupling from one section of the pc board to another. using a star topology for the supply layout, in which each vcc node in the circuit has a separate connection to the central vcc node, can fur- ther minimize coupling between sections of the pc board. evaluates: max4000/max4001/max4002 max4001 evaluation kit _______________________________________________________________________________________ 3 jumper shunt position description installed quasi-measurement mode enabled ju1, ju2 not installed quasi-measurement mode disabled table 2. quasi-measurement mode selection
evaluates: max4000/max4001/max4002 max4001 evaluation kit 4 _______________________________________________________________________________________ max4001 a1 c6 33pf r2 52.3 ? 1% rfin sma rfin a2 vcc ju3 1 2 3 shdn shdn a3 set set b3 clpf c8 100pf c4 2200pf vcc c5 0.1 f r1 100 ? 1% 1 2 3 4 5 r5 10k ? 1% ju1 r7 14k ? 1% c3 0.1 f r8 10k ? 1% vcc r4 open c2 open c7 100pf c1 0.1 f out vcc c3 gnd c2 c1 b1 out v cc v cc ju2 r3 0 ? gnd vcc u1 r6 10k ? 1% u2 max4412 figure 1. max4001 ev kit schematic
evaluates: max4000/max4001/max4002 max4001 evaluation kit maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a maxim product. no circu it patent licenses are implied. maxim reserves the right to change the circuitry and specifications without notice at any time. maxim integrated products, 120 san gabriel drive, sunnyvale, ca 94086 408-737-7600 _____________________ 5 ? 2002 maxim integrated products printed usa is a registered trademark of maxim integrated products. figure 2. max4001 ev kit component placement guide� component side figure 3. max4001 ev kit pc board layout?omponent side figure 4. max4001 ev kit pc board layout?round plane on layers 2 and 3 figure 5. max4001 ev kit pc board layout?older side
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