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p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 1 of 32 evb description rev. 001 sept/06 features ! programmable pll synthesizer ! 8-channel preconfigured or fully programmable spi mode ! double super-heterodyne receiver architecture with 2 nd mixer as image rejection mixer ! reception of fsk, fm and ask modulated signals ! low shut-down and operating currents ! build-in acceptance of input frequency variations ! on-chip if filter ! fully integrated fsk/fm demodulator ! rssi for level indication and ask detection ! 2 nd order low-pass data filter ! positive and negative peak detectors ! data slicer (with averaging or peak-detector adaptive threshold) ! evb programming software is available on melexis web site ordering information part no. (see paragraph 6) EVB71122c-315-c EVB71122c-868-c EVB71122c-433-c EVB71122c-915-c note: spi mode is default population, abc mode according to paragraph 4.2 application examples ! general digital and analog rf receivers at 300 to 930mhz ! tire pressure monitoring systems (tpms) ! remote keyless entry (rke) ! low power telemetry systems ! alarm and security systems ! active rfid tags ! remote controls ! garage door openers ! home and building automation evaluation board example general description the mlx71122 is a multi-channel rf receiver ic based on a double-conversion super-heterodyne architec- ture. it is designed to receive fsk and ask modulated rf signals either in 8 predefined frequency channels or frequency programmable via a 3-wire serial programming interface (spi). the ic is designed for a variety of applications, for example in the european bands at 433mhz and 868mhz or for the use in north america or asia, e.g. at 315mhz, 447mhz or 915mhz.
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 2 of 32 evb description rev. 001 sept/06 document content 1 theory of op eration ................................................................................................... 4 1.1 general........................................................................................................................ ..... 4 1.2 evb data overview .......................................................................................................... 4 1.3 block diagram .................................................................................................................. 5 1.4 enable/disable in abc mode ........................................................................................... 6 1.5 demodulation selection in abc mode.............................................................................. 6 1.6 programming modes ........................................................................................................ 6 1.7 preconfigured frequencies in abc mode ........................................................................ 6 2 functional d escription .............................................................................................. 7 2.1 frequency planning.......................................................................................................... 7 2.2 calculation of counter settings ........................................................................................ 8 2.2.1 calculation of lo1 and if1 frequency for low frequency bands............................................... 8 2.2.2 calculation of lo1 and if1 frequency for high frequency bands .............................................. 9 2.2.3 counter setting exampl es for spi mode ..................................................................................... 9 2.2.4 counter settings in abc m ode ? 8 preconfi gured c hannels.................................................... 10 2.2.5 pll counter r anges ............................................................................................................. .... 11 2.3 spi description............................................................................................................... 11 2.3.1 gener al ........................................................................................................................ .............. 11 2.3.2 read / write sequenc es ......................................................................................................... ... 12 2.3.3 serial programming interface timing ........................................................................................ 12 3 register d escription ................................................................................................ 13 3.1 register overview .......................................................................................................... 13 3.1.1 control wo rd r0 ................................................................................................................ ........ 15 3.1.2 control wo rd r1 ................................................................................................................ ........ 16 3.1.3 control wo rd r2 ................................................................................................................ ........ 17 3.1.4 control wo rd r3 ................................................................................................................ ........ 17 3.1.5 control wo rd r4 ................................................................................................................ ........ 18 3.1.6 control wo rd r5 ................................................................................................................ ........ 18 3.1.7 control wo rd r6 ................................................................................................................ ........ 18 3.1.8 control word r7 (r ead-only regi ster)...................................................................................... 19 4 application circuits ................................................................................................. 20 4.1 standard fsk & ask circuit in spi mode...................................................................... 20 4.1.1 averaging data slicer conf igured for bi -phase codes............................................................. 20 4.1.2 component arrangement top side for spi mode (averaging data s licer) .............................. 21 4.1.3 peak detector data slicer configured fo r nrz codes ............................................................. 22 4.1.4 component arrangement top side for spi m ode (peak detector data slicer)........................ 23 4.1.5 board component values list ( spi mode)................................................................................ 24
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 3 of 32 evb description rev. 001 sept/06 4.2 standard fsk & ask circuit in 8-channel preconfigured (abc) mode.......................... 25 4.2.1 averaging data slicer conf igured for bi -phase codes............................................................. 25 4.2.2 component arrangement top side for abc mode (averaging data slic er) .............................. 26 4.2.3 board component values list ( abc mode) .............................................................................. 27 5 evaluation boar d layouts ....................................................................................... 28 6 board va riants.......................................................................................................... 28 7 package descr iption ................................................................................................ 29 7.1 soldering information ..................................................................................................... 29 8 reliability in formation ............................................................................................. 30 9 esd precau tions ...................................................................................................... 30 10 disclai mer ................................................................................................................. 32
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 4 of 32 evb description rev. 001 sept/06 1 theory of operation 1.1 general the mlx71122 receiver architecture is based on a double-conversion super-heterodyne approach. the two lo signals are derived from an on-chip integer-n pll frequency synthesizer. t he pll reference frequency is derived from a crystal (xtal). t he pll synthesizer consists of an in tegrated voltage-controlled oscillator with external inductor, a programmable feedback divi der chain, a programmable reference divider, a phase- frequency detector with a charge pump and an external loop filter. in the receiver?s down-conversion chain, two mixers mi x1 and mix2 are driven by the internal local oscillator signals lo1 and lo2, respectively. the second mixer mix2 is an image-reject mixer. as the first intermedi- ate frequency (if1) is very high (typically above 100 mhz), a reasonably high degree of image rejection is provided even without using an rf fr ont-end filter. at applications aski ng for very high image rejections, cost-efficient rf front-end filtering can be realized by using a saw filter in front of the lna. the receiver signal chain is setup by a low noise amplifier (lna), two down-conversion mixers (mix1 and mix2), an on-chip if filter (iff) as well as an if am plifier (ifa). by choosing the required modulation via an fsk/ask switch (at pin modsel), either the on-ch ip fsk demodulator (fsk demod) or the rssi-based ask detector is selected. a second order data filter (oa1) and a data slicer (oa2) follow the demodulator. the data slicer threshold can be generated from the mean- value of the data stream or by means of the posi- tive and negative peak detectors (pkdet+/-). in general the mlx71122 can be set to shut-down mode, w here all receiver functions are completely turned off, and to several other operating modes. there are tw o global operating modes that are selectable via the logic level at pin spisel: ? 8-channel preconfigured mode ( abc mode ) ? fully programmable mode ( spi mode ). in abc mode the number of frequency channels is limit ed to eight but no microcontroller programming is required. in this case the three lines of the serial programming interface (spi) are used to select one of the eight predefined frequency channels via simple 3-bit par allel programming. pins enrx and modsel are used to enable/disable the receiver and to se lect fsk or ask demodulation, respectively. spi mode is recommended for full programming flexibility. in this case the three lines of the spi are config- ured as a standard 3-wire bus (sden, sdta and sclk). this allows changing many parameters of the receiver, for example more operating modes, channel s, frequency resolutions, gains, demodulation types, data slicer settings and more. the pin mo dsel has no effect in this mode. 1.2 evb data overview ! input frequency ranges: 300 to 930mhz ! power supply range: 3.0 to 5.5v ! temperature range: -40 to +105c ! shutdown current: 50na ! operating current: 11ma (typ.) ! internal if2: 2mhz with 230khz 3db bandwidth ! maximum data rate: 100kbps nrz code, 50kbps bi-phase code ! minimum frequency resolution: 10khz ! total image rejection: > 65db (with external rf front-end filter) ! fsk/fm deviation range: 10 to 50khz ! spurious emission: < -70dbm ! linear rssi range: > 70db ! fsk input frequency acceptance range: 170khz (3db) ! crystal reference frequency: 10mhz ! input sensitivity: at 4 kbps nrz, ber = 310 -3 frequency 315 mhz 433 mhz 868 mhz 915 mhz fsk: 20 khz deviation -106dbm -104dbm -101dbm -101dbm ask -108dbm -108dbm -106dbm -106dbm
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 5 of 32 evb description rev. 001 sept/06 1.3 block diagram fig. 1: mlx71122 block diagram the mlx71122 receiver ic consists of the following building blocks: ? pll synthesizer (pll synth) to generate the firs t and second local oscillator signals lo1 and lo2, parts of the pll synth are the voltage-controlled oscillator (vco), the feedback dividers n/a and r, the phase-frequency detector (pfd), the charge pump (cp) and the crystal-based reference oscillator (ro) ? low-noise amplifier (lna) for hi gh-sensitivity rf signal reception ? first mixer (mix1) for down-conversion of the rf signal to the first if (intermediate frequency) ? second mixer (mix2) with image rejection for dow n-conversion from the first to the second if ? if filter (iff) with a 2mhz c enter frequency and a 230khz 3db bandwidth ? if amplifier (ifa) to provide a large amount of voltage gain and an rssi signal output ? fsk demodulator (fsk demod) ? operational amplifiers oa1 and oa2 for low- pass filtering and data slicing, respectively ? positive (pkdet+) and negativ e (pkdet-) peak detectors ? switches sw1 to select between fsk and ask as well as sw2 to chose between averaging or peak detector data slicer ? control logic with 3-wire bus serial programming interface (spi) ? biasing circuit with modes control for more detailed information, please refer to the latest mlx71122 data sheet revision. fsk demod control logic modsel slcsel bias enrx rbias veeana vccdig veedig oa2 dfo oa1 pkdet+ pkdet _ slc pdp pdn dtao df2 df1 29 27 26 30 25 32 28 22 20 16 21 spisel a/sclk b/sdta c/sden 17 18 19 7 10 200k 200k sw2 sw1 200k 1m 1m a sk fsk lnao lna veelna vccana lnai 4 3 31 2 1 vccvco veevco 14 11 mfo 23 r counter n / a counter pfd vco lf cp ro lo2div veeif 9 mixn mixp rssi ifa lo2 if2 if1 lo1 mix1 mix2 iff 5 6 8 lf 15 roi 24 tnk1 tnk2 12 13
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 6 of 32 evb description rev. 001 sept/06 1.4 enable/disable in abc mode enrx description 0 shutdown mode 1 receive mode pin enrx is pulled down internally. device is in shutdown by default, after power supply on. if enrx = 0 and spisel = 1 then operating modes accordi ng to opmode bit (refer to control word r0). if enrx = 1 then opmode bit has no effect (hardwired receive mode). 1.5 demodulation selection in abc mode modsel description 0 fsk demodulation 1 ask demodulation pin modsel has no effect in spi mode (spisel = 1). we recommend connecting it to ground to avoid a floating cmos gate. 1.6 programming modes spisel description 0 abc mode (8 channels preconfigured) 1 spi mode (programming via 3-wire bus) 1.7 preconfigured frequencies in abc mode a b c receive frequency 0 0 0 fsk1: 369.5 mhz 0 1 0 fsk5: 388.3 mhz 1 0 0 fsk2: 371.1 mhz 1 1 0 fsk4: 376.9 mhz 0 0 1 fsk3: 375.3 mhz 0 1 1 fsk7: 394.3 mhz 1 0 1 fsk6: 391.5 mhz 1 1 1 fsk8: 395.9 mhz as all pins, pins a, b, and c are equipped with esd protection diodes that are tied to vcc and to vee. therefore these pins should not be di rectly connected to positive supply (a logic ?1?) before the supply volt- age is applied to the ic. otherwise the ic will be suppli ed through these control lines and it may enter into an unpredictable mode. in case the user wants to apply a positive supply voltage to these pins before the sup- ply voltage is applied to the ic, a protection re sistor should be inserted in each control line.
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 7 of 32 evb description rev. 001 sept/06 2 functional description 2.1 frequency planning because of the double conversion archit ecture that employs two mixers and two if signals, there are four different combinations for injecting the lo1 and lo2 signals: ? lo1 high side and lo2 high side: receiving at f rf (high-high) ? lo1 high side and lo2 low side: receiving at f rf (high-low) ? lo1 low side and lo2 high side: receiving at f rf (low-high) ? lo1 low side and lo2 low side: receiving at f rf (low-low) as a result, four different radio frequencies (rfs) c ould yield one and the same second if (if2). fig. 2 shows this for the case of receiving at f rf (high-high). in the example of fig. 2, the image signals at f rf (low- high) and f rf (low-low) are suppressed by the bandpass characte ristic provided by the rf front-end. the bandpass shape can be achieved either with a saw filter (featuring just a couple of mhz bandwidth), or by the tank circuits at the lna input and output (this typically yields 30 to 60mhz bandwidth). in any case, the high value of the first if (if1) helps to suppress the image signals at f rf (low-high) and f rf (low-low). the two remaining signals at if1 resulting from f rf (high-high) and f rf (high-low) are entering the second mixer mix2. this mixer features image rejection with so-called single-sideband (ssb) selection. this means either the upper or lower sideband of if1 can be selected. in the example of fig. 2, lo2 high-side injection has been chosen to select the if2 signal resulting from f rf (high-high). fig. 2: the four receiving frequencies in a double conversion superhet receiver it can be seen from the block diagram of fig. 1 that there is a fixed relationship between the lo1 signal fre- quency f lo1 and the lo2 signal frequency f lo2 . lo2 lo1 lo2 f f n lo2div = = (1) the lo1 signal frequency f lo1 is directly synthesized from the crystal reference oscillator frequency f ro by means of an integer-n pll synthesizer. the pll consis ts of a dual-modulus prescaler (p/p+1), a program counter n and a swallow counter a. tot pfd pfd ro lo1 n f a) p (n f a) p (n r f f ? = + ? = + ? = (2) f lo2 f lo2 f lo1 f rf f rf f rf f rf
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 8 of 32 evb description rev. 001 sept/06 due to the double superhet receiver arch itecture, the channel frequency step size f ch is not equal to the phase-frequency detector (pfd) frequency f pfd . for high-side injection, the channel step size f ch is given by: lo2 lo2 pfd lo2 lo2 ro ch n 1 n f n 1 n r f f ? = ? = (3) while the following equation is valid for low-side injection: lo2 lo2 pfd lo2 lo2 ro ch n 1 n f n 1 n r f f + = + = (4) 2.2 calculation of counter settings frequency planning and the selection of the mlx71122?s p ll counter settings are straightforward and can be laid out on the following procedure. usually the receive frequency f rf and the channel step size f ch are given by system requirements. the n and a counter settings can be derived from n tot or f lo1 and f pfd by using the following equations. ) 32 n floor( ) p n floor( n tot tot = = ; 32 n n p n n a tot tot ? ? = ? ? = (5) 2.2.1 calculation of lo1 and if1 frequency for low frequency bands high-high injection must be used for the low fr equency bands. first of all choose a pfd frequency f pfd according to below table. the r counter values are valid for a 10mhz crystal reference frequency f ro . the pfd frequency is given by f pfd = f ro /r. injection type f ch [khz] f pfd [khz] r h-h 10 13.3 750 h-h 12.5 16.7 600 h-h 20 26.7 375 h-h 25 33.3 300 h-h 50 66.7 150 h-h 100 133.3 75 h-h 250 333.3 30 the second step is to calculate the missing parameters f lo1 , f if1 , n tot , n and a. while the second if (f if2 ), the n lo2 divider ratio and the prescaler divider ratio p are bound to f if2 = 2mhz, n lo2 = 4 (or 8) and p =32. ) f (f 1 n n f if2 rf lo2 lo2 lo1 ? ? = 2mhz) (f 3 4 f rf lo1 ? = (6) 1 n f n f f lo2 if2 lo2 rf if1 ? ? = 3 8mhz f f rf if1 ? = (7) finally n and a can be calculated with formula (5).
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 9 of 32 evb description rev. 001 sept/06 2.2.2 calculation of lo1 and if1 frequency for high frequency bands typical ism band operating frequencies like 868.3 and 915mhz can be covered without changing the crystal nor the vco inductor. low-low injection should be used for the high fr equency bands. first of all choose a pfd frequency f pfd according to below table. the r counter values are valid for a 10mhz crystal reference. the pfd frequency is given by f pfd = f ro /r. injection type f ch [khz] f pfd [khz] r l-l 20 16 625 l-l 25 20 500 l-l 50 40 250 l-l 100 80 125 l-l 250 200 50 l-l 500 400 25 the second step is to calculate the missing parameters f lo1 , f if1 , n tot , n and a. while the second if (f if2 ), the n lo2 divider ratio and the prescaler divider ratio p are bound to f if2 = 2mhz, n lo2 = 4 (or 8) and p =32. ) f (f 1 n n f if2 rf lo2 lo2 lo1 ? + = 2mhz) (f 5 4 f rf lo1 ? = (8) 1 n f n f f lo2 if2 lo2 rf if1 + + = 5 8mhz f f rf if1 + = (9) finally n and a can be calculated with formula (5). 2.2.3 counter setting examples for spi mode to provide some examples, the following table shows some counter settings for the reception of the well- known ism and srd frequency bands. the c hannel spacing is assumed to be f ch = 100khz. in below table all frequency units are in mhz. inj f rf f if1 f lo1 n tot n p a f pfd r f ref f lo2 f if2 h-h 300 97.3 397.3 2980 93 32 4 0.133 75 10 99.3 2 h-h 315 102.3 417.3 3130 97 32 26 0.133 75 10 104.3 2 h-h 434 142 576 4320 135 32 0 0.133 75 10 144 2 h-h 470 154 624 4680 146 32 8 0.133 75 10 156 2 l-l 850 171.6 678.4 8480 256 32 0 0.08 125 10 169.6 2 l-l 868 175.2 692.8 8660 270 32 20 0.08 125 10 173.2 2 l-l 915 184.6 730.4 9130 285 32 10 0.08 125 10 182.6 2 l-l 930 187.6 742.4 9280 290 32 0 0.08 125 10 185.6 2
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 10 of 32 evb description rev. 001 sept/06 2.2.4 counter settings in abc mode ? 8 preconfigured channels in abc mode (spisel=0), the counter settings are hard-wired. in below t able all frequency units are in mhz. fsk f rf f if1 f lo1 n tot n p a f pfd r f ref f lo2 f if2 1 369.5 120.5 490.0 3675 114 32 27 0.133 75 10 122.5 2 2 371.1 121.0 492.0 3691 115 32 11 0.133 75 10 123.0 2 3 375.3 122.4 497.7 3733 116 32 21 0.133 75 10 124.4 2 4 376.9 123.0 499.9 3749 117 32 5 0.133 75 10 125.0 2 5 388.3 126.8 515.1 3863 120 32 23 0.133 75 10 128.8 2 6 391.5 127.8 519.3 3895 121 32 23 0.133 75 10 129.8 2 7 394.3 128.8 523.1 3923 122 32 19 0.133 75 10 130.8 2 8 395.9 129.3 525.2 3939 123 32 3 0.133 75 10 131.3 2 list of mathematical acronyms a divider ratio of the swallow counter (part of feedback divider) fb f frequency at the feedback divider output (x) floor the floor function gives the largest integer less than or equal to x. for example, floor(5.4) gives 5, floor(-6.3) gives -7. pfd f pfd frequency in locked state r ro f r f = reference frequency of the pll ro f frequency of the crystal reference oscillator vco f frequency of the vco (equals the lo1 signal of the first mixer) a p n n tot + ? = total divider ratio of the pll feedback path n divider ratio of the program counter (part of feedback divider) lo2 n lo2div divider ratio, to derive the lo2 signal from lo1 (n 1 = 4 or 8) p divider ratio of the prescaler (part of feedback divider) r divider ratio of the reference divider r
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 11 of 32 evb description rev. 001 sept/06 2.2.5 pll counter ranges in order to cover the frequency range of about 300 to 930mhz the following counter values are implemented in the receiver: pll counter ranges a n r p 0 to 31 (5bit) 3 to 2047 (11bit) 3 to 2047 (11bit) 32 therefore the minimum and maximum divider rati os of the pll feedback divider are given by: 1024 32 32 n totmin = ? = 65535 31 32 2047 n totmax = + ? = 2.3 spi description 2.3.1 general serial programming interface (spi) mode can be activa ted by choosing spisel = 1 (e.g. at positive supply voltage v cc ). in this mode, the input pins 17, 18 and 19 are used as a 3-wire unidirectional serial bus inter- face (sden, sdta, sclk). the internal latches cont ain all user programmable variables including counter settings, mode bits etc. in addition the mfo pin can be programmed as an output (s ee section 4.1.4) in order to read data from the internal latches and it can be used as an out put for different test modes as well. at each rising edge of the sclk signal, t he logic value at the sdta terminal is written into a shift register. the programming information is taken over into inte rnal latches with the rising edge of sden. additional leading bits are ignored, only the last bits are serially clocked into the shift register. a normal write operation shifts 16 bits into the spi, a normal read operation shifts 4 bits into the spi and reads additional 12 bits from the mfo pin. if less than 12 data bits are shifted into sdta during the write operat ion then the control regis- ter may contain invalid information. in general a control word has the following format. bit 0 is the read/write bit that determines whether it is a read (r/w = 1) or a write (r/w = 0) sequence. the r/w bit is preceding the latch address and the corresponding data bits. control word format msb lsb msb lsb bit 0 data latch address mode d11 d10 d9 d8 d7 d6 d5 d4 d3 d2 d1 d0 a2 a2 a0 r/w there are two control word formats for read and for wr ite operation. data bits are only needed in write mode. read operations require only a latch address and a r/w bit. due to the static cmos design, the serial interface consumes virtually no current. the spi is a fully separate building block and can therefore be pr ogrammed in every operational mode.
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 12 of 32 evb description rev. 001 sept/06 2.3.2 read / write sequences fig. 6 typical write sequence diagram fig. 7 typical read sequence diagram 2.3.3 serial programming interface timing fig. 8 spi timing diagram t cwh t cr t dso t cf t cwl t ew t eh t des t es t cs t ch sden sclk sdta mfo
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 13 of 32 evb description rev. 001 sept/06 3 register description the following tables are to describe t he functionality of the registers. sec. 4.1 provides a register overvi ew with all the control words r0 to r7. the subsequent sections. 4.1.1 to 4.1.8 show the content of the control words in more detail. programming the registers requires spi mode (spi sel = 1). default settings are for abc mode. 3.1 register overview data control word msb lsb latch address bit no. 11 10 9 8 7 6 5 4 3 2 1 0 msb lsb default 1 0 1 1 1 0 0 0 1 0 0 0 0 0 0 r0 dtapol slcsel ssbsel demgain iffgain [ 1 :0 ] mix2gain mix1gain lnagain [1 : 0 ] opmode [ 1 : 0 ] read/ write bit no. 11 10 9 8 7 6 5 4 3 2 1 0 msb lsb default 1 0 0 0 1 0 1 1 0 1 0 0 0 0 1 r1 showld prescur vcobuf vcocur vcorange ldmode ldtime [ 1 :0 ] lderr pfdpol cpcur [ 1 : 0 ] read/ write bit no. 11 10 9 8 7 6 5 4 3 2 1 0 msb lsb default 1 1 1 0 1 1 1 0 1 1 0 0 0 1 0 r2 n [ 6 : 0 ] a [ 4 : 0 ] read/ write bit no. 11 10 9 8 7 6 5 4 3 2 1 0 msb lsb default 0 1 0 0 0 0 0 0 0 0 0 0 0 1 1 r3 mfo [ 3 : 0 ] agcdel [ 1 : 0 ] agcen lo2div n [ 10 : 7 ] read/ write
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 14 of 32 evb description rev. 001 sept/06 data control word msb lsb latch address bit no. 11 10 9 8 7 6 5 4 3 2 1 0 msb lsb default 0 0 0 0 0 1 0 0 1 0 1 1 1 0 0 r4 agcmode r [ 10 : 0 ] read/ write bit no. 11 10 9 8 7 6 5 4 3 2 1 0 msb lsb default 0 0 1 0 1 0 0 1 1 0 1 1 1 0 1 r5 modsel riff [ 10 : 0 ] read/ write bit no. 11 10 9 8 7 6 5 4 3 2 1 0 msb lsb default 1 0 1 0 0 1 1 0 1 1 0 0 1 1 0 r6 rocur [ 1 :0 ] ifftune iffhlt iffpres [ 7 : 0 ] read/ write bit no. 11 10 9 8 7 6 5 4 3 2 1 0 msb lsb default 1 1 1 r7 rssih ldrssil ? iffstate [ 1 :0 ] iffval [ 7 : 0 ] read- only note: ? depends on bit 11 in r4, 0 = rssil, 1 = ld
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 15 of 32 evb description rev. 001 sept/06 3.1.1 control word r0 name bits description operation mode opmode [1:0] 00 01 10 11 shutdown receive mode reference oscillator & bias only synthesizer only #default lna gain 00 01 10 11 lowest gain low gain high gain highest gain (-18db) (-4db) (0db) (+2db) #default lnagain [3:2] gain values are relative to gain at default 1 st mixer gain mix1gain [4] 0 1 high gain low gain (14db) (0db) #default 2 nd mixer gain mix2gain [5] 0 1 high gain low gain (9db) (-2db) #default intermediate frequency filter gain iffgain [7:6] 00 01 10 11 lowest gain low gain high gain highest gain (-14db) (-6db) (0db) (+6db) #default demodulator gain demgain [8] 0 1 low gain high gain (~ 4mv/khz) (~ 15mv/khz) #default single side band selection 0 1 upper side band lower side band lo2 low-side inj. (if1 = lo2 + if2) lo2 high-side inj. (if1 = lo2 ? if2) #default ssbsel [9] internal if2 = 2mhz slicer mode select slcsel [9] 0 1 averaging data slicer mode peak detector data slicer mode #default data output polarity oa2 0 inverted ?1? for space at ask or f min at fsk, ?0? for mark at ask or f max at fsk 1 normal #default dtapol [11] ?0? for space at ask or f min at fsk, ?1? for mark at ask or f max at fsk
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 16 of 32 evb description rev. 001 sept/06 3.1.2 control word r1 name bits description charge pump current setting cpcur [1:0] 00 01 10 11 100a 400a 400a static down 400a static up #default pfd output polarity pfdpol [2] 0 1 negative positive #default lock detector time error lderr [3] 0 1 15ns 30ns #default lock detection time 00 01 10 11 2/f r 4/f r 8/f r 16/f r #default ldtime [5:4] minimum time span before lock in f r is the reference oscillator frequency f ro divided by r, see section 4.1.5 (r4) lock detector mode ldmode [6] 0 1 check lock condition permanently check lock condition until 1 st lock in #default vco range 0 1 3v supply 5v supply #default vcorange [7] vco range setting for different vccs. vco core current vcocur [8] 0 1 450a 520a #default vco buffer current vcobuf [9] 0 1 900a 1040a #default prescaler 32/33 reference current 0 1 20a 30a #default prescur [10] 30a may be used for f rf = 868/915mhz function of ldrssil bit 0 1 rssil (rssi low flag) ld (lock detection flag) #default showld [11] select output data of ldrssil, see section 4.1.8 (r7)
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 17 of 32 evb description rev. 001 sept/06 3.1.3 control word r2 name bits description swallow counter value 01100 value is 12 #default a [4:0] swallow counter range: 0 to 31 program counter value (bits 0 ? 6) 000 0111 0111 n value is 119 #default n [11:5] n counter range: 3 to 2047 3.1.4 control word r3 program counter range (bits 7 ? 10) 000 0111 0111 n value is 119 #default n [3:0] n counter range: 3 to 2047 lo2 divider ratio lo2div [4] 0 1 divide by 4 divide by 8 #default agc enable mode agcen [5] 0 1 disabled enabled #default agc delay settings 00 01 10 11 no delay 3/f iff 15/f iff 31/f iff #default agcdel [7:6] f iff is the reference oscillator frequency f ro divided by riff, see section 4.1.6 (r6) multi functional output mfo [11:8] 0000 0001 0010 0011 0100 0101 1000 mfo is in z state mfo is spi read-out mfo = 0 mfo = 1 mfo is analog ro output mfo is iff output mfo is lock detector output #default
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 18 of 32 evb description rev. 001 sept/06 3.1.5 control word r4 name bits description reference divider range 000 0100 1011 value is 75 #default r [10:0] r counter range: 3 to 2047 agc delay mode 0 1 gain decrease and increase with delay gain decrease without delay, gain increase with delay #default agcmode [11] selects agc delay mode in combination wi th agcdel bits, see section 4.1.4 (r3) 3.1.6 control word r5 name bits description reference divider value for iff adjustment 010 1001 1011 value is 667 #default riff [10:0] iff counter range: 4 to 2047 demodulation selection 0 1 fsk demodulation ask demodulation #default modsel [11] selects modulation type when chip is controlled via spi mode 3.1.7 control word r6 name bits description iff preset value 0110 1100 value is 108 #default iffpres [7:0] iff dac preset at start of automatic tuning iff halt 0 1 auto tuning running auto tuning halted #default iffhlt [8] suspends iff automatic tuning iff tuning ifftune [9] 0 1 disable and load dac with iffpres enable #default reference oscillator core current rocur [11:10] 00 01 10 11 85a 170a 270a 355a #default
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 19 of 32 evb description rev. 001 sept/06 3.1.8 control word r7 (read-only register) name bits description iff adjustment value iffval [7:0] see also iffpres in section 4.1.7 (r6) iff automatic tuning state iffstate [9:8] 00 01 10 11 filter tuned or auto-tuning disabled tuning up the filter frequency tuning down the filter frequency master oscillator of filter deactivated lock detector or rssi low flag 0 1 pll not locked or rssi value in lower region pll locked or rssi value above lower region ldrssil [10] depends on showld in section 4.1.2 (r1) rssi high flag rssih [11] 0 1 rssi value below upper region rssi value in upper region
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 20 of 32 evb description rev. 001 sept/06 4 application circuits 4.1 standard fsk & ask circuit in spi mode 4.1.1 averaging data slicer configured for bi-phase codes fig. 6: application circuit for spi mode (averaging data slicer option) note ? EVB71122 default population is spi mode mlx71122 17 18 19 20 21 22 23 24 9 10 11 12 13 14 15 16 8 123 456 7 veelna mfo veeif modsel spisel rssi rbias dtao tnk1 tnk2 vccvco veevco b/sdta c/sden roi vccdig veedig lnao mixn mixp enrx lf c6 c5 c4 l3 l0 cb1 a/sclk pdp pdn lnai 27 25 31 26 df2 slc c9 dfo df1 30 29 28 c8 veeana vccana xtal cx rbs cb2 rf cf1 32 c10 rs1 rs2 rs3 rb0 vcc cf2 cb3 vcc c7 cb0 dtao 2 1 mfo dfo 2 3 1 50 l1 c2 l2 4 6 1 3 c1 sawfil 4 5 123 gnd mfo sdta sden sclk rssi 2 1 gnd vcc 2 1
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 21 of 32 evb description rev. 001 sept/06 4.1.2 component arrangement top side for spi mode (averaging data slicer) melexis gnd dtao gnd gnd mfo dfo fsk/ask mfo sdta vcc gnd gnd vcc sden b c sclk gnd enrx a rssi modsel EVB71122_002 cb0 rf_input rf_input xtal 1 3 c2 c7 c1 c8 cx l1 l2 c10 0 0 rs2 rs1 rs3 rbs rb0 cf1 cf2 l0 rf c5 c6 c4 l3 cb1 cb3 1 1 1 1 1 board size is 49mm x 35.6mm spi mode selected cb2
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 22 of 32 evb description rev. 001 sept/06 4.1.3 peak detector data slicer configured for nrz codes fig. 7: application circuit fo r spi mode (peak detector option) note ? EVB71122 default population is spi mode mlx71122 17 18 19 20 21 22 23 24 9 10 11 12 13 14 15 16 8 123 456 7 veelna mfo veeif modsel spisel rssi rbias dtao tnk1 tnk2 vccvco veevco b/sdta c/sden roi vccdig veedig lnao mixn mixp enrx lf c6 c5 c4 l3 l0 cb1 a/sclk pdp pdn lnai 27 25 31 26 df2 slc c9 dfo df1 30 29 28 c8 veeana vccana cx rbs cb2 rf cf1 rs1 rs2 rs3 rb0 vcc c11 c12 cf2 cb3 vcc 4 5 123 gnd mfo sdta sden sclk rssi 2 1 c7 cb0 dtao 2 1 50 l1 c2 l2 4 6 1 3 c1 sawfil gnd vcc 2 1 xtal mfo dfo 2 3 1
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 23 of 32 evb description rev. 001 sept/06 4.1.4 component arrangement top side for spi mode (peak detector data slicer) melexis gnd dtao gnd gnd mfo dfo fsk/ask mfo sdta vcc gnd gnd vcc sden b c sclk gnd enrx a rssi modsel EVB71122_002 cb0 rf_input rf_input xtal 1 3 c2 c7 c1 c8 cx l1 l2 0 rs2 rs1 rs3 rbs rb0 cf1 cf2 l0 rf cb2 c5 c6 c4 l3 cb1 cb3 1 1 1 1 1 board size is 49mm x 35.6mm c11 c12 0 spi mode selected
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 24 of 32 evb description rev. 001 sept/06 4.1.5 board component values list (spi mode) below table is for all application circuits show in figures 6 and 7 part size value @ 315 mhz value @ 433.9 mhz value @ 868.3 mhz value @ 915 mhz tol. description c1 0603 nip nip 3.3 pf nip 5% matching capacitor c2 0603 nip nip nip nip 5% matching capacitor c4 0603 4.7 pf 3.3 pf 2.7 pf 2.2 pf 5% lna output tank capacitor c5 0603 100 pf 100 pf 100 pf 100 pf 5% mix1 negative input matching capacitor c6 0603 100 pf 100 pf 100 pf 100 pf 5% mix1 negative input matching capacitor c7 0603 1 nf 1 nf 1 nf 1 nf 10% rssi output low pass capacitor, this value for data rates 4 kbps nrz c8 0603 330 pf 330 pf 330 pf 330 pf 10% data low-pass filter capacitor, this value for data rates 4 kbps nrz c9 0603 150 pf 150 pf 150 pf 150 pf 10% data low-pass filter capacitor, this value for data rates 4 kbps nrz 33 nf 33 nf 33 nf 33 nf c10 0603 not required in figure 7 10% data slicer capacitor 33 nf 33 nf 33 nf 33 nf c11 0603 not required in figures 6 10% peak detector positive filtering capacitor 33 nf 33 nf 33 nf 33 nf c12 0603 not required in figures 6 10% peak detector negative filtering capacitor cb0 1210 10 f 10 f 10 f 10 f 10% decoupling capacitor, low-noise power supply recom- mended cb1 0603 470 pf 470 pf 470 pf 470 pf 10% decoupling capacitor cb2 0603 33 nf 33 nf 33 nf 33 nf 10% decoupling capacitor cb3 0603 33 nf 33 nf 33 nf 33 nf 10% decoupling capacitor cf1 0603 2.2 nf 2.2 nf 2.2 nf 2.2 nf 5% loop filter capacitor cf2 0603 220 pf 220 pf 220 pf 220 pf 5% loop filter capacitor cx 0603 27 pf 27 pf 27 pf 27 pf 5% crystal series capacitor rb0 0603 10 10 10 10 5% protection resistor rf 0603 27 k 27 k 47 k 47 k 5% loop filter resistor rbs 0603 30 k 30 k 30 k 30 k 2% reference bias resistor rs1?rs3 10 k 10 k 10 k 10 k 5% protection resistor l0 0603 33 nh 15 nh 8.2 nh 8.2 nh 5% vco tank inductor l1 0603 0 56 nh 22 nh 0 5% matching inductor l2 0603 82 nh 82 nh 22 nh 8.2 nh 5% matching inductor l3 0603 33 nh 22 nh 5.6 nh 5.6 nh 5% lna output tank inductor xtal smd 5x3.2 10.00000 mhz / 20ppm cal., 30ppm temp. fundamental-mode crystal saw fil smd 3x3 safdc315ms m0t00 (315 mhz) safcc433mb l0x00 (433.92 mhz) safcc868ms l0x00 (868.3 mhz) safch915ma l0n00 (915 mhz) low-loss saw filter from murata or equivalent part note: - nip ? not in place, may be used optionally
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 25 of 32 evb description rev. 001 sept/06 4.2 standard fsk & ask circuit in 8-channel preconfigured (abc) mode 4.2.1 averaging data slicer configured for bi-phase codes fig. 8: application circuit for abc mode note ? abc mode population can be easily modified from default spi mode population by changing the con- nection at spisel from vcc to ground. 32 c10 mlx71122 17 18 19 20 21 22 23 24 9 10 11 12 13 14 15 16 8 123 4 56 7 veelna mfo veeif modsel spisel rssi rbias dtao tnk1 tnk2 vccvco veevco b/sdta c/sden roi vccdig veedig lnao mixn mixp enrx lf c6 c5 c4 l3 l0 cb1 a/sclk pdp pdn lnai 27 25 31 26 df2 slc c9 dfo df1 30 29 28 c8 veeana vccana cx rbs cb2 rf cf1 cf2 rb0 cb3 b 2 1 3 c 2 1 3 a 2 1 3 rssi 2 1 2 1 3 2 1 3 modsel enrx vcc vcc c7 dtao 2 1 cb0 vcc gnd vcc 2 1 c3 l1 50 c2 c1 xtal dfo 2 1
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 26 of 32 evb description rev. 001 sept/06 4.2.2 component arrangement top side for abc mode (averaging data slicer) melexis gnd dtao gnd gnd mfo dfo fsk/ask mfo sdta vcc gnd gnd vcc sden b c sclk gnd enrx a rssi modsel EVB71122_002 cb0 rf_input rf_input xtal 1 3 c2 c7 c1 c8 cx l1 c10 rbs rb0 cf1 cf2 l0 rf cb2 c5 c6 c4 l3 c3 cb1 cb3 1 1 1 1 1 board size is 49mm x 35.6mm 1 1 1 1 1 0 0 a bc mode selected
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 27 of 32 evb description rev. 001 sept/06 4.2.3 board component values list (abc mode) below table is for all applicati on circuits show in figures 8 part size value @ 369 mhz to 396 mhz tol. description c1 0603 nip 5% matching capacitor c2 0603 nip 5% matching capacitor c3 0603 100 pf 5% lna input filtering capacitor c4 0603 3.3 pf 5% lna output tank capacitor c5 0603 100 pf 5% mix1 negative input matching capacitor c6 0603 100 pf 5% mix1 negative input matching capacitor c7 0603 1 nf 10% rssi output low pass capacitor, this value for data rates 4 kbps nrz c8 0603 330 pf 10% data low-pass filter capacitor, this value for data rates 4 kbps nrz c9 0603 150 pf 10% data low-pass filter capacitor, this value for data rates 4 kbps nrz c10 0603 33 nf 10% data slicer capacitor cb0 1210 10 f 10% decoupling capacitor, low-noise power supply recommended cb1 0603 470 pf 10% decoupling capacitor cb2 0603 33 nf 10% decoupling capacitor cb3 0603 33 nf 10% decoupling capacitor cf1 0603 2.2 nf 5% loop filter capacitor cf2 0603 220 pf 5% loop filter capacitor cx 0603 27 pf 5% crystal series capacitor rb0 0603 10 5% protection resistor rf 0603 27 k 5% loop filter resistor rbs 0603 30 k 2% reference bias resistor rs1?rs3 0603 10 k 5% protection resistor l0 0603 18 nh 5% vco tank inductor l1 0603 39 nh 5% matching inductor l3 0603 27 nh 5% lna output tank inductor xtal smd 5x3.2 10.00000 mhz / 20ppm cal., 30ppm temp. fundamental-mode crystal note: - nip ? not in place, may be used optionally
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 28 of 32 evb description rev. 001 sept/06 5 evaluation board layouts ? board layout data in gerber format is available, board size is 35.6mm x 49mm. 6 board variants type regional code frequency/mhz modulation board execution c world wide ?315 ?fsk ?a antenna version a europe, asia ?433 ?ask ?c connector version b usa, canada ?868 ?fm EVB71122 ?915 note: possible combinations pcb top view pcb bottom view melexis gnd dtao gnd gnd mfo dfo fsk/ask mfo sdta vcc gnd gnd vcc sden b c sclk gnd enrx a rssi modsel EVB71122_002
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 29 of 32 evb description rev. 001 sept/06 7 package description ? the device mlx71122 is rohs compliant. fig 12: 32l qfn 5x5 quad all dimension in mm d e d2 e2 a a1 a3 l e b min 4.75 4.75 3.00 3. 00 0.80 0 0.3 0.18 max 5.25 5.25 3. 25 3.25 1.00 0.05 0.20 0.5 0.50 0.30 all dimension in inch min 0.187 0.187 0.118 0. 118 0.0315 0 0.0118 0.0071 max 0.207 0.207 0. 128 0.128 0.0393 0.002 0.0079 0.0197 0.0197 0.0118 7.1 soldering information ? the device mlx71122 is qualified for msl3 with soldering peak temperature 260 deg c according to jedec j-std-20 a3 a a1 1 8 24 17 16 9 32 25 d e e b l d2 e2 exposed pad the ?exposed pad? is not connected to internal ground, it should not be connected to the pcb.
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 30 of 32 evb description rev. 001 sept/06 8 reliability information this melexis device is classified and qualified regar ding soldering technology, solderability and moisture sensitivity level, as defined in this specification, accord ing to following test methods: reflow soldering smd?s (s urface m ount d evices) ipc/jedec j-std-020 ?moisture/reflow sensitivity classi fication for nonhermetic solid state surface mount devices (classification reflow profiles according to table 5-2)? eia/jedec jesd22-a113 ?preconditioning of nonhermetic surface mount devices pr ior to reliability testing (reflow profiles according to table 2)? wave soldering smd?s (s urface m ount d evices) and thd?s (t hrough h ole d evices) en60749-20 ?resistance of plastic- encapsulated smd?s to combined effect of moisture and soldering heat? eia/jedec jesd22-b106 and en60749-15 ?resistance to soldering temperat ure for through-hole mounted devices? iron soldering thd?s (t hrough h ole d evices) en60749-15 ?resistance to soldering temperat ure for through-hole mounted devices? solderability smd?s (s urface m ount d evices) and thd?s (t hrough h ole d evices) eia/jedec jesd22-b102 and en60749-21 ?solderability? for all soldering technologies deviating from abov e mentioned standard conditions (regarding peak tempera- ture, temperature gradient, temperature profile etc) additional classification and qualification tests have to be agreed upon with melexis. the application of wave soldering for smd?s is allow ed only after consulting melexis regarding assurance of adhesive strength between device and board. melexis is contributing to global env ironmental conservation by promoting lead free solutions. for more in- formation on qualification of rohs compliant products (rohs = european di rective on the rest riction of the use of certain hazardous substances) pl ease visit the quality page on our website: http://www.melexis.com/quality_leadfree.aspx 9 esd precautions electronic semiconductor products are sensit ive to electro static discharge (esd). always observe electro static discharge control procedures whenev er handling semiconductor products.
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 31 of 32 evb description rev. 001 sept/06 your notes
p r e l i m i n a r y EVB71122 300 to 930mhz receiver evaluation board description 39012 71122 01 page 32 of 32 evb description rev. 001 sept/06 10 disclaimer devices sold by melexis are covered by the warrant y and patent indemnification provisions appearing in its term of sale. melexis makes no warranty, express, stat utory, implied, or by description regarding the infor- mation set forth herein or regarding the freedom of t he described devices from patent infringement. melexis reserves the right to change specifications and prices at any time and without notice. therefore, prior to de- signing this product into a system, it is necessary to c heck with melexis for current information. this product is intended for use in normal commercial applications . applications requiring extended temperature range, unusual environmental requirements, or high reliability app lications, such as militar y, medical life-support or life-sustaining equipment are specif ically not recommended without additi onal processing by melexis for each application. the information furnished by melexis is believed to be correct and accurate. however, melexis shall not be liable to recipient or any third party for any damages , including but not limited to personal injury, property damage, loss of profits, loss of use, interrupt of business or indire ct, special incidental or consequential dam- ages, of any kind, in connection with or arising out of the furnishing, perfo rmance or use of the technical data herein. no obligation or liability to recipient or any thir d party shall arise or flow out of melexis? rendering of technical or other services. ? 2006 melexis nv. all rights reserved. for the latest version of this document, go to our website at: www.melexis.com or for additional information contact melexis direct: europe and japan: all other locations: phone: +32 1367 0495 phone: +1 603 223 2362 e-mail: sales_europe@melexis.com e-mail: sales_usa@melexis.com iso/ts 16949 and iso14001 certified

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