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| ds231000-u001d - 1 - an231e04 datasheet rev 1.0 3 rd generation dynamically reconfigurable dpasp this device is rohs compliant www.anadigm.com
ds231000-u001d - 2 - disclaimer anadigm reserves the right to make any changes without further notice to any products herein. anadigm makes no warranty, representation or guarantee r egarding the suitability of its products for any particular purpose, nor does anadigm assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including with out limitation consequent ial or incidental damages. "typical" parameters can and do vary in different applications. all oper ating parameters, including "typicals" must be validated for each customer application by customer's technical experts. anadigm does not in this document convey any license under its patent rights nor the rights of others. anadigm software and associated products can not be used except strictly in accordance with an anadigm software license. the terms of the appropria te anadigm software license shall prevail over the above terms to the extent of any inconsistency. ? anadigm ? , inc. 2007 all rights reserved. an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 3 - product and architecture overview the an231e04 device is an ?analog signal processor?; ideally suited to signal conditioni ng, filtering, gain, re ctification, summing, subtracting, multiplying, etc. the device also accommodates nonlinear functions such as sensor response linearization and arbitrary waveform synthesis. the an231e04 device consists of a 2x2 matrix of fully configurable analog blocks (cabs), surrounded by programmable interconnect resources and analog input/output cells with active elements. on chip clock generator block controls multiple non-overlapping clock domains generated from an external stable clock source. internal band-gap reference generator is used to create temperature compensated reference voltage levels. the inclusion of an 8x256 bit look-up table enables waveform synthesis and several non-linear functions. configuration data is stored in an on-chip sram configuration memory. an spi like interface is provided for simple serial load of configuration data from a microproc essor or dsp. this memory is shadowed allowing a different circuit configuration to be loaded as a background task without disrupting the current circuit functionality. the an231e04 device features seven configurable input/output structures each can be used as input or output, 4 of the 7 have integrated differential amplifiers. there is also a single chopper stabilized amplifier that can be used by 3 of the 7 output cells. circuit design is enabled using anadigmdesigner2 software, a high level block diagram based circuitry entry tool. circuit functions are represented as cams (configurable analog modules) these are configurable block which map onto portions of cabs. the software and a development board facilite instant prototyping of any circui t captured in the tool. figure 1: architectural overview of the an231e04 device with dynamic reconfigurabilit y, the functionality of the an231e04 can be reconfigured in-system by the designer or on-the-fly by a microprocessor. a single an231e04 can thus be programmed to implement multiple analog functions and/or to adapt on-the-fly to your circuit requirements. product features ? dynamic reconfiguration ? seven configurable i/o cells, two dedicated output cells ? fully differential architecture ? i/o buffering with single ended to differential conversion ? low input offset through chopper stabilized amplifiers ? 256 byte look-up table (lut) for linearization and arbitrary signal generation ? typical signal bandwidth: dc-2mhz (bandwidth is cam dependent) ? signal to noise ratio: o broadband 90db o narrowband (audio) 120db ? total harmonic distortion (thd): 100db ? user controlled compensated low dc offset <250v ? dc offset via chopper stabilized architecture <50uv ? package: 44-pin qfn (7x7x0.9mm) o lead pitch 0.5mm ? supply voltage: 3.3v applications ? analog signal processing ? rfid if (baseband filtering) ? real-time software control of analog system peripherals ? intelligent sensors ? adaptive filtering and control ? adaptive dsp front-end ? adaptive industrial control and automation ? self-calibrating systems ? compensation for aging of system components ? dynamic recalibration of remote systems ? ultra-low frequency signal conditioning ? custom analog signal processing ordering codes an231e04-e2-qfnty dpasp tray (260 /tray, 2600/box) an231e04-e2-qfntr dpasp tape & reel (1000 /reel, 4000/box) an231e04-e2-qfnsp dpasp sample pack AN231K04-DVLP3 an231e04 development kit [ for more detailed information on the features of the an231e 04 device, please refer to the an131e04/an231e04 user manual ] an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 4 - 1 electrical characteristics 1.1 absolute maximum ratings parameter symbol min typ max unit comment dc power supplies a avdd bvdd dvdd -0.5 - 3.6 v v avss, bvss and dvss all held to 0.0 v xvdd to yvdd offset -0.5 0.5 v ideally all supplies should be at the same voltage package power dissipation, pmax 25c pmax 85c - - 4.5 1.8 w (theoretical values based on tj=125deg.c) still air, no heatsink, 44 pads and exposed die pad soldered to pcb ja = 22.5c/w. vdd = 3.3v an231e04 max power dissipation dpaspmax - - 0.25 w maximum power dissipation all resources used, (see section 1.5.13 for more detail). input voltage vinmax vs s-0.5 - vdd+0.5 v ambient operating temperature top -40 - 85 c storage temperature tstg -40 125 c a absolute maximum dc power supply rating - the failure mode is non-catastrophic for vdd of up to 5 volts, but will cause reduced operating life time. the additional stre ss caused by higher local electric fields within the cmos circuitry may induce metal migration, oxide leakage and ot her time/quality related issues. 1.2 recommended operating conditions parameter symbol min typ max unit comment dc power supplies avdd bvdd dvdd 3.0 3.3 3.6 v avss, bvss and dvss all held to 0 v analog input voltage. vina vmr -1.375 - vmr +1.375 v conditional on the circuit which is being driven. this limit is defined as maximum signal amplitude through input sample and hold cell which results in >-80db thd+n using a 1khz test signal. vmr is 1.5 volts above avss digital input voltage vind 0 - dvdd v junction temp b tj -40 - 125 c assume a package ja=22.5c/w b to calculate the junction temperature (tj) you must first empi rically determine the current draw (total idd) for the design. t he programmable nature of this device means this can vary by or ders of magnitude between different circuit designs. once the curre nt consumption is established then the following formula can be used ; tj = ta + idd x vdd x 22.5 c/w, where ta is the ambient temperature. worst case ja = 22.5 c/w assumes no air flow and no additional heatsink, 44 pads and the exposed die pad soldered to pcb. 1.3 general digital i/o characteristics (vdd = 3.3v +/- 10%, -40 to 85 deg.c) parameter symbol min typ max unit comment input voltage low vih 0 - 30 - % of dvdd input voltage high vil 70 - 100 - % of dvdd output voltage low vol 0 - 20 - % of dvdd output voltage high voh 80 - 100 - % of dvdd input leakage current iil - - +/-1 a some pins have active pull up/down, please see below. max. capacitive load cmax - - 10 pf min. resistive load rmin 50 - - kohm each pins has a specific load driving capability, detailed in sections 1.4 and 1.5 aclk frequency fmax - 16 40 mhz divide down to <4 mhz prior to use as a cab clock clock duty cycle clkduty 45 - 55 % all clocks an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 5 - 1.4 digital i/o characteristics (vdd = 3. 3v +/-10%, -40 to 85 deg.c unless commented) 1.4.1 pins aclk, sclk, resetb, cs1b, cs 2b, si, mode (standard cmos inputs) parameter symbol min typ max unit comment input voltage low vil 0 - 30 % % of dvdd input voltage high vih 70 - 100 % % of dvdd 1.4.2 pin so, (standard cmos output) parameter symbol min typ max unit comment output voltage low vol vss - vss mv load 10pf//50kohm to vss output voltage high voh 3.28 - vdd v load 10pf//50kohm to vss vdd = 3.3 v. max. capacitive load cmax - - 100 pf maximum load 100 pf // 5 kohm at up to 5mhz. min. resistive load rmin 5 - - kohm maximum load 100 pf // 5 kohm at up to 5mhz. current sink isnkmax 60 100 135 ma pin shorted to vdd current should be limited externally so that it does not exceed 3ma current source isrcmax 50 80 110 ma pin shorted to vss. current should be limited externally so that it does not exceed 3ma 1.4.3 digital functions of mixed signal pins io1, io2, io3, io4, io5, io6, io7, these pins can be configured by the user to be standard cmos input or outputs. i/o cells 5, 6 and 7 the pin pairs can be connected to and used individually. i/o cells 1 through 4 provide pin pairs for diffe rential (complimentary) digital connections . parameter symbol min typ max unit comment input voltage low vil 0 30 % % of dvdd input voltage high vih 70 100 % % of dvdd output voltage low vol vss - vss mv pin load = 20pf//10k to vss output voltage high voh 3.25 - vdd v pin load = 20pf//10k to vss vdd = 3.3 v. max. capacitive load cmax - - 50 pf maximum load 20 pf // 10 kohm at up to 4mhz signal min. resistive load rmin 50 - - kohm maximum load 20 pf // 10 kohm at up to 4mhz signal current sink isnkmax 15 30 40 ma pin shorted to vdd. current should be limited externally so that it does not exceed 3ma current source isrcmax 15 25 35 ma pin shorted to vss. current should be limited externally so that it does not exceed 3ma. an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 6 - 1.4 digital i/o characteristics continued (vdd = 3.3v +/-10%, -40 to 85 deg.c unless commented) 1.4.4 pins errb (open drain, cmos transistor) parameter symbol min typ max unit comment input voltage low vil 0 30 % % of dvdd, input voltage high vih 70 100 % % of dvdd output voltage low vol vss - 7.0 mv 10kohm to vdd vdd = 3.3 v. output voltage high voh 3.29 - vdd v 10kohm to vdd vdd = 3.3 v. max. capacitive load cmax - - 10 pf maximum load 10 pf // 50 kohm at full bw min. resistive load rmin 50 - - kohm maximum load 10 pf // 50 kohm at full bw current sink isnkmax 50 - 110 ma pin shorted to vdd. current should be limited externally so that it does not exceed 3ma current source isrcmax - - +/-1 a pin shorted to vss external resistive pullup rpullupext 10 10 10 kohm must be used 1.4.5 pins activate, cfgflgb these pins are open drain cmos transistors, with opt ional user configurable internal pull-up resistor we also note that the output voltage on these pins is ?sensed? by inter nal circuitry, (see figure 2 below) parameter symbol min typ max unit comment input voltage low vil 0 30 % % of dvdd input voltage high vih 70 100 % % of dvdd output voltage low vol 80 - 140 mv pin load = internal pullup + external 10pf//50k to vss vdd = 3.3 v. output voltage high, internal pull-up. voh 3.05 - 3.16 v pin load = internal pullup + external 10pf//50k to vss vdd = 3.3 v. output voltage low, external pull-up. vole 529 - 773 mv pin load = 5k to vss vdd = 3.3 v. output voltage high voh vdd - vdd v pin load = 5k + 10pf to vss max. capacitive load cmax - - 10 pf maximum load 10 pf // 50 kohm at full bw min. resistive load rmin 50 - - kohm maximum load 10 pf // 50 kohm at full bw current sink, pull down only isnkmax 1. 8 - 3.7 ma pin shorted to vdd. current source, pull up only isrcmax 0.34 - 1.1 ma pin shorted to vss. internal resistive pullup rp ullupint 3.5 5.3 8.4 kohm default, not used with external pullup. external resistive pullup rpullupext 5 7.5 10 kohm optional - to be used only if internal pullup is deselected an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 7 - 1.4 digital i/o characteristics continued (vdd = 3.3v +/-10%, -40 to 85 deg.c unless commented) 1.4.6 pin lccb/dout1 (cmos output) the primary function of this pin is as lccb (local configuration complete), this signal is used in multiple dpasp designs to pass chips select from dpasp to dpasp enabling primary configur ation of a serial chain of dpasp?s from a single spi bus, please refer to the an231e04 user guide for details. if the lccb signal pin is not required (e .g. a circuit design with a single dpasp devi ce) then via dpasp configuration this pin can be used as a digital output, this is realized by adj usting the properties of the dpasp ?digital i/o cell?. parameter symbol min typ max unit comment output voltage low, (lccb) vol(lccb) vss - vss mv load 10pf//50kohm to vss, during configuration. output voltage high, (lccb) voh(lccb) 3.00 - 3.20 v load 10pf//50kohm to vss, during configuration. vdd = 3.3 v output voltage low, (dout1) vol(dout1) vss - vss mv load 10pf//50kohm to vss, when configured to pin39=dout1 output voltage high, (dout1 ) voh(dout1) 3.29 - vdd v load 10pf//50kohm to vss, when configured to pin39=dout1 vdd = 3.3 v. max. capacitive load cmax - - 10 pf maximum load 10 pf // 50 kohm min. resistive load rmin 50 - - kohm maximum load 10 pf // 50 kohm current sink, (lccb) isnk(lccb) 3.0 - 7.0 ma lccb (pin 39) shorted to vdd, during configuration. current should be limited externally so that it does not exceed 3ma. current source, (lccb) isrc(lccb) 0.25 - 0.80 ma lccb (pin 39) shorted to vss, during configuration. current sink, (dout1) isnk(dout1) 20.0 - 60.0 ma dout1 (pin 39) shorted to vdd,. current should be limited externally so that it does not exceed 3ma. current source, (dout1) isrc(dout1) 12.5 - 35.0 ma dout1 (pin 39) shorted to vss, current should be limited externally so that it does not exceed 3ma. clock skew (dout1 connected to ?clocka?) clk skew - 8.0 - ns skew at dout1 (pin 39) relative to external signal clock applied to input pin aclk (pin 34). note; this is only valid when dout1 is selected to output the cam clocka, and cam clocka is derived from aclk divided by1. comparator skew (dout1 connected to ?comparator?) comp skew - 25.0 - ns this is the delay of the comparator cam output transition relative to the exported comparator clock clock appears on the output pin. note, the comparator is clocked with a user programmable cam clock derived from a division of aclk ram transfer delay (dout1 connected to ?ram transfer pulse?) ram delay - 20.0 - ns this is the delay of the signal at the dpasp pin 39, (dout1) relative to the actual internal transfer event. auto-null/osc start delay (dout1 connected to ?auto- null/osc start done? signal) 1 done delay - 40 - ms this is the delay of the signal at the dpasp pin 39, (dout1) relative to the actual internal event. 1 see application note an231002 ?aut o-nulling within the an231e04? an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 8 - 1.4 digital i/o characteristics, continued (vdd = 3.3v +/-10%, -40 to 85 deg.c unless commented) 1.4.7 memclk/dout2 (cmos output) the primary function of this pin is as me mclk (memory clock), this signal is used as a clock output in circuit designs which require configuration from an spi prom (or spi eeprom), please refer to the an231e04 user guide for details. if the memclk signal pin is not required (e .g. a circuit configured from a microcont roller) then via dpasp configuration this p in can be used as a digital output. the memclk signal is only active when the dpasp mode (pin35) is high (tied to vdd). dout2 function cannot be used if dpasp mo de (pin35) is high (tied to vdd). parameter symbol min typ max unit comment output voltage low, (mode pin 35 = vss, dout2 inactive) vol vss - vss mv load 10pf//50kohm to vss. this pin memclk is unused in this mode=vss, there is an internal weak pull down resistor output voltage low, (mode pin 35 = vss, dout2 active) vol vss - vss mv load 100pf//5kohm to vss output voltage low, (mode pin 35 = vdd) vol vss - vss mv load 100pf//5kohm to vss output voltage high voh 3.28 - vdd v load 100pf//5kohm to vss, vdd = 3.3v. max. capacitive load cmax - - 100 pf maximum load 100 pf // 5 kohm min. resistive load rmin 5 - - kohm maximum load 100 pf // 5 kohm current sink, (mode pin 35 = vss & dout2 inactive) isnk 0.01 0.03 0.05 ma pin shorted to vdd. th this pin memclk is unused when mode=vss and dout2 is inactive. thus no active drive. current source, (mode pin 35 = vss & dout2 inactive) isrc - - +/-1 ua pin shorted to vss. this pin memclk is unused when mode=vss and dout2 is inactive. thus no active drive. current sink, (mode pin 35 = vdd or dout2 active) isnk 60 100 135 ma pin shorted to vdd. current should be limited externally so that it does not exceed 3ma current source, (mode pin 35 = vdd or dout2 active) isrc 50 80 110 ma pin shorted to vss. current should be limited externally so that it does not exceed 3ma clock skew (dout2 connected to ?clocka?) clk skew - 8.0 - ns skew at dout2 (pin 42) relative to external signal clock applied to input pin aclk (pin 34). note; this is only valid when dout2 is selected to output the cam clocka, and cam clocka is derived from aclk divided by1. comparator skew (dout2 connected to ?comparitor?) comp skew - 25.0 - ns this is the delay of the comparator cam output transition relative to the exported comparator clock clock appears on the output pin. note, the comparator is clocked with a user programmable cam clock derived from a division of aclk ram transfer delay (dout2 connected to ?ram transfer pulse?) ram delay - 20.0 - ns this is the delay of the signal at the dpasp pin 42, (dout2) relative to the actual internal transfer event. auto-null/osc start delay (dout2 connected to ?auto- null/osc start done? signal) 2 done delay - 40 - ms this is the delay of the signal at the dpasp pin 42, (dout2) relative to the actual internal event. 2 see application note an231002 ?aut o-nulling within the an231e04? an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 9 - 1.4.8 ram transfer ? trigger and arm these digital inputs do not have dedicated pins, a connection exis ts within the dpasp, an external signal can be routed to either of these virtual pins from a type2 i/o cell (i/o cells 5, 6 and 7. pins 15,16,17,18,19 or 20). the purpose of these virtual pins is to extend optional asynch ronous timing control of the dp asp configuration to the user. parameter symbol min typ max unit comment input voltage low vil 0 30 % % of dvdd input voltage high vih 70 100 % % of dvdd minimum pulse width connected to where t pw setup time 5 - - ns time to register the event internally. pulse-pulse edge delay t pt-t setup time 10 - - ns delay between pre-trigger and trigger. need not be observed if pre-trigger is not used, is set at the end of configuration automatically. execute delay t exdly 0 10 20 ns delay from trigger rising edge to internal execute event. execute minimum width t minew 1 alck - 2 aclk - duration of execute pulse guaranteed 1 aclk period. can be as long as 2 periods depending on relative phases. pre-trigger reset. t ptr 10 - - ns pre-trigger circuit is reset ready to accept another pre-trigger. pre-trigger trigger aclk t pw t pw t pt-t t minew t exdly internal ram execute t ptr edge (n) edge (n+1) anadigmdesigner2 options, (these are set us ing the software tool anadigmdesigner2) ram transfer trigger = automatic : ram transfer happens automatically immediately after the ?end? byte of a configuration bit stream. timing control is entirely i nside the an231e04 device and not visible to a user. ram transfer trigger = event driven . ram trigger = off . no pre-trigger used. the ?end? byte of configuration bit stream arms the ra m transfer and the user signal then acts as the trigger. arm trigger = on external signal allowed = trigger . this setting allows the external signal connected to be the trigger, arming must be from an internal signal. external signal allowed = arm . this setting allows the external si gnal connected to be the arming signal, trigger be from an internal signal. ram transfer trigger = clock synch ram transfer happens automatically immediately following the firs t occurrence of all internal clocks being scyncronous. timing control is entirely inside the an231e04 device and not visible to a user. hint: the ram transfer timings above are for the trigger block hardware - the trigger and arm signals can come from many sources, propagation delays to the trigger block inputs will vary depending on the source and routing of the signals to this bl ock. an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 10 - 1.5 analog i/o characteristics (vdd = 3.3v +/-10%, -40 to 85 deg.c unless commented) 1.5.1 analog inputs general parameter symbol min typ max unit comment input range vina vmr - 1.375 - vmr + 1.375 v vmr set to 1.5v differential input vdiffina 0 - +/-2.75 v vmr = 1.5 v. common mode input range vcm 1.4 1.5 1.6 v limited by signal clipping for large waveforms. please see figures input offset vosioint - 3.0 18 mv io cell, unity gain mode intrinsic vosioaz - 0.5 1.0 mv io cell, unity gain mode, auto-null on. voscabi - 3 18 mv cab, unity gain mode. voscabaz - 250 1000 uv cab, unity gain mode, auto-null on. voscabzc - 75 250 uv cab, unity gain mode, auto-null and chopping on. input frequency fain 0 <2 8 mhz max value is clock, cam and input stage dependent. input frequency for most cams is limited to approx <2mhz due to cam signal processing which is based on sampled data architectures. 1.5.2 io differential operational amplifier parameter symbol min typ max unit comment output voltage range vinouta vmr - 1.375 - vmr+ 1.375 v vmr = 1.5v. measured for io snh circuit. differential input/output vdiffioa - - +/- 2.75 v common mode voltage = 1.5 v. measured for io snh circuit. common mode input voltage range (note1) vcm vmr vmr vmr v limited due to causing signal clipping for large waveforms. vmr can be varied if supplied externally (+200mv to -1.0volt) common mode output voltage deviation from vmr vcm - 23.5 72.7 mv due to common mode offsets. equivalent input voltage offset. voffseti - 3.0 18.0 mv intrinsic offset voltage. equivalent input voltage offset. voffsetaz - 500 1000 uv auto-null offset voltage, rectangular distribution. auto-null time, from lccb falling edge. t az - 60 - ms see application note an231002 ?auto-nulling within the an231e04? offset voltage temperature coefficient voffsettaz tc - 4 - v/c auto-null mode, from -40c to 125c. power supply rejection ratio pssr 60 - - db sample and hold mode, 1mhz clk, at dc common mode rejection ratio cmrr 60 - - db sample and hold mode, 1mhz clk, at dc differential slew rate slew - 50 - v/sec opamp driving off chip with max load. effective internal slew is affected by the internal routing and load is normally much faster unity gain bandwidth. ugb - 63 - mhz 10pf external load open loop gain av - 103 - db input impedance rin 10 - - mohm voltage gain mode output impedance rout - 33 - ohms measured at package pins. track impedance increases the an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 11 - effective output impedance. the opamp is designed to drive all internal nodes, output load, external rload 1 - - kohm output load, external cload - - 100 pf noise figure nf - 0.16 - v/ hz unity gain mode. signal-to noise ratio and distortion sinad - 97 - db unity gain mode. spurious free dynamic range sf dr - 96 - db unity gain mode. 1.5.3 io cell, sample and hold mode parameter symbol min typ max unit comment input range vina vdiffina see analog input above vosi - 3 18 mv non auto-null differential opamp offset 3 equivalent input offset voltage vosaz - 500 1000 uv auto-null differential opamp offset 3 offset voltage temperature coefficient voffsettcaz - 4 - v/c with auto-null active. from -40c to 125c input frequency fain 0 - 2 mhz generally limited by aliasing to half sample and hold clock. power supply rejection ratio psrr 60 - - db d.c. common mode rejection ratio cmrr 60 - - db input resistance rin 10 - mohm r=1/cf equivalent input capacitance cin - 8. 0 pf switched capacitances input referred noise figure nf - 0.16 - v/ hz 0dbu input, 1khz, noise summed from 20hz to 22khz signal-to noise ratio and distortion sinad - 84 - db 0dbu input, 1khz, noise summed from 20hz to 22khz spurious free dynamic range sfdr - 90 - db 0dbu input, 1khz 1.5.4 chopper amplifier cell parameter symbol min typ max unit comment input range vina vdiffina see analog input above - usable input range will be reduced by the effective gain setting 4 gain ginamp 0db - 60db - software selected gain accuracy ga 0db - - 5 % 0db setting, 1khz test signal. ga10db - 5 % 10db setting, 1khz test signal. ga20db - 5 % 20db setting, 1khz test signal. ga30db - 5 % 30db setting, 1khz test signal. ga40db - 5 % 40db setting, 1khz test signal. equivalent input offset vo ltage vosi - 0.5 14 mv intrinsic differential opamp offset equivalent input offset vo ltage vosaz1 - 250 500 uv differential opamp offset, auto- nulled, not chopped. equivalent input offset vo ltage vosaz2 - 25 100 uv differential opamp offset, auto- nulled and chopped. offset voltage temperature coefficient voffsettcaz - 15 tbd v/c with auto-null and chopping active. from -40c to 125c input frequency fain 0 - - khz generally 10x slower than clock, application dependent. 3 the sample and hold offset varies from phase1 to phase2. this is an average of both values 4 to avoid clipping the maximum input range should be divided by the chopper gain an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 12 - power supply rejection ratio psrr - 62 - db dc. amp gain = 0db common mode rejection ratio cmrr - 81 - db 250khz clock, 1khz 0dbu output. see figure 1 large signal harmonic distortion dist - -77 - db unity-gain. 0dbu input at 1khz input resistance rin 10 - mohm input capacitance cin - 5.0 pf input referred noise floor irn - 20 - nv/ hz 20db-gain, 250khz clock. iidle channel. input referred noise floor irn - 4 - nv/ hz 60db-gain, 250khz clock. iidle channel. signal-to noise and distortion ratio sinad - 76 - db 20db-gain, 250khz clock. 0dbu output at 1khz. noise and distortion summed from 22hz to 22khz spurious free dynamic range sfdr - 90 - db 20db-gain, 250khz clock. 0dbu output at 1khz, see figure 2 figure 1: chopperamplifier cmrr figure 2: chopperamplifier sfdr 1.5.5 analog outputs, loading & signal conditioning (the io cells use the same ci rcuits as the input cells) parameter symbol min typ max unit comment min load r rloadmin 1 - - kohm to vss r outio - 33 - ohms for io opamp to package pins. rout r outcab - 530 - ohms for cab opamp to package pins, (depends on cab and io used) core to outside in bypass i/o. max load c cload max - - 100 pf to vss. large signal swing sig large vmr- 1.375 - vmr+ 1.375 v differential voltage where -80db thd is reached for io cell in snh mode. 10pf load. common mode voltage vcm - vmr - v derived from on chip vmr voltage. common mode voltage deviation vcmdv - - - mv deviation from supplied vmr. values are quoted for io cell or cab opamp. see other tables. an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 13 - 1.5.6 clock dividers parameter symbol min typ max unit comment division ratio primary divider div ratiopr 1 - 510 - software controlled. division ratio secondary divider div ratiosec 1 - 510 - software controlled. division ratio auto zero clock div az 1000 162k 510k - typical is default value. min clock speed clk min - 1khz @ 25c) 10khz @ 85c - khz each cam has a different lower clock frequency depending on the parameters set. excessively low clock frequency will cause signal droop. max clock speed clk max - - 8 mhz each cam has a different upper clock frequency depending on the parameters set. excessively high clock frequency will cause poor settling and loss of precision. phase delay phase d 0 - 255 cycles measured in terms of cycles of clock from a primary clock divider. 1.5.7 porb & auto-null parameter symbol min typ max unit comment intrinsic porb duration porb del 0.5 1 2 ms after release of porb pin. porb brown out voltage porb brown 0.8 1.1 1.5 v porb will reset device if vdd drops below this level to prevent ram corruption. auto-null period 5 az del - 60 - ms duration for az cycle of opamps 1.5.8 vmr (voltage mid rail) and vref (reference voltage) ratings parameter symbol min typ max unit comment vmr output voltage vvmr 1491 1500 1509 mv at 25c, vdd=3.3 volts, see figure 3 vref+ output voltage vref+ 2469 2492 2515 mv at 25c, vdd=3.3 volts, see figure 4 vref- output voltage vref- 481 501 520 mv at 25c, vdd=3.3 volts, see figure 4 output voltage deviation vm r vrefout - 0.5 1.0 % over process and supply voltage corners output voltage deviation vref+, vref- vrefout - 1.0 2.0 % over process and supply voltage corners voltage temperature coefficient vref+, vmr, vref- vreftc - - - - see typical graphical data below -40c to 125c power supply rejection ratio, vmr pssr tbd - - db dc power supply rejection ratio vref+ and vref- pssr tbd - - db dc start up time tstart - - 1 ms assuming recommended capacitors, 25c, vdd=3.3 volts 5 see application note an231002 ?auto- nulling within the an231e04? an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 14 - vmr vs temperature y = -7e-07x 2 + 9e-05x + 1.4946 r 2 = 0.9992 1.489 1.49 1.491 1.492 1.493 1.494 1.495 1.496 1.497 1.498 -50 0 50 100 150 t [c] vmr [v] figure 3: gainhold cmrr differential vref (vref+ - vref-) vs temperature y = -9e-07x 2 + 9e-05x + 1.9831 r 2 = 0.9984 1.977 1.978 1.979 1.98 1.981 1.982 1.983 1.984 1.985 1.986 -50 0 50 100 150 t [c] d_vref [v] figure 4: gainhold cmrr an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 15 - 1.5.9 cab (configurable analog block) differential oper ational amplifier parameter symbol min typ max unit comment output range vinouta 0.05 - 2.95 v gaininv 1khz thd > -80db. common mode voltage = 1.5 v differential output voltage vdiffioa - - +/-2.9 v limited by signal clipping. gaininv thd exceeds -80db common mode voltage = 1.5 v common mode input voltage range 6 vcm 1.4 1.5 1.6 v vmr set to 1.5v 6 common mode voltage deviation vcmd 0 - +/-50 mv deviation is caused by opamp common mode offset voltages. equivalent input voltage offset. voffse ti - 3 18 mv intrinsic offset voltage. equivalent input voltage offset. vosaz - 250 1000 uv auto-null offset voltage. equivalent input voltage offse t. vosazchpi - 75 250 uv auto-null & chopped offset offset voltage temperature coefficient vosaz - see graph 19 v/c auto-null mode, from -40c to 125c. offset voltage temperature coefficient vosazchp - - < 0.1 v/c auto-null and chopped mode, from -40c to 125c. power supply rejection ratio pssr - 60 - db dc. variation between cams is expected because of variations in architecture. common mode rejection ratio cmrr - 54 - db gaininv cam, clock = 1mhz, gain = 1. -20dbu input at 1khz see figure 6 differential slew rate, internal slewi - 35 - v/sec applicable when the opamp load is internal to the dpasp differential slew rate, external slewe - 30 - v/sec applicable when the opamp driving signal out of the dpasp package. routing resistance causes degradation from slew unity gain bandwidth, full power mode. ugb - 18 - mhz applicable when sourcing and loading the opamp with a load internal to the dpasp. cams limit signal frequency to a lower value. see figure 5 input impedance, internal rin 10 - - mohm output impedance, internal rout - - - ohms the opamp output is designed to drive all internal nodes, these are dominantly capacitive loads output impedance, external rout - 600 - ohms output to a dpasp output pin (output cell bypass mode). this variable is influenced by cab capacitor size, cab clock frequency and cab architecture output load, external 7 rload 1 - - kohm output load, external cload - - 100 pf input referred noise floor 8 irn - 300 - nv/ hz unity-gain gainhold cam, 1mhz clocking. idle channel. signal-to noise and distortion ratio 8 sinad - 86 - db unity-gain gainhold cam, 1mhz clocking. 0dbu input at 1khz, noise and distortion summed from 22hz to 22khz spurious free dynamic range 8 sfdr - 100 - db unity-gain gainhold cam and snh output cell. 1mhz clocking. 0dbu input at 1khz. see figure 7 6 the is for the opamp. the use of virtual earth ar chitectures means the cams can exceed these values 7 the maximum load for an analog output is 100 pf || 1 k ohms. th is load is with respect to avss. using the dpasp with cab opamps driving directly off chip is not recommended. full char acterization of the performance of each application circuit by th e designer is necessary 8 using an i/o cell sample & hold is used to prevent the variable routing resistance a ffecting the harmonic response an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 16 - the idealized open loop gain plot is provided for information only. this information is associated with the dpasp in full power mode of operation. the dpasp operational amplifier open loop gain cannot be observed nor used when associated with external connections to the device. internal reprogrammable routing impedances and switched capacitor circuit architectures using this operational amplifier limit the effective usable bandwidth. figure 5: cab opamp open loop gain response figure 6: gainhold cmrr figure 7:gainhold sfdr an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 17 - 1.5.10 cab (configurable analog block) differential comparator parameter symbol min typ max unit comment input range, external or internal vi na 0.0 - vdd v will operate correctly. differential input, internal vdiffina - - - v set by internal signal clipping based on common mode voltage. voutdiffl 0.163 - 3.138 v 3.3vdd. in digital output mode, 10kohms connected between output pins. varies with internal routing. pad buffers are recommended in this mode. differential output bypass (bypass with core comparator is not a recommended operating mode) voutdiffa 0.592 2.396 in analogue vref level output mode. 10kohms connected between output pins. will vary with internal routing. input voltage offset voffcomp - 0.78 1.22 mv zero hysteresis offset voltage temperature coefficient voffsettc - 1 - v/c from -40c to 125c, zero hysteresis setup time, internal tsetint - - 125 nsec setup time, external tsetext - - 500 nsec delay time tdelay ?td+25 - 1?td+25 nsec td = 1/fc fc = master clock frequency output load rload 10 - - kohm applies if comparator drive off chip with output cell in bypass mode output load cload - - 50 pf applies if comparator drive off chip with output cell in bypass mode differential hysteresis hysta0 - vo ffcomp - mv hysteresis setting off differential hysteresis hysta1 - 10 - mv hysteresis setting on hysteresis temperature coefficient hysttc1 - 10 - v/c hysteresis setting = on an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 18 - 1.5.11 esd characteristics pin type human body model machine model charged device model digital inputs 4000v 250v 4kv digital outputs 4000v 250v 4kv digital bidirectional 4000v 250v 4kv digital open drain 4000v 250v 4kv analog inputs 2000v 200v 4kv analog outputs 1500v 100v 4kv reference voltages 1500v 100v 4kv the an231e04 is an esd (electrostatic discharge) sensitive device. electrostatic charges as high as 4000v readily accumulate on the human body and test equipment and can discharge without detection. although the an231e04 device features proprietary esd protection circuitry, permanent damage may occur on devices subjected to high-energy electrostatic discharges. therefore, proper esd precautions are recommended to avoid performance degradation or loss of functionality. 1.5.12 power consumption ? various modes parameter symbol min typ max unit comment deep sleep mode 1a idd - 0.004 - ma vdd=3.3 volts, tj=25c stand standyby mode 1b idd - 0.3 - ma vdd=3.3 volts, tj=25c small circuit mode 1c idd - 15 - ma vdd=3.3 volts, tj=25c nominal circuit mode 1d idd - 42 - ma vdd=3.3 volts, tj=25c highpower 1e idd - 61 67 73 - 75 - ma vdd=3.0 volts, tj=85c vdd=3.3 volts, tj=25c vdd=3.6 volts, tj= -40c temperature coefficient for high power. - - -2 -10 a/c 1a. external clock stopped, all analog function disabled, memory active. 1b external clock at 16mhz on aclk, all an alog functions disabled, memory active. 1c. dpasp active elements ? gain hold cam, one io in snh and both clocked at 1mhz, one io bypass, all references on. 1d dpasp active elements - four gain hold cams (4 cab opam ps), one cab comparator, one cab multiplier (1 cab opamp, 1 cab comparator, 1 cab sar adc), two io in snh, one io in bypa ss, one simple io in digital mode. 4 mhz clock for all, all references on. 1e dpasp active elements - seven gain hold cams (seven c ab opamps), 1 arbitrary waveform generator (one cab opamp, lut, counter) 4 cab comparators, 4 io sample and hold, references on, 4 mhz clock for all where possible, all references on. an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 19 - pinout pin no. pin name pin type comments 1 i1p +ve input 2 i1n -ve input 3 o1n -ve output 4 o1p +ve output type1 input/output cell. (io cell 1) analog or digital input and output pins 5 avss ground supply analog ground, 0 volts 6 o2p +ve input 7 o2n -ve input 8 i2n -ve output 9 i2p +ve output type1 input/output cell. (io cell 2) analog or digital input and output pins 10 avdd positive supply analog power 3.3 volts 11 i3p +ve input 12 i3n -ve input 13 o3n -ve output 14 o3p +ve output type1a input/output cell. (io cell 3) analog or digital input and output pins 15 io5p +ve input/output 16 io5n -ve input/output type 2 input/output cell. (io cell 5) 17 io6p +ve input/output 18 io6n -ve input/output type 2 input/output cell. (io cell 6) 19 io7p +ve input/output 20 io7n -ve input/output type 2a input/output cell. (io cell 7) 21 o4p +ve input 22 o4n -ve input 23 i4n -ve output 24 i4p +ve output type1a input/output cell. (io cell 3) analog or digital input and output pins 25 bvdd positive supply voltage reference power 3.3 volts 26 vrefp reference load 27 vmr reference load 28 vrefn reference load reference voltage noise suppression. con nected a 100nf capacitor from each pin to bvss. the capacitive reservoir is used to sink and source peak current, thus reducing noise and maintaining stable reference voltages. 29 bvss ground supply voltage reference ground 0 volts 30 cfgflgb digital output config st atus pin. open drain output with opt ional internal pull-up resistor. the output voltage is also sensed by internal circuitry, see figure xx for schematic. 31 cs2b digital input chip select pin 32 cs1b digital input device select 33 sclk digital input cmos, c onfiguration logic strobe clock. 34 aclk digital input cmos, analog clock input 35 mode digital input connect to vss (aclk and sclk sourced externally). connect to vdd (aclk sourced externally, memclk & so generated internally). 36 dvdd positive supply digital power 3.3 volts 37 dvss ground supply digital ground 0.0 volts 38 si digital input cmos serial data input. 39 lccb/ dout1 digital output cmos. default function, indicates local configuration complete. optional function (single dpasp designs on ly), pin can be configured as user assignable signal path digital output under software control. 40 errb digital output error indication. open drain, external pull-up resistor must be used (10kohms) see fig xxa 41 activate digital output indicates de vice activation. open drain output with optional internal pull-up resistor. the output voltage is also sensed by internal circuitry, see figure xx for schematic. 42 memclk/ dout2 digital output outputs memclk clock when mode pin = vss. caution - do not load this pin during reset (not to be pulled low externally) 43 so digital output serial out, only used as an out put for spi-prom setup bytes during configuration. 44 resetb digital input connected to vss to reset t he dpasp. if held low the dpasp will remain in reset (2msec delay internal set-up time follows release of resetb (when this pin is pulled high)) an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 20 - mechanical and handling the an231e04 comes in the industry standard 44 lead qfn package. dry pack handling is recommended. the package is qualified to msl3 (jedec standard, j-std-020a, level 3). once the device is removed from dry pack, 30c at 60% humidity for not longer than 168 hours is the maximum recommended exposure prior to solder reflow. if out of dry pack for longer than this recommended period of time, then the recommended bake out procedure prior to solder reflow is 24 hours at 125c. the package is compliant with rohs and is lead-free. lead finish is matt tin (sn-cu). all dimension are in mm symbol min nom max a - - 0.90 a1 0.00 0.01 0.05 a2 - 0.65 0.70 a3 - 0.20 - d - 7.00 - d1 - 6.75 - d2 5.30 5.50 5.70 b 0.20 0.25 0.32 e - 0.50 - f 0.26 0.42 0.60 g 0.2 - - q1 0.0? (ang.deg. ) 12? r 0.09 - - 1 2 3 4 5 6 7 8 9 10 32 33 cs2b cs1b sclk vrefn bvss cfgflgb vrefp vmr i4p bvdd 30 31 28 29 26 27 24 25 11 23 12 13 14 15 16 17 19 20 18 21 22 44 43 42 41 40 39 37 36 38 35 34 i4n mode so errb lccb/dout1 si dvss dvdd resetb aclk i2p avd o2 i2n avss o2 o1 o1 i1n i1p i3p i3n o3 o3p io5p io6p io6n io7p io7n o4p io5n o4n activate an231e04 memclk/dout2 an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 21 - 123 1.23 pin1 marker dia 0,50 d1 d seatin g plane top view d2 pin1 marker 0,20 r d1 d a a2 a1 a3 q1 f f e g g f 0.45 g b bottom view side view f d2 qfn package mechanical drawing an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 22 - this page is empty an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 23 - this page is empty an231e04 datasheet ? dynamically reconfigurable dpasp ds231000-u001d - 24 - this page is empty http://www.anadigm.com for more information contact support@anadigm.com |
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